Updating OPAL source repository... Already on 'OPAL-2021.1' Working directory '/home/opalci/NightlyBuild-ng/workspace/OPAL-2021.1/src' is up to date! Updating regression tests repository... Already on 'master' From https://gitlab.psi.ch/OPAL/regression-tests ec6d258..6d4b09c master -> origin/master Updating ec6d258..6d4b09c Fast-forward .gitignore | 6 + .../AmrRingCyclotron-01/AmrRingCyclotron-01.in | 99 + .../AmrRingCyclotron-01/AmrRingCyclotron-01.local | 3 + .../AmrRingCyclotron-01/AmrRingCyclotron-01.rt | 19 + .../AmrRingCyclotron-01/AmrRingCyclotron.in | 100 - .../AmrRingCyclotron-01/AmrRingCyclotron.local | 3 - .../AmrRingCyclotron-01/AmrRingCyclotron.rt | 19 - .../reference/AmrRingCyclotron-01-bunch-0000.smb | 1258 +++++++++++++ .../AmrRingCyclotron-01-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-01-bunch-0001.smb | 897 +++++++++ .../AmrRingCyclotron-01-bunch-0001.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-01.out} | 416 ++-- .../reference/AmrRingCyclotron-01.out.md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb | 1258 ------------- .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb | 897 --------- .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-02/AmrRingCyclotron-02.in | 99 + .../AmrRingCyclotron-02/AmrRingCyclotron-02.local | 3 + .../AmrRingCyclotron-02/AmrRingCyclotron-02.rt | 19 + .../AmrRingCyclotron-02/AmrRingCyclotron.in | 100 - .../AmrRingCyclotron-02/AmrRingCyclotron.local | 3 - .../AmrRingCyclotron-02/AmrRingCyclotron.rt | 19 - .../reference/AmrRingCyclotron-02-bunch-0000.smb | 1258 +++++++++++++ .../AmrRingCyclotron-02-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-02-bunch-0001.smb | 897 +++++++++ .../AmrRingCyclotron-02-bunch-0001.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-02.out} | 428 +++--- .../reference/AmrRingCyclotron-02.out.md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-03/AmrRingCyclotron-03.in | 99 + .../AmrRingCyclotron-03/AmrRingCyclotron-03.local | 3 + .../AmrRingCyclotron-03/AmrRingCyclotron-03.rt | 37 + .../AmrRingCyclotron-03/AmrRingCyclotron.in | 100 - .../AmrRingCyclotron-03/AmrRingCyclotron.local | 3 - .../AmrRingCyclotron-03/AmrRingCyclotron.rt | 37 - .../reference/AmrRingCyclotron-03-bunch-0000.smb | 1978 ++++++++++++++++++++ .../AmrRingCyclotron-03-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-03-bunch-0001.smb | 1617 ++++++++++++++++ .../AmrRingCyclotron-03-bunch-0001.smb.md5 | 1 + .../reference/AmrRingCyclotron-03-bunch-0002.smb | 1257 +++++++++++++ .../AmrRingCyclotron-03-bunch-0002.smb.md5 | 1 + .../reference/AmrRingCyclotron-03-bunch-0003.smb | 897 +++++++++ .../AmrRingCyclotron-03-bunch-0003.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-03.out} | 426 +++--- .../reference/AmrRingCyclotron-03.out.md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb | 1978 -------------------- .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb | 1617 ---------------- .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0002.smb | 1257 ------------- .../reference/AmrRingCyclotron-bunch-0002.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0003.smb | 897 --------- .../reference/AmrRingCyclotron-bunch-0003.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-04/AmrRingCyclotron-04.in | 99 + .../AmrRingCyclotron-04/AmrRingCyclotron-04.local | 3 + .../AmrRingCyclotron-04/AmrRingCyclotron-04.rt | 37 + .../AmrRingCyclotron-04/AmrRingCyclotron.in | 100 - .../AmrRingCyclotron-04/AmrRingCyclotron.local | 3 - .../AmrRingCyclotron-04/AmrRingCyclotron.rt | 37 - .../reference/AmrRingCyclotron-04-bunch-0000.smb | 1978 ++++++++++++++++++++ .../AmrRingCyclotron-04-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-04-bunch-0001.smb | 1617 ++++++++++++++++ .../AmrRingCyclotron-04-bunch-0001.smb.md5 | 1 + .../reference/AmrRingCyclotron-04-bunch-0002.smb | 1257 +++++++++++++ .../AmrRingCyclotron-04-bunch-0002.smb.md5 | 1 + .../reference/AmrRingCyclotron-04-bunch-0003.smb | 897 +++++++++ .../AmrRingCyclotron-04-bunch-0003.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-04.out} | 444 +++--- .../reference/AmrRingCyclotron-04.out-md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb | 1978 -------------------- .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb | 1617 ---------------- .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0002.smb | 1257 ------------- .../reference/AmrRingCyclotron-bunch-0002.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0003.smb | 897 --------- .../reference/AmrRingCyclotron-bunch-0003.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-05/AmrRingCyclotron-05.in | 100 + .../AmrRingCyclotron-05/AmrRingCyclotron-05.local | 3 + .../AmrRingCyclotron-05/AmrRingCyclotron-05.rt | 19 + .../AmrRingCyclotron-05/AmrRingCyclotron.in | 101 - .../AmrRingCyclotron-05/AmrRingCyclotron.local | 3 - .../AmrRingCyclotron-05/AmrRingCyclotron.rt | 19 - .../reference/AmrRingCyclotron-05-bunch-0000.smb | 1258 +++++++++++++ .../AmrRingCyclotron-05-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-05-bunch-0001.smb | 897 +++++++++ .../AmrRingCyclotron-05-bunch-0001.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-05.out} | 493 +++--- .../reference/AmrRingCyclotron-05.out-md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb | 1258 ------------- .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb | 897 --------- .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-06/AmrRingCyclotron-06.in | 100 + .../AmrRingCyclotron-06/AmrRingCyclotron-06.local | 3 + .../AmrRingCyclotron-06/AmrRingCyclotron-06.rt | 19 + .../AmrRingCyclotron-06/AmrRingCyclotron.in | 101 - .../AmrRingCyclotron-06/AmrRingCyclotron.local | 3 - .../AmrRingCyclotron-06/AmrRingCyclotron.rt | 19 - .../reference/AmrRingCyclotron-06-bunch-0000.smb | 1258 +++++++++++++ .../AmrRingCyclotron-06-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-06-bunch-0001.smb | 897 +++++++++ .../AmrRingCyclotron-06-bunch-0001.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-06.out} | 495 +++--- .../reference/AmrRingCyclotron-06.out.md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-07/AmrRingCyclotron-07.in | 100 + .../AmrRingCyclotron-07/AmrRingCyclotron-07.local | 3 + .../AmrRingCyclotron-07/AmrRingCyclotron-07.rt | 37 + .../AmrRingCyclotron-07/AmrRingCyclotron.in | 101 - .../AmrRingCyclotron-07/AmrRingCyclotron.local | 3 - .../AmrRingCyclotron-07/AmrRingCyclotron.rt | 37 - .../reference/AmrRingCyclotron-07-bunch-0000.smb | 1978 ++++++++++++++++++++ .../AmrRingCyclotron-07-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-07-bunch-0001.smb | 1617 ++++++++++++++++ .../AmrRingCyclotron-07-bunch-0001.smb.md5 | 1 + .../reference/AmrRingCyclotron-07-bunch-0002.smb | 1257 +++++++++++++ .../AmrRingCyclotron-07-bunch-0002.smb.md5 | 1 + .../reference/AmrRingCyclotron-07-bunch-0003.smb | 897 +++++++++ .../AmrRingCyclotron-07-bunch-0003.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-07.out} | 501 +++--- .../reference/AmrRingCyclotron-07.out.md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb | 1978 -------------------- .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb | 1617 ---------------- .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0002.smb | 1257 ------------- .../reference/AmrRingCyclotron-bunch-0002.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0003.smb | 897 --------- .../reference/AmrRingCyclotron-bunch-0003.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-08/AmrRingCyclotron-08.in | 100 + .../AmrRingCyclotron-08/AmrRingCyclotron-08.local | 3 + .../AmrRingCyclotron-08/AmrRingCyclotron-08.rt | 37 + .../AmrRingCyclotron-08/AmrRingCyclotron.in | 101 - .../AmrRingCyclotron-08/AmrRingCyclotron.local | 3 - .../AmrRingCyclotron-08/AmrRingCyclotron.rt | 37 - .../reference/AmrRingCyclotron-08-bunch-0000.smb | 1978 ++++++++++++++++++++ .../AmrRingCyclotron-08-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-08-bunch-0001.smb | 1617 ++++++++++++++++ .../AmrRingCyclotron-08-bunch-0001.smb.md5 | 1 + .../reference/AmrRingCyclotron-08-bunch-0002.smb | 1257 +++++++++++++ .../AmrRingCyclotron-08-bunch-0002.smb.md5 | 1 + .../reference/AmrRingCyclotron-08-bunch-0003.smb | 897 +++++++++ .../AmrRingCyclotron-08-bunch-0003.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-08.out} | 517 +++--- .../reference/AmrRingCyclotron-08.out.md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb | 1978 -------------------- .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb | 1617 ---------------- .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0002.smb | 1257 ------------- .../reference/AmrRingCyclotron-bunch-0002.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0003.smb | 897 --------- .../reference/AmrRingCyclotron-bunch-0003.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-09-bunch-0000.smb.bak} | 0 .../AmrRingCyclotron-09-bunch-0001.smb.bak} | 0 ...otron.grid.bak => AmrRingCyclotron-09.grid.bak} | 0 ...Cyclotron.h5.bak => AmrRingCyclotron-09.h5.bak} | Bin 17342248 -> 17342248 bytes .../AmrRingCyclotron-09/AmrRingCyclotron-09.in | 99 + ...otron.lbal.bak => AmrRingCyclotron-09.lbal.bak} | 0 .../AmrRingCyclotron-09/AmrRingCyclotron-09.local | 10 + ...clotron.mem.bak => AmrRingCyclotron-09.mem.bak} | 0 .../AmrRingCyclotron-09/AmrRingCyclotron-09.rt | 19 + .../AmrRingCyclotron-bunch-0000.smb.bak | 1258 ------------- .../AmrRingCyclotron-bunch-0001.smb.bak | 897 --------- .../AmrRingCyclotron-09/AmrRingCyclotron.in | 100 - .../AmrRingCyclotron-09/AmrRingCyclotron.local | 10 - .../AmrRingCyclotron-09/AmrRingCyclotron.rt | 19 - ...0000.smb => AmrRingCyclotron-09-bunch-0000.smb} | 722 ++++---- .../AmrRingCyclotron-09-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-09-bunch-0001.smb | 537 ++++++ .../AmrRingCyclotron-09-bunch-0001.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-09.out} | 382 ++-- .../reference/AmrRingCyclotron-09.out.md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb | 1262 ------------- .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - .../AmrRingCyclotron-10-bunch-0000.smb.bak} | 0 .../AmrRingCyclotron-10-bunch-0001.smb.bak} | 0 ...otron.grid.bak => AmrRingCyclotron-10.grid.bak} | 0 ...Cyclotron.h5.bak => AmrRingCyclotron-10.h5.bak} | Bin 17342248 -> 17342248 bytes .../AmrRingCyclotron-10/AmrRingCyclotron-10.in | 100 + ...otron.lbal.bak => AmrRingCyclotron-10.lbal.bak} | 0 .../AmrRingCyclotron-10/AmrRingCyclotron-10.local | 10 + ...clotron.mem.bak => AmrRingCyclotron-10.mem.bak} | 0 .../AmrRingCyclotron-10/AmrRingCyclotron-10.rt | 19 + .../AmrRingCyclotron-bunch-0000.smb.bak | 1258 ------------- .../AmrRingCyclotron-bunch-0001.smb.bak | 897 --------- .../AmrRingCyclotron-10/AmrRingCyclotron.in | 101 - .../AmrRingCyclotron-10/AmrRingCyclotron.local | 10 - .../AmrRingCyclotron-10/AmrRingCyclotron.rt | 19 - ...0000.smb => AmrRingCyclotron-10-bunch-0000.smb} | 722 ++++---- .../AmrRingCyclotron-10-bunch-0000.smb.md5 | 1 + .../reference/AmrRingCyclotron-10-bunch-0001.smb | 537 ++++++ .../AmrRingCyclotron-10-bunch-0001.smb.md5 | 1 + ...mrRingCyclotron.out => AmrRingCyclotron-10.out} | 455 +++--- .../reference/AmrRingCyclotron-10.out.md5 | 1 + .../reference/AmrRingCyclotron-bunch-0000.smb.md5 | 1 - .../reference/AmrRingCyclotron-bunch-0001.smb | 537 ------ .../reference/AmrRingCyclotron-bunch-0001.smb.md5 | 1 - .../reference/AmrRingCyclotron.out.md5 | 1 - 213 files changed, 36981 insertions(+), 37819 deletions(-) create mode 100644 RegressionTests/AmrRingCyclotron-01/AmrRingCyclotron-01.in create mode 100755 RegressionTests/AmrRingCyclotron-01/AmrRingCyclotron-01.local create mode 100644 RegressionTests/AmrRingCyclotron-01/AmrRingCyclotron-01.rt delete mode 100644 RegressionTests/AmrRingCyclotron-01/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-01/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-01/AmrRingCyclotron.rt create mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-01-bunch-0000.smb create mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-01-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-01-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-01-bunch-0001.smb.md5 rename RegressionTests/AmrRingCyclotron-01/reference/{AmrRingCyclotron.out => AmrRingCyclotron-01.out} (81%) create mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-01.out.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-bunch-0000.smb delete mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-bunch-0001.smb delete mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-01/reference/AmrRingCyclotron.out.md5 create mode 100644 RegressionTests/AmrRingCyclotron-02/AmrRingCyclotron-02.in create mode 100755 RegressionTests/AmrRingCyclotron-02/AmrRingCyclotron-02.local create mode 100644 RegressionTests/AmrRingCyclotron-02/AmrRingCyclotron-02.rt delete mode 100644 RegressionTests/AmrRingCyclotron-02/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-02/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-02/AmrRingCyclotron.rt create mode 100644 RegressionTests/AmrRingCyclotron-02/reference/AmrRingCyclotron-02-bunch-0000.smb create mode 100644 RegressionTests/AmrRingCyclotron-02/reference/AmrRingCyclotron-02-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-02/reference/AmrRingCyclotron-02-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-02/reference/AmrRingCyclotron-02-bunch-0001.smb.md5 rename RegressionTests/AmrRingCyclotron-02/reference/{AmrRingCyclotron.out => AmrRingCyclotron-02.out} (84%) create mode 100644 RegressionTests/AmrRingCyclotron-02/reference/AmrRingCyclotron-02.out.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-02/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-02/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-02/reference/AmrRingCyclotron.out.md5 create mode 100644 RegressionTests/AmrRingCyclotron-03/AmrRingCyclotron-03.in create mode 100755 RegressionTests/AmrRingCyclotron-03/AmrRingCyclotron-03.local create mode 100644 RegressionTests/AmrRingCyclotron-03/AmrRingCyclotron-03.rt delete mode 100644 RegressionTests/AmrRingCyclotron-03/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-03/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-03/AmrRingCyclotron.rt create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03-bunch-0000.smb create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03-bunch-0001.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03-bunch-0002.smb create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03-bunch-0002.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03-bunch-0003.smb create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03-bunch-0003.smb.md5 rename RegressionTests/AmrRingCyclotron-03/reference/{AmrRingCyclotron.out => AmrRingCyclotron-03.out} (82%) create mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-03.out.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-bunch-0000.smb delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-bunch-0001.smb delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-bunch-0002.smb delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-bunch-0002.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-bunch-0003.smb delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron-bunch-0003.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-03/reference/AmrRingCyclotron.out.md5 create mode 100644 RegressionTests/AmrRingCyclotron-04/AmrRingCyclotron-04.in create mode 100755 RegressionTests/AmrRingCyclotron-04/AmrRingCyclotron-04.local create mode 100644 RegressionTests/AmrRingCyclotron-04/AmrRingCyclotron-04.rt delete mode 100644 RegressionTests/AmrRingCyclotron-04/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-04/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-04/AmrRingCyclotron.rt create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04-bunch-0000.smb create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04-bunch-0001.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04-bunch-0002.smb create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04-bunch-0002.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04-bunch-0003.smb create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04-bunch-0003.smb.md5 rename RegressionTests/AmrRingCyclotron-04/reference/{AmrRingCyclotron.out => AmrRingCyclotron-04.out} (73%) create mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-04.out-md5 delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-bunch-0000.smb delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-bunch-0001.smb delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-bunch-0002.smb delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-bunch-0002.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-bunch-0003.smb delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron-bunch-0003.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-04/reference/AmrRingCyclotron.out.md5 create mode 100644 RegressionTests/AmrRingCyclotron-05/AmrRingCyclotron-05.in create mode 100755 RegressionTests/AmrRingCyclotron-05/AmrRingCyclotron-05.local create mode 100644 RegressionTests/AmrRingCyclotron-05/AmrRingCyclotron-05.rt delete mode 100644 RegressionTests/AmrRingCyclotron-05/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-05/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-05/AmrRingCyclotron.rt create mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-05-bunch-0000.smb create mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-05-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-05-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-05-bunch-0001.smb.md5 rename RegressionTests/AmrRingCyclotron-05/reference/{AmrRingCyclotron.out => AmrRingCyclotron-05.out} (78%) create mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-05.out-md5 delete mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-bunch-0000.smb delete mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-bunch-0001.smb delete mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-05/reference/AmrRingCyclotron.out.md5 create mode 100644 RegressionTests/AmrRingCyclotron-06/AmrRingCyclotron-06.in create mode 100755 RegressionTests/AmrRingCyclotron-06/AmrRingCyclotron-06.local create mode 100644 RegressionTests/AmrRingCyclotron-06/AmrRingCyclotron-06.rt delete mode 100644 RegressionTests/AmrRingCyclotron-06/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-06/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-06/AmrRingCyclotron.rt create mode 100644 RegressionTests/AmrRingCyclotron-06/reference/AmrRingCyclotron-06-bunch-0000.smb create mode 100644 RegressionTests/AmrRingCyclotron-06/reference/AmrRingCyclotron-06-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-06/reference/AmrRingCyclotron-06-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-06/reference/AmrRingCyclotron-06-bunch-0001.smb.md5 rename RegressionTests/AmrRingCyclotron-06/reference/{AmrRingCyclotron.out => AmrRingCyclotron-06.out} (81%) create mode 100644 RegressionTests/AmrRingCyclotron-06/reference/AmrRingCyclotron-06.out.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-06/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-06/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-06/reference/AmrRingCyclotron.out.md5 create mode 100644 RegressionTests/AmrRingCyclotron-07/AmrRingCyclotron-07.in create mode 100755 RegressionTests/AmrRingCyclotron-07/AmrRingCyclotron-07.local create mode 100644 RegressionTests/AmrRingCyclotron-07/AmrRingCyclotron-07.rt delete mode 100644 RegressionTests/AmrRingCyclotron-07/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-07/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-07/AmrRingCyclotron.rt create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07-bunch-0000.smb create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07-bunch-0001.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07-bunch-0002.smb create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07-bunch-0002.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07-bunch-0003.smb create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07-bunch-0003.smb.md5 rename RegressionTests/AmrRingCyclotron-07/reference/{AmrRingCyclotron.out => AmrRingCyclotron-07.out} (79%) create mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-07.out.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-bunch-0000.smb delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-bunch-0001.smb delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-bunch-0002.smb delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-bunch-0002.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-bunch-0003.smb delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron-bunch-0003.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-07/reference/AmrRingCyclotron.out.md5 create mode 100644 RegressionTests/AmrRingCyclotron-08/AmrRingCyclotron-08.in create mode 100755 RegressionTests/AmrRingCyclotron-08/AmrRingCyclotron-08.local create mode 100644 RegressionTests/AmrRingCyclotron-08/AmrRingCyclotron-08.rt delete mode 100644 RegressionTests/AmrRingCyclotron-08/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-08/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-08/AmrRingCyclotron.rt create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08-bunch-0000.smb create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08-bunch-0001.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08-bunch-0002.smb create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08-bunch-0002.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08-bunch-0003.smb create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08-bunch-0003.smb.md5 rename RegressionTests/AmrRingCyclotron-08/reference/{AmrRingCyclotron.out => AmrRingCyclotron-08.out} (69%) create mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-08.out.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-bunch-0000.smb delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-bunch-0001.smb delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-bunch-0002.smb delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-bunch-0002.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-bunch-0003.smb delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron-bunch-0003.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-08/reference/AmrRingCyclotron.out.md5 rename RegressionTests/{AmrRingCyclotron-02/reference/AmrRingCyclotron-bunch-0000.smb => AmrRingCyclotron-09/AmrRingCyclotron-09-bunch-0000.smb.bak} (100%) rename RegressionTests/{AmrRingCyclotron-02/reference/AmrRingCyclotron-bunch-0001.smb => AmrRingCyclotron-09/AmrRingCyclotron-09-bunch-0001.smb.bak} (100%) rename RegressionTests/AmrRingCyclotron-09/{AmrRingCyclotron.grid.bak => AmrRingCyclotron-09.grid.bak} (100%) rename RegressionTests/AmrRingCyclotron-09/{AmrRingCyclotron.h5.bak => AmrRingCyclotron-09.h5.bak} (100%) create mode 100644 RegressionTests/AmrRingCyclotron-09/AmrRingCyclotron-09.in rename RegressionTests/AmrRingCyclotron-09/{AmrRingCyclotron.lbal.bak => AmrRingCyclotron-09.lbal.bak} (100%) create mode 100755 RegressionTests/AmrRingCyclotron-09/AmrRingCyclotron-09.local rename RegressionTests/AmrRingCyclotron-09/{AmrRingCyclotron.mem.bak => AmrRingCyclotron-09.mem.bak} (100%) create mode 100644 RegressionTests/AmrRingCyclotron-09/AmrRingCyclotron-09.rt delete mode 100644 RegressionTests/AmrRingCyclotron-09/AmrRingCyclotron-bunch-0000.smb.bak delete mode 100644 RegressionTests/AmrRingCyclotron-09/AmrRingCyclotron-bunch-0001.smb.bak delete mode 100644 RegressionTests/AmrRingCyclotron-09/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-09/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-09/AmrRingCyclotron.rt rename RegressionTests/AmrRingCyclotron-09/reference/{AmrRingCyclotron-bunch-0000.smb => AmrRingCyclotron-09-bunch-0000.smb} (70%) create mode 100644 RegressionTests/AmrRingCyclotron-09/reference/AmrRingCyclotron-09-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-09/reference/AmrRingCyclotron-09-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-09/reference/AmrRingCyclotron-09-bunch-0001.smb.md5 rename RegressionTests/AmrRingCyclotron-09/reference/{AmrRingCyclotron.out => AmrRingCyclotron-09.out} (85%) create mode 100644 RegressionTests/AmrRingCyclotron-09/reference/AmrRingCyclotron-09.out.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-09/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-09/reference/AmrRingCyclotron-bunch-0001.smb delete mode 100644 RegressionTests/AmrRingCyclotron-09/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-09/reference/AmrRingCyclotron.out.md5 rename RegressionTests/{AmrRingCyclotron-06/reference/AmrRingCyclotron-bunch-0000.smb => AmrRingCyclotron-10/AmrRingCyclotron-10-bunch-0000.smb.bak} (100%) rename RegressionTests/{AmrRingCyclotron-06/reference/AmrRingCyclotron-bunch-0001.smb => AmrRingCyclotron-10/AmrRingCyclotron-10-bunch-0001.smb.bak} (100%) rename RegressionTests/AmrRingCyclotron-10/{AmrRingCyclotron.grid.bak => AmrRingCyclotron-10.grid.bak} (100%) rename RegressionTests/AmrRingCyclotron-10/{AmrRingCyclotron.h5.bak => AmrRingCyclotron-10.h5.bak} (100%) create mode 100644 RegressionTests/AmrRingCyclotron-10/AmrRingCyclotron-10.in rename RegressionTests/AmrRingCyclotron-10/{AmrRingCyclotron.lbal.bak => AmrRingCyclotron-10.lbal.bak} (100%) create mode 100755 RegressionTests/AmrRingCyclotron-10/AmrRingCyclotron-10.local rename RegressionTests/AmrRingCyclotron-10/{AmrRingCyclotron.mem.bak => AmrRingCyclotron-10.mem.bak} (100%) create mode 100644 RegressionTests/AmrRingCyclotron-10/AmrRingCyclotron-10.rt delete mode 100644 RegressionTests/AmrRingCyclotron-10/AmrRingCyclotron-bunch-0000.smb.bak delete mode 100644 RegressionTests/AmrRingCyclotron-10/AmrRingCyclotron-bunch-0001.smb.bak delete mode 100644 RegressionTests/AmrRingCyclotron-10/AmrRingCyclotron.in delete mode 100755 RegressionTests/AmrRingCyclotron-10/AmrRingCyclotron.local delete mode 100644 RegressionTests/AmrRingCyclotron-10/AmrRingCyclotron.rt rename RegressionTests/AmrRingCyclotron-10/reference/{AmrRingCyclotron-bunch-0000.smb => AmrRingCyclotron-10-bunch-0000.smb} (70%) create mode 100644 RegressionTests/AmrRingCyclotron-10/reference/AmrRingCyclotron-10-bunch-0000.smb.md5 create mode 100644 RegressionTests/AmrRingCyclotron-10/reference/AmrRingCyclotron-10-bunch-0001.smb create mode 100644 RegressionTests/AmrRingCyclotron-10/reference/AmrRingCyclotron-10-bunch-0001.smb.md5 rename RegressionTests/AmrRingCyclotron-10/reference/{AmrRingCyclotron.out => AmrRingCyclotron-10.out} (82%) create mode 100644 RegressionTests/AmrRingCyclotron-10/reference/AmrRingCyclotron-10.out.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-10/reference/AmrRingCyclotron-bunch-0000.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-10/reference/AmrRingCyclotron-bunch-0001.smb delete mode 100644 RegressionTests/AmrRingCyclotron-10/reference/AmrRingCyclotron-bunch-0001.smb.md5 delete mode 100644 RegressionTests/AmrRingCyclotron-10/reference/AmrRingCyclotron.out.md5 Running regression tests... [] Running the following regression tests: AWAGun-1 AWAGun-TrackBack-1 AmrRingCyclotron-01 AmrRingCyclotron-02 AmrRingCyclotron-03 AmrRingCyclotron-04 AmrRingCyclotron-05 AmrRingCyclotron-06 AmrRingCyclotron-07 AmrRingCyclotron-08 AmrRingCyclotron-09 AmrRingCyclotron-10 BeamLine-1 BeamLine-2 CSRBendDrift DCGun-Cornell-1 DCGun-Cornell-2 Degrader-1 Distribution-Binomial-1 Distribution-Gauss-1 Distribution-Gauss-2 Distribution-MultiGauss EGunCTF3-1 EGunCTF3-2 Elliptic-1 ExternalFieldTest GasStripping HKick-Test-1 Kick-Test-1 MAP-Circular MAP-FODO MAP-FODODipole MAP-Gantry2 Mask-1 PROSCAN-1 PROSCAN-2 PSIGUN-1 PerfectDiode Quad-Simple-Test-1 RBend-Simple-Test-1 RBend-Simple-Test-2 RBend-Simple-Test-3 RBend-Simple-Test-4 RestartTest-1 RestartTest-2 RestartTest-3 RestartTest-4 RingCyclotron RingCyclotronMTS RingCyclotronMatched SBend-Simple-Test-1 SBend-Simple-Test-2 SBend-Simple-Test-3 SBend-Simple-Test-4 Slit-1 Slit-2 UndulatorAWA VFFA-1 VKick-Test-1 opalimpact-1 Running test: ./AWAGun-1.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 01:30:19 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AWAGun-1.in". OPAL{0}> OPAL{0}> value: {EDES,P0,OPALVERSION} = {1.4e-09, 1.19616e-06, 2.02101e+07} OPAL{0}> OPAL{0}> OPAL{0}> value: {KSBF,SF} = {0.120154, 0.379111} OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == PARALLEL-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> * Write initial distribution to file "data/AWAGun-1_DIST.dat" OPAL{0}> * ********************************************************************************** Ippl{0}> * Creating new file for data: AWAGun-1.stat Ippl{0}> * Creating new file for data: AWAGun-1.lbal OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 10000 OPAL{0}> * OPAL{0}> * Distribution type: FLATTOP OPAL{0}> * OPAL{0}> * SIGMAX = 7.500000e-04 [m] OPAL{0}> * SIGMAY = 7.500000e-04 [m] OPAL{0}> * Sigma Time Rise = 3.556773e-12 [sec] OPAL{0}> * TPULSEFWHM = 2.000000e-11 [sec] OPAL{0}> * Sigma Time Fall = 3.556773e-12 [sec] OPAL{0}> * Longitudinal cutoff = 4.000000e+00 [units of Sigma Time] OPAL{0}> * Flat top modulation amplitude = 0.000000e+00 [Percent of distribution amplitude] OPAL{0}> * Flat top modulation periods = 0.000000e+00 OPAL{0}> * OPAL{0}> * Number of energy bins = 9 OPAL{0}> * Distribution is emitted. OPAL{0}> * Emission time = 4.007862e-11 [sec] OPAL{0}> * Time per bin = 4.453180e-12 [sec] OPAL{0}> * Delta t during emission = 4.048346e-13 [sec] OPAL{0}> * OPAL{0}> * ------------- THERMAL EMITTANCE MODEL -------------------------------------------- OPAL{0}> * THERMAL EMITTANCE in ASTRA MODE OPAL{0}> * Kinetic energy (thermal emittance) = 5.500000e-01 [eV] OPAL{0}> * ---------------------------------------------------------------------------------- OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE ELECTRON OPAL{0}> * CURRENT 1.300000e+00 A OPAL{0}> * FREQUENCY 1.300000e+03 MHz OPAL{0}> * CHARGE -e * 1.000000e+00 OPAL{0}> * REST MASS 5.109990e-04 GeV OPAL{0}> * MOMENTUM 1.196160e-06 OPAL{0}> * NPART 1.000000e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS_SC OPAL{0}> * TYPE FFT OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 1.600000e+01 OPAL{0}> * MY 1.600000e+01 OPAL{0}> * MT 1.600000e+01 OPAL{0}> * BBOXINCR 1.000000e+00 OPAL{0}> * GRRENSF INTEGRATED OPAL{0}> * XDIM serial OPAL{0}> * YDIM serial OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}[2]> Phase space dump frequency 300000 and statistics dump frequency 10 w.r.t. the time step. RFCavity {0}[2]> GUN using file DriveGun.T7 (2D dynamic); zini= 0 m; zfinal= 0.292707 m; Solenoid {0}[2]> BF using file BF_550.T7 (2D magnetostatic); zini= 0 m; zfinal= 0.5 m; Solenoid {0}[2]> M using file M_440.T7 (2D magnetostatic); zini= 0 m; zfinal= 0.5 m; Ippl{0}> Ippl{0}> * ************* G U N ************************************************************** Ippl{0}[2]> estimated phase= 2.4642028 rad = 141.18842 deg Ippl{0}[2]> Ekin= 6.2824668 MeV Ippl{0}[2]> Ippl{0}> GUN_phi = 140.4697 [deg], corresp. in Astra = 230.4697 [deg], Ippl{0}> E = 6.2831 [MeV], phi_nom = 0.0000 [deg] Ippl{0}> Ez_0 = 60.0000 [MV/m] Ippl{0}> time = 0.0000 [ns], dt = 0.1000 [ps] Ippl{0}> * ********************************************************************************** Ippl{0}> OPAL{0}> OPAL{0}> * Size of map 3 sections OPAL{0}> * Key: (0.000000 - 0.292705) number of overlapping elements 3 OPAL{0}> * M OPAL{0}> * GUN OPAL{0}> * BF OPAL{0}> * Key: (0.292705 - 0.499992) number of overlapping elements 2 OPAL{0}> * M OPAL{0}> * BF OPAL{0}> * Key: (0.499992 - 2.000030) number of overlapping elements 1 OPAL{0}> * DR1 OPAL{0}> Ippl{0}> * Creating new file for data: data/AWAGun-1_ElementPositions.sdds Ippl{0}> Saved phases in the h5 file: Cav-1-name -> GUN --- Cav-1-value -> 2.4517 OPAL{0}> OPAL{0}> * Track start at: 01:30:20, t= -20.039 [ps]; zstart at: 0.000 [um] ParallelTTracker {0}[2]> Do emission for 4.00786e-11 [s] using 9 energy bins ParallelTTracker {0}> Change dT from 1e-13 [s] to 4.04835e-13 [s] during emission OPAL{0}> * Executing ParallelTTracker OPAL{0}> * Initial dt = 100.000 [fs] OPAL{0}> * Max integration steps = 38000, next step = 0 OPAL{0}> ParallelTTracker {0}[2]> MINBINEMITTED 10 ParallelTTracker {0}[2]> MINSTEPFORREBIN 200 ParallelTTracker {0}[2]> REPARTFREQ 1000 Ippl{0}[2]> Bin 0 gamma = 1.00035e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00003e+00; NpInBin= 3 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> Bin 0 gamma = 1.00065e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00005e+00; NpInBin= 12 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 6.01522e-02 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00104e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00013e+00; NpInBin= 17 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 9.15563e-02 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00153e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00022e+00; NpInBin= 25 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.31272e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00212e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00026e+00; NpInBin= 45 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.86320e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00281e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00038e+00; NpInBin= 58 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.42750e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00360e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00045e+00; NpInBin= 86 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.14509e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00449e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00054e+00; NpInBin= 119 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.94269e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00547e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00064e+00; NpInBin= 160 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.83260e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00656e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00072e+00; NpInBin= 216 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 5.83478e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00775e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00085e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 6.89708e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00905e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00123e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00002e+00; NpInBin= 73 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 7.80611e-01 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.20958e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01044e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00172e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00008e+00; NpInBin= 148 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 8.71258e-01 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.63786e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01194e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00230e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00014e+00; NpInBin= 262 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 9.61608e-01 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.15750e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01354e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00299e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00025e+00; NpInBin= 367 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.05165e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.74188e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01525e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00379e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00039e+00; NpInBin= 473 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.14125e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.39517e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01706e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00469e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00056e+00; NpInBin= 587 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.23170e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.12421e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01900e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00569e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00072e+00; NpInBin= 746 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.32260e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.96827e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.02102e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00681e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00093e+00; NpInBin= 892 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.41227e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.87256e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.02317e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00802e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00115e+00; NpInBin= 1056 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.50327e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 6.86640e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.02545e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00934e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00138e+00; NpInBin= 1231 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.59637e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 7.94258e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.02784e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01076e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00166e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.69005e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 9.08204e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.03034e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01228e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00220e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00002e+00; NpInBin= 227 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.78450e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.00525e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.17824e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.03296e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01390e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00285e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00008e+00; NpInBin= 452 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.87912e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.10261e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.76576e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.03568e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01564e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00359e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00018e+00; NpInBin= 651 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.97318e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.20144e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.40792e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.03852e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01749e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00442e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00031e+00; NpInBin= 858 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.06725e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.30097e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.11638e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.04148e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01945e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00536e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00046e+00; NpInBin= 1066 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.16102e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.40160e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.89203e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.04455e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.02153e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00639e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00066e+00; NpInBin= 1250 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.25405e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.50437e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.71799e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.04774e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.02372e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00751e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00087e+00; NpInBin= 1470 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.34565e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.60983e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.62528e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.05104e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.02604e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00873e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00112e+00; NpInBin= 1674 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.43620e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.71688e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.59314e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.05446e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.02849e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01004e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00140e+00; NpInBin= 1875 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.52488e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.82685e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 8.62874e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.05800e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.03107e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01146e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00170e+00; NpInBin= 2071 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.61184e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.93892e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 9.73467e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.06165e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.03377e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01297e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00204e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.69726e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.05298e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.09114e+00 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.06542e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.03659e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01459e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00260e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00003e+00; NpInBin= 203 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.78081e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.16856e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.19587e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.57515e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.06930e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.03955e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01633e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00324e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00008e+00; NpInBin= 377 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.86232e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.28508e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.30388e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.16365e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.07331e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.04263e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01817e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00397e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00016e+00; NpInBin= 563 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.94180e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.40246e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.41480e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.80829e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.07742e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.04585e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02013e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00478e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00026e+00; NpInBin= 779 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.01916e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.52060e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.52814e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.52240e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.08166e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.04919e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02221e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00567e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00038e+00; NpInBin= 969 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.09431e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.63900e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.64524e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.28289e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.08600e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.05266e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02442e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00664e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00054e+00; NpInBin= 1155 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.16723e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.75650e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.76696e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.09405e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.09046e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.05626e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02676e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00769e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00071e+00; NpInBin= 1360 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.23788e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.87362e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.89202e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.97319e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.09504e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.05999e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02922e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00883e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00090e+00; NpInBin= 1571 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.30623e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.98960e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.02097e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.92325e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.09973e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.06385e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.03182e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01007e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00113e+00; NpInBin= 1760 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.37227e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.10414e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.15378e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.92759e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.10453e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.06784e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.03455e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01139e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00138e+00; NpInBin= 1958 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.43599e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.21712e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.29028e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 9.99977e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.10944e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.07195e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.03742e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01281e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00163e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.49738e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.32836e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.42964e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.11595e+00 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.11446e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.07618e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.04042e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01433e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00209e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00003e+00; NpInBin= 183 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.55645e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.43733e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.57224e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.22137e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.06573e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.11959e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.08055e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.04356e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01596e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00262e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00007e+00; NpInBin= 369 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.61321e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.54411e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.71689e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.33033e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.54874e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.12483e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.08503e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.04684e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01769e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00323e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00014e+00; NpInBin= 569 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.66765e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.64864e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.86395e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.44150e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.09169e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.13018e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.08964e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.05025e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01954e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00391e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00023e+00; NpInBin= 759 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.71979e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.75076e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.01244e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.55663e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.68343e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.13563e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.09438e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.05380e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.02151e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00466e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00034e+00; NpInBin= 938 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.76966e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.85037e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.16144e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.67683e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.31496e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.14119e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.09923e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.05749e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.02360e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00549e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00048e+00; NpInBin= 1147 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.81728e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.94737e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.31096e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.80130e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.00780e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.14686e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.10421e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.06131e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.02581e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00639e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00064e+00; NpInBin= 1337 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.86267e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.04166e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.46085e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.92921e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.75418e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.15263e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.10930e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.06527e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.02815e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00738e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00081e+00; NpInBin= 1538 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.90588e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.13323e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.61048e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.06168e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.56364e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.15850e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.11451e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.06936e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.03062e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00844e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00101e+00; NpInBin= 1736 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.94695e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.22201e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.75903e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.19912e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.42561e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.16447e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.11984e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.07359e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.03322e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00960e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00125e+00; NpInBin= 1920 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.98590e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.30797e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.90679e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.34018e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 8.33967e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.17055e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.12528e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.07795e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.03596e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01084e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00150e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.02280e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.39110e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.05295e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.48527e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 9.32826e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.17673e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.13084e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.08244e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.03884e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01218e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00193e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00003e+00; NpInBin= 181 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.05768e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.47142e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.19728e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.63377e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.02327e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.89838e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.18300e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.13651e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.08706e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.04185e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01361e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00243e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00007e+00; NpInBin= 368 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.09059e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.54892e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.33962e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.78574e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.11567e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.35675e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.18937e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.14229e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.09181e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.04500e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01515e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00301e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00014e+00; NpInBin= 544 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.12157e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.62358e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.47979e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.94033e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.21057e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.86675e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.19584e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.14819e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.09669e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.04829e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01679e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00365e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00023e+00; NpInBin= 711 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.15068e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.69544e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.61736e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.09755e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.30913e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.41937e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.20241e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.15419e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.10170e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.05172e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01855e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00437e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00035e+00; NpInBin= 878 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.17796e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.76452e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.75222e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.25598e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.41243e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.01412e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.20907e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.16030e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.10683e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.05529e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02043e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00516e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00052e+00; NpInBin= 999 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.20346e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.83085e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.88427e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.41595e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.51913e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.63875e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.21583e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.16651e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.11208e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.05899e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02242e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00603e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00070e+00; NpInBin= 1144 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.22725e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.89446e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.01340e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.57697e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.62882e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.33178e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.22267e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.17283e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.11746e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.06284e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02454e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00699e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00093e+00; NpInBin= 1246 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.24935e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.95539e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.13945e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.73830e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.74241e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 6.05384e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.22961e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.17926e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.12296e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.06682e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02678e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00803e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00121e+00; NpInBin= 1330 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.26984e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.01370e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.26235e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.89951e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.86009e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 6.81267e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.23664e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.18579e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.12858e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.07094e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02915e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00915e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00153e+00; NpInBin= 1407 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.28875e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.06942e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.38201e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.05995e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.98185e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 7.61749e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.24376e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.19242e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.13431e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.07519e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.03167e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01037e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00188e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.30615e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.12261e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.49837e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.21906e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.10773e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 8.46970e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.25097e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.19915e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.14016e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.07958e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.03431e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01168e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00238e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00003e+00; NpInBin= 61 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.32206e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.17333e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.61136e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.37669e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.23742e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 9.27712e-01 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.35079e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.25827e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.20597e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.14613e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.08410e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.03710e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01308e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00294e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00007e+00; NpInBin= 107 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.33655e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.22163e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.72096e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.53263e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.37048e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.01116e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.86868e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.26565e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.21290e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.15220e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.08876e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.04002e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01459e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00358e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00013e+00; NpInBin= 160 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.34967e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.26755e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.82713e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.68661e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.50640e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.09744e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.44151e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.27312e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.21992e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.15839e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.09355e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.04308e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01620e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00429e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00026e+00; NpInBin= 178 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.36145e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.31115e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.92987e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.83832e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.64480e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.18663e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 4.02932e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.28068e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.22703e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.16469e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.09847e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.04628e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01793e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00508e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00040e+00; NpInBin= 207 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.37193e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.35248e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.02919e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.98749e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.78511e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.27881e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 4.67969e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.28832e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.23424e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.17110e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.10351e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.04963e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01978e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00596e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00060e+00; NpInBin= 223 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.38117e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.39161e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.12510e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.13389e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.92698e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.37400e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 5.35603e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.29604e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.24155e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.17762e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.10869e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.05311e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.02174e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00692e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00085e+00; NpInBin= 235 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.38919e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.42858e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.21761e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.27731e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.06998e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.47210e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 6.06666e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.30385e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.24894e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.18424e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.11398e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.05674e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.02383e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00798e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00112e+00; NpInBin= 252 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.39605e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.46346e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.30676e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.41760e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.21374e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.57300e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 6.84543e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.31173e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.25643e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.19097e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.11941e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.06050e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.02605e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00913e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00150e+00; NpInBin= 257 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.40177e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.49631e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.39256e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.55459e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.35790e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.67657e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 7.61699e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.31970e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.26400e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.19779e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.12495e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.06441e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.02839e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01038e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00194e+00; NpInBin= 262 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.40640e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.52717e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.47504e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.68818e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.50209e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.78257e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 8.42503e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.32774e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.27166e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.20472e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.13062e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.06845e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.03087e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01174e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00242e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.41000e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.55610e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.55425e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.81829e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.64600e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.89080e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 9.29896e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.33586e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.27941e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.21175e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.13641e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.07264e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.03348e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01320e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00304e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00004e+00; NpInBin= 5 Ippl{0}[2]> d(gamma)= 4.41259e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.58315e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.63022e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.94482e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.78928e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.00103e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.01364e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 3.00211e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.34406e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.28724e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.21888e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.14231e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.07696e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.03622e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01478e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00375e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00010e+00; NpInBin= 8 Ippl{0}[2]> d(gamma)= 4.41423e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.60837e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.70300e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.06775e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.93161e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.11302e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.09946e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 3.64953e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.35234e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.29516e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.22611e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.14833e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.08143e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.03911e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01647e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00455e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00018e+00; NpInBin= 12 Ippl{0}[2]> d(gamma)= 4.41494e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.63181e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.77264e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.18704e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.07270e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.22649e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.18723e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 4.36467e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.36069e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.30316e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.23343e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.15447e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.08602e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.04213e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01828e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00545e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00036e+00; NpInBin= 13 Ippl{0}[2]> d(gamma)= 4.41477e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.65350e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.83921e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.30266e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.21227e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.34120e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.27682e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 5.08864e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.36912e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.31124e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.24084e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.16072e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09075e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.04528e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02022e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00645e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00059e+00; NpInBin= 14 Ippl{0}[2]> d(gamma)= 4.41375e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.67350e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.90277e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.41461e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.35009e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.45687e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.36808e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 5.85678e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.37762e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.31941e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.24835e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.16708e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09562e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.04858e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02227e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00755e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00088e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.41190e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.69186e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.96337e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.52287e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.48595e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.57322e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.46083e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 6.67361e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.37972e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32143e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25022e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.16867e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09684e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.04941e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02280e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00784e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00097e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.41132e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.69614e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.97786e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.54900e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.51914e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.60200e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.48392e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 6.86736e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.38184e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32346e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25209e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17026e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09807e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05026e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02333e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00814e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00107e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.41069e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.70032e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.99218e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.57491e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.55219e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.63080e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.50709e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.06188e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.38395e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32550e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25397e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17186e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09930e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05111e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02388e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00844e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00118e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.41002e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.70440e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.00632e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.60059e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.58511e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.65963e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.53033e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.25717e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.38607e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32754e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25585e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17347e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10055e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05197e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02443e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00875e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00129e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40930e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.70840e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.02030e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.62605e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.61790e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.68846e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.55365e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.45321e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.38820e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32958e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25774e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17508e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10180e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05284e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02498e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00907e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00141e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40853e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.71229e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.03410e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.65128e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.65054e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.71731e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.57703e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.64999e-01 [%] between bin 7 and 8 ParallelTTracker {0}[2]> 01:30:23 Step 99 at 1.336 [mm], t= 18.310 [ps], E=63.208 [keV] Ippl{0}[2]> Bin 0 gamma = 1.39033e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33163e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25963e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17670e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10306e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05371e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02555e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00939e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00153e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40771e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.71610e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.04773e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.67629e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.68304e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.74616e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.60048e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.84750e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.39246e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33369e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26153e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17833e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10433e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05460e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02612e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00972e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00166e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40685e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.71981e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.06119e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.70107e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.71539e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.77502e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.62399e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.04572e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.39460e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33575e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26344e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17996e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10560e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05549e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02670e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01006e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00180e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40594e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.72343e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.07448e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.72563e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.74760e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.80388e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.64757e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.24465e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.39674e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33781e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26535e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18160e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10688e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05639e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02729e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01041e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00195e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40499e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.72697e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.08760e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.74997e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.77966e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.83273e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.67120e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.44425e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.39889e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33988e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26726e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18324e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10818e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05730e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02789e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01076e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00210e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40399e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73041e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.10055e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.77409e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.81157e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.86158e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.69489e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.64452e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40104e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.34195e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26918e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18490e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10948e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05822e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02849e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01112e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00225e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40295e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73376e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.11333e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.79798e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.84333e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.89041e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.71863e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.84545e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40320e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.34403e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27111e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18656e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11078e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05915e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02911e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01148e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00241e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40187e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73703e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.12595e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.82165e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.87494e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.91923e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.74242e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.04700e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40536e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.34612e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27304e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18822e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11210e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06009e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02973e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01186e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00258e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40074e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74021e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.13840e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.84510e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.90639e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.94804e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.76625e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.24917e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40752e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.34820e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27498e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18989e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11342e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06103e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03036e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01224e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00276e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39957e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74330e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.15069e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.86833e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.93768e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.97682e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.79013e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.45194e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40969e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35030e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27692e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19157e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11475e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06198e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03099e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01263e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00294e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39835e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74630e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.16281e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.89133e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.96882e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.00558e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.81405e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.65529e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.41186e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35239e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27887e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19326e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11609e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06294e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03164e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01302e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00313e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39709e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74923e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.17477e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.91412e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.99980e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.03432e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.83801e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.85919e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.41404e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35450e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28082e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19495e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11743e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06391e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03229e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01342e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00333e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39579e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75206e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.18656e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.93668e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.03061e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.06302e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.86201e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.00636e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.41622e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35660e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28278e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19664e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11879e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06489e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03295e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01383e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00353e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39445e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75482e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.19820e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.95903e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.06126e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.09169e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.88603e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.02686e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.41840e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35871e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28474e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19835e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12015e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06588e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03362e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01425e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00374e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39307e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75749e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.20967e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.98115e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.09175e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.12033e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.91009e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.04740e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42059e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36083e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28671e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20006e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12152e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06687e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03430e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01468e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00395e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39165e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76008e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.22098e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.00306e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.12207e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.14893e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.93417e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.06800e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42279e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36295e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28869e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20177e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12289e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06787e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03499e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01511e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00418e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39019e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76259e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.23214e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.02475e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.15222e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.17749e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.95827e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.08863e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42498e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36507e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29067e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20350e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12428e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06889e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03568e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01555e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00441e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38869e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76501e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.24313e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.04622e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.18220e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.20601e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.98239e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.10931e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42718e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36720e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29265e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20522e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12567e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06990e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03638e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01600e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00464e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38715e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76736e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.25397e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.06747e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.21201e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.23448e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.00654e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.13004e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42939e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36934e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29464e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20696e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12707e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07093e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03709e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01645e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00489e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38557e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76962e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.26466e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.08851e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.24165e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.26291e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.03069e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.15080e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.43160e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.37148e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29664e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20870e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12847e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07197e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03781e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01692e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00514e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38395e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77181e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.27518e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.10933e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.27111e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.29128e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.05486e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.17159e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.43381e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.37362e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29864e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21045e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12989e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07301e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03854e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01739e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00540e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38229e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77392e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.28556e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.12994e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.30039e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.31960e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.07904e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.19242e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.43603e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.37577e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30064e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21220e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13131e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07407e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03927e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01787e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00566e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38060e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77595e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.29578e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.15034e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.32950e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.34786e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.10322e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.21328e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.43825e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.37792e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30265e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21396e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13274e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07513e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04002e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01835e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00594e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37887e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77791e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.30584e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.17052e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.35844e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.37607e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.12741e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.23418e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44048e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38007e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30467e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21573e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13417e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07620e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04077e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01885e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00622e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37710e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77979e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.31576e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.19049e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.38719e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.40422e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.15160e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.25509e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44271e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38223e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30669e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21750e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13562e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07728e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04153e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01935e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00651e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37530e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78159e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.32552e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.21025e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.41576e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.43231e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.17578e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.27604e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44495e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38440e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30871e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21928e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13707e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07836e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04230e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01986e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00680e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37346e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78332e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.33513e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.22980e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.44414e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.46033e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.19996e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.29700e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44718e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38657e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31074e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22106e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13853e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07946e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04307e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02038e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00710e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37158e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78498e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.34460e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.24914e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.47234e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.48829e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.22413e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.31799e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44943e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38874e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31278e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22285e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13999e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08056e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04386e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02090e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00741e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36967e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78656e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.35391e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.26827e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.50036e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.51618e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.24829e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.33899e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.45167e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39092e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31482e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22465e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14147e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08167e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04465e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02144e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00773e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36772e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78806e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.36308e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.28720e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.52819e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.54400e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.27244e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.36001e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.45392e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39310e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31686e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22645e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14295e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08279e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04545e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02198e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00806e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36574e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78950e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.37210e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.30592e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.55584e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.57174e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.29658e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.38104e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.45618e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39529e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31892e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22826e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14443e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08392e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04626e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02253e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00839e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36372e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79086e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.38098e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.32443e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.58330e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.59942e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.32069e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.40208e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.45844e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39748e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32097e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23007e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14593e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08505e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04707e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02309e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00873e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36167e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79216e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.38970e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.34274e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.61057e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.62701e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.34478e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.42313e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46070e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39968e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32303e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23189e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14743e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08620e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04790e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02365e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00908e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35958e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79338e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.39829e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.36084e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.63765e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.65453e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.36885e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.44418e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46297e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.40188e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32510e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23372e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14894e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08735e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04873e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02422e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00943e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35747e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79453e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.40673e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.37874e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.66454e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.68196e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.39289e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.46524e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46524e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.40408e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32717e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23555e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15046e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08851e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04958e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02481e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00980e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35532e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79561e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.41503e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.39643e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.69125e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.70931e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.41691e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.48631e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46751e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.40629e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32924e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23739e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15198e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08968e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05043e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02540e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01017e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35314e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79663e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.42319e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.41393e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.71776e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.73657e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.44089e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.50737e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46979e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.40851e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33132e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23923e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15351e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09085e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05128e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02600e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01055e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35092e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79757e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.43121e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.43122e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.74408e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.76375e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.46483e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.52843e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.47207e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41072e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33341e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24108e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15505e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09204e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05215e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02660e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01094e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.34868e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79844e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.43909e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.44832e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.77022e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.79084e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.48874e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.54948e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.47436e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41294e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33550e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24294e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15659e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09323e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05303e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02722e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01133e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.34640e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79925e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.44684e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.46521e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.79616e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.81784e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.51261e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.57053e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.47665e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41517e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33759e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24480e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15815e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09443e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05391e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02784e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01174e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.34410e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79999e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.45444e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.48191e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.82191e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.84475e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.53643e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.59157e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.47894e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41740e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33969e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24666e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15970e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09564e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05480e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02847e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01215e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.34176e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80066e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.46191e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.49841e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.84746e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.87156e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.56022e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.61259e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.48124e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41963e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.34179e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24854e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16127e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09685e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05570e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02911e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01257e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.33939e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80127e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.46925e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.51471e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.87283e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.89827e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.58395e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.63361e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.48354e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.42187e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.34390e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25042e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16284e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09808e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05661e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02976e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01299e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.33700e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80181e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.47645e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.53081e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.89800e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.92489e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.60764e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.65460e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.48584e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.42412e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.34602e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25230e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16442e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09931e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05752e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03041e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01343e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.33457e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80228e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.48352e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.54672e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.92298e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.95140e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.63127e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.67558e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.48815e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.42636e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.34813e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25419e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16601e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10055e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05845e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03108e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01387e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.33212e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80269e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.49046e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.56244e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.94777e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.97781e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.65485e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.69654e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49047e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.42861e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35026e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25608e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16760e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10180e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05938e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03175e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01433e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.32963e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80303e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.49726e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.57796e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.97236e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.00412e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.67838e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.71748e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49278e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43087e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35238e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25799e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16920e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10306e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06032e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03243e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01479e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.32712e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80331e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.50394e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.59329e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.99676e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.03033e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.70185e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.73839e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49510e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43313e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35452e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25989e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17081e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10432e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06127e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03312e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01526e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.32458e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80353e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.51048e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.60843e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.02097e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.05642e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.72525e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.75927e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49743e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43539e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35665e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26181e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17243e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10559e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06223e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03381e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01573e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.32201e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80368e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.51690e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.62338e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.04498e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.08241e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.74860e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.78013e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49976e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43766e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35880e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26372e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17405e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10687e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06319e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03452e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01622e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.31941e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80377e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.52319e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.63813e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.06881e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.10829e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.77188e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.80096e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.50209e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43993e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36094e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26565e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17568e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10816e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06417e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03523e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01671e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.31679e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80380e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.52936e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.65270e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.09243e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.13406e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.79510e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.82175e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.50442e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.44220e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36309e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26758e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17731e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10946e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06515e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03595e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01721e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.31414e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80376e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.53539e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.66708e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.11587e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.15971e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.81824e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.84251e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.50676e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.44448e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36525e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26951e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17895e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11076e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06614e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03669e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01772e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.31147e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80367e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.54131e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.68127e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.13911e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.18526e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.84132e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.86323e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.50910e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.44677e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36741e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27145e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18060e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11207e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06714e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03742e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01824e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.30876e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80351e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.54710e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.69527e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.16216e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.21068e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.86433e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.88391e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.51145e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.44905e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36957e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27340e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18226e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11339e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06815e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03817e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01877e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.30604e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80330e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.55277e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.70909e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.18502e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.23599e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.88726e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.90455e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.51380e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.45135e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.37174e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27535e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18392e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11472e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06916e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03893e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01930e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.30328e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80302e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.55832e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.72272e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.20769e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.26117e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.91012e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.92514e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.51616e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.45364e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.37392e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27730e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18559e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11605e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07018e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03969e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01985e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.30050e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80269e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.56375e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.73617e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.23016e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.28624e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.93291e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.94569e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.51851e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.45594e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.37610e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27927e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18726e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11740e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07121e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04046e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02040e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.29770e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80230e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.56906e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.74943e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.25244e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.31119e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.95562e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.96620e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.52087e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.45824e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.37828e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28123e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18894e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11875e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07225e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04124e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02096e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.29487e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80185e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.57425e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.76252e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.27453e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.33601e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.97825e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.98665e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.52324e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46055e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38047e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28321e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19063e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12010e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07330e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04203e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02153e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.29202e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80134e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.57932e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.77542e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.29642e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.36070e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.00080e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.00706e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.52561e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46286e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38266e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28519e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19233e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12147e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07436e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04283e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02211e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.28915e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80077e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.58427e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.78814e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.31813e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.38527e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.02326e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.02741e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.52798e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46518e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38485e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28717e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19403e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12284e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07542e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04363e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02269e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.28625e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80015e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.58911e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.80069e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.33964e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.40971e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.04565e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.04771e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53036e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46750e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38706e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28916e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19574e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12422e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07649e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04445e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02329e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.28332e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79947e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.59383e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.81306e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.36096e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.43402e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.06795e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.06796e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53273e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46982e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38926e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29115e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19745e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12561e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07757e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04527e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02389e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.28038e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79874e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.59843e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.82525e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.38209e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.45821e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.09016e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.08815e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53512e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.47215e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.39147e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29315e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19917e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12701e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07866e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04610e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02450e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.27741e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79795e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.60292e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.83726e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.40303e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.48226e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.11229e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.10827e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53750e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.47448e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.39369e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29516e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20090e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12841e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07976e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04694e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02512e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.27442e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79711e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.60730e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.84910e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.42378e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.50619e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.13433e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.12834e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53989e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.47681e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.39590e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29717e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20263e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12982e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08086e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04779e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02575e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.27141e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79621e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.61157e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.86077e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.44434e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.52998e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.15627e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.14835e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.54229e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.47915e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.39813e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29918e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20437e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13124e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08197e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04865e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02639e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.26838e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79526e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.61572e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.87226e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.46471e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.55363e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.17813e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.16829e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.54468e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.48149e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40035e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30121e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20612e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13267e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08309e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04951e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02704e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.26532e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79425e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.61976e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.88358e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.48489e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.57716e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.19989e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.18817e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.54709e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.48384e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40259e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30323e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20787e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13410e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08422e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05038e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02769e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.26224e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79320e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.62369e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.89473e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.50488e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.60054e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.22156e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.20798e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.54949e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.48619e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40482e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30526e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20963e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13554e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08536e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05126e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02835e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.25915e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79209e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.62752e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.90571e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.52468e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.62379e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.24314e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.22772e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.55190e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.48854e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40706e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30730e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21140e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13699e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08650e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05215e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02903e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.25603e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79093e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.63123e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.91652e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.54430e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.64691e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.26462e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.24739e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.55431e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.49090e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40931e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30934e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21317e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13845e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08765e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05305e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02971e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.25289e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78972e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.63484e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.92716e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.56373e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.66988e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.28600e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.26699e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.55672e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.49326e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.41156e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31139e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21495e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13991e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08881e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05396e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03040e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.24973e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78846e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.63833e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.93764e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.58297e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.69272e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.30728e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.28652e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.55914e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.49563e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.41381e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31344e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21673e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14138e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08998e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05487e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03110e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.24656e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78715e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.64173e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.94795e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.60202e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.71542e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.32847e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.30598e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.56156e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.49800e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.41607e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31550e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21853e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14286e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09116e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05580e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03180e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.24336e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78579e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.64501e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.95809e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.62089e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.73798e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.34955e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.32536e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.56399e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50037e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.41833e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31756e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22032e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14434e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09234e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05673e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03252e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.24014e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78438e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.64819e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.96807e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.63957e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.76040e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.37053e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.34466e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.56642e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50275e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42060e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31963e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22213e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14584e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09354e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05767e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03324e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.23691e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78292e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.65127e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.97789e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.65807e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.78268e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.39141e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.36388e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.56885e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50513e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42287e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.32170e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22394e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14734e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09474e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05861e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03397e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.23365e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78141e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.65424e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.98754e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.67638e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.80481e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.41219e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.38303e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.57128e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50751e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42514e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.32378e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22575e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14884e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09594e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05957e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03472e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.23038e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77986e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.65712e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.99704e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.69451e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.82681e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.43287e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.40209e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.57372e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50990e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42742e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.32586e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22758e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15036e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09716e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06054e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03547e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.22709e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77826e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.65989e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.00637e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.71245e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.84866e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.45343e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.42107e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.57617e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.51229e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42970e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.32795e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22940e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15188e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09838e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06151e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03623e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.22378e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77661e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.66256e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.01554e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.73021e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.87037e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.47390e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.43997e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.57861e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.51469e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.43199e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33004e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23124e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15341e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09962e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06249e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03699e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.22045e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77491e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.66512e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.02456e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.74779e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.89193e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.49425e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.45879e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.58106e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.51708e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.43428e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33214e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23308e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15494e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10086e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06348e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03777e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.21711e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77317e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.66759e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.03342e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.76518e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.91335e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.51450e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.47752e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.58351e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.51949e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.43658e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33424e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23493e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15649e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10210e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06448e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03855e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.21375e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77139e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.66996e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.04212e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.78239e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.93463e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.53464e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.49616e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.58597e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.52189e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.43888e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33635e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23678e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15804e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10336e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06548e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03935e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.21037e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76955e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.67224e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.05067e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.79942e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.95576e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.55467e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.51471e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.58843e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.52430e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.44118e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33846e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23864e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15960e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10462e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06650e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04015e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.20697e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76768e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.67441e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.05907e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.81627e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.97674e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.57459e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.53318e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.59089e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.52671e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.44349e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34058e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24050e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16116e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10589e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06752e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04096e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.20355e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76576e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.67649e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.06731e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.83293e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.99758e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.59440e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.55156e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.59336e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.52913e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.44580e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34270e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24237e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16273e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10717e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06855e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04178e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.20012e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76380e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.67847e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.07540e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.84942e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.01828e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.61410e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.56984e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.59583e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.53155e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.44811e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34483e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24425e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16431e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10846e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06959e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04261e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.19668e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76179e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68036e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.08334e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.86573e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.03883e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.63369e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.58804e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.59830e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.53398e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45043e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34696e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24613e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16590e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10975e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07064e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04345e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.19321e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75974e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68215e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.09113e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.88185e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.05923e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.65316e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.60614e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.60077e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.53640e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45276e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34910e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24802e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16749e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11105e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07170e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04429e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.18973e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75765e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68385e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.09877e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.89780e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.07948e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.67252e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.62414e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.60325e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.53883e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45509e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35124e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24992e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16909e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11236e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07276e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04515e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.18624e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75552e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68546e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.10626e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.91357e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.09959e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.69177e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.64205e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.60574e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.54127e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45742e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35338e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25182e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17070e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11368e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07383e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04601e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.18272e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75334e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68697e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.11361e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.92916e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.11955e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.71090e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.65987e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.60822e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.54371e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45975e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35553e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25372e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17231e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11501e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07491e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04688e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.17920e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75113e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68840e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.12081e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.94457e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.13937e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.72992e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.67759e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.61071e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.54615e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.46209e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35769e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25563e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17393e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11634e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07600e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04776e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.17565e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74887e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68973e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.12787e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.95981e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.15904e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.74882e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.69521e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.61320e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.54859e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.46444e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35985e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25755e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17556e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11768e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07710e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04865e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.17210e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74658e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69097e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.13478e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.97487e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.17856e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.76760e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.71274e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.61570e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.55104e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.46679e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.36202e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25948e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17719e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11903e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07820e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04955e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.16852e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74424e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69212e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.14155e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.98975e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.19793e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.78626e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.73016e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.61820e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.55349e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.46914e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.36419e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.26141e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17884e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.12038e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07932e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.05046e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.16494e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74186e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69319e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.14818e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.00446e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.21716e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.80481e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.74749e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.62070e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.55595e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.47149e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.36636e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.26334e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.18048e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.12175e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.08044e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.05137e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.16134e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73945e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69417e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.15467e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.01900e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.23624e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.82324e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.76471e+00 [%] between bin 7 and 8 ParallelTTracker {0}[2]> 01:30:28 Step 199 at 3.012 [mm], t= 28.310 [ps], E=144.351 [keV] Ippl{0}[2]> Bin 0 gamma = 1.62320e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.55841e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.47385e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.36854e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.26528e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.18214e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.12312e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.08157e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.05229e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.15772e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73700e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69506e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.16101e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.03336e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.25517e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.84155e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.78183e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.62571e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.56087e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.47622e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.37073e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.26723e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.18380e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.12450e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.08271e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.05323e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.15409e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73451e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69586e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.16722e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.04755e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.27395e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.85975e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.79885e+00 [%] between bin 7 and 8 ParallelTTracker {0}[2]> 01:30:28 Step 299 at 5.120 [mm], t= 38.310 [ps], E=254.872 [keV] ParallelTTracker {0}[2]> 01:30:29 Step 399 at 7.506 [mm], t= 48.310 [ps], E=386.356 [keV] ParallelTTracker {0}[2]> 01:30:30 Step 499 at 10.070 [mm], t= 58.310 [ps], E=532.246 [keV] ParallelTTracker {0}[2]> 01:30:30 Step 599 at 12.749 [mm], t= 68.310 [ps], E=687.611 [keV] ParallelTTracker {0}[2]> 01:30:31 Step 699 at 15.505 [mm], t= 78.310 [ps], E=848.726 [keV] ParallelTTracker {0}[2]> 01:30:31 Step 799 at 18.314 [mm], t= 88.310 [ps], E=1.013 [MeV] ParallelTTracker {0}[2]> 01:30:32 Step 899 at 21.161 [mm], t= 98.310 [ps], E=1.177 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:30:33 Step 999 at 24.034 [mm], t= 108.310 [ps], E=1.339 [MeV] ParallelTTracker {0}[2]> 01:30:33 Step 1099 at 26.927 [mm], t= 118.310 [ps], E=1.497 [MeV] ParallelTTracker {0}[2]> 01:30:34 Step 1199 at 29.836 [mm], t= 128.310 [ps], E=1.650 [MeV] ParallelTTracker {0}[2]> 01:30:34 Step 1299 at 32.756 [mm], t= 138.310 [ps], E=1.795 [MeV] ParallelTTracker {0}[2]> 01:30:35 Step 1399 at 35.685 [mm], t= 148.310 [ps], E=1.930 [MeV] ParallelTTracker {0}[2]> 01:30:35 Step 1499 at 38.621 [mm], t= 158.310 [ps], E=2.055 [MeV] ParallelTTracker {0}[2]> 01:30:36 Step 1599 at 41.562 [mm], t= 168.310 [ps], E=2.167 [MeV] ParallelTTracker {0}[2]> 01:30:36 Step 1699 at 44.508 [mm], t= 178.310 [ps], E=2.266 [MeV] ParallelTTracker {0}[2]> 01:30:37 Step 1799 at 47.457 [mm], t= 188.310 [ps], E=2.349 [MeV] ParallelTTracker {0}[2]> 01:30:37 Step 1899 at 50.408 [mm], t= 198.310 [ps], E=2.418 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:30:38 Step 1999 at 53.362 [mm], t= 208.310 [ps], E=2.471 [MeV] ParallelTTracker {0}[2]> 01:30:38 Step 2099 at 56.316 [mm], t= 218.310 [ps], E=2.508 [MeV] ParallelTTracker {0}[2]> 01:30:39 Step 2199 at 59.272 [mm], t= 228.310 [ps], E=2.533 [MeV] ParallelTTracker {0}[2]> 01:30:39 Step 2299 at 62.228 [mm], t= 238.310 [ps], E=2.545 [MeV] ParallelTTracker {0}[2]> 01:30:39 Step 2399 at 65.184 [mm], t= 248.310 [ps], E=2.549 [MeV] ParallelTTracker {0}[2]> 01:30:40 Step 2499 at 68.140 [mm], t= 258.310 [ps], E=2.548 [MeV] ParallelTTracker {0}[2]> 01:30:40 Step 2599 at 71.096 [mm], t= 268.310 [ps], E=2.545 [MeV] ParallelTTracker {0}[2]> 01:30:41 Step 2699 at 74.052 [mm], t= 278.310 [ps], E=2.543 [MeV] ParallelTTracker {0}[2]> 01:30:41 Step 2799 at 77.008 [mm], t= 288.310 [ps], E=2.547 [MeV] ParallelTTracker {0}[2]> 01:30:42 Step 2899 at 79.964 [mm], t= 298.310 [ps], E=2.560 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:30:42 Step 2999 at 82.921 [mm], t= 308.310 [ps], E=2.583 [MeV] ParallelTTracker {0}[2]> 01:30:43 Step 3099 at 85.879 [mm], t= 318.310 [ps], E=2.618 [MeV] ParallelTTracker {0}[2]> 01:30:43 Step 3199 at 88.837 [mm], t= 328.310 [ps], E=2.667 [MeV] ParallelTTracker {0}[2]> 01:30:44 Step 3299 at 91.797 [mm], t= 338.310 [ps], E=2.730 [MeV] ParallelTTracker {0}[2]> 01:30:44 Step 3399 at 94.759 [mm], t= 348.310 [ps], E=2.808 [MeV] ParallelTTracker {0}[2]> 01:30:45 Step 3499 at 97.722 [mm], t= 358.310 [ps], E=2.899 [MeV] ParallelTTracker {0}[2]> 01:30:45 Step 3599 at 100.688 [mm], t= 368.310 [ps], E=3.004 [MeV] ParallelTTracker {0}[2]> 01:30:46 Step 3699 at 103.655 [mm], t= 378.310 [ps], E=3.121 [MeV] ParallelTTracker {0}[2]> 01:30:46 Step 3799 at 106.624 [mm], t= 388.310 [ps], E=3.250 [MeV] ParallelTTracker {0}[2]> 01:30:47 Step 3899 at 109.596 [mm], t= 398.310 [ps], E=3.390 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:30:47 Step 3999 at 112.569 [mm], t= 408.310 [ps], E=3.540 [MeV] ParallelTTracker {0}[2]> 01:30:48 Step 4099 at 115.544 [mm], t= 418.310 [ps], E=3.698 [MeV] ParallelTTracker {0}[2]> 01:30:48 Step 4199 at 118.521 [mm], t= 428.310 [ps], E=3.863 [MeV] ParallelTTracker {0}[2]> 01:30:49 Step 4299 at 121.499 [mm], t= 438.310 [ps], E=4.033 [MeV] ParallelTTracker {0}[2]> 01:30:49 Step 4399 at 124.479 [mm], t= 448.310 [ps], E=4.207 [MeV] ParallelTTracker {0}[2]> 01:30:50 Step 4499 at 127.460 [mm], t= 458.310 [ps], E=4.383 [MeV] ParallelTTracker {0}[2]> 01:30:50 Step 4599 at 130.442 [mm], t= 468.310 [ps], E=4.561 [MeV] ParallelTTracker {0}[2]> 01:30:51 Step 4699 at 133.425 [mm], t= 478.310 [ps], E=4.737 [MeV] ParallelTTracker {0}[2]> 01:30:51 Step 4799 at 136.410 [mm], t= 488.310 [ps], E=4.911 [MeV] ParallelTTracker {0}[2]> 01:30:52 Step 4899 at 139.395 [mm], t= 498.310 [ps], E=5.081 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:30:52 Step 4999 at 142.381 [mm], t= 508.310 [ps], E=5.244 [MeV] ParallelTTracker {0}[2]> 01:30:53 Step 5099 at 145.367 [mm], t= 518.310 [ps], E=5.400 [MeV] ParallelTTracker {0}[2]> 01:30:53 Step 5199 at 148.354 [mm], t= 528.310 [ps], E=5.547 [MeV] ParallelTTracker {0}[2]> 01:30:54 Step 5299 at 151.342 [mm], t= 538.310 [ps], E=5.682 [MeV] ParallelTTracker {0}[2]> 01:30:54 Step 5399 at 154.330 [mm], t= 548.310 [ps], E=5.804 [MeV] ParallelTTracker {0}[2]> 01:30:55 Step 5499 at 157.318 [mm], t= 558.310 [ps], E=5.913 [MeV] ParallelTTracker {0}[2]> 01:30:55 Step 5599 at 160.307 [mm], t= 568.310 [ps], E=6.007 [MeV] ParallelTTracker {0}[2]> 01:30:56 Step 5699 at 163.295 [mm], t= 578.310 [ps], E=6.086 [MeV] ParallelTTracker {0}[2]> 01:30:56 Step 5799 at 166.284 [mm], t= 588.310 [ps], E=6.149 [MeV] ParallelTTracker {0}[2]> 01:30:57 Step 5899 at 169.274 [mm], t= 598.310 [ps], E=6.199 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:30:57 Step 5999 at 172.263 [mm], t= 608.310 [ps], E=6.235 [MeV] ParallelTTracker {0}[2]> 01:30:58 Step 6099 at 175.252 [mm], t= 618.310 [ps], E=6.261 [MeV] ParallelTTracker {0}[2]> 01:30:58 Step 6199 at 178.242 [mm], t= 628.310 [ps], E=6.278 [MeV] ParallelTTracker {0}[2]> 01:30:59 Step 6299 at 181.231 [mm], t= 638.310 [ps], E=6.288 [MeV] ParallelTTracker {0}[2]> 01:30:59 Step 6399 at 184.221 [mm], t= 648.310 [ps], E=6.293 [MeV] ParallelTTracker {0}[2]> 01:31:00 Step 6499 at 187.210 [mm], t= 658.310 [ps], E=6.295 [MeV] ParallelTTracker {0}[2]> 01:31:00 Step 6599 at 190.200 [mm], t= 668.310 [ps], E=6.295 [MeV] ParallelTTracker {0}[2]> 01:31:01 Step 6699 at 193.189 [mm], t= 678.310 [ps], E=6.293 [MeV] ParallelTTracker {0}[2]> 01:31:01 Step 6799 at 196.179 [mm], t= 688.310 [ps], E=6.291 [MeV] ParallelTTracker {0}[2]> 01:31:02 Step 6899 at 199.168 [mm], t= 698.310 [ps], E=6.289 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:31:02 Step 6999 at 202.158 [mm], t= 708.310 [ps], E=6.286 [MeV] ParallelTTracker {0}[2]> 01:31:03 Step 7099 at 205.147 [mm], t= 718.310 [ps], E=6.284 [MeV] ParallelTTracker {0}[2]> 01:31:03 Step 7199 at 208.137 [mm], t= 728.310 [ps], E=6.282 [MeV] ParallelTTracker {0}[2]> 01:31:04 Step 7299 at 211.126 [mm], t= 738.310 [ps], E=6.280 [MeV] ParallelTTracker {0}[2]> 01:31:04 Step 7399 at 214.115 [mm], t= 748.310 [ps], E=6.279 [MeV] ParallelTTracker {0}[2]> 01:31:05 Step 7499 at 217.105 [mm], t= 758.310 [ps], E=6.277 [MeV] ParallelTTracker {0}[2]> 01:31:05 Step 7599 at 220.094 [mm], t= 768.310 [ps], E=6.276 [MeV] ParallelTTracker {0}[2]> 01:31:06 Step 7699 at 223.084 [mm], t= 778.310 [ps], E=6.275 [MeV] ParallelTTracker {0}[2]> 01:31:06 Step 7799 at 226.073 [mm], t= 788.310 [ps], E=6.275 [MeV] ParallelTTracker {0}[2]> 01:31:06 Step 7899 at 229.063 [mm], t= 798.310 [ps], E=6.274 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:31:07 Step 7999 at 232.052 [mm], t= 808.310 [ps], E=6.274 [MeV] ParallelTTracker {0}[2]> 01:31:07 Step 8099 at 235.042 [mm], t= 818.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:31:08 Step 8199 at 238.031 [mm], t= 828.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:31:08 Step 8299 at 241.020 [mm], t= 838.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:31:09 Step 8399 at 244.010 [mm], t= 848.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:31:09 Step 8499 at 246.999 [mm], t= 858.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:31:10 Step 8599 at 249.989 [mm], t= 868.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:31:10 Step 8699 at 252.978 [mm], t= 878.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:31:11 Step 8799 at 255.968 [mm], t= 888.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:11 Step 8899 at 258.957 [mm], t= 898.310 [ps], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:31:12 Step 8999 at 261.946 [mm], t= 908.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:12 Step 9099 at 264.936 [mm], t= 918.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:13 Step 9199 at 267.925 [mm], t= 928.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:13 Step 9299 at 270.915 [mm], t= 938.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:14 Step 9399 at 273.904 [mm], t= 948.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:14 Step 9499 at 276.894 [mm], t= 958.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:15 Step 9599 at 279.883 [mm], t= 968.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:15 Step 9699 at 282.872 [mm], t= 978.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:16 Step 9799 at 285.862 [mm], t= 988.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:16 Step 9899 at 288.851 [mm], t= 998.310 [ps], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:31:17 Step 9999 at 291.841 [mm], t= 1.008 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:17 Step 10099 at 294.830 [mm], t= 1.018 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:18 Step 10199 at 297.820 [mm], t= 1.028 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:18 Step 10299 at 300.809 [mm], t= 1.038 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:19 Step 10399 at 303.799 [mm], t= 1.048 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:19 Step 10499 at 306.788 [mm], t= 1.058 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:20 Step 10599 at 309.777 [mm], t= 1.068 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:20 Step 10699 at 312.767 [mm], t= 1.078 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:20 Step 10799 at 315.756 [mm], t= 1.088 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:21 Step 10899 at 318.746 [mm], t= 1.098 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:31:21 Step 10999 at 321.735 [mm], t= 1.108 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:22 Step 11099 at 324.725 [mm], t= 1.118 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:22 Step 11199 at 327.714 [mm], t= 1.128 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:23 Step 11299 at 330.703 [mm], t= 1.138 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:23 Step 11399 at 333.693 [mm], t= 1.148 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:24 Step 11499 at 336.682 [mm], t= 1.158 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:24 Step 11599 at 339.672 [mm], t= 1.168 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:24 Step 11699 at 342.661 [mm], t= 1.178 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:25 Step 11799 at 345.651 [mm], t= 1.188 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:25 Step 11899 at 348.640 [mm], t= 1.198 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:31:26 Step 11999 at 351.629 [mm], t= 1.208 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:26 Step 12099 at 354.619 [mm], t= 1.218 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:27 Step 12199 at 357.608 [mm], t= 1.228 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:27 Step 12299 at 360.598 [mm], t= 1.238 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:28 Step 12399 at 363.587 [mm], t= 1.248 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:28 Step 12499 at 366.577 [mm], t= 1.258 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:28 Step 12599 at 369.566 [mm], t= 1.268 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:29 Step 12699 at 372.555 [mm], t= 1.278 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:29 Step 12799 at 375.545 [mm], t= 1.288 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:30 Step 12899 at 378.534 [mm], t= 1.298 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:31:30 Step 12999 at 381.524 [mm], t= 1.308 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:31 Step 13099 at 384.513 [mm], t= 1.318 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:31 Step 13199 at 387.503 [mm], t= 1.328 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:32 Step 13299 at 390.492 [mm], t= 1.338 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:32 Step 13399 at 393.481 [mm], t= 1.348 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:32 Step 13499 at 396.471 [mm], t= 1.358 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:33 Step 13599 at 399.460 [mm], t= 1.368 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:33 Step 13699 at 473.539 [mm], t= 1.616 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:34 Step 13799 at 563.221 [mm], t= 1.916 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:34 Step 13899 at 652.904 [mm], t= 2.216 [ns], E=6.272 [MeV] ParallelTTracker {0}> 01:31:35 Step 13999 at 742.587 [mm], t= 2.516 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:31:35 Step 14099 at 832.270 [mm], t= 2.816 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:35 Step 14199 at 921.953 [mm], t= 3.116 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:36 Step 14299 at 1.012 [m], t= 3.416 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:36 Step 14399 at 1.101 [m], t= 3.716 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:37 Step 14499 at 1.191 [m], t= 4.016 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:37 Step 14599 at 1.281 [m], t= 4.316 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:37 Step 14699 at 1.370 [m], t= 4.616 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:38 Step 14799 at 1.460 [m], t= 4.916 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:38 Step 14899 at 1.550 [m], t= 5.216 [ns], E=6.271 [MeV] ParallelTTracker {0}> 01:31:39 Step 14999 at 1.639 [m], t= 5.516 [ns], E=6.271 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:31:39 Step 15099 at 1.729 [m], t= 5.816 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:39 Step 15199 at 1.819 [m], t= 6.116 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:40 Step 15299 at 1.908 [m], t= 6.416 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:40 Step 15399 at 1.998 [m], t= 6.716 [ns], E=6.271 [MeV] OPAL {0}> OPAL {0}> * ************** B U N C H ********************************************************* OPAL {0}> * NP = 10000 OPAL {0}> * Qtot = 1.000 [nC] Qi = 100.000 [fC] OPAL {0}> * Ekin = 6.271 [MeV] dEkin = 36.698 [keV] OPAL {0}> * rmax = ( 1.69435 , 1.80568 , 4.46025 ) [mm] OPAL {0}> * rmin = ( -1.90011 , -1.61421 , -5.36934 ) [mm] OPAL {0}> * rms beam size = ( 0.48583 , 0.47131 , 2.03534 ) [mm] OPAL {0}> * rms momenta = ( 7.29238e-03 , 7.27407e-03 , 7.20229e-02 ) [beta gamma] OPAL {0}> * mean position = ( 1.29462 , -4.98384 , -479.73943 ) [um] OPAL {0}> * mean momenta = ( 1.66316e-05 , -4.51727e-05 , 1.32337e+01 ) [beta gamma] OPAL {0}> * rms emittance = ( 2.20722e-07 , 2.07173e-07 , 3.87465e-06 ) (not normalized) OPAL {0}> * rms correlation = ( -5.65914e-01 , -6.00383e-01 , 9.36829e-01 ) OPAL {0}> * hr = ( 244.30141 , 232.42569 , 668.41035 ) [um] OPAL {0}> * dh = 1.00000e+00 [%] OPAL {0}> * t = 6.722 [ns] dT = 3.000 [ps] OPAL {0}> * spos = 2.000 [m] OPAL {0}> * ********************************************************************************** OPAL {0}> OPAL {0}[2]> * Wrote beam phase space. ParallelTTracker {0}[2]> Dump phase space of last step OPAL{0}> OPAL{0}> * Done executing ParallelTTracker at 01:31:40 OPAL{0}> OPAL{0}> * End of input stream "AWAGun-1.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 80.8875, CPU tot = 80.9 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.0206932, CPU max = 0.04 Timings{0}> Wall avg = 0.020642, CPU avg = 0.0225 Timings{0}> Wall min = 0.0205085, CPU min = 0.01 Timings{0}> Timings{0}> Boundingbox......... Wall max = 1.63773, CPU max = 1.73 Timings{0}> Wall avg = 1.60127, CPU avg = 1.6275 Timings{0}> Wall min = 1.58262, CPU min = 1.52 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0.241242, CPU max = 0.3 Timings{0}> Wall avg = 0.231736, CPU avg = 0.2475 Timings{0}> Wall min = 0.219749, CPU min = 0.2 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 1.04314, CPU max = 1.05 Timings{0}> Wall avg = 1.03851, CPU avg = 1.035 Timings{0}> Wall min = 1.03335, CPU min = 1.01 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 4.01958, CPU max = 4.44 Timings{0}> Wall avg = 3.98034, CPU avg = 4.17 Timings{0}> Wall min = 3.95449, CPU min = 3.94 Timings{0}> Timings{0}> ComputePotential.... Wall max = 30.2411, CPU max = 30.5 Timings{0}> Wall avg = 30.2158, CPU avg = 29.9075 Timings{0}> Wall min = 30.1951, CPU min = 29.22 Timings{0}> Timings{0}> Create Distr........ Wall max = 0.00323087, CPU max = 0.01 Timings{0}> Wall avg = 0.00293692, CPU avg = 0.0025 Timings{0}> Wall min = 0.00281588, CPU min = 0 Timings{0}> Timings{0}> External field eval. Wall max = 11.5721, CPU max = 11.99 Timings{0}> Wall avg = 10.9711, CPU avg = 11.005 Timings{0}> Wall min = 9.28864, CPU min = 9.18 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> SelfField total..... Wall max = 49.697, CPU max = 49.57 Timings{0}> Wall avg = 49.3238, CPU avg = 48.84 Timings{0}> Wall min = 48.6264, CPU min = 48.1 Timings{0}> Timings{0}> SF: GreensFTotal.... Wall max = 21.3384, CPU max = 21.43 Timings{0}> Wall avg = 21.1934, CPU avg = 20.9325 Timings{0}> Wall min = 21.0531, CPU min = 20.42 Timings{0}> Timings{0}> TIntegration1....... Wall max = 1.95137, CPU max = 2.06 Timings{0}> Wall avg = 1.92881, CPU avg = 1.9175 Timings{0}> Wall min = 1.90318, CPU min = 1.78 Timings{0}> Timings{0}> TIntegration2....... Wall max = 4.32594, CPU max = 4.47 Timings{0}> Wall avg = 4.31432, CPU avg = 4.38 Timings{0}> Wall min = 4.28682, CPU min = 4.26 Timings{0}> Timings{0}> WakeField........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.118462, CPU max = 0.01 Timings{0}> Wall avg = 0.118431, CPU avg = 0.005 Timings{0}> Wall min = 0.118407, CPU min = 0 Timings{0}> Timings{0}> Write Stat.......... Wall max = 0.146893, CPU max = 0.07 Timings{0}> Wall avg = 0.0514964, CPU avg = 0.0275 Timings{0}> Wall min = 0.0190459, CPU min = 0.01 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AWAGun-TrackBack-1.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 01:31:43 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AWAGun-TrackBack-1.in". OPAL{0}> OPAL{0}> value: {P0,OPALVERSION} = {0.00676256, 2.02101e+07} OPAL{0}> OPAL{0}> OPAL{0}> value: {KSBF,SF} = {0.120154, 0.379111} OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == PARALLEL-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. Ippl{0}> * Creating new file for data: AWAGun-TrackBack-1.stat Ippl{0}> * Creating new file for data: AWAGun-TrackBack-1.lbal OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 10000 OPAL{0}> * OPAL{0}> * Distribution type: FROMFILE OPAL{0}> * OPAL{0}> * Input file: DistAt2m.dat OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE ELECTRON OPAL{0}> * CURRENT 1.300000e+00 A OPAL{0}> * FREQUENCY 1.300000e+03 MHz OPAL{0}> * CHARGE -e * 1.000000e+00 OPAL{0}> * REST MASS 5.109990e-04 GeV OPAL{0}> * MOMENTUM 6.762560e-03 OPAL{0}> * NPART 1.000000e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS_SC OPAL{0}> * TYPE FFT OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 1.600000e+01 OPAL{0}> * MY 1.600000e+01 OPAL{0}> * MT 1.600000e+01 OPAL{0}> * BBOXINCR 1.000000e+00 OPAL{0}> * GRRENSF INTEGRATED OPAL{0}> * XDIM serial OPAL{0}> * YDIM serial OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}[2]> Phase space dump frequency 300000 and statistics dump frequency 10 w.r.t. the time step. RFCavity {0}[2]> GUN using file DriveGun.T7 (2D dynamic); zini= 0 m; zfinal= 0.292707 m; Solenoid {0}[2]> BF using file BF_550.T7 (2D magnetostatic); zini= 0 m; zfinal= 0.5 m; Solenoid {0}[2]> M using file M_440.T7 (2D magnetostatic); zini= 0 m; zfinal= 0.5 m; Ippl{0}> Ippl{0}> * ************* G U N ************************************************************** Ippl{0}[2]> estimated phase= 2.4642024 rad = 141.1884 deg Ippl{0}[2]> Ekin= 6.2824667 MeV Ippl{0}[2]> Ippl{0}> GUN_phi = 140.4696 [deg], corresp. in Astra = 230.4696 [deg], Ippl{0}> E = 6.2831 [MeV], phi_nom = 0.0000 [deg] Ippl{0}> Ez_0 = 60.0000 [MV/m] Ippl{0}> time = 0.0000 [ns], dt = 0.1000 [ps] Ippl{0}> * ********************************************************************************** Ippl{0}> Ippl{0}> Ippl{0}> * ************* G U N ************************************************************** Ippl{0}> >>>>>> APVETO >>>>>> Ippl{0}> GUN_phi = 140.4696 [deg], corresp. in Astra = 90.0000 [deg], Ippl{0}> E = 6.2831 [MeV], phi_nom = 140.4696 [deg] Ippl{0}> Ez_0 = 60.0000 [MV/m] Ippl{0}> time = 0.0321 [ns], dt = -0.1000 [ps] Ippl{0}> <<<<<< APVETO <<<<<< Ippl{0}> * ********************************************************************************** Ippl{0}> OPAL{0}> OPAL{0}> * Size of map 4 sections OPAL{0}> * Key: (-0.000000 - 0.000000) number of overlapping elements 1 OPAL{0}> * GUNSOURCE OPAL{0}> * Key: (0.000000 - 0.292705) number of overlapping elements 3 OPAL{0}> * M OPAL{0}> * GUN OPAL{0}> * BF OPAL{0}> * Key: (0.292705 - 0.499992) number of overlapping elements 2 OPAL{0}> * M OPAL{0}> * BF OPAL{0}> * Key: (0.499992 - 2.005381) number of overlapping elements 1 OPAL{0}> * DR1 OPAL{0}> Ippl{0}> * Creating new file for data: data/AWAGun-TrackBack-1_ElementPositions.sdds Ippl{0}> Saved phases in the h5 file: Cav-1-name -> GUN --- Cav-1-value -> 2.4517 OPAL{0}> OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 10000 OPAL{0}> * Qtot = 1000.000 [pC] Qi = 100.000 [fC] OPAL{0}> * Ekin = 6.271 [MeV] dEkin = 36.698 [keV] OPAL{0}> * rmax = ( 1.69435 , 1.80568 , 4.46025 ) [mm] OPAL{0}> * rmin = ( -1.90011 , -1.61421 , -5.36934 ) [mm] OPAL{0}> * rms beam size = ( 0.48583 , 0.47131 , 2.03534 ) [mm] OPAL{0}> * rms momenta = ( 7.29238e-03 , 7.27407e-03 , 7.20229e-02 ) [beta gamma] OPAL{0}> * mean position = ( 1.29462 , -4.98384 , -479.73938 ) [um] OPAL{0}> * mean momenta = ( 1.66316e-05 , -4.51727e-05 , 1.32337e+01 ) [beta gamma] OPAL{0}> * rms emittance = ( 2.20722e-07 , 2.07173e-07 , 3.87465e-06 ) (not normalized) OPAL{0}> * rms correlation = ( -5.65914e-01 , -6.00383e-01 , 9.36829e-01 ) OPAL{0}> * hr = ( 244.42316 , 232.55257 , 668.41212 ) [um] OPAL{0}> * dh = 1.00000e+00 [%] OPAL{0}> * t = 6.722 [ns] dT = -3.000 [ps] OPAL{0}> * spos = 2.000 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Track start at: 01:31:43, t= 6.722 [ns]; zstart at: 2.000 [m] OPAL{0}> * Executing ParallelTTracker OPAL{0}> * Initial dt = -3.000 [ps] OPAL{0}> * Max integration steps = 19000, next step = 0 OPAL{0}> ParallelTTracker {0}[2]> MINBINEMITTED 10 ParallelTTracker {0}[2]> MINSTEPFORREBIN 200 ParallelTTracker {0}[2]> REPARTFREQ 1000 ParallelTTracker {0}[2]> 01:31:44 Step 99 at 1.910 [m], t= 6.422 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:44 Step 199 at 1.821 [m], t= 6.122 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:45 Step 299 at 1.731 [m], t= 5.822 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:45 Step 399 at 1.641 [m], t= 5.522 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:46 Step 499 at 1.552 [m], t= 5.222 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:46 Step 599 at 1.462 [m], t= 4.922 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:47 Step 699 at 1.372 [m], t= 4.622 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:47 Step 799 at 1.283 [m], t= 4.322 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 01:31:47 Step 899 at 1.193 [m], t= 4.022 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 01:31:48 Step 999 at 1.103 [m], t= 3.722 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:48 Step 1099 at 1.013 [m], t= 3.422 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:49 Step 1199 at 923.804 [mm], t= 3.122 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:49 Step 1299 at 834.121 [mm], t= 2.822 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:49 Step 1399 at 744.438 [mm], t= 2.522 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:50 Step 1499 at 654.755 [mm], t= 2.222 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:50 Step 1599 at 565.072 [mm], t= 1.922 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:51 Step 1699 at 475.389 [mm], t= 1.622 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:51 Step 1799 at 399.577 [mm], t= 1.369 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:52 Step 1899 at 396.588 [mm], t= 1.359 [ns], E=6.272 [MeV] ParallelTTracker {0}> 01:31:52 Step 1999 at 393.598 [mm], t= 1.349 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:31:52 Step 2099 at 390.609 [mm], t= 1.339 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:53 Step 2199 at 387.619 [mm], t= 1.329 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:53 Step 2299 at 384.630 [mm], t= 1.319 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:54 Step 2399 at 381.641 [mm], t= 1.309 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:54 Step 2499 at 378.651 [mm], t= 1.299 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:55 Step 2599 at 375.662 [mm], t= 1.289 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:55 Step 2699 at 372.672 [mm], t= 1.279 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:56 Step 2799 at 369.683 [mm], t= 1.269 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:56 Step 2899 at 366.693 [mm], t= 1.259 [ns], E=6.272 [MeV] ParallelTTracker {0}> 01:31:56 Step 2999 at 363.704 [mm], t= 1.249 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:31:57 Step 3099 at 360.715 [mm], t= 1.239 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:57 Step 3199 at 357.725 [mm], t= 1.229 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:58 Step 3299 at 354.736 [mm], t= 1.219 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:58 Step 3399 at 351.746 [mm], t= 1.209 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:59 Step 3499 at 348.757 [mm], t= 1.199 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:31:59 Step 3599 at 345.767 [mm], t= 1.189 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:00 Step 3699 at 342.778 [mm], t= 1.179 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:00 Step 3799 at 339.788 [mm], t= 1.169 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:00 Step 3899 at 336.799 [mm], t= 1.159 [ns], E=6.272 [MeV] ParallelTTracker {0}> 01:32:01 Step 3999 at 333.810 [mm], t= 1.149 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:01 Step 4099 at 330.820 [mm], t= 1.139 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:02 Step 4199 at 327.831 [mm], t= 1.129 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:02 Step 4299 at 324.841 [mm], t= 1.119 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:03 Step 4399 at 321.852 [mm], t= 1.109 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:03 Step 4499 at 318.862 [mm], t= 1.099 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:04 Step 4599 at 315.873 [mm], t= 1.089 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:04 Step 4699 at 312.884 [mm], t= 1.079 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:04 Step 4799 at 309.894 [mm], t= 1.069 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:05 Step 4899 at 306.905 [mm], t= 1.059 [ns], E=6.272 [MeV] ParallelTTracker {0}> 01:32:05 Step 4999 at 303.915 [mm], t= 1.049 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:06 Step 5099 at 300.926 [mm], t= 1.039 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:06 Step 5199 at 297.936 [mm], t= 1.029 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:07 Step 5299 at 294.947 [mm], t= 1.019 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:07 Step 5399 at 291.958 [mm], t= 1.009 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:08 Step 5499 at 288.968 [mm], t= 998.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:08 Step 5599 at 285.979 [mm], t= 988.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:09 Step 5699 at 282.989 [mm], t= 978.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:09 Step 5799 at 280.000 [mm], t= 968.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:10 Step 5899 at 277.010 [mm], t= 958.704 [ps], E=6.272 [MeV] ParallelTTracker {0}> 01:32:10 Step 5999 at 274.021 [mm], t= 948.704 [ps], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:11 Step 6099 at 271.032 [mm], t= 938.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:11 Step 6199 at 268.042 [mm], t= 928.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:12 Step 6299 at 265.053 [mm], t= 918.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:12 Step 6399 at 262.063 [mm], t= 908.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:13 Step 6499 at 259.074 [mm], t= 898.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:13 Step 6599 at 256.084 [mm], t= 888.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 01:32:14 Step 6699 at 253.095 [mm], t= 878.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:32:14 Step 6799 at 250.105 [mm], t= 868.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:32:15 Step 6899 at 247.116 [mm], t= 858.704 [ps], E=6.273 [MeV] ParallelTTracker {0}> 01:32:15 Step 6999 at 244.127 [mm], t= 848.704 [ps], E=6.273 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:16 Step 7099 at 241.137 [mm], t= 838.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:32:16 Step 7199 at 238.148 [mm], t= 828.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:32:17 Step 7299 at 235.158 [mm], t= 818.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 01:32:17 Step 7399 at 232.169 [mm], t= 808.704 [ps], E=6.274 [MeV] ParallelTTracker {0}[2]> 01:32:17 Step 7499 at 229.179 [mm], t= 798.704 [ps], E=6.274 [MeV] ParallelTTracker {0}[2]> 01:32:18 Step 7599 at 226.190 [mm], t= 788.704 [ps], E=6.275 [MeV] ParallelTTracker {0}[2]> 01:32:18 Step 7699 at 223.201 [mm], t= 778.704 [ps], E=6.275 [MeV] ParallelTTracker {0}[2]> 01:32:19 Step 7799 at 220.211 [mm], t= 768.704 [ps], E=6.276 [MeV] ParallelTTracker {0}[2]> 01:32:19 Step 7899 at 217.222 [mm], t= 758.704 [ps], E=6.277 [MeV] ParallelTTracker {0}> 01:32:20 Step 7999 at 214.232 [mm], t= 748.704 [ps], E=6.278 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:20 Step 8099 at 211.243 [mm], t= 738.704 [ps], E=6.280 [MeV] ParallelTTracker {0}[2]> 01:32:21 Step 8199 at 208.253 [mm], t= 728.704 [ps], E=6.282 [MeV] ParallelTTracker {0}[2]> 01:32:21 Step 8299 at 205.264 [mm], t= 718.704 [ps], E=6.284 [MeV] ParallelTTracker {0}[2]> 01:32:22 Step 8399 at 202.274 [mm], t= 708.704 [ps], E=6.286 [MeV] ParallelTTracker {0}[2]> 01:32:22 Step 8499 at 199.285 [mm], t= 698.704 [ps], E=6.289 [MeV] ParallelTTracker {0}[2]> 01:32:23 Step 8599 at 196.295 [mm], t= 688.704 [ps], E=6.291 [MeV] ParallelTTracker {0}[2]> 01:32:23 Step 8699 at 193.306 [mm], t= 678.704 [ps], E=6.293 [MeV] ParallelTTracker {0}[2]> 01:32:24 Step 8799 at 190.317 [mm], t= 668.704 [ps], E=6.295 [MeV] ParallelTTracker {0}[2]> 01:32:24 Step 8899 at 187.327 [mm], t= 658.704 [ps], E=6.295 [MeV] ParallelTTracker {0}> 01:32:25 Step 8999 at 184.338 [mm], t= 648.704 [ps], E=6.294 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:25 Step 9099 at 181.348 [mm], t= 638.704 [ps], E=6.288 [MeV] ParallelTTracker {0}[2]> 01:32:26 Step 9199 at 178.359 [mm], t= 628.704 [ps], E=6.279 [MeV] ParallelTTracker {0}[2]> 01:32:26 Step 9299 at 175.369 [mm], t= 618.704 [ps], E=6.262 [MeV] ParallelTTracker {0}[2]> 01:32:27 Step 9399 at 172.380 [mm], t= 608.704 [ps], E=6.237 [MeV] ParallelTTracker {0}[2]> 01:32:27 Step 9499 at 169.390 [mm], t= 598.704 [ps], E=6.200 [MeV] ParallelTTracker {0}[2]> 01:32:28 Step 9599 at 166.401 [mm], t= 588.704 [ps], E=6.151 [MeV] ParallelTTracker {0}[2]> 01:32:28 Step 9699 at 163.412 [mm], t= 578.704 [ps], E=6.088 [MeV] ParallelTTracker {0}[2]> 01:32:29 Step 9799 at 160.423 [mm], t= 568.704 [ps], E=6.010 [MeV] ParallelTTracker {0}[2]> 01:32:29 Step 9899 at 157.435 [mm], t= 558.704 [ps], E=5.917 [MeV] ParallelTTracker {0}> 01:32:30 Step 9999 at 154.446 [mm], t= 548.704 [ps], E=5.809 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:30 Step 10099 at 151.458 [mm], t= 538.704 [ps], E=5.687 [MeV] ParallelTTracker {0}[2]> 01:32:31 Step 10199 at 148.471 [mm], t= 528.704 [ps], E=5.552 [MeV] ParallelTTracker {0}[2]> 01:32:31 Step 10299 at 145.484 [mm], t= 518.704 [ps], E=5.406 [MeV] ParallelTTracker {0}[2]> 01:32:32 Step 10399 at 142.497 [mm], t= 508.704 [ps], E=5.251 [MeV] ParallelTTracker {0}[2]> 01:32:32 Step 10499 at 139.511 [mm], t= 498.704 [ps], E=5.087 [MeV] ParallelTTracker {0}[2]> 01:32:33 Step 10599 at 136.526 [mm], t= 488.704 [ps], E=4.918 [MeV] ParallelTTracker {0}[2]> 01:32:33 Step 10699 at 133.542 [mm], t= 478.704 [ps], E=4.744 [MeV] ParallelTTracker {0}[2]> 01:32:34 Step 10799 at 130.559 [mm], t= 468.704 [ps], E=4.568 [MeV] ParallelTTracker {0}[2]> 01:32:34 Step 10899 at 127.576 [mm], t= 458.704 [ps], E=4.390 [MeV] ParallelTTracker {0}> 01:32:35 Step 10999 at 124.595 [mm], t= 448.704 [ps], E=4.214 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:35 Step 11099 at 121.616 [mm], t= 438.704 [ps], E=4.039 [MeV] ParallelTTracker {0}[2]> 01:32:36 Step 11199 at 118.637 [mm], t= 428.704 [ps], E=3.869 [MeV] ParallelTTracker {0}[2]> 01:32:36 Step 11299 at 115.660 [mm], t= 418.704 [ps], E=3.704 [MeV] ParallelTTracker {0}[2]> 01:32:37 Step 11399 at 112.685 [mm], t= 408.704 [ps], E=3.546 [MeV] ParallelTTracker {0}[2]> 01:32:37 Step 11499 at 109.712 [mm], t= 398.704 [ps], E=3.396 [MeV] ParallelTTracker {0}[2]> 01:32:38 Step 11599 at 106.740 [mm], t= 388.704 [ps], E=3.256 [MeV] ParallelTTracker {0}[2]> 01:32:38 Step 11699 at 103.771 [mm], t= 378.704 [ps], E=3.126 [MeV] ParallelTTracker {0}[2]> 01:32:39 Step 11799 at 100.803 [mm], t= 368.704 [ps], E=3.008 [MeV] ParallelTTracker {0}[2]> 01:32:39 Step 11899 at 97.838 [mm], t= 358.704 [ps], E=2.903 [MeV] ParallelTTracker {0}> 01:32:40 Step 11999 at 94.875 [mm], t= 348.704 [ps], E=2.811 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:40 Step 12099 at 91.913 [mm], t= 338.704 [ps], E=2.733 [MeV] ParallelTTracker {0}[2]> 01:32:41 Step 12199 at 88.953 [mm], t= 328.704 [ps], E=2.670 [MeV] ParallelTTracker {0}[2]> 01:32:41 Step 12299 at 85.994 [mm], t= 318.704 [ps], E=2.620 [MeV] ParallelTTracker {0}[2]> 01:32:42 Step 12399 at 83.037 [mm], t= 308.704 [ps], E=2.584 [MeV] ParallelTTracker {0}[2]> 01:32:42 Step 12499 at 80.080 [mm], t= 298.704 [ps], E=2.560 [MeV] ParallelTTracker {0}[2]> 01:32:42 Step 12599 at 77.124 [mm], t= 288.704 [ps], E=2.548 [MeV] ParallelTTracker {0}[2]> 01:32:43 Step 12699 at 74.168 [mm], t= 278.704 [ps], E=2.543 [MeV] ParallelTTracker {0}[2]> 01:32:43 Step 12799 at 71.212 [mm], t= 268.704 [ps], E=2.544 [MeV] ParallelTTracker {0}[2]> 01:32:44 Step 12899 at 68.256 [mm], t= 258.704 [ps], E=2.548 [MeV] ParallelTTracker {0}> 01:32:44 Step 12999 at 65.299 [mm], t= 248.704 [ps], E=2.549 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:45 Step 13099 at 62.343 [mm], t= 238.704 [ps], E=2.546 [MeV] ParallelTTracker {0}[2]> 01:32:45 Step 13199 at 59.387 [mm], t= 228.704 [ps], E=2.533 [MeV] ParallelTTracker {0}[2]> 01:32:46 Step 13299 at 56.432 [mm], t= 218.704 [ps], E=2.510 [MeV] ParallelTTracker {0}[2]> 01:32:46 Step 13399 at 53.477 [mm], t= 208.704 [ps], E=2.472 [MeV] ParallelTTracker {0}[2]> 01:32:47 Step 13499 at 50.524 [mm], t= 198.704 [ps], E=2.420 [MeV] ParallelTTracker {0}[2]> 01:32:47 Step 13599 at 47.572 [mm], t= 188.704 [ps], E=2.352 [MeV] ParallelTTracker {0}[2]> 01:32:48 Step 13699 at 44.623 [mm], t= 178.704 [ps], E=2.269 [MeV] ParallelTTracker {0}[2]> 01:32:48 Step 13799 at 41.677 [mm], t= 168.704 [ps], E=2.171 [MeV] ParallelTTracker {0}[2]> 01:32:49 Step 13899 at 38.736 [mm], t= 158.704 [ps], E=2.060 [MeV] ParallelTTracker {0}> 01:32:49 Step 13999 at 35.799 [mm], t= 148.704 [ps], E=1.936 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:50 Step 14099 at 32.870 [mm], t= 138.704 [ps], E=1.800 [MeV] ParallelTTracker {0}[2]> 01:32:50 Step 14199 at 29.950 [mm], t= 128.704 [ps], E=1.656 [MeV] ParallelTTracker {0}[2]> 01:32:51 Step 14299 at 27.041 [mm], t= 118.704 [ps], E=1.504 [MeV] ParallelTTracker {0}[2]> 01:32:51 Step 14399 at 24.147 [mm], t= 108.704 [ps], E=1.345 [MeV] ParallelTTracker {0}[2]> 01:32:52 Step 14499 at 21.272 [mm], t= 98.704 [ps], E=1.183 [MeV] ParallelTTracker {0}[2]> 01:32:52 Step 14599 at 18.425 [mm], t= 88.704 [ps], E=1.019 [MeV] ParallelTTracker {0}[2]> 01:32:53 Step 14699 at 15.614 [mm], t= 78.704 [ps], E=855.104 [keV] ParallelTTracker {0}[2]> 01:32:53 Step 14799 at 12.856 [mm], t= 68.704 [ps], E=693.827 [keV] ParallelTTracker {0}[2]> 01:32:54 Step 14899 at 10.173 [mm], t= 58.704 [ps], E=538.173 [keV] ParallelTTracker {0}> 01:32:54 Step 14999 at 7.604 [mm], t= 48.704 [ps], E=391.828 [keV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 01:32:55 Step 15099 at 5.209 [mm], t= 38.704 [ps], E=259.668 [keV] ParallelTTracker {0}[2]> 01:32:55 Step 15199 at 3.088 [mm], t= 28.704 [ps], E=148.180 [keV] ParallelTTracker {0}[2]> 01:32:56 Step 15299 at 1.391 [mm], t= 18.704 [ps], E=65.177 [keV] ParallelTTracker {0}[2]> 01:32:57 Step 15399 at 311.356 [um], t= 8.704 [ps], E=17.554 [keV] OPAL {0}> OPAL {0}> * ************** B U N C H ********************************************************* OPAL {0}> * NP = 10000 OPAL {0}> * Qtot = 1.000 [nC] Qi = 100.000 [fC] OPAL {0}> * Ekin = 8.462 [keV] dEkin = 9.529 [keV] OPAL {0}> * rmax = ( 1.02243 , 1.02817 , 1.31554 ) [mm] OPAL {0}> * rmin = ( -1.03109 , -1.01718 , 0.10645 ) [mm] OPAL {0}> * rms beam size = ( 454.30916 , 450.79892 , 164.70491 ) [um] OPAL {0}> * rms momenta = ( 4.14654e-02 , 4.15995e-02 , 1.66549e-01 ) [beta gamma] OPAL {0}> * mean position = ( -1.78169 , -0.12475 , 290.30171 ) [um] OPAL {0}> * mean momenta = ( -2.68464e-06 , 1.92383e-06 , -5.05331e-02 ) [beta gamma] OPAL {0}> * rms emittance = ( 3.28020e-05 , 3.28845e-05 , 1.43986e-04 ) (not normalized) OPAL {0}> * rms correlation = ( -9.48024e-01 , -9.47266e-01 , -2.82741e-01 ) OPAL {0}> * hr = ( 137.03587 , 136.45623 , 81.37256 ) [um] OPAL {0}> * dh = 1.00000e+00 [%] OPAL {0}> * t = -95.542 [fs] dT = -100.000 [fs] OPAL {0}> * spos = 0.000 [um] OPAL {0}> * ********************************************************************************** OPAL {0}> OPAL {0}[2]> * Wrote beam phase space. ParallelTTracker {0}[2]> Dump phase space of last step OPAL{0}> OPAL{0}> * Done executing ParallelTTracker at 01:32:58 OPAL{0}> OPAL{0}> * End of input stream "AWAGun-TrackBack-1.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 74.7823, CPU tot = 74.85 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.0213004, CPU max = 0.02 Timings{0}> Wall avg = 0.0212487, CPU avg = 0.01 Timings{0}> Wall min = 0.0211138, CPU min = 0 Timings{0}> Timings{0}> Boundingbox......... Wall max = 1.67954, CPU max = 1.92 Timings{0}> Wall avg = 1.64628, CPU avg = 1.7775 Timings{0}> Wall min = 1.62888, CPU min = 1.71 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0.24593, CPU max = 0.35 Timings{0}> Wall avg = 0.237717, CPU avg = 0.315 Timings{0}> Wall min = 0.223975, CPU min = 0.27 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 1.07301, CPU max = 1.12 Timings{0}> Wall avg = 1.06906, CPU avg = 1.0625 Timings{0}> Wall min = 1.06441, CPU min = 1.01 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 4.09675, CPU max = 4.15 Timings{0}> Wall avg = 4.06012, CPU avg = 4.0325 Timings{0}> Wall min = 4.04468, CPU min = 3.93 Timings{0}> Timings{0}> ComputePotential.... Wall max = 28.1379, CPU max = 29.23 Timings{0}> Wall avg = 28.1197, CPU avg = 28.09 Timings{0}> Wall min = 28.1007, CPU min = 27.23 Timings{0}> Timings{0}> Create Distr........ Wall max = 0.0387618, CPU max = 0.16 Timings{0}> Wall avg = 0.0387588, CPU avg = 0.1025 Timings{0}> Wall min = 0.0387574, CPU min = 0.05 Timings{0}> Timings{0}> External field eval. Wall max = 12.3394, CPU max = 12.53 Timings{0}> Wall avg = 11.0408, CPU avg = 11.2225 Timings{0}> Wall min = 8.84883, CPU min = 8.69 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> SelfField total..... Wall max = 43.1837, CPU max = 44.16 Timings{0}> Wall avg = 42.8494, CPU avg = 42.9825 Timings{0}> Wall min = 42.202, CPU min = 42.24 Timings{0}> Timings{0}> SF: GreensFTotal.... Wall max = 17.7048, CPU max = 18.07 Timings{0}> Wall avg = 17.6044, CPU avg = 17.4175 Timings{0}> Wall min = 17.485, CPU min = 16.32 Timings{0}> Timings{0}> TIntegration1....... Wall max = 1.99289, CPU max = 2.22 Timings{0}> Wall avg = 1.9753, CPU avg = 1.915 Timings{0}> Wall min = 1.94987, CPU min = 1.65 Timings{0}> Timings{0}> TIntegration2....... Wall max = 4.44008, CPU max = 4.5 Timings{0}> Wall avg = 4.42668, CPU avg = 4.3425 Timings{0}> Wall min = 4.39881, CPU min = 4.17 Timings{0}> Timings{0}> WakeField........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.0893346, CPU max = 0.01 Timings{0}> Wall avg = 0.0893059, CPU avg = 0.0075 Timings{0}> Wall min = 0.0892511, CPU min = 0 Timings{0}> Timings{0}> Write Stat.......... Wall max = 0.146983, CPU max = 0.16 Timings{0}> Wall avg = 0.051402, CPU avg = 0.05 Timings{0}> Wall min = 0.0191301, CPU min = 0.01 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-01.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 01:33:00 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-01.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=2,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=10,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * Mass of simulation particle= 7057 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.205e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-01.stat Ippl{0}> * Creating new file for data: AmrRingCyclotron-01.lbal Ippl{0}> * Creating new file for data: AmrRingCyclotron-01.grid Ippl{0}> * Creating new file for data: AmrRingCyclotron-01.mem Ippl{0}> * Creating new file for data: AmrRingCyclotron-01-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-01-bunch-0001.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 2 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1080 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.9383 GeV OPAL{0}> * MOMENTUM 0.3746 OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 1 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2130 [mm] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum (beta * gamma) = 399.2 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 399.2 [MCU] OPAL{0}> * Reference radial momentum (Pr) = -0.174 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.547e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80338e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.18747e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -5.45761e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 2 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 118.46 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40581 OPAL{0}> * Bunch position: R = 2154.3 mm, Theta = -0.10536 Deg, Z = -0.074456 mm OPAL{0}> * Local Azimuth = -0.36032 Deg, Local Elevation = -0.003497 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269801 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> minimal beta*gamma = 0.40084 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> minimal beta*gamma = 0.402464 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> minimal beta*gamma = 0.404003 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> minimal beta*gamma = 0.405725 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 236.92 ns, Live Particles: 65536 OPAL{0}> * E = 74.315 MeV, beta * gamma = 0.4091 OPAL{0}> * Bunch position: R = 2169.2 mm, Theta = -0.0143 Deg, Z = -0.069939 mm OPAL{0}> * Local Azimuth = -0.19458 Deg, Local Elevation = -0.0040634 Deg Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> minimal beta*gamma = 0.407291 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> minimal beta*gamma = 0.408773 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> minimal beta*gamma = 0.410547 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 355.38 ns, Live Particles: 65536 OPAL{0}> * E = 75.486 MeV, beta * gamma = 0.41569 OPAL{0}> * Bunch position: R = 2200.3 mm, Theta = 0.17602 Deg, Z = -0.1026 mm OPAL{0}> * Local Azimuth = 0.1795 Deg, Local Elevation = -0.0045719 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.842 [MeV] dEkin = 1.189 [MeV] OPAL{0}> * rmax = ( 2.22961 , 0.02332 , 0.00333 ) [m] OPAL{0}> * rmin = ( 2.16988 , -0.00524 , -0.00328 ) [m] OPAL{0}> * rms beam size = ( 16.99409 , 4.77551 , 1.00228 ) [mm] OPAL{0}> * rms momenta = ( 1.79710e-03 , 3.29501e-03 , 2.49964e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.20027 , 0.00676 , -0.00010 ) [m] OPAL{0}> * mean momenta = ( -1.30231e-03 , 4.15685e-01 , -3.31698e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.65211e-05 , 2.38231e-05 , 5.49310e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.38834e-01 , 7.77108e-01 , -4.11404e-01 ) OPAL{0}> * hr = ( 2.27398 , 1.70549 , 1.70549 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.188 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-01.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 95.0327, CPU tot = 94.12 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 0.994637, CPU max = 1.01 Timings{0}> Wall avg = 0.895343, CPU avg = 0.875 Timings{0}> Wall min = 0.823491, CPU min = 0.76 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.460805, CPU max = 0.52 Timings{0}> Wall avg = 0.442271, CPU avg = 0.4625 Timings{0}> Wall min = 0.414302, CPU min = 0.41 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 10.9091, CPU max = 10.98 Timings{0}> Wall avg = 10.896, CPU avg = 10.935 Timings{0}> Wall min = 10.8855, CPU min = 10.91 Timings{0}> Timings{0}> AMR solve........... Wall max = 10.8593, CPU max = 10.88 Timings{0}> Wall avg = 10.8516, CPU avg = 10.83 Timings{0}> Wall min = 10.8468, CPU min = 10.77 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 2.90591, CPU max = 2.87 Timings{0}> Wall avg = 2.74108, CPU avg = 2.7275 Timings{0}> Wall min = 2.45475, CPU min = 2.46 Timings{0}> Timings{0}> AMR update particle. Wall max = 14.7152, CPU max = 14.71 Timings{0}> Wall avg = 14.5702, CPU avg = 14.5575 Timings{0}> Wall min = 14.3281, CPU min = 14.28 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.466525, CPU max = 0.52 Timings{0}> Wall avg = 0.463702, CPU avg = 0.455 Timings{0}> Wall min = 0.460848, CPU min = 0.4 Timings{0}> Timings{0}> Boundingbox......... Wall max = 3.17846, CPU max = 3.34 Timings{0}> Wall avg = 3.11703, CPU avg = 3.1725 Timings{0}> Wall min = 2.98896, CPU min = 2.89 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0800072, CPU max = 0.05 Timings{0}> Wall avg = 0.062464, CPU avg = 0.04 Timings{0}> Wall min = 0.0498197, CPU min = 0.03 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 23.0334, CPU max = 23.06 Timings{0}> Wall avg = 18.948, CPU avg = 18.975 Timings{0}> Wall min = 16.1846, CPU min = 16.19 Timings{0}> Timings{0}> Dump................ Wall max = 2.87992, CPU max = 2.01 Timings{0}> Wall avg = 2.4996, CPU avg = 1.885 Timings{0}> Wall min = 2.35978, CPU min = 1.83 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 1.18566, CPU max = 1.28 Timings{0}> Wall avg = 1.10541, CPU avg = 1.1275 Timings{0}> Wall min = 1.00679, CPU min = 0.98 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 44.5915, CPU max = 44.53 Timings{0}> Wall avg = 41.8905, CPU avg = 41.7675 Timings{0}> Wall min = 37.8985, CPU min = 37.74 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0187133, CPU max = 0.02 Timings{0}> Wall avg = 0.0174663, CPU avg = 0.015 Timings{0}> Wall min = 0.015722, CPU min = 0.01 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.000832056, CPU max = 0 Timings{0}> Wall avg = 0.000803191, CPU avg = 0 Timings{0}> Wall min = 0.000740151, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.198662, CPU max = 0.08 Timings{0}> Wall avg = 0.196995, CPU avg = 0.0725 Timings{0}> Wall min = 0.195783, CPU min = 0.07 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.157764, CPU max = 0.02 Timings{0}> Wall avg = 0.157715, CPU avg = 0.015 Timings{0}> Wall min = 0.157605, CPU min = 0.01 Timings{0}> Timings{0}> SelfField total..... Wall max = 25.5036, CPU max = 25.46 Timings{0}> Wall avg = 25.4772, CPU avg = 25.3575 Timings{0}> Wall min = 25.4249, CPU min = 25.27 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.59227, CPU max = 0.08 Timings{0}> Wall avg = 0.591674, CPU avg = 0.065 Timings{0}> Wall min = 0.590956, CPU min = 0.04 Timings{0}> Timings{0}> Write Stat.......... Wall max = 1.28349, CPU max = 1.02 Timings{0}> Wall avg = 0.947339, CPU avg = 0.8525 Timings{0}> Wall min = 0.813531, CPU min = 0.74 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-02.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 01:34:37 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-02.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=2,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=10,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * Mass of simulation particle= 7057 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.205e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-02.stat Ippl{0}> * Creating new file for data: AmrRingCyclotron-02.lbal Ippl{0}> * Creating new file for data: AmrRingCyclotron-02.grid Ippl{0}> * Creating new file for data: AmrRingCyclotron-02.mem Ippl{0}> * Creating new file for data: AmrRingCyclotron-02-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-02-bunch-0001.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 2 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1080 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.9383 GeV OPAL{0}> * MOMENTUM 0.3746 OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 2 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2130 [mm] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum (beta * gamma) = 399.2 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 399.2 [MCU] OPAL{0}> * Reference radial momentum (Pr) = -0.174 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.547e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80334e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.30407e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -3.78409e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 2 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 118.46 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40581 OPAL{0}> * Bunch position: R = 2154.3 mm, Theta = -0.10536 Deg, Z = -0.074456 mm OPAL{0}> * Local Azimuth = -0.36032 Deg, Local Elevation = -0.003497 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269801 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> minimal beta*gamma = 0.400838 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> minimal beta*gamma = 0.402455 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> minimal beta*gamma = 0.404 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> minimal beta*gamma = 0.405726 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 236.92 ns, Live Particles: 65536 OPAL{0}> * E = 74.315 MeV, beta * gamma = 0.40912 OPAL{0}> * Bunch position: R = 2169.2 mm, Theta = -0.014932 Deg, Z = -0.050571 mm OPAL{0}> * Local Azimuth = -0.19747 Deg, Local Elevation = -0.0034407 Deg Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> minimal beta*gamma = 0.407265 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> minimal beta*gamma = 0.408746 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> minimal beta*gamma = 0.410582 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 355.38 ns, Live Particles: 65536 OPAL{0}> * E = 75.492 MeV, beta * gamma = 0.41572 OPAL{0}> * Bunch position: R = 2200.5 mm, Theta = 0.17465 Deg, Z = -0.053831 mm OPAL{0}> * Local Azimuth = 0.17361 Deg, Local Elevation = -0.0036407 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.855 [MeV] dEkin = 1.189 [MeV] OPAL{0}> * rmax = ( 2.22955 , 0.02332 , 0.00335 ) [m] OPAL{0}> * rmin = ( 2.16984 , -0.00524 , -0.00331 ) [m] OPAL{0}> * rms beam size = ( 17.01640 , 4.75077 , 1.04649 ) [mm] OPAL{0}> * rms momenta = ( 1.78371e-03 , 3.29520e-03 , 2.47856e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.20045 , 0.00671 , -0.00005 ) [m] OPAL{0}> * mean momenta = ( -1.25966e-03 , 4.15722e-01 , -2.64163e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.61989e-05 , 2.37283e-05 , 5.70791e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.38332e-01 , 7.76477e-01 , -4.03733e-01 ) OPAL{0}> * hr = ( 2.29020 , 1.71765 , 1.71765 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.188 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-02.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 181.569, CPU tot = 180.84 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 2.7538, CPU max = 2.61 Timings{0}> Wall avg = 2.56467, CPU avg = 2.495 Timings{0}> Wall min = 2.4245, CPU min = 2.36 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.461031, CPU max = 0.55 Timings{0}> Wall avg = 0.43974, CPU avg = 0.4675 Timings{0}> Wall min = 0.423728, CPU min = 0.39 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 30.946, CPU max = 30.98 Timings{0}> Wall avg = 30.9227, CPU avg = 30.935 Timings{0}> Wall min = 30.9095, CPU min = 30.9 Timings{0}> Timings{0}> AMR solve........... Wall max = 72.4919, CPU max = 72.65 Timings{0}> Wall avg = 72.2531, CPU avg = 72.3475 Timings{0}> Wall min = 72.0853, CPU min = 72.21 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 4.04902, CPU max = 3.9 Timings{0}> Wall avg = 3.83697, CPU avg = 3.775 Timings{0}> Wall min = 3.5339, CPU min = 3.67 Timings{0}> Timings{0}> AMR update particle. Wall max = 26.4162, CPU max = 26.47 Timings{0}> Wall avg = 26.2092, CPU avg = 26.2325 Timings{0}> Wall min = 25.9241, CPU min = 25.99 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.561059, CPU max = 0.65 Timings{0}> Wall avg = 0.558365, CPU avg = 0.5975 Timings{0}> Wall min = 0.555634, CPU min = 0.56 Timings{0}> Timings{0}> Boundingbox......... Wall max = 4.41603, CPU max = 4.44 Timings{0}> Wall avg = 4.29584, CPU avg = 4.2825 Timings{0}> Wall min = 4.1331, CPU min = 4.03 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.00963164, CPU max = 0.01 Timings{0}> Wall avg = 0.00953241, CPU avg = 0.01 Timings{0}> Wall min = 0.00926104, CPU min = 0.01 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 20.6334, CPU max = 20.54 Timings{0}> Wall avg = 17.5454, CPU avg = 17.545 Timings{0}> Wall min = 14.2486, CPU min = 14.34 Timings{0}> Timings{0}> Dump................ Wall max = 3.13355, CPU max = 1.97 Timings{0}> Wall avg = 2.49675, CPU avg = 1.805 Timings{0}> Wall min = 2.26879, CPU min = 1.62 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 1.14089, CPU max = 1.39 Timings{0}> Wall avg = 1.10565, CPU avg = 1.18 Timings{0}> Wall min = 1.04081, CPU min = 1.06 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 46.2274, CPU max = 46.09 Timings{0}> Wall avg = 42.9178, CPU avg = 42.7975 Timings{0}> Wall min = 39.9088, CPU min = 39.76 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0188244, CPU max = 0.03 Timings{0}> Wall avg = 0.0175476, CPU avg = 0.015 Timings{0}> Wall min = 0.0158271, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00108427, CPU max = 0 Timings{0}> Wall avg = 0.00103388, CPU avg = 0 Timings{0}> Wall min = 0.00101067, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.205832, CPU max = 0.07 Timings{0}> Wall avg = 0.204183, CPU avg = 0.065 Timings{0}> Wall min = 0.202929, CPU min = 0.06 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.157574, CPU max = 0.01 Timings{0}> Wall avg = 0.157432, CPU avg = 0.01 Timings{0}> Wall min = 0.157359, CPU min = 0.01 Timings{0}> Timings{0}> SelfField total..... Wall max = 110.756, CPU max = 110.85 Timings{0}> Wall avg = 110.71, CPU avg = 110.765 Timings{0}> Wall min = 110.662, CPU min = 110.72 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.660275, CPU max = 0.09 Timings{0}> Wall avg = 0.660028, CPU avg = 0.065 Timings{0}> Wall min = 0.659678, CPU min = 0.05 Timings{0}> Timings{0}> Write Stat.......... Wall max = 1.52113, CPU max = 1.01 Timings{0}> Wall avg = 0.893322, CPU avg = 0.7775 Timings{0}> Wall min = 0.669976, CPU min = 0.67 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-03.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 01:37:40 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-03.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=10,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=20,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * Mass of simulation particle= 7057 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.205e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-03.stat Ippl{0}> * Creating new file for data: AmrRingCyclotron-03.lbal Ippl{0}> * Creating new file for data: AmrRingCyclotron-03.grid Ippl{0}> * Creating new file for data: AmrRingCyclotron-03.mem Ippl{0}> * Creating new file for data: AmrRingCyclotron-03-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-03-bunch-0001.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-03-bunch-0002.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-03-bunch-0003.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 4 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1800 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.9383 GeV OPAL{0}> * MOMENTUM 0.3746 OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 2 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2130 [mm] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum (beta * gamma) = 399.2 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 399.2 [MCU] OPAL{0}> * Reference radial momentum (Pr) = -0.174 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.547e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80338e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.18747e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -5.45761e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 10 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 118.46 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40581 OPAL{0}> * Bunch position: R = 2154.3 mm, Theta = -0.10514 Deg, Z = -0.075578 mm OPAL{0}> * Local Azimuth = -0.35959 Deg, Local Elevation = -0.0036989 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269801 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> minimal beta*gamma = 0.400837 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> minimal beta*gamma = 0.402454 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> minimal beta*gamma = 0.403996 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> minimal beta*gamma = 0.405726 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 236.92 ns, Live Particles: 65536 OPAL{0}> * E = 74.314 MeV, beta * gamma = 0.40912 OPAL{0}> * Bunch position: R = 2169.2 mm, Theta = -0.014593 Deg, Z = -0.060912 mm OPAL{0}> * Local Azimuth = -0.19614 Deg, Local Elevation = -0.0037979 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07922 OPAL{0}> * MBM: Bunch 3 injected, total particle number = 98304 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07922 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07922 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07922 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> minimal beta*gamma = 0.400788 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 Ippl{0}> minimal beta*gamma = 0.402252 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> minimal beta*gamma = 0.404029 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08171 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 98304 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 355.38 ns, Live Particles: 98304 OPAL{0}> * E = 75.49 MeV, beta * gamma = 0.4124 OPAL{0}> * Bunch position: R = 2185 mm, Theta = 0.083236 Deg, Z = -0.088569 mm OPAL{0}> * Local Azimuth = 0.0017674 Deg, Local Elevation = -0.0044958 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08171 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 OPAL{0}> * MBM: Bunch 4 injected, total particle number = 131072 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> minimal beta*gamma = 0.399165 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> minimal beta*gamma = 0.402467 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08168 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> minimal beta*gamma = 0.403986 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> minimal beta*gamma = 0.405754 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> OPAL{0}> *** Finished turn 4, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 4 (local frame) at integration step 1440 OPAL{0}> * T = 473.84 ns, Live Particles: 131072 OPAL{0}> * E = 76.669 MeV, beta * gamma = 0.41567 OPAL{0}> * Bunch position: R = 2201.1 mm, Theta = 0.16552 Deg, Z = -0.13105 mm OPAL{0}> * Local Azimuth = 0.17904 Deg, Local Elevation = -0.0054499 Deg Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> minimal beta*gamma = 0.40729 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08363 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08363 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> minimal beta*gamma = 0.408735 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 Ippl{0}> minimal beta*gamma = 0.410497 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08552 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08552 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08552 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08551 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08551 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08551 OPAL{0}> OPAL{0}> *** Finished turn 5, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 5 (local frame) at integration step 1800 OPAL{0}> * T = 592.3 ns, Live Particles: 131072 OPAL{0}> * E = 77.853 MeV, beta * gamma = 0.42223 OPAL{0}> * Bunch position: R = 2233 mm, Theta = 0.3082 Deg, Z = -0.17534 mm OPAL{0}> * Local Azimuth = 0.48605 Deg, Local Elevation = -0.00625 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 131072 OPAL{0}> * Qtot = 157.947 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 80.233 [MeV] dEkin = 2.687 [MeV] OPAL{0}> * rmax = ( 2.29149 , 0.03247 , 0.00531 ) [m] OPAL{0}> * rmin = ( 2.16995 , -0.00513 , -0.00555 ) [m] OPAL{0}> * rms beam size = ( 36.90736 , 7.04252 , 1.14508 ) [mm] OPAL{0}> * rms momenta = ( 2.80051e-03 , 7.34222e-03 , 2.02426e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.23299 , 0.01201 , -0.00018 ) [m] OPAL{0}> * mean momenta = ( -3.58182e-03 , 4.22218e-01 , -4.60583e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 1.38068e-04 , 7.42636e-05 , 5.23736e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -8.25702e-01 , 7.95076e-01 , -2.99247e-01 ) OPAL{0}> * hr = ( 4.51680 , 3.38760 , 3.38760 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 592.300 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 67.384 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-03.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 282.551, CPU tot = 281.14 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 2.3258, CPU max = 2.3 Timings{0}> Wall avg = 2.27203, CPU avg = 2.2175 Timings{0}> Wall min = 2.13393, CPU min = 2.02 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.363497, CPU max = 0.44 Timings{0}> Wall avg = 0.327926, CPU avg = 0.3275 Timings{0}> Wall min = 0.303604, CPU min = 0.23 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 45.4022, CPU max = 45.43 Timings{0}> Wall avg = 45.3617, CPU avg = 45.3975 Timings{0}> Wall min = 45.3195, CPU min = 45.37 Timings{0}> Timings{0}> AMR solve........... Wall max = 20.1063, CPU max = 20.18 Timings{0}> Wall avg = 20.046, CPU avg = 20.035 Timings{0}> Wall min = 20.0089, CPU min = 19.92 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 4.44788, CPU max = 4.52 Timings{0}> Wall avg = 4.18644, CPU avg = 4.19 Timings{0}> Wall min = 3.83148, CPU min = 3.83 Timings{0}> Timings{0}> AMR update particle. Wall max = 46.8546, CPU max = 47.03 Timings{0}> Wall avg = 46.6881, CPU avg = 46.79 Timings{0}> Wall min = 46.4386, CPU min = 46.61 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 1.71292, CPU max = 1.78 Timings{0}> Wall avg = 1.70974, CPU avg = 1.7275 Timings{0}> Wall min = 1.70711, CPU min = 1.67 Timings{0}> Timings{0}> Boundingbox......... Wall max = 8.03111, CPU max = 8.06 Timings{0}> Wall avg = 7.83332, CPU avg = 7.8925 Timings{0}> Wall min = 7.63943, CPU min = 7.69 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0346615, CPU max = 0.03 Timings{0}> Wall avg = 0.0243807, CPU avg = 0.02 Timings{0}> Wall min = 0.0209492, CPU min = 0.01 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 80.7757, CPU max = 80.78 Timings{0}> Wall avg = 72.5038, CPU avg = 72.5825 Timings{0}> Wall min = 55.3436, CPU min = 55.39 Timings{0}> Timings{0}> Dump................ Wall max = 8.09648, CPU max = 6.92 Timings{0}> Wall avg = 7.79351, CPU avg = 6.405 Timings{0}> Wall min = 7.61934, CPU min = 5.74 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 3.07519, CPU max = 3.02 Timings{0}> Wall avg = 2.68964, CPU avg = 2.6175 Timings{0}> Wall min = 2.45149, CPU min = 2.32 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 135.799, CPU max = 135.79 Timings{0}> Wall avg = 118.821, CPU avg = 118.895 Timings{0}> Wall min = 110.659, CPU min = 110.79 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0825453, CPU max = 0.08 Timings{0}> Wall avg = 0.071387, CPU avg = 0.07 Timings{0}> Wall min = 0.0610967, CPU min = 0.06 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.0013923, CPU max = 0 Timings{0}> Wall avg = 0.00136114, CPU avg = 0 Timings{0}> Wall min = 0.00130535, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.914011, CPU max = 0.48 Timings{0}> Wall avg = 0.903361, CPU avg = 0.4525 Timings{0}> Wall min = 0.892307, CPU min = 0.43 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.46969, CPU max = 0.32 Timings{0}> Wall avg = 0.469649, CPU avg = 0.245 Timings{0}> Wall min = 0.46955, CPU min = 0.17 Timings{0}> Timings{0}> SelfField total..... Wall max = 68.9125, CPU max = 68.95 Timings{0}> Wall avg = 68.8567, CPU avg = 68.87 Timings{0}> Wall min = 68.8223, CPU min = 68.81 Timings{0}> Timings{0}> Write H5-File....... Wall max = 1.19175, CPU max = 0.17 Timings{0}> Wall avg = 1.19145, CPU avg = 0.1425 Timings{0}> Wall min = 1.19112, CPU min = 0.11 Timings{0}> Timings{0}> Write Stat.......... Wall max = 3.80684, CPU max = 3.53 Timings{0}> Wall avg = 3.52837, CPU avg = 3.2025 Timings{0}> Wall min = 3.30518, CPU min = 2.53 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-04.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 01:42:24 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-04.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=40,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=80,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * Mass of simulation particle= 7057 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.205e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-04.stat Ippl{0}> * Creating new file for data: AmrRingCyclotron-04.lbal Ippl{0}> * Creating new file for data: AmrRingCyclotron-04.grid Ippl{0}> * Creating new file for data: AmrRingCyclotron-04.mem Ippl{0}> * Creating new file for data: AmrRingCyclotron-04-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-04-bunch-0001.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-04-bunch-0002.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-04-bunch-0003.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 4 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1800 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.9383 GeV OPAL{0}> * MOMENTUM 0.3746 OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 3 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2130 [mm] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum (beta * gamma) = 399.2 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 399.2 [MCU] OPAL{0}> * Reference radial momentum (Pr) = -0.174 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.547e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80334e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.30407e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -3.78409e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 40 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 118.46 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.4058 OPAL{0}> * Bunch position: R = 2154.3 mm, Theta = -0.10413 Deg, Z = -0.09482 mm OPAL{0}> * Local Azimuth = -0.35616 Deg, Local Elevation = -0.0039921 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.2698 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> minimal beta*gamma = 0.400825 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0786 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> minimal beta*gamma = 0.402435 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> minimal beta*gamma = 0.403968 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> minimal beta*gamma = 0.405696 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 236.92 ns, Live Particles: 65536 OPAL{0}> * E = 74.311 MeV, beta * gamma = 0.4091 OPAL{0}> * Bunch position: R = 2169.1 mm, Theta = -0.013293 Deg, Z = -0.049522 mm OPAL{0}> * Local Azimuth = -0.19158 Deg, Local Elevation = -0.0041962 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07921 OPAL{0}> * MBM: Bunch 3 injected, total particle number = 98304 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07921 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07985 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07985 Ippl{0}> minimal beta*gamma = 0.400782 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07985 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08041 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08041 Ippl{0}> minimal beta*gamma = 0.402232 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08041 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08041 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08106 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08106 Ippl{0}> minimal beta*gamma = 0.404016 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08106 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 98304 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 355.38 ns, Live Particles: 98304 OPAL{0}> * E = 75.486 MeV, beta * gamma = 0.41239 OPAL{0}> * Bunch position: R = 2184.9 mm, Theta = 0.08493 Deg, Z = -0.070472 mm OPAL{0}> * Local Azimuth = 0.0070457 Deg, Local Elevation = -0.0045669 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08171 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 OPAL{0}> * MBM: Bunch 4 injected, total particle number = 131072 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> minimal beta*gamma = 0.399162 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> minimal beta*gamma = 0.402451 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> minimal beta*gamma = 0.403966 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> minimal beta*gamma = 0.405768 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> OPAL{0}> *** Finished turn 4, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 4 (local frame) at integration step 1440 OPAL{0}> * T = 473.84 ns, Live Particles: 131072 OPAL{0}> * E = 76.667 MeV, beta * gamma = 0.41567 OPAL{0}> * Bunch position: R = 2201.1 mm, Theta = 0.16753 Deg, Z = -0.099582 mm OPAL{0}> * Local Azimuth = 0.1853 Deg, Local Elevation = -0.0056432 Deg Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> minimal beta*gamma = 0.407166 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08363 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> minimal beta*gamma = 0.408522 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> minimal beta*gamma = 0.410312 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08552 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> OPAL{0}> *** Finished turn 5, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 5 (local frame) at integration step 1800 OPAL{0}> * T = 592.3 ns, Live Particles: 131072 OPAL{0}> * E = 77.855 MeV, beta * gamma = 0.42225 OPAL{0}> * Bunch position: R = 2233.1 mm, Theta = 0.31041 Deg, Z = -0.13083 mm OPAL{0}> * Local Azimuth = 0.49322 Deg, Local Elevation = -0.0070867 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 131072 OPAL{0}> * Qtot = 157.947 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 80.238 [MeV] dEkin = 2.692 [MeV] OPAL{0}> * rmax = ( 2.29093 , 0.03190 , 0.00505 ) [m] OPAL{0}> * rmin = ( 2.17021 , -0.00502 , -0.00505 ) [m] OPAL{0}> * rms beam size = ( 36.93582 , 6.78707 , 1.03740 ) [mm] OPAL{0}> * rms momenta = ( 2.76752e-03 , 7.35763e-03 , 1.62886e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.23304 , 0.01210 , -0.00013 ) [m] OPAL{0}> * mean momenta = ( -3.63482e-03 , 4.22232e-01 , -5.22262e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 1.31574e-04 , 6.67123e-05 , 3.93238e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -8.39357e-01 , 8.25652e-01 , -1.84762e-01 ) OPAL{0}> * hr = ( 4.34338 , 3.25754 , 3.25754 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 592.300 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 67.383 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-04.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 229.6, CPU tot = 228.14 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 1.50342, CPU max = 1.53 Timings{0}> Wall avg = 1.41918, CPU avg = 1.415 Timings{0}> Wall min = 1.35878, CPU min = 1.34 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.0867527, CPU max = 0.09 Timings{0}> Wall avg = 0.0815035, CPU avg = 0.0675 Timings{0}> Wall min = 0.0784355, CPU min = 0.05 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 25.4221, CPU max = 25.43 Timings{0}> Wall avg = 25.4106, CPU avg = 25.3925 Timings{0}> Wall min = 25.3962, CPU min = 25.35 Timings{0}> Timings{0}> AMR solve........... Wall max = 27.7046, CPU max = 27.74 Timings{0}> Wall avg = 27.5739, CPU avg = 27.5875 Timings{0}> Wall min = 27.4492, CPU min = 27.47 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 1.73488, CPU max = 1.95 Timings{0}> Wall avg = 1.67009, CPU avg = 1.73 Timings{0}> Wall min = 1.60926, CPU min = 1.58 Timings{0}> Timings{0}> AMR update particle. Wall max = 18.9148, CPU max = 19.04 Timings{0}> Wall avg = 18.856, CPU avg = 18.9075 Timings{0}> Wall min = 18.7976, CPU min = 18.73 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.701597, CPU max = 0.76 Timings{0}> Wall avg = 0.700775, CPU avg = 0.7225 Timings{0}> Wall min = 0.699913, CPU min = 0.69 Timings{0}> Timings{0}> Boundingbox......... Wall max = 2.68498, CPU max = 2.79 Timings{0}> Wall avg = 2.64768, CPU avg = 2.7025 Timings{0}> Wall min = 2.61112, CPU min = 2.64 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0193877, CPU max = 0.03 Timings{0}> Wall avg = 0.0193063, CPU avg = 0.02 Timings{0}> Wall min = 0.0190698, CPU min = 0.01 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 51.565, CPU max = 51.69 Timings{0}> Wall avg = 42.8677, CPU avg = 42.8775 Timings{0}> Wall min = 33.4028, CPU min = 33.43 Timings{0}> Timings{0}> Dump................ Wall max = 6.82625, CPU max = 5.54 Timings{0}> Wall avg = 6.64288, CPU avg = 5.3225 Timings{0}> Wall min = 6.51373, CPU min = 5.09 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 2.82169, CPU max = 2.81 Timings{0}> Wall avg = 2.61812, CPU avg = 2.5625 Timings{0}> Wall min = 2.42913, CPU min = 2.33 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 127.466, CPU max = 127.5 Timings{0}> Wall avg = 118.079, CPU avg = 118.155 Timings{0}> Wall min = 109.442, CPU min = 109.25 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0838525, CPU max = 0.11 Timings{0}> Wall avg = 0.0753201, CPU avg = 0.0675 Timings{0}> Wall min = 0.0633647, CPU min = 0.04 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00134869, CPU max = 0 Timings{0}> Wall avg = 0.00126798, CPU avg = 0 Timings{0}> Wall min = 0.00121876, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.861642, CPU max = 0.45 Timings{0}> Wall avg = 0.849249, CPU avg = 0.4375 Timings{0}> Wall min = 0.839904, CPU min = 0.43 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.192781, CPU max = 0.05 Timings{0}> Wall avg = 0.192619, CPU avg = 0.04 Timings{0}> Wall min = 0.192509, CPU min = 0.03 Timings{0}> Timings{0}> SelfField total..... Wall max = 55.5381, CPU max = 55.56 Timings{0}> Wall avg = 55.5241, CPU avg = 55.5225 Timings{0}> Wall min = 55.5135, CPU min = 55.48 Timings{0}> Timings{0}> Write H5-File....... Wall max = 1.20004, CPU max = 0.15 Timings{0}> Wall avg = 1.19921, CPU avg = 0.14 Timings{0}> Wall min = 1.1979, CPU min = 0.13 Timings{0}> Timings{0}> Write Stat.......... Wall max = 2.90581, CPU max = 2.68 Timings{0}> Wall avg = 2.59236, CPU avg = 2.42 Timings{0}> Wall min = 2.43704, CPU min = 2.16 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-05.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 01:46:16 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-05.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=2,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=10,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> Ippl{0}> Creating new file for solver information: AmrRingCyclotron-05.solver OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * Mass of simulation particle= 7057 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.205e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-05.stat Ippl{0}> * Creating new file for data: AmrRingCyclotron-05.lbal Ippl{0}> * Creating new file for data: AmrRingCyclotron-05.grid Ippl{0}> * Creating new file for data: AmrRingCyclotron-05.mem Ippl{0}> * Creating new file for data: AmrRingCyclotron-05-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-05-bunch-0001.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 2 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1080 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.9383 GeV OPAL{0}> * MOMENTUM 0.3746 OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE AMR_MG OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 1 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * ITSOLVER (AMR_MG) SA OPAL{0}> * AMR_MG_PREC NONE OPAL{0}> * AMR_MG_REBALANCE 1 OPAL{0}> * AMR_MG_REUSE RAP OPAL{0}> * AMR_MG_SMOOTHER GS OPAL{0}> * AMR_MG_NSWEEPS 12 OPAL{0}> * AMR_MG_INTERP PC OPAL{0}> * AMR_MG_NORM LINF_NORM OPAL{0}> * AMR_MG_TOL 1e-10 OPAL{0}> * AMR_MG_VERBOSE 0 OPAL{0}> * BCFFTX DIRICHLET OPAL{0}> * BCFFTY DIRICHLET OPAL{0}> * BCFFTT (deprec.) DIRICHLET OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2130 [mm] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum (beta * gamma) = 399.2 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 399.2 [MCU] OPAL{0}> * Reference radial momentum (Pr) = -0.174 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.547e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80338e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.18747e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -5.45761e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 2 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * ******* WARNING ******* No repartitioning necessary: partitions were left unchanged by the repartitioner ******* WARNING ******* Only one partition: Skip call to the repartitioner. OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 118.46 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40585 OPAL{0}> * Bunch position: R = 2154.5 mm, Theta = -0.10697 Deg, Z = 0.0014297 mm OPAL{0}> * Local Azimuth = -0.36697 Deg, Local Elevation = 2.3584e-05 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269805 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> minimal beta*gamma = 0.400842 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> minimal beta*gamma = 0.402476 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> minimal beta*gamma = 0.404026 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> minimal beta*gamma = 0.405762 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 236.92 ns, Live Particles: 65536 OPAL{0}> * E = 74.329 MeV, beta * gamma = 0.40917 OPAL{0}> * Bunch position: R = 2169.4 mm, Theta = -0.015985 Deg, Z = 0.0011651 mm OPAL{0}> * Local Azimuth = -0.20325 Deg, Local Elevation = 2.9921e-05 Deg Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> minimal beta*gamma = 0.407361 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> minimal beta*gamma = 0.408862 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> minimal beta*gamma = 0.410685 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 355.38 ns, Live Particles: 65536 OPAL{0}> * E = 75.508 MeV, beta * gamma = 0.4158 OPAL{0}> * Bunch position: R = 2200.9 mm, Theta = 0.1721 Deg, Z = 0.00062014 mm OPAL{0}> * Local Azimuth = 0.16291 Deg, Local Elevation = 3.6903e-05 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.881 [MeV] dEkin = 1.197 [MeV] OPAL{0}> * rmax = ( 2.22949 , 0.02331 , 0.00326 ) [m] OPAL{0}> * rmin = ( 2.16984 , -0.00525 , -0.00331 ) [m] OPAL{0}> * rms beam size = ( 17.16655 , 4.70390 , 0.98109 ) [mm] OPAL{0}> * rms momenta = ( 1.75790e-03 , 3.31699e-03 , 2.49448e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.20085 , 0.00661 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.18221e-03 , 4.15794e-01 , 2.67806e-07 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.63219e-05 , 2.38973e-05 , 5.32113e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.30657e-01 , 7.70982e-01 , -4.27345e-01 ) OPAL{0}> * hr = ( 2.31851 , 1.73888 , 1.73888 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.191 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-05.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 168.945, CPU tot = 167.91 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 0.982622, CPU max = 0.96 Timings{0}> Wall avg = 0.871189, CPU avg = 0.8275 Timings{0}> Wall min = 0.74557, CPU min = 0.67 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.465913, CPU max = 0.48 Timings{0}> Wall avg = 0.43235, CPU avg = 0.4425 Timings{0}> Wall min = 0.396784, CPU min = 0.39 Timings{0}> Timings{0}> AMR MG average down. Wall max = 0.0993713, CPU max = 0.13 Timings{0}> Wall avg = 0.095857, CPU avg = 0.1025 Timings{0}> Wall min = 0.0920538, CPU min = 0.08 Timings{0}> Timings{0}> AMR MG bottom-solve. Wall max = 29.0459, CPU max = 29.13 Timings{0}> Wall avg = 29.0356, CPU avg = 28.995 Timings{0}> Wall min = 29.0189, CPU min = 28.86 Timings{0}> Timings{0}> AMR MG bsolver setu. Wall max = 0.668132, CPU max = 0.57 Timings{0}> Wall avg = 0.668122, CPU avg = 0.4425 Timings{0}> Wall min = 0.668113, CPU min = 0.31 Timings{0}> Timings{0}> AMR MG dump......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> AMR MG e-field...... Wall max = 1.17913, CPU max = 1.23 Timings{0}> Wall avg = 1.16625, CPU avg = 1.165 Timings{0}> Wall min = 1.15247, CPU min = 1.07 Timings{0}> Timings{0}> AMR MG matrix setup. Wall max = 19.0855, CPU max = 19.11 Timings{0}> Wall avg = 19.0716, CPU avg = 18.84 Timings{0}> Wall min = 19.0472, CPU min = 18.59 Timings{0}> Timings{0}> AMR MG prolongate... Wall max = 0.481936, CPU max = 0.43 Timings{0}> Wall avg = 0.431308, CPU avg = 0.38 Timings{0}> Wall min = 0.378983, CPU min = 0.33 Timings{0}> Timings{0}> AMR MG restrict..... Wall max = 3.47385, CPU max = 3.58 Timings{0}> Wall avg = 3.40183, CPU avg = 3.51 Timings{0}> Wall min = 3.33024, CPU min = 3.42 Timings{0}> Timings{0}> AMR MG smooth....... Wall max = 26.0737, CPU max = 25.98 Timings{0}> Wall avg = 26.038, CPU avg = 25.9075 Timings{0}> Wall min = 26.0007, CPU min = 25.86 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 10.5021, CPU max = 10.57 Timings{0}> Wall avg = 10.4869, CPU avg = 10.505 Timings{0}> Wall min = 10.4729, CPU min = 10.46 Timings{0}> Timings{0}> AMR solve........... Wall max = 86.7473, CPU max = 86.78 Timings{0}> Wall avg = 86.7193, CPU avg = 86.455 Timings{0}> Wall min = 86.6901, CPU min = 86.15 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 3.0407, CPU max = 2.92 Timings{0}> Wall avg = 2.76739, CPU avg = 2.74 Timings{0}> Wall min = 2.48139, CPU min = 2.55 Timings{0}> Timings{0}> AMR update particle. Wall max = 14.3703, CPU max = 14.28 Timings{0}> Wall avg = 14.1289, CPU avg = 14.0725 Timings{0}> Wall min = 13.8804, CPU min = 13.94 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.455365, CPU max = 0.55 Timings{0}> Wall avg = 0.454593, CPU avg = 0.4725 Timings{0}> Wall min = 0.453841, CPU min = 0.42 Timings{0}> Timings{0}> Boundingbox......... Wall max = 3.17589, CPU max = 3.25 Timings{0}> Wall avg = 3.0576, CPU avg = 3.08 Timings{0}> Wall min = 2.92086, CPU min = 2.97 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0106235, CPU max = 0.02 Timings{0}> Wall avg = 0.0105377, CPU avg = 0.0125 Timings{0}> Wall min = 0.0102933, CPU min = 0.01 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 21.4421, CPU max = 21.45 Timings{0}> Wall avg = 17.1674, CPU avg = 17.085 Timings{0}> Wall min = 13.0682, CPU min = 12.94 Timings{0}> Timings{0}> Dump................ Wall max = 3.1562, CPU max = 2 Timings{0}> Wall avg = 2.53759, CPU avg = 1.865 Timings{0}> Wall min = 2.31182, CPU min = 1.78 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 1.22457, CPU max = 1.44 Timings{0}> Wall avg = 1.10452, CPU avg = 1.2 Timings{0}> Wall min = 0.99752, CPU min = 0.94 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 45.7304, CPU max = 45.72 Timings{0}> Wall avg = 41.7512, CPU avg = 41.79 Timings{0}> Wall min = 37.5979, CPU min = 37.62 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0170152, CPU max = 0.03 Timings{0}> Wall avg = 0.0157445, CPU avg = 0.015 Timings{0}> Wall min = 0.014393, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00110118, CPU max = 0.01 Timings{0}> Wall avg = 0.0010309, CPU avg = 0.0025 Timings{0}> Wall min = 0.000980474, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.199133, CPU max = 0.08 Timings{0}> Wall avg = 0.197831, CPU avg = 0.0725 Timings{0}> Wall min = 0.196574, CPU min = 0.07 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.292364, CPU max = 0.12 Timings{0}> Wall avg = 0.29183, CPU avg = 0.0875 Timings{0}> Wall min = 0.290414, CPU min = 0.06 Timings{0}> Timings{0}> SelfField total..... Wall max = 101.027, CPU max = 100.82 Timings{0}> Wall avg = 100.96, CPU avg = 100.557 Timings{0}> Wall min = 100.881, CPU min = 100.36 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.579782, CPU max = 0.06 Timings{0}> Wall avg = 0.57897, CPU avg = 0.0575 Timings{0}> Wall min = 0.578238, CPU min = 0.05 Timings{0}> Timings{0}> Write Stat.......... Wall max = 1.53182, CPU max = 0.83 Timings{0}> Wall avg = 0.978806, CPU avg = 0.795 Timings{0}> Wall min = 0.769203, CPU min = 0.77 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-06.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 01:49:06 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-06.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=2,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=10,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> Ippl{0}> Creating new file for solver information: AmrRingCyclotron-06.solver OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * Mass of simulation particle= 7057 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.205e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-06.stat Ippl{0}> * Creating new file for data: AmrRingCyclotron-06.lbal Ippl{0}> * Creating new file for data: AmrRingCyclotron-06.grid Ippl{0}> * Creating new file for data: AmrRingCyclotron-06.mem Ippl{0}> * Creating new file for data: AmrRingCyclotron-06-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-06-bunch-0001.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 2 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1080 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.9383 GeV OPAL{0}> * MOMENTUM 0.3746 OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE AMR_MG OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 2 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * ITSOLVER (AMR_MG) SA OPAL{0}> * AMR_MG_PREC NONE OPAL{0}> * AMR_MG_REBALANCE 1 OPAL{0}> * AMR_MG_REUSE RAP OPAL{0}> * AMR_MG_SMOOTHER GS OPAL{0}> * AMR_MG_NSWEEPS 12 OPAL{0}> * AMR_MG_INTERP PC OPAL{0}> * AMR_MG_NORM LINF_NORM OPAL{0}> * AMR_MG_TOL 1e-10 OPAL{0}> * AMR_MG_VERBOSE 0 OPAL{0}> * BCFFTX DIRICHLET OPAL{0}> * BCFFTY DIRICHLET OPAL{0}> * BCFFTT (deprec.) DIRICHLET OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2130 [mm] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum (beta * gamma) = 399.2 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 399.2 [MCU] OPAL{0}> * Reference radial momentum (Pr) = -0.174 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.547e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80338e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.18747e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -5.45761e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 2 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * ******* WARNING ******* No repartitioning necessary: partitions were left unchanged by the repartitioner ******* WARNING ******* Only one partition: Skip call to the repartitioner. OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 118.46 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40585 OPAL{0}> * Bunch position: R = 2154.5 mm, Theta = -0.10697 Deg, Z = 0.0014297 mm OPAL{0}> * Local Azimuth = -0.36697 Deg, Local Elevation = 2.3584e-05 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269805 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> minimal beta*gamma = 0.400839 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> minimal beta*gamma = 0.402462 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> minimal beta*gamma = 0.404013 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> minimal beta*gamma = 0.405748 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 236.92 ns, Live Particles: 65536 OPAL{0}> * E = 74.329 MeV, beta * gamma = 0.40917 OPAL{0}> * Bunch position: R = 2169.4 mm, Theta = -0.016021 Deg, Z = 0.0011787 mm OPAL{0}> * Local Azimuth = -0.20333 Deg, Local Elevation = 2.916e-05 Deg Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> minimal beta*gamma = 0.407314 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08113 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08178 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08179 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> minimal beta*gamma = 0.408802 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08169 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> minimal beta*gamma = 0.410641 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08235 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 355.38 ns, Live Particles: 65536 OPAL{0}> * E = 75.508 MeV, beta * gamma = 0.4158 OPAL{0}> * Bunch position: R = 2200.9 mm, Theta = 0.17203 Deg, Z = 0.0006707 mm OPAL{0}> * Local Azimuth = 0.16276 Deg, Local Elevation = 3.7294e-05 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.881 [MeV] dEkin = 1.196 [MeV] OPAL{0}> * rmax = ( 2.22949 , 0.02331 , 0.00328 ) [m] OPAL{0}> * rmin = ( 2.16984 , -0.00525 , -0.00335 ) [m] OPAL{0}> * rms beam size = ( 17.16624 , 4.69674 , 1.03609 ) [mm] OPAL{0}> * rms momenta = ( 1.75359e-03 , 3.31670e-03 , 2.47786e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.20085 , 0.00661 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.18112e-03 , 4.15794e-01 , 2.70640e-07 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.60573e-05 , 2.37819e-05 , 5.63269e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.32783e-01 , 7.72673e-01 , -4.09523e-01 ) OPAL{0}> * hr = ( 2.31901 , 1.73926 , 1.73926 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.191 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-06.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 962.649, CPU tot = 962.14 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 2.97258, CPU max = 3.05 Timings{0}> Wall avg = 2.67516, CPU avg = 2.695 Timings{0}> Wall min = 2.38834, CPU min = 2.38 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.449054, CPU max = 0.59 Timings{0}> Wall avg = 0.430466, CPU avg = 0.4875 Timings{0}> Wall min = 0.407988, CPU min = 0.38 Timings{0}> Timings{0}> AMR MG average down. Wall max = 1.69571, CPU max = 1.78 Timings{0}> Wall avg = 1.5749, CPU avg = 1.615 Timings{0}> Wall min = 1.44216, CPU min = 1.5 Timings{0}> Timings{0}> AMR MG bottom-solve. Wall max = 35.1673, CPU max = 35.51 Timings{0}> Wall avg = 34.8333, CPU avg = 34.7425 Timings{0}> Wall min = 34.5196, CPU min = 34.04 Timings{0}> Timings{0}> AMR MG bsolver setu. Wall max = 0.0352081, CPU max = 0.05 Timings{0}> Wall avg = 0.0351967, CPU avg = 0.0375 Timings{0}> Wall min = 0.0351858, CPU min = 0.03 Timings{0}> Timings{0}> AMR MG dump......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> AMR MG e-field...... Wall max = 10.2478, CPU max = 10.18 Timings{0}> Wall avg = 10.1331, CPU avg = 10.085 Timings{0}> Wall min = 10.0289, CPU min = 9.88 Timings{0}> Timings{0}> AMR MG matrix setup. Wall max = 165.947, CPU max = 166.06 Timings{0}> Wall avg = 165.448, CPU avg = 165.552 Timings{0}> Wall min = 164.933, CPU min = 165.01 Timings{0}> Timings{0}> AMR MG prolongate... Wall max = 8.37653, CPU max = 8.59 Timings{0}> Wall avg = 6.77693, CPU avg = 6.8775 Timings{0}> Wall min = 5.15228, CPU min = 5.25 Timings{0}> Timings{0}> AMR MG restrict..... Wall max = 65.4908, CPU max = 65.29 Timings{0}> Wall avg = 63.9324, CPU avg = 63.87 Timings{0}> Wall min = 62.4204, CPU min = 62.33 Timings{0}> Timings{0}> AMR MG smooth....... Wall max = 465.44, CPU max = 465.61 Timings{0}> Wall avg = 455.15, CPU avg = 455.15 Timings{0}> Wall min = 444.869, CPU min = 444.57 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 30.7783, CPU max = 30.84 Timings{0}> Wall avg = 30.7564, CPU avg = 30.78 Timings{0}> Wall min = 30.7276, CPU min = 30.72 Timings{0}> Timings{0}> AMR solve........... Wall max = 854.725, CPU max = 855.18 Timings{0}> Wall avg = 854.464, CPU avg = 854.747 Timings{0}> Wall min = 854.2, CPU min = 854.55 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 4.09928, CPU max = 4.19 Timings{0}> Wall avg = 3.82141, CPU avg = 3.9025 Timings{0}> Wall min = 3.51128, CPU min = 3.7 Timings{0}> Timings{0}> AMR update particle. Wall max = 26.0518, CPU max = 26.29 Timings{0}> Wall avg = 25.7795, CPU avg = 25.8575 Timings{0}> Wall min = 25.49, CPU min = 25.52 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.566795, CPU max = 0.59 Timings{0}> Wall avg = 0.56571, CPU avg = 0.55 Timings{0}> Wall min = 0.564867, CPU min = 0.51 Timings{0}> Timings{0}> Boundingbox......... Wall max = 4.33516, CPU max = 4.43 Timings{0}> Wall avg = 4.21069, CPU avg = 4.1875 Timings{0}> Wall min = 4.05873, CPU min = 4.04 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0104244, CPU max = 0.03 Timings{0}> Wall avg = 0.0103268, CPU avg = 0.0125 Timings{0}> Wall min = 0.0100783, CPU min = 0 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 18.1795, CPU max = 18.16 Timings{0}> Wall avg = 15.7895, CPU avg = 15.8325 Timings{0}> Wall min = 13.9229, CPU min = 14.02 Timings{0}> Timings{0}> Dump................ Wall max = 4.04871, CPU max = 1.71 Timings{0}> Wall avg = 2.70162, CPU avg = 1.6525 Timings{0}> Wall min = 2.23459, CPU min = 1.58 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 1.15365, CPU max = 1.17 Timings{0}> Wall avg = 1.1027, CPU avg = 1.03 Timings{0}> Wall min = 1.03197, CPU min = 0.87 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 43.6681, CPU max = 43.57 Timings{0}> Wall avg = 41.8819, CPU avg = 41.8825 Timings{0}> Wall min = 39.5944, CPU min = 39.71 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0187443, CPU max = 0.02 Timings{0}> Wall avg = 0.0175177, CPU avg = 0.01 Timings{0}> Wall min = 0.0161799, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.0011049, CPU max = 0 Timings{0}> Wall avg = 0.00107191, CPU avg = 0 Timings{0}> Wall min = 0.00103053, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.213344, CPU max = 0.07 Timings{0}> Wall avg = 0.211971, CPU avg = 0.07 Timings{0}> Wall min = 0.210753, CPU min = 0.07 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.159439, CPU max = 0.02 Timings{0}> Wall avg = 0.158676, CPU avg = 0.015 Timings{0}> Wall min = 0.156455, CPU min = 0.01 Timings{0}> Timings{0}> SelfField total..... Wall max = 893.836, CPU max = 894.33 Timings{0}> Wall avg = 893.775, CPU avg = 894.16 Timings{0}> Wall min = 893.701, CPU min = 893.98 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.64932, CPU max = 0.06 Timings{0}> Wall avg = 0.648988, CPU avg = 0.0525 Timings{0}> Wall min = 0.648548, CPU min = 0.04 Timings{0}> Timings{0}> Write Stat.......... Wall max = 2.45172, CPU max = 0.78 Timings{0}> Wall avg = 1.10838, CPU avg = 0.6725 Timings{0}> Wall min = 0.642408, CPU min = 0.57 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-07.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 02:05:11 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-07.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=10,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=20,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> Ippl{0}> Creating new file for solver information: AmrRingCyclotron-07.solver OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * Mass of simulation particle= 7057 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.205e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-07.stat Ippl{0}> * Creating new file for data: AmrRingCyclotron-07.lbal Ippl{0}> * Creating new file for data: AmrRingCyclotron-07.grid Ippl{0}> * Creating new file for data: AmrRingCyclotron-07.mem Ippl{0}> * Creating new file for data: AmrRingCyclotron-07-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-07-bunch-0001.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-07-bunch-0002.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-07-bunch-0003.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 4 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1800 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.9383 GeV OPAL{0}> * MOMENTUM 0.3746 OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE AMR_MG OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 2 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * ITSOLVER (AMR_MG) SA OPAL{0}> * AMR_MG_PREC NONE OPAL{0}> * AMR_MG_REBALANCE 1 OPAL{0}> * AMR_MG_REUSE RAP OPAL{0}> * AMR_MG_SMOOTHER GS OPAL{0}> * AMR_MG_NSWEEPS 12 OPAL{0}> * AMR_MG_INTERP PC OPAL{0}> * AMR_MG_NORM LINF_NORM OPAL{0}> * AMR_MG_TOL 1e-10 OPAL{0}> * AMR_MG_VERBOSE 0 OPAL{0}> * BCFFTX DIRICHLET OPAL{0}> * BCFFTY DIRICHLET OPAL{0}> * BCFFTT (deprec.) DIRICHLET OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2130 [mm] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum (beta * gamma) = 399.2 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 399.2 [MCU] OPAL{0}> * Reference radial momentum (Pr) = -0.174 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.547e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80334e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.30407e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -3.78409e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 10 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * ******* WARNING ******* No repartitioning necessary: partitions were left unchanged by the repartitioner ******* WARNING ******* Only one partition: Skip call to the repartitioner. OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 118.46 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40585 OPAL{0}> * Bunch position: R = 2154.5 mm, Theta = -0.10688 Deg, Z = 0.001427 mm OPAL{0}> * Local Azimuth = -0.36675 Deg, Local Elevation = 2.3556e-05 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269805 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> minimal beta*gamma = 0.400838 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> minimal beta*gamma = 0.402461 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> minimal beta*gamma = 0.404009 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> minimal beta*gamma = 0.405751 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 236.92 ns, Live Particles: 65536 OPAL{0}> * E = 74.329 MeV, beta * gamma = 0.40917 OPAL{0}> * Bunch position: R = 2169.4 mm, Theta = -0.015832 Deg, Z = 0.0011761 mm OPAL{0}> * Local Azimuth = -0.20284 Deg, Local Elevation = 2.915e-05 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07923 OPAL{0}> * MBM: Bunch 3 injected, total particle number = 98304 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07923 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07923 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07923 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> minimal beta*gamma = 0.400794 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08053 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08053 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08053 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08053 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 Ippl{0}> minimal beta*gamma = 0.402264 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> minimal beta*gamma = 0.40406 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 98304 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 355.38 ns, Live Particles: 98304 OPAL{0}> * E = 75.508 MeV, beta * gamma = 0.41248 OPAL{0}> * Bunch position: R = 2185.4 mm, Theta = 0.080544 Deg, Z = 0.00093042 mm OPAL{0}> * Local Azimuth = -0.010463 Deg, Local Elevation = 3.2616e-05 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 OPAL{0}> * MBM: Bunch 4 injected, total particle number = 131072 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 Ippl{0}> minimal beta*gamma = 0.399166 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 Ippl{0}> minimal beta*gamma = 0.402478 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0817 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0817 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0817 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0817 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0817 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> minimal beta*gamma = 0.404006 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 Ippl{0}> minimal beta*gamma = 0.405807 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 OPAL{0}> OPAL{0}> *** Finished turn 4, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 4 (local frame) at integration step 1440 OPAL{0}> * T = 473.84 ns, Live Particles: 131072 OPAL{0}> * E = 76.697 MeV, beta * gamma = 0.41579 OPAL{0}> * Bunch position: R = 2201.8 mm, Theta = 0.15909 Deg, Z = 0.00067774 mm OPAL{0}> * Local Azimuth = 0.15599 Deg, Local Elevation = 3.4535e-05 Deg Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> minimal beta*gamma = 0.407363 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08436 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08436 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08436 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08436 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 Ippl{0}> minimal beta*gamma = 0.408833 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> minimal beta*gamma = 0.410672 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08559 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08559 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08559 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08559 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08559 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08559 OPAL{0}> OPAL{0}> *** Finished turn 5, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 5 (local frame) at integration step 1800 OPAL{0}> * T = 592.3 ns, Live Particles: 131072 OPAL{0}> * E = 77.897 MeV, beta * gamma = 0.42242 OPAL{0}> * Bunch position: R = 2234.2 mm, Theta = 0.29337 Deg, Z = 0.00014442 mm OPAL{0}> * Local Azimuth = 0.44227 Deg, Local Elevation = 3.824e-05 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 131072 OPAL{0}> * Qtot = 157.947 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 80.302 [MeV] dEkin = 2.710 [MeV] OPAL{0}> * rmax = ( 2.29137 , 0.03246 , 0.00544 ) [m] OPAL{0}> * rmin = ( 2.16992 , -0.00516 , -0.00536 ) [m] OPAL{0}> * rms beam size = ( 37.39477 , 6.67812 , 1.13337 ) [mm] OPAL{0}> * rms momenta = ( 2.62365e-03 , 7.40551e-03 , 1.99299e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.23418 , 0.01144 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -3.26069e-03 , 4.22411e-01 , 2.81933e-07 ) [beta gamma] OPAL{0}> * rms emittance = ( 1.36592e-04 , 7.45872e-05 , 5.07155e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -8.08717e-01 , 7.70707e-01 , -3.16519e-01 ) OPAL{0}> * hr = ( 4.59881 , 3.44911 , 3.44911 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 592.300 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 67.392 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-07.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 533.791, CPU tot = 532.5 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 2.57554, CPU max = 2.57 Timings{0}> Wall avg = 2.3675, CPU avg = 2.38 Timings{0}> Wall min = 2.16492, CPU min = 2.17 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.343835, CPU max = 0.39 Timings{0}> Wall avg = 0.332781, CPU avg = 0.3175 Timings{0}> Wall min = 0.32729, CPU min = 0.25 Timings{0}> Timings{0}> AMR MG average down. Wall max = 0.472755, CPU max = 0.61 Timings{0}> Wall avg = 0.44873, CPU avg = 0.48 Timings{0}> Wall min = 0.422924, CPU min = 0.41 Timings{0}> Timings{0}> AMR MG bottom-solve. Wall max = 12.1331, CPU max = 12.34 Timings{0}> Wall avg = 12.027, CPU avg = 12.1025 Timings{0}> Wall min = 11.8951, CPU min = 11.77 Timings{0}> Timings{0}> AMR MG bsolver setu. Wall max = 0.0352534, CPU max = 0.04 Timings{0}> Wall avg = 0.0352392, CPU avg = 0.035 Timings{0}> Wall min = 0.0352255, CPU min = 0.03 Timings{0}> Timings{0}> AMR MG dump......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> AMR MG e-field...... Wall max = 2.63868, CPU max = 2.7 Timings{0}> Wall avg = 2.61978, CPU avg = 2.6525 Timings{0}> Wall min = 2.60283, CPU min = 2.6 Timings{0}> Timings{0}> AMR MG matrix setup. Wall max = 115.652, CPU max = 115.67 Timings{0}> Wall avg = 115.557, CPU avg = 115.58 Timings{0}> Wall min = 115.467, CPU min = 115.49 Timings{0}> Timings{0}> AMR MG prolongate... Wall max = 2.28939, CPU max = 2.26 Timings{0}> Wall avg = 1.83784, CPU avg = 1.735 Timings{0}> Wall min = 1.40363, CPU min = 1.16 Timings{0}> Timings{0}> AMR MG restrict..... Wall max = 16.3178, CPU max = 16.75 Timings{0}> Wall avg = 16.2243, CPU avg = 16.395 Timings{0}> Wall min = 16.1054, CPU min = 15.92 Timings{0}> Timings{0}> AMR MG smooth....... Wall max = 100.785, CPU max = 101.11 Timings{0}> Wall avg = 97.8944, CPU avg = 97.7075 Timings{0}> Wall min = 95.0076, CPU min = 94.38 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 44.2892, CPU max = 44.34 Timings{0}> Wall avg = 44.1822, CPU avg = 44.2375 Timings{0}> Wall min = 44.0986, CPU min = 44.13 Timings{0}> Timings{0}> AMR solve........... Wall max = 276.838, CPU max = 276.91 Timings{0}> Wall avg = 276.762, CPU avg = 276.827 Timings{0}> Wall min = 276.69, CPU min = 276.76 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 4.36756, CPU max = 4.42 Timings{0}> Wall avg = 4.20112, CPU avg = 4.205 Timings{0}> Wall min = 4.08606, CPU min = 3.97 Timings{0}> Timings{0}> AMR update particle. Wall max = 45.4313, CPU max = 45.52 Timings{0}> Wall avg = 45.2088, CPU avg = 45.265 Timings{0}> Wall min = 45.035, CPU min = 45.02 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 1.71265, CPU max = 1.78 Timings{0}> Wall avg = 1.71136, CPU avg = 1.7325 Timings{0}> Wall min = 1.70973, CPU min = 1.69 Timings{0}> Timings{0}> Boundingbox......... Wall max = 7.7568, CPU max = 7.78 Timings{0}> Wall avg = 7.70358, CPU avg = 7.7225 Timings{0}> Wall min = 7.63758, CPU min = 7.69 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.020794, CPU max = 0.07 Timings{0}> Wall avg = 0.0207002, CPU avg = 0.03 Timings{0}> Wall min = 0.0204562, CPU min = 0.01 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 73.3688, CPU max = 73.37 Timings{0}> Wall avg = 70.669, CPU avg = 70.7975 Timings{0}> Wall min = 66.8671, CPU min = 67.09 Timings{0}> Timings{0}> Dump................ Wall max = 7.54436, CPU max = 6.42 Timings{0}> Wall avg = 7.35584, CPU avg = 6.1975 Timings{0}> Wall min = 7.26611, CPU min = 6.03 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 2.77348, CPU max = 2.8 Timings{0}> Wall avg = 2.68475, CPU avg = 2.68 Timings{0}> Wall min = 2.5795, CPU min = 2.56 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 120.594, CPU max = 120.81 Timings{0}> Wall avg = 116.857, CPU avg = 116.823 Timings{0}> Wall min = 114.228, CPU min = 114.11 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0855151, CPU max = 0.1 Timings{0}> Wall avg = 0.0750648, CPU avg = 0.08 Timings{0}> Wall min = 0.0682128, CPU min = 0.07 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00143846, CPU max = 0 Timings{0}> Wall avg = 0.0013423, CPU avg = 0 Timings{0}> Wall min = 0.00126662, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.892067, CPU max = 0.44 Timings{0}> Wall avg = 0.885088, CPU avg = 0.4275 Timings{0}> Wall min = 0.874751, CPU min = 0.41 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.316077, CPU max = 0.14 Timings{0}> Wall avg = 0.315728, CPU avg = 0.11 Timings{0}> Wall min = 0.314977, CPU min = 0.08 Timings{0}> Timings{0}> SelfField total..... Wall max = 324.744, CPU max = 324.93 Timings{0}> Wall avg = 324.71, CPU avg = 324.805 Timings{0}> Wall min = 324.68, CPU min = 324.71 Timings{0}> Timings{0}> Write H5-File....... Wall max = 1.17943, CPU max = 0.14 Timings{0}> Wall avg = 1.17849, CPU avg = 0.135 Timings{0}> Wall min = 1.17746, CPU min = 0.13 Timings{0}> Timings{0}> Write Stat.......... Wall max = 3.22788, CPU max = 3.26 Timings{0}> Wall avg = 3.05806, CPU avg = 2.9475 Timings{0}> Wall min = 2.96676, CPU min = 2.75 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-08.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 02:14:06 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-08.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=40,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=80,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> Ippl{0}> Creating new file for solver information: AmrRingCyclotron-08.solver OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * Mass of simulation particle= 7057 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.205e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-08.stat Ippl{0}> * Creating new file for data: AmrRingCyclotron-08.lbal Ippl{0}> * Creating new file for data: AmrRingCyclotron-08.grid Ippl{0}> * Creating new file for data: AmrRingCyclotron-08.mem Ippl{0}> * Creating new file for data: AmrRingCyclotron-08-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-08-bunch-0001.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-08-bunch-0002.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-08-bunch-0003.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 4 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1800 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.9383 GeV OPAL{0}> * MOMENTUM 0.3746 OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE AMR_MG OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 3 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * ITSOLVER (AMR_MG) SA OPAL{0}> * AMR_MG_PREC NONE OPAL{0}> * AMR_MG_REBALANCE 1 OPAL{0}> * AMR_MG_REUSE RAP OPAL{0}> * AMR_MG_SMOOTHER GS OPAL{0}> * AMR_MG_NSWEEPS 12 OPAL{0}> * AMR_MG_INTERP PC OPAL{0}> * AMR_MG_NORM LINF_NORM OPAL{0}> * AMR_MG_TOL 1e-10 OPAL{0}> * AMR_MG_VERBOSE 0 OPAL{0}> * BCFFTX DIRICHLET OPAL{0}> * BCFFTY DIRICHLET OPAL{0}> * BCFFTT (deprec.) DIRICHLET OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2130 [mm] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum (beta * gamma) = 399.2 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 399.2 [MCU] OPAL{0}> * Reference radial momentum (Pr) = -0.174 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.547e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.182e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.4 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80357e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -2.39234e-03 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 3.48951e+00 , -2.84191e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 40 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * ******* WARNING ******* No repartitioning necessary: partitions were left unchanged by the repartitioner ******* WARNING ******* Only one partition: Skip call to the repartitioner. OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 118.46 ns, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40585 OPAL{0}> * Bunch position: R = 2154.4 mm, Theta = -0.10646 Deg, Z = 0.0014226 mm OPAL{0}> * Local Azimuth = -0.36572 Deg, Local Elevation = 2.332e-05 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269805 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07798 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> minimal beta*gamma = 0.400828 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07862 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> minimal beta*gamma = 0.402444 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07926 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07918 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> minimal beta*gamma = 0.403987 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07983 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> minimal beta*gamma = 0.40572 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 236.92 ns, Live Particles: 65536 OPAL{0}> * E = 74.329 MeV, beta * gamma = 0.40917 OPAL{0}> * Bunch position: R = 2169.4 mm, Theta = -0.015042 Deg, Z = 0.0011664 mm OPAL{0}> * Local Azimuth = -0.20101 Deg, Local Elevation = 2.866e-05 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08048 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07923 OPAL{0}> * MBM: Bunch 3 injected, total particle number = 98304 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07923 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> minimal beta*gamma = 0.400786 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07988 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08053 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 Ippl{0}> minimal beta*gamma = 0.402243 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08044 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> minimal beta*gamma = 0.404037 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08109 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 98304 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 355.38 ns, Live Particles: 98304 OPAL{0}> * E = 75.508 MeV, beta * gamma = 0.41248 OPAL{0}> * Bunch position: R = 2185.4 mm, Theta = 0.081454 Deg, Z = 0.00091762 mm OPAL{0}> * Local Azimuth = -0.0084795 Deg, Local Elevation = 3.2159e-05 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08174 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 OPAL{0}> * MBM: Bunch 4 injected, total particle number = 131072 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 Ippl{0}> minimal beta*gamma = 0.399162 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08049 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08114 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 Ippl{0}> minimal beta*gamma = 0.402461 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0818 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0817 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0817 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> minimal beta*gamma = 0.40398 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08236 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 Ippl{0}> minimal beta*gamma = 0.405808 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 OPAL{0}> OPAL{0}> *** Finished turn 4, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 4 (local frame) at integration step 1440 OPAL{0}> * T = 473.84 ns, Live Particles: 131072 OPAL{0}> * E = 76.697 MeV, beta * gamma = 0.41579 OPAL{0}> * Bunch position: R = 2201.8 mm, Theta = 0.16006 Deg, Z = 0.00067531 mm OPAL{0}> * Local Azimuth = 0.15808 Deg, Local Elevation = 3.4334e-05 Deg Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08302 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> minimal beta*gamma = 0.407216 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08369 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08436 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 Ippl{0}> minimal beta*gamma = 0.408646 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08425 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> minimal beta*gamma = 0.410435 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08491 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08559 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> OPAL{0}> *** Finished turn 5, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 5 (local frame) at integration step 1800 OPAL{0}> * T = 592.3 ns, Live Particles: 131072 OPAL{0}> * E = 77.897 MeV, beta * gamma = 0.42242 OPAL{0}> * Bunch position: R = 2234.2 mm, Theta = 0.29457 Deg, Z = 0.00015468 mm OPAL{0}> * Local Azimuth = 0.44475 Deg, Local Elevation = 3.7985e-05 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 131072 OPAL{0}> * Qtot = 157.947 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 80.302 [MeV] dEkin = 2.710 [MeV] OPAL{0}> * rmax = ( 2.29080 , 0.03177 , 0.00488 ) [m] OPAL{0}> * rmin = ( 2.17022 , -0.00503 , -0.00494 ) [m] OPAL{0}> * rms beam size = ( 37.36062 , 6.39966 , 0.99851 ) [mm] OPAL{0}> * rms momenta = ( 2.59393e-03 , 7.40682e-03 , 1.57371e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.23419 , 0.01149 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -3.27895e-03 , 4.22411e-01 , 2.80050e-07 ) [beta gamma] OPAL{0}> * rms emittance = ( 1.29095e-04 , 6.62618e-05 , 3.62860e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -8.26598e-01 , 8.06970e-01 , -2.19536e-01 ) OPAL{0}> * hr = ( 4.32733 , 3.24550 , 3.24550 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 592.300 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 67.393 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-08.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 631.676, CPU tot = 630.26 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 1.69877, CPU max = 1.69 Timings{0}> Wall avg = 1.55242, CPU avg = 1.5225 Timings{0}> Wall min = 1.38401, CPU min = 1.35 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.086673, CPU max = 0.11 Timings{0}> Wall avg = 0.0825516, CPU avg = 0.09 Timings{0}> Wall min = 0.0782898, CPU min = 0.06 Timings{0}> Timings{0}> AMR MG average down. Wall max = 0.718512, CPU max = 0.72 Timings{0}> Wall avg = 0.698601, CPU avg = 0.6975 Timings{0}> Wall min = 0.679111, CPU min = 0.67 Timings{0}> Timings{0}> AMR MG bottom-solve. Wall max = 3.53269, CPU max = 3.78 Timings{0}> Wall avg = 3.43169, CPU avg = 3.5825 Timings{0}> Wall min = 3.32665, CPU min = 3.46 Timings{0}> Timings{0}> AMR MG bsolver setu. Wall max = 0.0339636, CPU max = 0.04 Timings{0}> Wall avg = 0.033953, CPU avg = 0.0325 Timings{0}> Wall min = 0.0339443, CPU min = 0.03 Timings{0}> Timings{0}> AMR MG dump......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> AMR MG e-field...... Wall max = 3.95053, CPU max = 3.95 Timings{0}> Wall avg = 3.9329, CPU avg = 3.935 Timings{0}> Wall min = 3.91489, CPU min = 3.91 Timings{0}> Timings{0}> AMR MG matrix setup. Wall max = 138.074, CPU max = 138.09 Timings{0}> Wall avg = 137.819, CPU avg = 137.85 Timings{0}> Wall min = 137.582, CPU min = 137.62 Timings{0}> Timings{0}> AMR MG prolongate... Wall max = 3.57468, CPU max = 3.55 Timings{0}> Wall avg = 3.32212, CPU avg = 3.2675 Timings{0}> Wall min = 3.03389, CPU min = 2.99 Timings{0}> Timings{0}> AMR MG restrict..... Wall max = 30.1323, CPU max = 30.18 Timings{0}> Wall avg = 29.195, CPU avg = 29.0125 Timings{0}> Wall min = 28.026, CPU min = 27.69 Timings{0}> Timings{0}> AMR MG smooth....... Wall max = 200.268, CPU max = 200.7 Timings{0}> Wall avg = 197.791, CPU avg = 197.98 Timings{0}> Wall min = 195.336, CPU min = 195.27 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 24.4072, CPU max = 24.41 Timings{0}> Wall avg = 24.3975, CPU avg = 24.385 Timings{0}> Wall min = 24.3819, CPU min = 24.35 Timings{0}> Timings{0}> AMR solve........... Wall max = 420.128, CPU max = 420.23 Timings{0}> Wall avg = 420.017, CPU avg = 420.147 Timings{0}> Wall min = 419.909, CPU min = 420.07 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 1.73272, CPU max = 1.64 Timings{0}> Wall avg = 1.65367, CPU avg = 1.6125 Timings{0}> Wall min = 1.61305, CPU min = 1.57 Timings{0}> Timings{0}> AMR update particle. Wall max = 17.8822, CPU max = 17.85 Timings{0}> Wall avg = 17.7966, CPU avg = 17.8025 Timings{0}> Wall min = 17.7503, CPU min = 17.71 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.714495, CPU max = 0.74 Timings{0}> Wall avg = 0.714185, CPU avg = 0.7275 Timings{0}> Wall min = 0.713806, CPU min = 0.71 Timings{0}> Timings{0}> Boundingbox......... Wall max = 2.60841, CPU max = 2.61 Timings{0}> Wall avg = 2.56988, CPU avg = 2.6 Timings{0}> Wall min = 2.53762, CPU min = 2.58 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0191652, CPU max = 0.04 Timings{0}> Wall avg = 0.0190688, CPU avg = 0.02 Timings{0}> Wall min = 0.0188214, CPU min = 0.01 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 59.6007, CPU max = 59.69 Timings{0}> Wall avg = 52.5624, CPU avg = 52.6175 Timings{0}> Wall min = 46.6656, CPU min = 46.67 Timings{0}> Timings{0}> Dump................ Wall max = 6.8192, CPU max = 5.43 Timings{0}> Wall avg = 6.61576, CPU avg = 5.3 Timings{0}> Wall min = 6.50638, CPU min = 5.1 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 2.74403, CPU max = 2.75 Timings{0}> Wall avg = 2.61917, CPU avg = 2.63 Timings{0}> Wall min = 2.44979, CPU min = 2.45 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 124.491, CPU max = 124.47 Timings{0}> Wall avg = 118.618, CPU avg = 118.718 Timings{0}> Wall min = 111.634, CPU min = 111.68 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0856615, CPU max = 0.08 Timings{0}> Wall avg = 0.0763001, CPU avg = 0.0725 Timings{0}> Wall min = 0.0640358, CPU min = 0.06 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00128077, CPU max = 0 Timings{0}> Wall avg = 0.00122914, CPU avg = 0 Timings{0}> Wall min = 0.00117677, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.890873, CPU max = 0.41 Timings{0}> Wall avg = 0.878872, CPU avg = 0.405 Timings{0}> Wall min = 0.868876, CPU min = 0.4 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.157051, CPU max = 0.01 Timings{0}> Wall avg = 0.157011, CPU avg = 0.0075 Timings{0}> Wall min = 0.156931, CPU min = 0 Timings{0}> Timings{0}> SelfField total..... Wall max = 447.266, CPU max = 447.42 Timings{0}> Wall avg = 447.253, CPU avg = 447.365 Timings{0}> Wall min = 447.239, CPU min = 447.22 Timings{0}> Timings{0}> Write H5-File....... Wall max = 1.17736, CPU max = 0.21 Timings{0}> Wall avg = 1.17674, CPU avg = 0.1975 Timings{0}> Wall min = 1.17607, CPU min = 0.19 Timings{0}> Timings{0}> Write Stat.......... Wall max = 2.84489, CPU max = 2.27 Timings{0}> Wall avg = 2.53326, CPU avg = 2.2125 Timings{0}> Wall min = 2.39721, CPU min = 2.14 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-09.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 02:24:39 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-09.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=2,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=10,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> Ippl{0}> ---------------- Start reading hdf5 file---------------- Ippl{0}> Restart from hdf5 format file AmrRingCyclotron-09.h5 Ippl{0}> total number of particles = 65536 Ippl{0}> * Restart Energy = 77.8548 (MeV), Path lenght = 40.1882 (m) Ippl{0}> Tracking Step since last bunch injection is 0 Ippl{0}> 2 Bunches(bins) exist in this file Ippl{0}> * Gamma = 1.08298, Beta = 0.383885 Ippl{0}> Restart from hdf5 file generated by OPAL-cycl OPAL{0}> ----------------------------------------- OPAL{0}> CREATE BINNED GAUSS DISTRIBUTION DONE OPAL{0}> Bins= 1000 hBin= 0 Particle vector length 0 OPAL{0}> Bin # 0 val 0 OPAL{0}> Bin # 1 val 0 OPAL{0}> Bin # 2 val 0 OPAL{0}> Bin # 3 val 0 OPAL{0}> Bin # 4 val 0 OPAL{0}> Bin # 5 val 0 OPAL{0}> Bin # 6 val 0 OPAL{0}> Bin # 7 val 0 OPAL{0}> Bin # 8 val 0 OPAL{0}> Bin # 9 val 0 OPAL{0}> Bin # 10 val 0 OPAL{0}> Bin # 11 val 0 OPAL{0}> Bin # 12 val 0 OPAL{0}> Bin # 13 val 0 OPAL{0}> Bin # 14 val 0 OPAL{0}> Bin # 15 val 0 OPAL{0}> Bin # 16 val 0 OPAL{0}> Bin # 17 val 0 OPAL{0}> Bin # 18 val 0 OPAL{0}> Bin # 19 val 0 OPAL{0}> Bin # 20 val 0 OPAL{0}> Bin # 21 val 0 OPAL{0}> Bin # 22 val 0 OPAL{0}> Bin # 23 val 0 OPAL{0}> Bin # 24 val 0 OPAL{0}> Bin # 25 val 0 OPAL{0}> Bin # 26 val 0 OPAL{0}> Bin # 27 val 0 OPAL{0}> Bin # 28 val 0 OPAL{0}> Bin # 29 val 0 OPAL{0}> Bin # 30 val 0 OPAL{0}> Bin # 31 val 0 OPAL{0}> Bin # 32 val 0 OPAL{0}> Bin # 33 val 0 OPAL{0}> Bin # 34 val 0 OPAL{0}> Bin # 35 val 0 OPAL{0}> Bin # 36 val 0 OPAL{0}> Bin # 37 val 0 OPAL{0}> Bin # 38 val 0 OPAL{0}> Bin # 39 val 0 OPAL{0}> Bin # 40 val 0 OPAL{0}> Bin # 41 val 0 OPAL{0}> Bin # 42 val 0 OPAL{0}> Bin # 43 val 0 OPAL{0}> Bin # 44 val 0 OPAL{0}> Bin # 45 val 0 OPAL{0}> Bin # 46 val 0 OPAL{0}> Bin # 47 val 0 OPAL{0}> Bin # 48 val 0 OPAL{0}> Bin # 49 val 0 OPAL{0}> Bin # 50 val 0 OPAL{0}> Bin # 51 val 0 OPAL{0}> Bin # 52 val 0 OPAL{0}> Bin # 53 val 0 OPAL{0}> Bin # 54 val 0 OPAL{0}> Bin # 55 val 0 OPAL{0}> Bin # 56 val 0 OPAL{0}> Bin # 57 val 0 OPAL{0}> Bin # 58 val 0 OPAL{0}> Bin # 59 val 0 OPAL{0}> Bin # 60 val 0 OPAL{0}> Bin # 61 val 0 OPAL{0}> Bin # 62 val 0 OPAL{0}> Bin # 63 val 0 OPAL{0}> Bin # 64 val 0 OPAL{0}> Bin # 65 val 0 OPAL{0}> Bin # 66 val 0 OPAL{0}> Bin # 67 val 0 OPAL{0}> Bin # 68 val 0 OPAL{0}> Bin # 69 val 0 OPAL{0}> Bin # 70 val 0 OPAL{0}> Bin # 71 val 0 OPAL{0}> Bin # 72 val 0 OPAL{0}> Bin # 73 val 0 OPAL{0}> Bin # 74 val 0 OPAL{0}> Bin # 75 val 0 OPAL{0}> Bin # 76 val 0 OPAL{0}> Bin # 77 val 0 OPAL{0}> Bin # 78 val 0 OPAL{0}> Bin # 79 val 0 OPAL{0}> Bin # 80 val 0 OPAL{0}> Bin # 81 val 0 OPAL{0}> Bin # 82 val 0 OPAL{0}> Bin # 83 val 0 OPAL{0}> Bin # 84 val 0 OPAL{0}> Bin # 85 val 0 OPAL{0}> Bin # 86 val 0 OPAL{0}> Bin # 87 val 0 OPAL{0}> Bin # 88 val 0 OPAL{0}> Bin # 89 val 0 OPAL{0}> Bin # 90 val 0 OPAL{0}> Bin # 91 val 0 OPAL{0}> Bin # 92 val 0 OPAL{0}> Bin # 93 val 0 OPAL{0}> Bin # 94 val 0 OPAL{0}> Bin # 95 val 0 OPAL{0}> Bin # 96 val 0 OPAL{0}> Bin # 97 val 0 OPAL{0}> Bin # 98 val 0 OPAL{0}> Bin # 99 val 0 OPAL{0}> Bin # 100 val 0 OPAL{0}> Bin # 101 val 0 OPAL{0}> Bin # 102 val 0 OPAL{0}> Bin # 103 val 0 OPAL{0}> Bin # 104 val 0 OPAL{0}> Bin # 105 val 0 OPAL{0}> Bin # 106 val 0 OPAL{0}> Bin # 107 val 0 OPAL{0}> Bin # 108 val 0 OPAL{0}> Bin # 109 val 0 OPAL{0}> Bin # 110 val 0 OPAL{0}> Bin # 111 val 0 OPAL{0}> Bin # 112 val 0 OPAL{0}> Bin # 113 val 0 OPAL{0}> Bin # 114 val 0 OPAL{0}> Bin # 115 val 0 OPAL{0}> Bin # 116 val 0 OPAL{0}> Bin # 117 val 0 OPAL{0}> Bin # 118 val 0 OPAL{0}> Bin # 119 val 0 OPAL{0}> Bin # 120 val 0 OPAL{0}> Bin # 121 val 0 OPAL{0}> Bin # 122 val 0 OPAL{0}> Bin # 123 val 0 OPAL{0}> Bin # 124 val 0 OPAL{0}> Bin # 125 val 0 OPAL{0}> Bin # 126 val 0 OPAL{0}> Bin # 127 val 0 OPAL{0}> Bin # 128 val 0 OPAL{0}> Bin # 129 val 0 OPAL{0}> Bin # 130 val 0 OPAL{0}> Bin # 131 val 0 OPAL{0}> Bin # 132 val 0 OPAL{0}> Bin # 133 val 0 OPAL{0}> Bin # 134 val 0 OPAL{0}> Bin # 135 val 0 OPAL{0}> Bin # 136 val 0 OPAL{0}> Bin # 137 val 0 OPAL{0}> Bin # 138 val 0 OPAL{0}> Bin # 139 val 0 OPAL{0}> Bin # 140 val 0 OPAL{0}> Bin # 141 val 0 OPAL{0}> Bin # 142 val 0 OPAL{0}> Bin # 143 val 0 OPAL{0}> Bin # 144 val 0 OPAL{0}> Bin # 145 val 0 OPAL{0}> Bin # 146 val 0 OPAL{0}> Bin # 147 val 0 OPAL{0}> Bin # 148 val 0 OPAL{0}> Bin # 149 val 0 OPAL{0}> Bin # 150 val 0 OPAL{0}> Bin # 151 val 0 OPAL{0}> Bin # 152 val 0 OPAL{0}> Bin # 153 val 0 OPAL{0}> Bin # 154 val 0 OPAL{0}> Bin # 155 val 0 OPAL{0}> Bin # 156 val 0 OPAL{0}> Bin # 157 val 0 OPAL{0}> Bin # 158 val 0 OPAL{0}> Bin # 159 val 0 OPAL{0}> Bin # 160 val 0 OPAL{0}> Bin # 161 val 0 OPAL{0}> Bin # 162 val 0 OPAL{0}> Bin # 163 val 0 OPAL{0}> Bin # 164 val 0 OPAL{0}> Bin # 165 val 0 OPAL{0}> Bin # 166 val 0 OPAL{0}> Bin # 167 val 0 OPAL{0}> Bin # 168 val 0 OPAL{0}> Bin # 169 val 0 OPAL{0}> Bin # 170 val 0 OPAL{0}> Bin # 171 val 0 OPAL{0}> Bin # 172 val 0 OPAL{0}> Bin # 173 val 0 OPAL{0}> Bin # 174 val 0 OPAL{0}> Bin # 175 val 0 OPAL{0}> Bin # 176 val 0 OPAL{0}> Bin # 177 val 0 OPAL{0}> Bin # 178 val 0 OPAL{0}> Bin # 179 val 0 OPAL{0}> Bin # 180 val 0 OPAL{0}> Bin # 181 val 0 OPAL{0}> Bin # 182 val 0 OPAL{0}> Bin # 183 val 0 OPAL{0}> Bin # 184 val 0 OPAL{0}> Bin # 185 val 0 OPAL{0}> Bin # 186 val 0 OPAL{0}> Bin # 187 val 0 OPAL{0}> Bin # 188 val 0 OPAL{0}> Bin # 189 val 0 OPAL{0}> Bin # 190 val 0 OPAL{0}> Bin # 191 val 0 OPAL{0}> Bin # 192 val 0 OPAL{0}> Bin # 193 val 0 OPAL{0}> Bin # 194 val 0 OPAL{0}> Bin # 195 val 0 OPAL{0}> Bin # 196 val 0 OPAL{0}> Bin # 197 val 0 OPAL{0}> Bin # 198 val 0 OPAL{0}> Bin # 199 val 0 OPAL{0}> Bin # 200 val 0 OPAL{0}> Bin # 201 val 0 OPAL{0}> Bin # 202 val 0 OPAL{0}> Bin # 203 val 0 OPAL{0}> Bin # 204 val 0 OPAL{0}> Bin # 205 val 0 OPAL{0}> Bin # 206 val 0 OPAL{0}> Bin # 207 val 0 OPAL{0}> Bin # 208 val 0 OPAL{0}> Bin # 209 val 0 OPAL{0}> Bin # 210 val 0 OPAL{0}> Bin # 211 val 0 OPAL{0}> Bin # 212 val 0 OPAL{0}> Bin # 213 val 0 OPAL{0}> Bin # 214 val 0 OPAL{0}> Bin # 215 val 0 OPAL{0}> Bin # 216 val 0 OPAL{0}> Bin # 217 val 0 OPAL{0}> Bin # 218 val 0 OPAL{0}> Bin # 219 val 0 OPAL{0}> Bin # 220 val 0 OPAL{0}> Bin # 221 val 0 OPAL{0}> Bin # 222 val 0 OPAL{0}> Bin # 223 val 0 OPAL{0}> Bin # 224 val 0 OPAL{0}> Bin # 225 val 0 OPAL{0}> Bin # 226 val 0 OPAL{0}> Bin # 227 val 0 OPAL{0}> Bin # 228 val 0 OPAL{0}> Bin # 229 val 0 OPAL{0}> Bin # 230 val 0 OPAL{0}> Bin # 231 val 0 OPAL{0}> Bin # 232 val 0 OPAL{0}> Bin # 233 val 0 OPAL{0}> Bin # 234 val 0 OPAL{0}> Bin # 235 val 0 OPAL{0}> Bin # 236 val 0 OPAL{0}> Bin # 237 val 0 OPAL{0}> Bin # 238 val 0 OPAL{0}> Bin # 239 val 0 OPAL{0}> Bin # 240 val 0 OPAL{0}> Bin # 241 val 0 OPAL{0}> Bin # 242 val 0 OPAL{0}> Bin # 243 val 0 OPAL{0}> Bin # 244 val 0 OPAL{0}> Bin # 245 val 0 OPAL{0}> Bin # 246 val 0 OPAL{0}> Bin # 247 val 0 OPAL{0}> Bin # 248 val 0 OPAL{0}> Bin # 249 val 0 OPAL{0}> Bin # 250 val 0 OPAL{0}> Bin # 251 val 0 OPAL{0}> Bin # 252 val 0 OPAL{0}> Bin # 253 val 0 OPAL{0}> Bin # 254 val 0 OPAL{0}> Bin # 255 val 0 OPAL{0}> Bin # 256 val 0 OPAL{0}> Bin # 257 val 0 OPAL{0}> Bin # 258 val 0 OPAL{0}> Bin # 259 val 0 OPAL{0}> Bin # 260 val 0 OPAL{0}> Bin # 261 val 0 OPAL{0}> Bin # 262 val 0 OPAL{0}> Bin # 263 val 0 OPAL{0}> Bin # 264 val 0 OPAL{0}> Bin # 265 val 0 OPAL{0}> Bin # 266 val 0 OPAL{0}> Bin # 267 val 0 OPAL{0}> Bin # 268 val 0 OPAL{0}> Bin # 269 val 0 OPAL{0}> Bin # 270 val 0 OPAL{0}> Bin # 271 val 0 OPAL{0}> Bin # 272 val 0 OPAL{0}> Bin # 273 val 0 OPAL{0}> Bin # 274 val 0 OPAL{0}> Bin # 275 val 0 OPAL{0}> Bin # 276 val 0 OPAL{0}> Bin # 277 val 0 OPAL{0}> Bin # 278 val 0 OPAL{0}> Bin # 279 val 0 OPAL{0}> Bin # 280 val 0 OPAL{0}> Bin # 281 val 0 OPAL{0}> Bin # 282 val 0 OPAL{0}> Bin # 283 val 0 OPAL{0}> Bin # 284 val 0 OPAL{0}> Bin # 285 val 0 OPAL{0}> Bin # 286 val 0 OPAL{0}> Bin # 287 val 0 OPAL{0}> Bin # 288 val 0 OPAL{0}> Bin # 289 val 0 OPAL{0}> Bin # 290 val 0 OPAL{0}> Bin # 291 val 0 OPAL{0}> Bin # 292 val 0 OPAL{0}> Bin # 293 val 0 OPAL{0}> Bin # 294 val 0 OPAL{0}> Bin # 295 val 0 OPAL{0}> Bin # 296 val 0 OPAL{0}> Bin # 297 val 0 OPAL{0}> Bin # 298 val 0 OPAL{0}> Bin # 299 val 0 OPAL{0}> Bin # 300 val 0 OPAL{0}> Bin # 301 val 0 OPAL{0}> Bin # 302 val 0 OPAL{0}> Bin # 303 val 0 OPAL{0}> Bin # 304 val 0 OPAL{0}> Bin # 305 val 0 OPAL{0}> Bin # 306 val 0 OPAL{0}> Bin # 307 val 0 OPAL{0}> Bin # 308 val 0 OPAL{0}> Bin # 309 val 0 OPAL{0}> Bin # 310 val 0 OPAL{0}> Bin # 311 val 0 OPAL{0}> Bin # 312 val 0 OPAL{0}> Bin # 313 val 0 OPAL{0}> Bin # 314 val 0 OPAL{0}> Bin # 315 val 0 OPAL{0}> Bin # 316 val 0 OPAL{0}> Bin # 317 val 0 OPAL{0}> Bin # 318 val 0 OPAL{0}> Bin # 319 val 0 OPAL{0}> Bin # 320 val 0 OPAL{0}> Bin # 321 val 0 OPAL{0}> Bin # 322 val 0 OPAL{0}> Bin # 323 val 0 OPAL{0}> Bin # 324 val 0 OPAL{0}> Bin # 325 val 0 OPAL{0}> Bin # 326 val 0 OPAL{0}> Bin # 327 val 0 OPAL{0}> Bin # 328 val 0 OPAL{0}> Bin # 329 val 0 OPAL{0}> Bin # 330 val 0 OPAL{0}> Bin # 331 val 0 OPAL{0}> Bin # 332 val 0 OPAL{0}> Bin # 333 val 0 OPAL{0}> Bin # 334 val 0 OPAL{0}> Bin # 335 val 0 OPAL{0}> Bin # 336 val 0 OPAL{0}> Bin # 337 val 0 OPAL{0}> Bin # 338 val 0 OPAL{0}> Bin # 339 val 0 OPAL{0}> Bin # 340 val 0 OPAL{0}> Bin # 341 val 0 OPAL{0}> Bin # 342 val 0 OPAL{0}> Bin # 343 val 0 OPAL{0}> Bin # 344 val 0 OPAL{0}> Bin # 345 val 0 OPAL{0}> Bin # 346 val 0 OPAL{0}> Bin # 347 val 0 OPAL{0}> Bin # 348 val 0 OPAL{0}> Bin # 349 val 0 OPAL{0}> Bin # 350 val 0 OPAL{0}> Bin # 351 val 0 OPAL{0}> Bin # 352 val 0 OPAL{0}> Bin # 353 val 0 OPAL{0}> Bin # 354 val 0 OPAL{0}> Bin # 355 val 0 OPAL{0}> Bin # 356 val 0 OPAL{0}> Bin # 357 val 0 OPAL{0}> Bin # 358 val 0 OPAL{0}> Bin # 359 val 0 OPAL{0}> Bin # 360 val 0 OPAL{0}> Bin # 361 val 0 OPAL{0}> Bin # 362 val 0 OPAL{0}> Bin # 363 val 0 OPAL{0}> Bin # 364 val 0 OPAL{0}> Bin # 365 val 0 OPAL{0}> Bin # 366 val 0 OPAL{0}> Bin # 367 val 0 OPAL{0}> Bin # 368 val 0 OPAL{0}> Bin # 369 val 0 OPAL{0}> Bin # 370 val 0 OPAL{0}> Bin # 371 val 0 OPAL{0}> Bin # 372 val 0 OPAL{0}> Bin # 373 val 0 OPAL{0}> Bin # 374 val 0 OPAL{0}> Bin # 375 val 0 OPAL{0}> Bin # 376 val 0 OPAL{0}> Bin # 377 val 0 OPAL{0}> Bin # 378 val 0 OPAL{0}> Bin # 379 val 0 OPAL{0}> Bin # 380 val 0 OPAL{0}> Bin # 381 val 0 OPAL{0}> Bin # 382 val 0 OPAL{0}> Bin # 383 val 0 OPAL{0}> Bin # 384 val 0 OPAL{0}> Bin # 385 val 0 OPAL{0}> Bin # 386 val 0 OPAL{0}> Bin # 387 val 0 OPAL{0}> Bin # 388 val 0 OPAL{0}> Bin # 389 val 0 OPAL{0}> Bin # 390 val 0 OPAL{0}> Bin # 391 val 0 OPAL{0}> Bin # 392 val 0 OPAL{0}> Bin # 393 val 0 OPAL{0}> Bin # 394 val 0 OPAL{0}> Bin # 395 val 0 OPAL{0}> Bin # 396 val 0 OPAL{0}> Bin # 397 val 0 OPAL{0}> Bin # 398 val 0 OPAL{0}> Bin # 399 val 0 OPAL{0}> Bin # 400 val 0 OPAL{0}> Bin # 401 val 0 OPAL{0}> Bin # 402 val 0 OPAL{0}> Bin # 403 val 0 OPAL{0}> Bin # 404 val 0 OPAL{0}> Bin # 405 val 0 OPAL{0}> Bin # 406 val 0 OPAL{0}> Bin # 407 val 0 OPAL{0}> Bin # 408 val 0 OPAL{0}> Bin # 409 val 0 OPAL{0}> Bin # 410 val 0 OPAL{0}> Bin # 411 val 0 OPAL{0}> Bin # 412 val 0 OPAL{0}> Bin # 413 val 0 OPAL{0}> Bin # 414 val 0 OPAL{0}> Bin # 415 val 0 OPAL{0}> Bin # 416 val 0 OPAL{0}> Bin # 417 val 0 OPAL{0}> Bin # 418 val 0 OPAL{0}> Bin # 419 val 0 OPAL{0}> Bin # 420 val 0 OPAL{0}> Bin # 421 val 0 OPAL{0}> Bin # 422 val 0 OPAL{0}> Bin # 423 val 0 OPAL{0}> Bin # 424 val 0 OPAL{0}> Bin # 425 val 0 OPAL{0}> Bin # 426 val 0 OPAL{0}> Bin # 427 val 0 OPAL{0}> Bin # 428 val 0 OPAL{0}> Bin # 429 val 0 OPAL{0}> Bin # 430 val 0 OPAL{0}> Bin # 431 val 0 OPAL{0}> Bin # 432 val 0 OPAL{0}> Bin # 433 val 0 OPAL{0}> Bin # 434 val 0 OPAL{0}> Bin # 435 val 0 OPAL{0}> Bin # 436 val 0 OPAL{0}> Bin # 437 val 0 OPAL{0}> Bin # 438 val 0 OPAL{0}> Bin # 439 val 0 OPAL{0}> Bin # 440 val 0 OPAL{0}> Bin # 441 val 0 OPAL{0}> Bin # 442 val 0 OPAL{0}> Bin # 443 val 0 OPAL{0}> Bin # 444 val 0 OPAL{0}> Bin # 445 val 0 OPAL{0}> Bin # 446 val 0 OPAL{0}> Bin # 447 val 0 OPAL{0}> Bin # 448 val 0 OPAL{0}> Bin # 449 val 0 OPAL{0}> Bin # 450 val 0 OPAL{0}> Bin # 451 val 0 OPAL{0}> Bin # 452 val 0 OPAL{0}> Bin # 453 val 0 OPAL{0}> Bin # 454 val 0 OPAL{0}> Bin # 455 val 0 OPAL{0}> Bin # 456 val 0 OPAL{0}> Bin # 457 val 0 OPAL{0}> Bin # 458 val 0 OPAL{0}> Bin # 459 val 0 OPAL{0}> Bin # 460 val 0 OPAL{0}> Bin # 461 val 0 OPAL{0}> Bin # 462 val 0 OPAL{0}> Bin # 463 val 0 OPAL{0}> Bin # 464 val 0 OPAL{0}> Bin # 465 val 0 OPAL{0}> Bin # 466 val 0 OPAL{0}> Bin # 467 val 0 OPAL{0}> Bin # 468 val 0 OPAL{0}> Bin # 469 val 0 OPAL{0}> Bin # 470 val 0 OPAL{0}> Bin # 471 val 0 OPAL{0}> Bin # 472 val 0 OPAL{0}> Bin # 473 val 0 OPAL{0}> Bin # 474 val 0 OPAL{0}> Bin # 475 val 0 OPAL{0}> Bin # 476 val 0 OPAL{0}> Bin # 477 val 0 OPAL{0}> Bin # 478 val 0 OPAL{0}> Bin # 479 val 0 OPAL{0}> Bin # 480 val 0 OPAL{0}> Bin # 481 val 0 OPAL{0}> Bin # 482 val 0 OPAL{0}> Bin # 483 val 0 OPAL{0}> Bin # 484 val 0 OPAL{0}> Bin # 485 val 0 OPAL{0}> Bin # 486 val 0 OPAL{0}> Bin # 487 val 0 OPAL{0}> Bin # 488 val 0 OPAL{0}> Bin # 489 val 0 OPAL{0}> Bin # 490 val 0 OPAL{0}> Bin # 491 val 0 OPAL{0}> Bin # 492 val 0 OPAL{0}> Bin # 493 val 0 OPAL{0}> Bin # 494 val 0 OPAL{0}> Bin # 495 val 0 OPAL{0}> Bin # 496 val 0 OPAL{0}> Bin # 497 val 0 OPAL{0}> Bin # 498 val 0 OPAL{0}> Bin # 499 val 0 OPAL{0}> Bin # 500 val 0 OPAL{0}> Bin # 501 val 0 OPAL{0}> Bin # 502 val 0 OPAL{0}> Bin # 503 val 0 OPAL{0}> Bin # 504 val 0 OPAL{0}> Bin # 505 val 0 OPAL{0}> Bin # 506 val 0 OPAL{0}> Bin # 507 val 0 OPAL{0}> Bin # 508 val 0 OPAL{0}> Bin # 509 val 0 OPAL{0}> Bin # 510 val 0 OPAL{0}> Bin # 511 val 0 OPAL{0}> Bin # 512 val 0 OPAL{0}> Bin # 513 val 0 OPAL{0}> Bin # 514 val 0 OPAL{0}> Bin # 515 val 0 OPAL{0}> Bin # 516 val 0 OPAL{0}> Bin # 517 val 0 OPAL{0}> Bin # 518 val 0 OPAL{0}> Bin # 519 val 0 OPAL{0}> Bin # 520 val 0 OPAL{0}> Bin # 521 val 0 OPAL{0}> Bin # 522 val 0 OPAL{0}> Bin # 523 val 0 OPAL{0}> Bin # 524 val 0 OPAL{0}> Bin # 525 val 0 OPAL{0}> Bin # 526 val 0 OPAL{0}> Bin # 527 val 0 OPAL{0}> Bin # 528 val 0 OPAL{0}> Bin # 529 val 0 OPAL{0}> Bin # 530 val 0 OPAL{0}> Bin # 531 val 0 OPAL{0}> Bin # 532 val 0 OPAL{0}> Bin # 533 val 0 OPAL{0}> Bin # 534 val 0 OPAL{0}> Bin # 535 val 0 OPAL{0}> Bin # 536 val 0 OPAL{0}> Bin # 537 val 0 OPAL{0}> Bin # 538 val 0 OPAL{0}> Bin # 539 val 0 OPAL{0}> Bin # 540 val 0 OPAL{0}> Bin # 541 val 0 OPAL{0}> Bin # 542 val 0 OPAL{0}> Bin # 543 val 0 OPAL{0}> Bin # 544 val 0 OPAL{0}> Bin # 545 val 0 OPAL{0}> Bin # 546 val 0 OPAL{0}> Bin # 547 val 0 OPAL{0}> Bin # 548 val 0 OPAL{0}> Bin # 549 val 0 OPAL{0}> Bin # 550 val 0 OPAL{0}> Bin # 551 val 0 OPAL{0}> Bin # 552 val 0 OPAL{0}> Bin # 553 val 0 OPAL{0}> Bin # 554 val 0 OPAL{0}> Bin # 555 val 0 OPAL{0}> Bin # 556 val 0 OPAL{0}> Bin # 557 val 0 OPAL{0}> Bin # 558 val 0 OPAL{0}> Bin # 559 val 0 OPAL{0}> Bin # 560 val 0 OPAL{0}> Bin # 561 val 0 OPAL{0}> Bin # 562 val 0 OPAL{0}> Bin # 563 val 0 OPAL{0}> Bin # 564 val 0 OPAL{0}> Bin # 565 val 0 OPAL{0}> Bin # 566 val 0 OPAL{0}> Bin # 567 val 0 OPAL{0}> Bin # 568 val 0 OPAL{0}> Bin # 569 val 0 OPAL{0}> Bin # 570 val 0 OPAL{0}> Bin # 571 val 0 OPAL{0}> Bin # 572 val 0 OPAL{0}> Bin # 573 val 0 OPAL{0}> Bin # 574 val 0 OPAL{0}> Bin # 575 val 0 OPAL{0}> Bin # 576 val 0 OPAL{0}> Bin # 577 val 0 OPAL{0}> Bin # 578 val 0 OPAL{0}> Bin # 579 val 0 OPAL{0}> Bin # 580 val 0 OPAL{0}> Bin # 581 val 0 OPAL{0}> Bin # 582 val 0 OPAL{0}> Bin # 583 val 0 OPAL{0}> Bin # 584 val 0 OPAL{0}> Bin # 585 val 0 OPAL{0}> Bin # 586 val 0 OPAL{0}> Bin # 587 val 0 OPAL{0}> Bin # 588 val 0 OPAL{0}> Bin # 589 val 0 OPAL{0}> Bin # 590 val 0 OPAL{0}> Bin # 591 val 0 OPAL{0}> Bin # 592 val 0 OPAL{0}> Bin # 593 val 0 OPAL{0}> Bin # 594 val 0 OPAL{0}> Bin # 595 val 0 OPAL{0}> Bin # 596 val 0 OPAL{0}> Bin # 597 val 0 OPAL{0}> Bin # 598 val 0 OPAL{0}> Bin # 599 val 0 OPAL{0}> Bin # 600 val 0 OPAL{0}> Bin # 601 val 0 OPAL{0}> Bin # 602 val 0 OPAL{0}> Bin # 603 val 0 OPAL{0}> Bin # 604 val 0 OPAL{0}> Bin # 605 val 0 OPAL{0}> Bin # 606 val 0 OPAL{0}> Bin # 607 val 0 OPAL{0}> Bin # 608 val 0 OPAL{0}> Bin # 609 val 0 OPAL{0}> Bin # 610 val 0 OPAL{0}> Bin # 611 val 0 OPAL{0}> Bin # 612 val 0 OPAL{0}> Bin # 613 val 0 OPAL{0}> Bin # 614 val 0 OPAL{0}> Bin # 615 val 0 OPAL{0}> Bin # 616 val 0 OPAL{0}> Bin # 617 val 0 OPAL{0}> Bin # 618 val 0 OPAL{0}> Bin # 619 val 0 OPAL{0}> Bin # 620 val 0 OPAL{0}> Bin # 621 val 0 OPAL{0}> Bin # 622 val 0 OPAL{0}> Bin # 623 val 0 OPAL{0}> Bin # 624 val 0 OPAL{0}> Bin # 625 val 0 OPAL{0}> Bin # 626 val 0 OPAL{0}> Bin # 627 val 0 OPAL{0}> Bin # 628 val 0 OPAL{0}> Bin # 629 val 0 OPAL{0}> Bin # 630 val 0 OPAL{0}> Bin # 631 val 0 OPAL{0}> Bin # 632 val 0 OPAL{0}> Bin # 633 val 0 OPAL{0}> Bin # 634 val 0 OPAL{0}> Bin # 635 val 0 OPAL{0}> Bin # 636 val 0 OPAL{0}> Bin # 637 val 0 OPAL{0}> Bin # 638 val 0 OPAL{0}> Bin # 639 val 0 OPAL{0}> Bin # 640 val 0 OPAL{0}> Bin # 641 val 0 OPAL{0}> Bin # 642 val 0 OPAL{0}> Bin # 643 val 0 OPAL{0}> Bin # 644 val 0 OPAL{0}> Bin # 645 val 0 OPAL{0}> Bin # 646 val 0 OPAL{0}> Bin # 647 val 0 OPAL{0}> Bin # 648 val 0 OPAL{0}> Bin # 649 val 0 OPAL{0}> Bin # 650 val 0 OPAL{0}> Bin # 651 val 0 OPAL{0}> Bin # 652 val 0 OPAL{0}> Bin # 653 val 0 OPAL{0}> Bin # 654 val 0 OPAL{0}> Bin # 655 val 0 OPAL{0}> Bin # 656 val 0 OPAL{0}> Bin # 657 val 0 OPAL{0}> Bin # 658 val 0 OPAL{0}> Bin # 659 val 0 OPAL{0}> Bin # 660 val 0 OPAL{0}> Bin # 661 val 0 OPAL{0}> Bin # 662 val 0 OPAL{0}> Bin # 663 val 0 OPAL{0}> Bin # 664 val 0 OPAL{0}> Bin # 665 val 0 OPAL{0}> Bin # 666 val 0 OPAL{0}> Bin # 667 val 0 OPAL{0}> Bin # 668 val 0 OPAL{0}> Bin # 669 val 0 OPAL{0}> Bin # 670 val 0 OPAL{0}> Bin # 671 val 0 OPAL{0}> Bin # 672 val 0 OPAL{0}> Bin # 673 val 0 OPAL{0}> Bin # 674 val 0 OPAL{0}> Bin # 675 val 0 OPAL{0}> Bin # 676 val 0 OPAL{0}> Bin # 677 val 0 OPAL{0}> Bin # 678 val 0 OPAL{0}> Bin # 679 val 0 OPAL{0}> Bin # 680 val 0 OPAL{0}> Bin # 681 val 0 OPAL{0}> Bin # 682 val 0 OPAL{0}> Bin # 683 val 0 OPAL{0}> Bin # 684 val 0 OPAL{0}> Bin # 685 val 0 OPAL{0}> Bin # 686 val 0 OPAL{0}> Bin # 687 val 0 OPAL{0}> Bin # 688 val 0 OPAL{0}> Bin # 689 val 0 OPAL{0}> Bin # 690 val 0 OPAL{0}> Bin # 691 val 0 OPAL{0}> Bin # 692 val 0 OPAL{0}> Bin # 693 val 0 OPAL{0}> Bin # 694 val 0 OPAL{0}> Bin # 695 val 0 OPAL{0}> Bin # 696 val 0 OPAL{0}> Bin # 697 val 0 OPAL{0}> Bin # 698 val 0 OPAL{0}> Bin # 699 val 0 OPAL{0}> Bin # 700 val 0 OPAL{0}> Bin # 701 val 0 OPAL{0}> Bin # 702 val 0 OPAL{0}> Bin # 703 val 0 OPAL{0}> Bin # 704 val 0 OPAL{0}> Bin # 705 val 0 OPAL{0}> Bin # 706 val 0 OPAL{0}> Bin # 707 val 0 OPAL{0}> Bin # 708 val 0 OPAL{0}> Bin # 709 val 0 OPAL{0}> Bin # 710 val 0 OPAL{0}> Bin # 711 val 0 OPAL{0}> Bin # 712 val 0 OPAL{0}> Bin # 713 val 0 OPAL{0}> Bin # 714 val 0 OPAL{0}> Bin # 715 val 0 OPAL{0}> Bin # 716 val 0 OPAL{0}> Bin # 717 val 0 OPAL{0}> Bin # 718 val 0 OPAL{0}> Bin # 719 val 0 OPAL{0}> Bin # 720 val 0 OPAL{0}> Bin # 721 val 0 OPAL{0}> Bin # 722 val 0 OPAL{0}> Bin # 723 val 0 OPAL{0}> Bin # 724 val 0 OPAL{0}> Bin # 725 val 0 OPAL{0}> Bin # 726 val 0 OPAL{0}> Bin # 727 val 0 OPAL{0}> Bin # 728 val 0 OPAL{0}> Bin # 729 val 0 OPAL{0}> Bin # 730 val 0 OPAL{0}> Bin # 731 val 0 OPAL{0}> Bin # 732 val 0 OPAL{0}> Bin # 733 val 0 OPAL{0}> Bin # 734 val 0 OPAL{0}> Bin # 735 val 0 OPAL{0}> Bin # 736 val 0 OPAL{0}> Bin # 737 val 0 OPAL{0}> Bin # 738 val 0 OPAL{0}> Bin # 739 val 0 OPAL{0}> Bin # 740 val 0 OPAL{0}> Bin # 741 val 0 OPAL{0}> Bin # 742 val 0 OPAL{0}> Bin # 743 val 0 OPAL{0}> Bin # 744 val 0 OPAL{0}> Bin # 745 val 0 OPAL{0}> Bin # 746 val 0 OPAL{0}> Bin # 747 val 0 OPAL{0}> Bin # 748 val 0 OPAL{0}> Bin # 749 val 0 OPAL{0}> Bin # 750 val 0 OPAL{0}> Bin # 751 val 0 OPAL{0}> Bin # 752 val 0 OPAL{0}> Bin # 753 val 0 OPAL{0}> Bin # 754 val 0 OPAL{0}> Bin # 755 val 0 OPAL{0}> Bin # 756 val 0 OPAL{0}> Bin # 757 val 0 OPAL{0}> Bin # 758 val 0 OPAL{0}> Bin # 759 val 0 OPAL{0}> Bin # 760 val 0 OPAL{0}> Bin # 761 val 0 OPAL{0}> Bin # 762 val 0 OPAL{0}> Bin # 763 val 0 OPAL{0}> Bin # 764 val 0 OPAL{0}> Bin # 765 val 0 OPAL{0}> Bin # 766 val 0 OPAL{0}> Bin # 767 val 0 OPAL{0}> Bin # 768 val 0 OPAL{0}> Bin # 769 val 0 OPAL{0}> Bin # 770 val 0 OPAL{0}> Bin # 771 val 0 OPAL{0}> Bin # 772 val 0 OPAL{0}> Bin # 773 val 0 OPAL{0}> Bin # 774 val 0 OPAL{0}> Bin # 775 val 0 OPAL{0}> Bin # 776 val 0 OPAL{0}> Bin # 777 val 0 OPAL{0}> Bin # 778 val 0 OPAL{0}> Bin # 779 val 0 OPAL{0}> Bin # 780 val 0 OPAL{0}> Bin # 781 val 0 OPAL{0}> Bin # 782 val 0 OPAL{0}> Bin # 783 val 0 OPAL{0}> Bin # 784 val 0 OPAL{0}> Bin # 785 val 0 OPAL{0}> Bin # 786 val 0 OPAL{0}> Bin # 787 val 0 OPAL{0}> Bin # 788 val 0 OPAL{0}> Bin # 789 val 0 OPAL{0}> Bin # 790 val 0 OPAL{0}> Bin # 791 val 0 OPAL{0}> Bin # 792 val 0 OPAL{0}> Bin # 793 val 0 OPAL{0}> Bin # 794 val 0 OPAL{0}> Bin # 795 val 0 OPAL{0}> Bin # 796 val 0 OPAL{0}> Bin # 797 val 0 OPAL{0}> Bin # 798 val 0 OPAL{0}> Bin # 799 val 0 OPAL{0}> Bin # 800 val 0 OPAL{0}> Bin # 801 val 0 OPAL{0}> Bin # 802 val 0 OPAL{0}> Bin # 803 val 0 OPAL{0}> Bin # 804 val 0 OPAL{0}> Bin # 805 val 0 OPAL{0}> Bin # 806 val 0 OPAL{0}> Bin # 807 val 0 OPAL{0}> Bin # 808 val 0 OPAL{0}> Bin # 809 val 0 OPAL{0}> Bin # 810 val 0 OPAL{0}> Bin # 811 val 0 OPAL{0}> Bin # 812 val 0 OPAL{0}> Bin # 813 val 0 OPAL{0}> Bin # 814 val 0 OPAL{0}> Bin # 815 val 0 OPAL{0}> Bin # 816 val 0 OPAL{0}> Bin # 817 val 0 OPAL{0}> Bin # 818 val 0 OPAL{0}> Bin # 819 val 0 OPAL{0}> Bin # 820 val 0 OPAL{0}> Bin # 821 val 0 OPAL{0}> Bin # 822 val 0 OPAL{0}> Bin # 823 val 0 OPAL{0}> Bin # 824 val 0 OPAL{0}> Bin # 825 val 0 OPAL{0}> Bin # 826 val 0 OPAL{0}> Bin # 827 val 0 OPAL{0}> Bin # 828 val 0 OPAL{0}> Bin # 829 val 0 OPAL{0}> Bin # 830 val 0 OPAL{0}> Bin # 831 val 0 OPAL{0}> Bin # 832 val 0 OPAL{0}> Bin # 833 val 0 OPAL{0}> Bin # 834 val 0 OPAL{0}> Bin # 835 val 0 OPAL{0}> Bin # 836 val 0 OPAL{0}> Bin # 837 val 0 OPAL{0}> Bin # 838 val 0 OPAL{0}> Bin # 839 val 0 OPAL{0}> Bin # 840 val 0 OPAL{0}> Bin # 841 val 0 OPAL{0}> Bin # 842 val 0 OPAL{0}> Bin # 843 val 0 OPAL{0}> Bin # 844 val 0 OPAL{0}> Bin # 845 val 0 OPAL{0}> Bin # 846 val 0 OPAL{0}> Bin # 847 val 0 OPAL{0}> Bin # 848 val 0 OPAL{0}> Bin # 849 val 0 OPAL{0}> Bin # 850 val 0 OPAL{0}> Bin # 851 val 0 OPAL{0}> Bin # 852 val 0 OPAL{0}> Bin # 853 val 0 OPAL{0}> Bin # 854 val 0 OPAL{0}> Bin # 855 val 0 OPAL{0}> Bin # 856 val 0 OPAL{0}> Bin # 857 val 0 OPAL{0}> Bin # 858 val 0 OPAL{0}> Bin # 859 val 0 OPAL{0}> Bin # 860 val 0 OPAL{0}> Bin # 861 val 0 OPAL{0}> Bin # 862 val 0 OPAL{0}> Bin # 863 val 0 OPAL{0}> Bin # 864 val 0 OPAL{0}> Bin # 865 val 0 OPAL{0}> Bin # 866 val 0 OPAL{0}> Bin # 867 val 0 OPAL{0}> Bin # 868 val 0 OPAL{0}> Bin # 869 val 0 OPAL{0}> Bin # 870 val 0 OPAL{0}> Bin # 871 val 0 OPAL{0}> Bin # 872 val 0 OPAL{0}> Bin # 873 val 0 OPAL{0}> Bin # 874 val 0 OPAL{0}> Bin # 875 val 0 OPAL{0}> Bin # 876 val 0 OPAL{0}> Bin # 877 val 0 OPAL{0}> Bin # 878 val 0 OPAL{0}> Bin # 879 val 0 OPAL{0}> Bin # 880 val 0 OPAL{0}> Bin # 881 val 0 OPAL{0}> Bin # 882 val 0 OPAL{0}> Bin # 883 val 0 OPAL{0}> Bin # 884 val 0 OPAL{0}> Bin # 885 val 0 OPAL{0}> Bin # 886 val 0 OPAL{0}> Bin # 887 val 0 OPAL{0}> Bin # 888 val 0 OPAL{0}> Bin # 889 val 0 OPAL{0}> Bin # 890 val 0 OPAL{0}> Bin # 891 val 0 OPAL{0}> Bin # 892 val 0 OPAL{0}> Bin # 893 val 0 OPAL{0}> Bin # 894 val 0 OPAL{0}> Bin # 895 val 0 OPAL{0}> Bin # 896 val 0 OPAL{0}> Bin # 897 val 0 OPAL{0}> Bin # 898 val 0 OPAL{0}> Bin # 899 val 0 OPAL{0}> Bin # 900 val 0 OPAL{0}> Bin # 901 val 0 OPAL{0}> Bin # 902 val 0 OPAL{0}> Bin # 903 val 0 OPAL{0}> Bin # 904 val 0 OPAL{0}> Bin # 905 val 0 OPAL{0}> Bin # 906 val 0 OPAL{0}> Bin # 907 val 0 OPAL{0}> Bin # 908 val 0 OPAL{0}> Bin # 909 val 0 OPAL{0}> Bin # 910 val 0 OPAL{0}> Bin # 911 val 0 OPAL{0}> Bin # 912 val 0 OPAL{0}> Bin # 913 val 0 OPAL{0}> Bin # 914 val 0 OPAL{0}> Bin # 915 val 0 OPAL{0}> Bin # 916 val 0 OPAL{0}> Bin # 917 val 0 OPAL{0}> Bin # 918 val 0 OPAL{0}> Bin # 919 val 0 OPAL{0}> Bin # 920 val 0 OPAL{0}> Bin # 921 val 0 OPAL{0}> Bin # 922 val 0 OPAL{0}> Bin # 923 val 0 OPAL{0}> Bin # 924 val 0 OPAL{0}> Bin # 925 val 0 OPAL{0}> Bin # 926 val 0 OPAL{0}> Bin # 927 val 0 OPAL{0}> Bin # 928 val 0 OPAL{0}> Bin # 929 val 0 OPAL{0}> Bin # 930 val 0 OPAL{0}> Bin # 931 val 0 OPAL{0}> Bin # 932 val 0 OPAL{0}> Bin # 933 val 0 OPAL{0}> Bin # 934 val 0 OPAL{0}> Bin # 935 val 0 OPAL{0}> Bin # 936 val 0 OPAL{0}> Bin # 937 val 0 OPAL{0}> Bin # 938 val 0 OPAL{0}> Bin # 939 val 0 OPAL{0}> Bin # 940 val 0 OPAL{0}> Bin # 941 val 0 OPAL{0}> Bin # 942 val 0 OPAL{0}> Bin # 943 val 0 OPAL{0}> Bin # 944 val 0 OPAL{0}> Bin # 945 val 0 OPAL{0}> Bin # 946 val 0 OPAL{0}> Bin # 947 val 0 OPAL{0}> Bin # 948 val 0 OPAL{0}> Bin # 949 val 0 OPAL{0}> Bin # 950 val 0 OPAL{0}> Bin # 951 val 0 OPAL{0}> Bin # 952 val 0 OPAL{0}> Bin # 953 val 0 OPAL{0}> Bin # 954 val 0 OPAL{0}> Bin # 955 val 0 OPAL{0}> Bin # 956 val 0 OPAL{0}> Bin # 957 val 0 OPAL{0}> Bin # 958 val 0 OPAL{0}> Bin # 959 val 0 OPAL{0}> Bin # 960 val 0 OPAL{0}> Bin # 961 val 0 OPAL{0}> Bin # 962 val 0 OPAL{0}> Bin # 963 val 0 OPAL{0}> Bin # 964 val 0 OPAL{0}> Bin # 965 val 0 OPAL{0}> Bin # 966 val 0 OPAL{0}> Bin # 967 val 0 OPAL{0}> Bin # 968 val 0 OPAL{0}> Bin # 969 val 0 OPAL{0}> Bin # 970 val 0 OPAL{0}> Bin # 971 val 0 OPAL{0}> Bin # 972 val 0 OPAL{0}> Bin # 973 val 0 OPAL{0}> Bin # 974 val 0 OPAL{0}> Bin # 975 val 0 OPAL{0}> Bin # 976 val 0 OPAL{0}> Bin # 977 val 0 OPAL{0}> Bin # 978 val 0 OPAL{0}> Bin # 979 val 0 OPAL{0}> Bin # 980 val 0 OPAL{0}> Bin # 981 val 0 OPAL{0}> Bin # 982 val 0 OPAL{0}> Bin # 983 val 0 OPAL{0}> Bin # 984 val 0 OPAL{0}> Bin # 985 val 0 OPAL{0}> Bin # 986 val 0 OPAL{0}> Bin # 987 val 0 OPAL{0}> Bin # 988 val 0 OPAL{0}> Bin # 989 val 0 OPAL{0}> Bin # 990 val 0 OPAL{0}> Bin # 991 val 0 OPAL{0}> Bin # 992 val 0 OPAL{0}> Bin # 993 val 0 OPAL{0}> Bin # 994 val 0 OPAL{0}> Bin # 995 val 0 OPAL{0}> Bin # 996 val 0 OPAL{0}> Bin # 997 val 0 OPAL{0}> Bin # 998 val 0 OPAL{0}> Bin # 999 val 0 OPAL{0}> Last emitted bin is 2 OPAL{0}> Ippl{0}> ---------------Finished reading hdf5 file--------------- OPAL{0}> * Mass of simulation particle= 7056.98 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.20504e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-09.stat Ippl{0}> * Appending data to existing data file: AmrRingCyclotron-09.lbal Ippl{0}> * Appending data to existing data file: AmrRingCyclotron-09.grid Ippl{0}> * Appending data to existing data file: AmrRingCyclotron-09.mem Ippl{0}> * Appending data to existing data file: AmrRingCyclotron-09-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-09-bunch-0001.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 2 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1440 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> In this restart job, the multi-bunches mode is forcely set to FORCE mode. OPAL{0}> If the existing bunch number is less than the specified number of TURN, readin the phase space of STEP#0 from h5 file consecutively OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * In restart. Distribution read in from .h5 file. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.938272 GeV OPAL{0}> * MOMENTUM 0.37456 OPAL{0}> * NPART 32768 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 2 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2200.47 [mm] OPAL{0}> * PHIINIT = 0.174648 [deg] OPAL{0}> * ZINIT = -0.0538319 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.07674 OPAL{0}> * Initial beta = 0.370752 OPAL{0}> * Reference total momentum (beta * gamma) = 415.739 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 415.724 [MCU] OPAL{0}> * Reference radial momentum (Pr) = 0.00754375 [MCU] OPAL{0}> * Reference axial momentum (Pz) = -0.0264165 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.333333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.18243e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.18243e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.5473e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.18243e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.18243e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> * Restart at integration step 1080 at turn 3 OPAL{0}> * Restart in the local frame OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 13908 OPAL{0}> * max local particle number: 18551 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> OPAL{0}> * After repartition: min local particle number: 13481 OPAL{0}> * max local particle number: 19525 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.855 [MeV] dEkin = 1.189 [MeV] OPAL{0}> * rmax = ( 29.07622 , 16.59365 , 3.40485 ) [mm] OPAL{0}> * rmin = ( -30.61101 , -11.93685 , -3.25589 ) [mm] OPAL{0}> * rms beam size = ( 17.02531 , 4.71874 , 1.04649 ) [mm] OPAL{0}> * rms momenta = ( 1.77570e-03 , 3.29953e-03 , 2.47855e-04 ) [beta gamma] OPAL{0}> * mean position = ( -0.00000 , 0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( 7.86047e-19 , 4.15724e-01 , 1.50518e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.60997e-05 , 2.38146e-05 , 5.70780e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.36270e-01 , 7.71777e-01 , -4.03755e-01 ) OPAL{0}> * hr = ( 2.29583 , 1.72187 , 1.72187 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.188 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.855 [MeV] dEkin = 1.189 [MeV] OPAL{0}> * rmax = ( 2.22955 , 0.02332 , 0.00335 ) [m] OPAL{0}> * rmin = ( 2.16984 , -0.00524 , -0.00331 ) [m] OPAL{0}> * rms beam size = ( 17.01640 , 4.75077 , 1.04649 ) [mm] OPAL{0}> * rms momenta = ( 1.78371e-03 , 3.29520e-03 , 2.47856e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.20045 , 0.00671 , -0.00005 ) [m] OPAL{0}> * mean momenta = ( -1.25966e-03 , 4.15722e-01 , -2.64165e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.61989e-05 , 2.37283e-05 , 5.70792e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.38332e-01 , 7.76477e-01 , -4.03733e-01 ) OPAL{0}> * hr = ( 2.29583 , 1.72187 , 1.72187 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.188 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 0 gamma = 0 Ippl{0}> Bin 1 : particle number = 0 gamma = 0 Ippl{0}> minimal beta*gamma = 0.412152 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Beginning of this run is at t = 355.38 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 2 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> minimal beta*gamma = 0.412126 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> minimal beta*gamma = 0.415551 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08431 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0842 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> minimal beta*gamma = 0.417089 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08487 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> minimal beta*gamma = 0.418707 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08553 OPAL{0}> OPAL{0}> *** Finished turn 4, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 1440 OPAL{0}> * T = 473.84 ns, Live Particles: 65536 OPAL{0}> * E = 77.855 MeV, beta * gamma = 0.42232 OPAL{0}> * Bunch position: R = 2233.6 mm, Theta = 0.33549 Deg, Z = -0.066374 mm OPAL{0}> * Local Azimuth = 0.52411 Deg, Local Elevation = -0.0037004 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 80.247 [MeV] dEkin = 1.206 [MeV] OPAL{0}> * rmax = ( 2.26018 , 0.03125 , 0.00462 ) [m] OPAL{0}> * rmin = ( 2.20499 , -0.00430 , -0.00451 ) [m] OPAL{0}> * rms beam size = ( 17.26114 , 4.95311 , 1.31879 ) [mm] OPAL{0}> * rms momenta = ( 1.73373e-03 , 3.29493e-03 , 2.06679e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.23353 , 0.01308 , -0.00007 ) [m] OPAL{0}> * mean momenta = ( -3.86310e-03 , 4.22304e-01 , -2.72755e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 6.46965e-05 , 3.44414e-05 , 5.55774e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -4.07873e-01 , 4.53447e-01 , -5.08331e-01 ) OPAL{0}> * hr = ( 2.14792 , 1.61094 , 1.61094 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 473.840 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 13.736 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-09.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 81.8781, CPU tot = 81.68 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 1.24405, CPU max = 1.33 Timings{0}> Wall avg = 1.18441, CPU avg = 1.26 Timings{0}> Wall min = 1.12003, CPU min = 1.18 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.171988, CPU max = 0.18 Timings{0}> Wall avg = 0.169564, CPU avg = 0.1725 Timings{0}> Wall min = 0.164403, CPU min = 0.16 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 15.3287, CPU max = 15.39 Timings{0}> Wall avg = 15.3252, CPU avg = 15.345 Timings{0}> Wall min = 15.3202, CPU min = 15.31 Timings{0}> Timings{0}> AMR solve........... Wall max = 37.0444, CPU max = 36.94 Timings{0}> Wall avg = 36.9548, CPU avg = 36.89 Timings{0}> Wall min = 36.9144, CPU min = 36.84 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 1.79745, CPU max = 1.81 Timings{0}> Wall avg = 1.73405, CPU avg = 1.705 Timings{0}> Wall min = 1.68928, CPU min = 1.62 Timings{0}> Timings{0}> AMR update particle. Wall max = 12.3515, CPU max = 12.48 Timings{0}> Wall avg = 12.2912, CPU avg = 12.3025 Timings{0}> Wall min = 12.2591, CPU min = 12.21 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.383582, CPU max = 0.42 Timings{0}> Wall avg = 0.383416, CPU avg = 0.3925 Timings{0}> Wall min = 0.383168, CPU min = 0.35 Timings{0}> Timings{0}> Boundingbox......... Wall max = 1.85486, CPU max = 1.95 Timings{0}> Wall avg = 1.82615, CPU avg = 1.88 Timings{0}> Wall min = 1.78616, CPU min = 1.8 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0119767, CPU max = 0.01 Timings{0}> Wall avg = 0.0107388, CPU avg = 0.0025 Timings{0}> Wall min = 0.00854779, CPU min = 0 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 5.5251, CPU max = 5.59 Timings{0}> Wall avg = 4.86396, CPU avg = 4.88 Timings{0}> Wall min = 4.55387, CPU min = 4.55 Timings{0}> Timings{0}> Dump................ Wall max = 1.15808, CPU max = 0.83 Timings{0}> Wall avg = 0.85871, CPU avg = 0.695 Timings{0}> Wall min = 0.757498, CPU min = 0.62 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 0.456015, CPU max = 0.44 Timings{0}> Wall avg = 0.44614, CPU avg = 0.41 Timings{0}> Wall min = 0.434876, CPU min = 0.38 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 17.1535, CPU max = 17.24 Timings{0}> Wall avg = 16.8575, CPU avg = 16.8025 Timings{0}> Wall min = 16.2025, CPU min = 16.06 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0.0761369, CPU max = 0.26 Timings{0}> Wall avg = 0.0740209, CPU avg = 0.1575 Timings{0}> Wall min = 0.0728102, CPU min = 0.07 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.00852541, CPU max = 0.01 Timings{0}> Wall avg = 0.00851671, CPU avg = 0.005 Timings{0}> Wall min = 0.00850376, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.000418245, CPU max = 0 Timings{0}> Wall avg = 0.000389069, CPU avg = 0 Timings{0}> Wall min = 0.000362024, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> SelfField total..... Wall max = 55.6073, CPU max = 55.64 Timings{0}> Wall avg = 55.5965, CPU avg = 55.5875 Timings{0}> Wall min = 55.5915, CPU min = 55.48 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.131252, CPU max = 0.03 Timings{0}> Wall avg = 0.131116, CPU avg = 0.02 Timings{0}> Wall min = 0.130925, CPU min = 0.01 Timings{0}> Timings{0}> Write Stat.......... Wall max = 0.658873, CPU max = 0.34 Timings{0}> Wall avg = 0.354528, CPU avg = 0.3 Timings{0}> Wall min = 0.251639, CPU min = 0.27 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./AmrRingCyclotron-10.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 02:26:03 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "AmrRingCyclotron-10.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=2,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=10,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> Ippl{0}> Creating new file for solver information: AmrRingCyclotron-10.solver Ippl{0}> ---------------- Start reading hdf5 file---------------- Ippl{0}> Restart from hdf5 format file AmrRingCyclotron-10.h5 Ippl{0}> total number of particles = 65536 Ippl{0}> * Restart Energy = 77.8808 (MeV), Path lenght = 40.1909 (m) Ippl{0}> Tracking Step since last bunch injection is 0 Ippl{0}> 2 Bunches(bins) exist in this file Ippl{0}> * Gamma = 1.083, Beta = 0.383942 Ippl{0}> Restart from hdf5 file generated by OPAL-cycl OPAL{0}> ----------------------------------------- OPAL{0}> CREATE BINNED GAUSS DISTRIBUTION DONE OPAL{0}> Bins= 1000 hBin= 0 Particle vector length 0 OPAL{0}> Bin # 0 val 0 OPAL{0}> Bin # 1 val 0 OPAL{0}> Bin # 2 val 0 OPAL{0}> Bin # 3 val 0 OPAL{0}> Bin # 4 val 0 OPAL{0}> Bin # 5 val 0 OPAL{0}> Bin # 6 val 0 OPAL{0}> Bin # 7 val 0 OPAL{0}> Bin # 8 val 0 OPAL{0}> Bin # 9 val 0 OPAL{0}> Bin # 10 val 0 OPAL{0}> Bin # 11 val 0 OPAL{0}> Bin # 12 val 0 OPAL{0}> Bin # 13 val 0 OPAL{0}> Bin # 14 val 0 OPAL{0}> Bin # 15 val 0 OPAL{0}> Bin # 16 val 0 OPAL{0}> Bin # 17 val 0 OPAL{0}> Bin # 18 val 0 OPAL{0}> Bin # 19 val 0 OPAL{0}> Bin # 20 val 0 OPAL{0}> Bin # 21 val 0 OPAL{0}> Bin # 22 val 0 OPAL{0}> Bin # 23 val 0 OPAL{0}> Bin # 24 val 0 OPAL{0}> Bin # 25 val 0 OPAL{0}> Bin # 26 val 0 OPAL{0}> Bin # 27 val 0 OPAL{0}> Bin # 28 val 0 OPAL{0}> Bin # 29 val 0 OPAL{0}> Bin # 30 val 0 OPAL{0}> Bin # 31 val 0 OPAL{0}> Bin # 32 val 0 OPAL{0}> Bin # 33 val 0 OPAL{0}> Bin # 34 val 0 OPAL{0}> Bin # 35 val 0 OPAL{0}> Bin # 36 val 0 OPAL{0}> Bin # 37 val 0 OPAL{0}> Bin # 38 val 0 OPAL{0}> Bin # 39 val 0 OPAL{0}> Bin # 40 val 0 OPAL{0}> Bin # 41 val 0 OPAL{0}> Bin # 42 val 0 OPAL{0}> Bin # 43 val 0 OPAL{0}> Bin # 44 val 0 OPAL{0}> Bin # 45 val 0 OPAL{0}> Bin # 46 val 0 OPAL{0}> Bin # 47 val 0 OPAL{0}> Bin # 48 val 0 OPAL{0}> Bin # 49 val 0 OPAL{0}> Bin # 50 val 0 OPAL{0}> Bin # 51 val 0 OPAL{0}> Bin # 52 val 0 OPAL{0}> Bin # 53 val 0 OPAL{0}> Bin # 54 val 0 OPAL{0}> Bin # 55 val 0 OPAL{0}> Bin # 56 val 0 OPAL{0}> Bin # 57 val 0 OPAL{0}> Bin # 58 val 0 OPAL{0}> Bin # 59 val 0 OPAL{0}> Bin # 60 val 0 OPAL{0}> Bin # 61 val 0 OPAL{0}> Bin # 62 val 0 OPAL{0}> Bin # 63 val 0 OPAL{0}> Bin # 64 val 0 OPAL{0}> Bin # 65 val 0 OPAL{0}> Bin # 66 val 0 OPAL{0}> Bin # 67 val 0 OPAL{0}> Bin # 68 val 0 OPAL{0}> Bin # 69 val 0 OPAL{0}> Bin # 70 val 0 OPAL{0}> Bin # 71 val 0 OPAL{0}> Bin # 72 val 0 OPAL{0}> Bin # 73 val 0 OPAL{0}> Bin # 74 val 0 OPAL{0}> Bin # 75 val 0 OPAL{0}> Bin # 76 val 0 OPAL{0}> Bin # 77 val 0 OPAL{0}> Bin # 78 val 0 OPAL{0}> Bin # 79 val 0 OPAL{0}> Bin # 80 val 0 OPAL{0}> Bin # 81 val 0 OPAL{0}> Bin # 82 val 0 OPAL{0}> Bin # 83 val 0 OPAL{0}> Bin # 84 val 0 OPAL{0}> Bin # 85 val 0 OPAL{0}> Bin # 86 val 0 OPAL{0}> Bin # 87 val 0 OPAL{0}> Bin # 88 val 0 OPAL{0}> Bin # 89 val 0 OPAL{0}> Bin # 90 val 0 OPAL{0}> Bin # 91 val 0 OPAL{0}> Bin # 92 val 0 OPAL{0}> Bin # 93 val 0 OPAL{0}> Bin # 94 val 0 OPAL{0}> Bin # 95 val 0 OPAL{0}> Bin # 96 val 0 OPAL{0}> Bin # 97 val 0 OPAL{0}> Bin # 98 val 0 OPAL{0}> Bin # 99 val 0 OPAL{0}> Bin # 100 val 0 OPAL{0}> Bin # 101 val 0 OPAL{0}> Bin # 102 val 0 OPAL{0}> Bin # 103 val 0 OPAL{0}> Bin # 104 val 0 OPAL{0}> Bin # 105 val 0 OPAL{0}> Bin # 106 val 0 OPAL{0}> Bin # 107 val 0 OPAL{0}> Bin # 108 val 0 OPAL{0}> Bin # 109 val 0 OPAL{0}> Bin # 110 val 0 OPAL{0}> Bin # 111 val 0 OPAL{0}> Bin # 112 val 0 OPAL{0}> Bin # 113 val 0 OPAL{0}> Bin # 114 val 0 OPAL{0}> Bin # 115 val 0 OPAL{0}> Bin # 116 val 0 OPAL{0}> Bin # 117 val 0 OPAL{0}> Bin # 118 val 0 OPAL{0}> Bin # 119 val 0 OPAL{0}> Bin # 120 val 0 OPAL{0}> Bin # 121 val 0 OPAL{0}> Bin # 122 val 0 OPAL{0}> Bin # 123 val 0 OPAL{0}> Bin # 124 val 0 OPAL{0}> Bin # 125 val 0 OPAL{0}> Bin # 126 val 0 OPAL{0}> Bin # 127 val 0 OPAL{0}> Bin # 128 val 0 OPAL{0}> Bin # 129 val 0 OPAL{0}> Bin # 130 val 0 OPAL{0}> Bin # 131 val 0 OPAL{0}> Bin # 132 val 0 OPAL{0}> Bin # 133 val 0 OPAL{0}> Bin # 134 val 0 OPAL{0}> Bin # 135 val 0 OPAL{0}> Bin # 136 val 0 OPAL{0}> Bin # 137 val 0 OPAL{0}> Bin # 138 val 0 OPAL{0}> Bin # 139 val 0 OPAL{0}> Bin # 140 val 0 OPAL{0}> Bin # 141 val 0 OPAL{0}> Bin # 142 val 0 OPAL{0}> Bin # 143 val 0 OPAL{0}> Bin # 144 val 0 OPAL{0}> Bin # 145 val 0 OPAL{0}> Bin # 146 val 0 OPAL{0}> Bin # 147 val 0 OPAL{0}> Bin # 148 val 0 OPAL{0}> Bin # 149 val 0 OPAL{0}> Bin # 150 val 0 OPAL{0}> Bin # 151 val 0 OPAL{0}> Bin # 152 val 0 OPAL{0}> Bin # 153 val 0 OPAL{0}> Bin # 154 val 0 OPAL{0}> Bin # 155 val 0 OPAL{0}> Bin # 156 val 0 OPAL{0}> Bin # 157 val 0 OPAL{0}> Bin # 158 val 0 OPAL{0}> Bin # 159 val 0 OPAL{0}> Bin # 160 val 0 OPAL{0}> Bin # 161 val 0 OPAL{0}> Bin # 162 val 0 OPAL{0}> Bin # 163 val 0 OPAL{0}> Bin # 164 val 0 OPAL{0}> Bin # 165 val 0 OPAL{0}> Bin # 166 val 0 OPAL{0}> Bin # 167 val 0 OPAL{0}> Bin # 168 val 0 OPAL{0}> Bin # 169 val 0 OPAL{0}> Bin # 170 val 0 OPAL{0}> Bin # 171 val 0 OPAL{0}> Bin # 172 val 0 OPAL{0}> Bin # 173 val 0 OPAL{0}> Bin # 174 val 0 OPAL{0}> Bin # 175 val 0 OPAL{0}> Bin # 176 val 0 OPAL{0}> Bin # 177 val 0 OPAL{0}> Bin # 178 val 0 OPAL{0}> Bin # 179 val 0 OPAL{0}> Bin # 180 val 0 OPAL{0}> Bin # 181 val 0 OPAL{0}> Bin # 182 val 0 OPAL{0}> Bin # 183 val 0 OPAL{0}> Bin # 184 val 0 OPAL{0}> Bin # 185 val 0 OPAL{0}> Bin # 186 val 0 OPAL{0}> Bin # 187 val 0 OPAL{0}> Bin # 188 val 0 OPAL{0}> Bin # 189 val 0 OPAL{0}> Bin # 190 val 0 OPAL{0}> Bin # 191 val 0 OPAL{0}> Bin # 192 val 0 OPAL{0}> Bin # 193 val 0 OPAL{0}> Bin # 194 val 0 OPAL{0}> Bin # 195 val 0 OPAL{0}> Bin # 196 val 0 OPAL{0}> Bin # 197 val 0 OPAL{0}> Bin # 198 val 0 OPAL{0}> Bin # 199 val 0 OPAL{0}> Bin # 200 val 0 OPAL{0}> Bin # 201 val 0 OPAL{0}> Bin # 202 val 0 OPAL{0}> Bin # 203 val 0 OPAL{0}> Bin # 204 val 0 OPAL{0}> Bin # 205 val 0 OPAL{0}> Bin # 206 val 0 OPAL{0}> Bin # 207 val 0 OPAL{0}> Bin # 208 val 0 OPAL{0}> Bin # 209 val 0 OPAL{0}> Bin # 210 val 0 OPAL{0}> Bin # 211 val 0 OPAL{0}> Bin # 212 val 0 OPAL{0}> Bin # 213 val 0 OPAL{0}> Bin # 214 val 0 OPAL{0}> Bin # 215 val 0 OPAL{0}> Bin # 216 val 0 OPAL{0}> Bin # 217 val 0 OPAL{0}> Bin # 218 val 0 OPAL{0}> Bin # 219 val 0 OPAL{0}> Bin # 220 val 0 OPAL{0}> Bin # 221 val 0 OPAL{0}> Bin # 222 val 0 OPAL{0}> Bin # 223 val 0 OPAL{0}> Bin # 224 val 0 OPAL{0}> Bin # 225 val 0 OPAL{0}> Bin # 226 val 0 OPAL{0}> Bin # 227 val 0 OPAL{0}> Bin # 228 val 0 OPAL{0}> Bin # 229 val 0 OPAL{0}> Bin # 230 val 0 OPAL{0}> Bin # 231 val 0 OPAL{0}> Bin # 232 val 0 OPAL{0}> Bin # 233 val 0 OPAL{0}> Bin # 234 val 0 OPAL{0}> Bin # 235 val 0 OPAL{0}> Bin # 236 val 0 OPAL{0}> Bin # 237 val 0 OPAL{0}> Bin # 238 val 0 OPAL{0}> Bin # 239 val 0 OPAL{0}> Bin # 240 val 0 OPAL{0}> Bin # 241 val 0 OPAL{0}> Bin # 242 val 0 OPAL{0}> Bin # 243 val 0 OPAL{0}> Bin # 244 val 0 OPAL{0}> Bin # 245 val 0 OPAL{0}> Bin # 246 val 0 OPAL{0}> Bin # 247 val 0 OPAL{0}> Bin # 248 val 0 OPAL{0}> Bin # 249 val 0 OPAL{0}> Bin # 250 val 0 OPAL{0}> Bin # 251 val 0 OPAL{0}> Bin # 252 val 0 OPAL{0}> Bin # 253 val 0 OPAL{0}> Bin # 254 val 0 OPAL{0}> Bin # 255 val 0 OPAL{0}> Bin # 256 val 0 OPAL{0}> Bin # 257 val 0 OPAL{0}> Bin # 258 val 0 OPAL{0}> Bin # 259 val 0 OPAL{0}> Bin # 260 val 0 OPAL{0}> Bin # 261 val 0 OPAL{0}> Bin # 262 val 0 OPAL{0}> Bin # 263 val 0 OPAL{0}> Bin # 264 val 0 OPAL{0}> Bin # 265 val 0 OPAL{0}> Bin # 266 val 0 OPAL{0}> Bin # 267 val 0 OPAL{0}> Bin # 268 val 0 OPAL{0}> Bin # 269 val 0 OPAL{0}> Bin # 270 val 0 OPAL{0}> Bin # 271 val 0 OPAL{0}> Bin # 272 val 0 OPAL{0}> Bin # 273 val 0 OPAL{0}> Bin # 274 val 0 OPAL{0}> Bin # 275 val 0 OPAL{0}> Bin # 276 val 0 OPAL{0}> Bin # 277 val 0 OPAL{0}> Bin # 278 val 0 OPAL{0}> Bin # 279 val 0 OPAL{0}> Bin # 280 val 0 OPAL{0}> Bin # 281 val 0 OPAL{0}> Bin # 282 val 0 OPAL{0}> Bin # 283 val 0 OPAL{0}> Bin # 284 val 0 OPAL{0}> Bin # 285 val 0 OPAL{0}> Bin # 286 val 0 OPAL{0}> Bin # 287 val 0 OPAL{0}> Bin # 288 val 0 OPAL{0}> Bin # 289 val 0 OPAL{0}> Bin # 290 val 0 OPAL{0}> Bin # 291 val 0 OPAL{0}> Bin # 292 val 0 OPAL{0}> Bin # 293 val 0 OPAL{0}> Bin # 294 val 0 OPAL{0}> Bin # 295 val 0 OPAL{0}> Bin # 296 val 0 OPAL{0}> Bin # 297 val 0 OPAL{0}> Bin # 298 val 0 OPAL{0}> Bin # 299 val 0 OPAL{0}> Bin # 300 val 0 OPAL{0}> Bin # 301 val 0 OPAL{0}> Bin # 302 val 0 OPAL{0}> Bin # 303 val 0 OPAL{0}> Bin # 304 val 0 OPAL{0}> Bin # 305 val 0 OPAL{0}> Bin # 306 val 0 OPAL{0}> Bin # 307 val 0 OPAL{0}> Bin # 308 val 0 OPAL{0}> Bin # 309 val 0 OPAL{0}> Bin # 310 val 0 OPAL{0}> Bin # 311 val 0 OPAL{0}> Bin # 312 val 0 OPAL{0}> Bin # 313 val 0 OPAL{0}> Bin # 314 val 0 OPAL{0}> Bin # 315 val 0 OPAL{0}> Bin # 316 val 0 OPAL{0}> Bin # 317 val 0 OPAL{0}> Bin # 318 val 0 OPAL{0}> Bin # 319 val 0 OPAL{0}> Bin # 320 val 0 OPAL{0}> Bin # 321 val 0 OPAL{0}> Bin # 322 val 0 OPAL{0}> Bin # 323 val 0 OPAL{0}> Bin # 324 val 0 OPAL{0}> Bin # 325 val 0 OPAL{0}> Bin # 326 val 0 OPAL{0}> Bin # 327 val 0 OPAL{0}> Bin # 328 val 0 OPAL{0}> Bin # 329 val 0 OPAL{0}> Bin # 330 val 0 OPAL{0}> Bin # 331 val 0 OPAL{0}> Bin # 332 val 0 OPAL{0}> Bin # 333 val 0 OPAL{0}> Bin # 334 val 0 OPAL{0}> Bin # 335 val 0 OPAL{0}> Bin # 336 val 0 OPAL{0}> Bin # 337 val 0 OPAL{0}> Bin # 338 val 0 OPAL{0}> Bin # 339 val 0 OPAL{0}> Bin # 340 val 0 OPAL{0}> Bin # 341 val 0 OPAL{0}> Bin # 342 val 0 OPAL{0}> Bin # 343 val 0 OPAL{0}> Bin # 344 val 0 OPAL{0}> Bin # 345 val 0 OPAL{0}> Bin # 346 val 0 OPAL{0}> Bin # 347 val 0 OPAL{0}> Bin # 348 val 0 OPAL{0}> Bin # 349 val 0 OPAL{0}> Bin # 350 val 0 OPAL{0}> Bin # 351 val 0 OPAL{0}> Bin # 352 val 0 OPAL{0}> Bin # 353 val 0 OPAL{0}> Bin # 354 val 0 OPAL{0}> Bin # 355 val 0 OPAL{0}> Bin # 356 val 0 OPAL{0}> Bin # 357 val 0 OPAL{0}> Bin # 358 val 0 OPAL{0}> Bin # 359 val 0 OPAL{0}> Bin # 360 val 0 OPAL{0}> Bin # 361 val 0 OPAL{0}> Bin # 362 val 0 OPAL{0}> Bin # 363 val 0 OPAL{0}> Bin # 364 val 0 OPAL{0}> Bin # 365 val 0 OPAL{0}> Bin # 366 val 0 OPAL{0}> Bin # 367 val 0 OPAL{0}> Bin # 368 val 0 OPAL{0}> Bin # 369 val 0 OPAL{0}> Bin # 370 val 0 OPAL{0}> Bin # 371 val 0 OPAL{0}> Bin # 372 val 0 OPAL{0}> Bin # 373 val 0 OPAL{0}> Bin # 374 val 0 OPAL{0}> Bin # 375 val 0 OPAL{0}> Bin # 376 val 0 OPAL{0}> Bin # 377 val 0 OPAL{0}> Bin # 378 val 0 OPAL{0}> Bin # 379 val 0 OPAL{0}> Bin # 380 val 0 OPAL{0}> Bin # 381 val 0 OPAL{0}> Bin # 382 val 0 OPAL{0}> Bin # 383 val 0 OPAL{0}> Bin # 384 val 0 OPAL{0}> Bin # 385 val 0 OPAL{0}> Bin # 386 val 0 OPAL{0}> Bin # 387 val 0 OPAL{0}> Bin # 388 val 0 OPAL{0}> Bin # 389 val 0 OPAL{0}> Bin # 390 val 0 OPAL{0}> Bin # 391 val 0 OPAL{0}> Bin # 392 val 0 OPAL{0}> Bin # 393 val 0 OPAL{0}> Bin # 394 val 0 OPAL{0}> Bin # 395 val 0 OPAL{0}> Bin # 396 val 0 OPAL{0}> Bin # 397 val 0 OPAL{0}> Bin # 398 val 0 OPAL{0}> Bin # 399 val 0 OPAL{0}> Bin # 400 val 0 OPAL{0}> Bin # 401 val 0 OPAL{0}> Bin # 402 val 0 OPAL{0}> Bin # 403 val 0 OPAL{0}> Bin # 404 val 0 OPAL{0}> Bin # 405 val 0 OPAL{0}> Bin # 406 val 0 OPAL{0}> Bin # 407 val 0 OPAL{0}> Bin # 408 val 0 OPAL{0}> Bin # 409 val 0 OPAL{0}> Bin # 410 val 0 OPAL{0}> Bin # 411 val 0 OPAL{0}> Bin # 412 val 0 OPAL{0}> Bin # 413 val 0 OPAL{0}> Bin # 414 val 0 OPAL{0}> Bin # 415 val 0 OPAL{0}> Bin # 416 val 0 OPAL{0}> Bin # 417 val 0 OPAL{0}> Bin # 418 val 0 OPAL{0}> Bin # 419 val 0 OPAL{0}> Bin # 420 val 0 OPAL{0}> Bin # 421 val 0 OPAL{0}> Bin # 422 val 0 OPAL{0}> Bin # 423 val 0 OPAL{0}> Bin # 424 val 0 OPAL{0}> Bin # 425 val 0 OPAL{0}> Bin # 426 val 0 OPAL{0}> Bin # 427 val 0 OPAL{0}> Bin # 428 val 0 OPAL{0}> Bin # 429 val 0 OPAL{0}> Bin # 430 val 0 OPAL{0}> Bin # 431 val 0 OPAL{0}> Bin # 432 val 0 OPAL{0}> Bin # 433 val 0 OPAL{0}> Bin # 434 val 0 OPAL{0}> Bin # 435 val 0 OPAL{0}> Bin # 436 val 0 OPAL{0}> Bin # 437 val 0 OPAL{0}> Bin # 438 val 0 OPAL{0}> Bin # 439 val 0 OPAL{0}> Bin # 440 val 0 OPAL{0}> Bin # 441 val 0 OPAL{0}> Bin # 442 val 0 OPAL{0}> Bin # 443 val 0 OPAL{0}> Bin # 444 val 0 OPAL{0}> Bin # 445 val 0 OPAL{0}> Bin # 446 val 0 OPAL{0}> Bin # 447 val 0 OPAL{0}> Bin # 448 val 0 OPAL{0}> Bin # 449 val 0 OPAL{0}> Bin # 450 val 0 OPAL{0}> Bin # 451 val 0 OPAL{0}> Bin # 452 val 0 OPAL{0}> Bin # 453 val 0 OPAL{0}> Bin # 454 val 0 OPAL{0}> Bin # 455 val 0 OPAL{0}> Bin # 456 val 0 OPAL{0}> Bin # 457 val 0 OPAL{0}> Bin # 458 val 0 OPAL{0}> Bin # 459 val 0 OPAL{0}> Bin # 460 val 0 OPAL{0}> Bin # 461 val 0 OPAL{0}> Bin # 462 val 0 OPAL{0}> Bin # 463 val 0 OPAL{0}> Bin # 464 val 0 OPAL{0}> Bin # 465 val 0 OPAL{0}> Bin # 466 val 0 OPAL{0}> Bin # 467 val 0 OPAL{0}> Bin # 468 val 0 OPAL{0}> Bin # 469 val 0 OPAL{0}> Bin # 470 val 0 OPAL{0}> Bin # 471 val 0 OPAL{0}> Bin # 472 val 0 OPAL{0}> Bin # 473 val 0 OPAL{0}> Bin # 474 val 0 OPAL{0}> Bin # 475 val 0 OPAL{0}> Bin # 476 val 0 OPAL{0}> Bin # 477 val 0 OPAL{0}> Bin # 478 val 0 OPAL{0}> Bin # 479 val 0 OPAL{0}> Bin # 480 val 0 OPAL{0}> Bin # 481 val 0 OPAL{0}> Bin # 482 val 0 OPAL{0}> Bin # 483 val 0 OPAL{0}> Bin # 484 val 0 OPAL{0}> Bin # 485 val 0 OPAL{0}> Bin # 486 val 0 OPAL{0}> Bin # 487 val 0 OPAL{0}> Bin # 488 val 0 OPAL{0}> Bin # 489 val 0 OPAL{0}> Bin # 490 val 0 OPAL{0}> Bin # 491 val 0 OPAL{0}> Bin # 492 val 0 OPAL{0}> Bin # 493 val 0 OPAL{0}> Bin # 494 val 0 OPAL{0}> Bin # 495 val 0 OPAL{0}> Bin # 496 val 0 OPAL{0}> Bin # 497 val 0 OPAL{0}> Bin # 498 val 0 OPAL{0}> Bin # 499 val 0 OPAL{0}> Bin # 500 val 0 OPAL{0}> Bin # 501 val 0 OPAL{0}> Bin # 502 val 0 OPAL{0}> Bin # 503 val 0 OPAL{0}> Bin # 504 val 0 OPAL{0}> Bin # 505 val 0 OPAL{0}> Bin # 506 val 0 OPAL{0}> Bin # 507 val 0 OPAL{0}> Bin # 508 val 0 OPAL{0}> Bin # 509 val 0 OPAL{0}> Bin # 510 val 0 OPAL{0}> Bin # 511 val 0 OPAL{0}> Bin # 512 val 0 OPAL{0}> Bin # 513 val 0 OPAL{0}> Bin # 514 val 0 OPAL{0}> Bin # 515 val 0 OPAL{0}> Bin # 516 val 0 OPAL{0}> Bin # 517 val 0 OPAL{0}> Bin # 518 val 0 OPAL{0}> Bin # 519 val 0 OPAL{0}> Bin # 520 val 0 OPAL{0}> Bin # 521 val 0 OPAL{0}> Bin # 522 val 0 OPAL{0}> Bin # 523 val 0 OPAL{0}> Bin # 524 val 0 OPAL{0}> Bin # 525 val 0 OPAL{0}> Bin # 526 val 0 OPAL{0}> Bin # 527 val 0 OPAL{0}> Bin # 528 val 0 OPAL{0}> Bin # 529 val 0 OPAL{0}> Bin # 530 val 0 OPAL{0}> Bin # 531 val 0 OPAL{0}> Bin # 532 val 0 OPAL{0}> Bin # 533 val 0 OPAL{0}> Bin # 534 val 0 OPAL{0}> Bin # 535 val 0 OPAL{0}> Bin # 536 val 0 OPAL{0}> Bin # 537 val 0 OPAL{0}> Bin # 538 val 0 OPAL{0}> Bin # 539 val 0 OPAL{0}> Bin # 540 val 0 OPAL{0}> Bin # 541 val 0 OPAL{0}> Bin # 542 val 0 OPAL{0}> Bin # 543 val 0 OPAL{0}> Bin # 544 val 0 OPAL{0}> Bin # 545 val 0 OPAL{0}> Bin # 546 val 0 OPAL{0}> Bin # 547 val 0 OPAL{0}> Bin # 548 val 0 OPAL{0}> Bin # 549 val 0 OPAL{0}> Bin # 550 val 0 OPAL{0}> Bin # 551 val 0 OPAL{0}> Bin # 552 val 0 OPAL{0}> Bin # 553 val 0 OPAL{0}> Bin # 554 val 0 OPAL{0}> Bin # 555 val 0 OPAL{0}> Bin # 556 val 0 OPAL{0}> Bin # 557 val 0 OPAL{0}> Bin # 558 val 0 OPAL{0}> Bin # 559 val 0 OPAL{0}> Bin # 560 val 0 OPAL{0}> Bin # 561 val 0 OPAL{0}> Bin # 562 val 0 OPAL{0}> Bin # 563 val 0 OPAL{0}> Bin # 564 val 0 OPAL{0}> Bin # 565 val 0 OPAL{0}> Bin # 566 val 0 OPAL{0}> Bin # 567 val 0 OPAL{0}> Bin # 568 val 0 OPAL{0}> Bin # 569 val 0 OPAL{0}> Bin # 570 val 0 OPAL{0}> Bin # 571 val 0 OPAL{0}> Bin # 572 val 0 OPAL{0}> Bin # 573 val 0 OPAL{0}> Bin # 574 val 0 OPAL{0}> Bin # 575 val 0 OPAL{0}> Bin # 576 val 0 OPAL{0}> Bin # 577 val 0 OPAL{0}> Bin # 578 val 0 OPAL{0}> Bin # 579 val 0 OPAL{0}> Bin # 580 val 0 OPAL{0}> Bin # 581 val 0 OPAL{0}> Bin # 582 val 0 OPAL{0}> Bin # 583 val 0 OPAL{0}> Bin # 584 val 0 OPAL{0}> Bin # 585 val 0 OPAL{0}> Bin # 586 val 0 OPAL{0}> Bin # 587 val 0 OPAL{0}> Bin # 588 val 0 OPAL{0}> Bin # 589 val 0 OPAL{0}> Bin # 590 val 0 OPAL{0}> Bin # 591 val 0 OPAL{0}> Bin # 592 val 0 OPAL{0}> Bin # 593 val 0 OPAL{0}> Bin # 594 val 0 OPAL{0}> Bin # 595 val 0 OPAL{0}> Bin # 596 val 0 OPAL{0}> Bin # 597 val 0 OPAL{0}> Bin # 598 val 0 OPAL{0}> Bin # 599 val 0 OPAL{0}> Bin # 600 val 0 OPAL{0}> Bin # 601 val 0 OPAL{0}> Bin # 602 val 0 OPAL{0}> Bin # 603 val 0 OPAL{0}> Bin # 604 val 0 OPAL{0}> Bin # 605 val 0 OPAL{0}> Bin # 606 val 0 OPAL{0}> Bin # 607 val 0 OPAL{0}> Bin # 608 val 0 OPAL{0}> Bin # 609 val 0 OPAL{0}> Bin # 610 val 0 OPAL{0}> Bin # 611 val 0 OPAL{0}> Bin # 612 val 0 OPAL{0}> Bin # 613 val 0 OPAL{0}> Bin # 614 val 0 OPAL{0}> Bin # 615 val 0 OPAL{0}> Bin # 616 val 0 OPAL{0}> Bin # 617 val 0 OPAL{0}> Bin # 618 val 0 OPAL{0}> Bin # 619 val 0 OPAL{0}> Bin # 620 val 0 OPAL{0}> Bin # 621 val 0 OPAL{0}> Bin # 622 val 0 OPAL{0}> Bin # 623 val 0 OPAL{0}> Bin # 624 val 0 OPAL{0}> Bin # 625 val 0 OPAL{0}> Bin # 626 val 0 OPAL{0}> Bin # 627 val 0 OPAL{0}> Bin # 628 val 0 OPAL{0}> Bin # 629 val 0 OPAL{0}> Bin # 630 val 0 OPAL{0}> Bin # 631 val 0 OPAL{0}> Bin # 632 val 0 OPAL{0}> Bin # 633 val 0 OPAL{0}> Bin # 634 val 0 OPAL{0}> Bin # 635 val 0 OPAL{0}> Bin # 636 val 0 OPAL{0}> Bin # 637 val 0 OPAL{0}> Bin # 638 val 0 OPAL{0}> Bin # 639 val 0 OPAL{0}> Bin # 640 val 0 OPAL{0}> Bin # 641 val 0 OPAL{0}> Bin # 642 val 0 OPAL{0}> Bin # 643 val 0 OPAL{0}> Bin # 644 val 0 OPAL{0}> Bin # 645 val 0 OPAL{0}> Bin # 646 val 0 OPAL{0}> Bin # 647 val 0 OPAL{0}> Bin # 648 val 0 OPAL{0}> Bin # 649 val 0 OPAL{0}> Bin # 650 val 0 OPAL{0}> Bin # 651 val 0 OPAL{0}> Bin # 652 val 0 OPAL{0}> Bin # 653 val 0 OPAL{0}> Bin # 654 val 0 OPAL{0}> Bin # 655 val 0 OPAL{0}> Bin # 656 val 0 OPAL{0}> Bin # 657 val 0 OPAL{0}> Bin # 658 val 0 OPAL{0}> Bin # 659 val 0 OPAL{0}> Bin # 660 val 0 OPAL{0}> Bin # 661 val 0 OPAL{0}> Bin # 662 val 0 OPAL{0}> Bin # 663 val 0 OPAL{0}> Bin # 664 val 0 OPAL{0}> Bin # 665 val 0 OPAL{0}> Bin # 666 val 0 OPAL{0}> Bin # 667 val 0 OPAL{0}> Bin # 668 val 0 OPAL{0}> Bin # 669 val 0 OPAL{0}> Bin # 670 val 0 OPAL{0}> Bin # 671 val 0 OPAL{0}> Bin # 672 val 0 OPAL{0}> Bin # 673 val 0 OPAL{0}> Bin # 674 val 0 OPAL{0}> Bin # 675 val 0 OPAL{0}> Bin # 676 val 0 OPAL{0}> Bin # 677 val 0 OPAL{0}> Bin # 678 val 0 OPAL{0}> Bin # 679 val 0 OPAL{0}> Bin # 680 val 0 OPAL{0}> Bin # 681 val 0 OPAL{0}> Bin # 682 val 0 OPAL{0}> Bin # 683 val 0 OPAL{0}> Bin # 684 val 0 OPAL{0}> Bin # 685 val 0 OPAL{0}> Bin # 686 val 0 OPAL{0}> Bin # 687 val 0 OPAL{0}> Bin # 688 val 0 OPAL{0}> Bin # 689 val 0 OPAL{0}> Bin # 690 val 0 OPAL{0}> Bin # 691 val 0 OPAL{0}> Bin # 692 val 0 OPAL{0}> Bin # 693 val 0 OPAL{0}> Bin # 694 val 0 OPAL{0}> Bin # 695 val 0 OPAL{0}> Bin # 696 val 0 OPAL{0}> Bin # 697 val 0 OPAL{0}> Bin # 698 val 0 OPAL{0}> Bin # 699 val 0 OPAL{0}> Bin # 700 val 0 OPAL{0}> Bin # 701 val 0 OPAL{0}> Bin # 702 val 0 OPAL{0}> Bin # 703 val 0 OPAL{0}> Bin # 704 val 0 OPAL{0}> Bin # 705 val 0 OPAL{0}> Bin # 706 val 0 OPAL{0}> Bin # 707 val 0 OPAL{0}> Bin # 708 val 0 OPAL{0}> Bin # 709 val 0 OPAL{0}> Bin # 710 val 0 OPAL{0}> Bin # 711 val 0 OPAL{0}> Bin # 712 val 0 OPAL{0}> Bin # 713 val 0 OPAL{0}> Bin # 714 val 0 OPAL{0}> Bin # 715 val 0 OPAL{0}> Bin # 716 val 0 OPAL{0}> Bin # 717 val 0 OPAL{0}> Bin # 718 val 0 OPAL{0}> Bin # 719 val 0 OPAL{0}> Bin # 720 val 0 OPAL{0}> Bin # 721 val 0 OPAL{0}> Bin # 722 val 0 OPAL{0}> Bin # 723 val 0 OPAL{0}> Bin # 724 val 0 OPAL{0}> Bin # 725 val 0 OPAL{0}> Bin # 726 val 0 OPAL{0}> Bin # 727 val 0 OPAL{0}> Bin # 728 val 0 OPAL{0}> Bin # 729 val 0 OPAL{0}> Bin # 730 val 0 OPAL{0}> Bin # 731 val 0 OPAL{0}> Bin # 732 val 0 OPAL{0}> Bin # 733 val 0 OPAL{0}> Bin # 734 val 0 OPAL{0}> Bin # 735 val 0 OPAL{0}> Bin # 736 val 0 OPAL{0}> Bin # 737 val 0 OPAL{0}> Bin # 738 val 0 OPAL{0}> Bin # 739 val 0 OPAL{0}> Bin # 740 val 0 OPAL{0}> Bin # 741 val 0 OPAL{0}> Bin # 742 val 0 OPAL{0}> Bin # 743 val 0 OPAL{0}> Bin # 744 val 0 OPAL{0}> Bin # 745 val 0 OPAL{0}> Bin # 746 val 0 OPAL{0}> Bin # 747 val 0 OPAL{0}> Bin # 748 val 0 OPAL{0}> Bin # 749 val 0 OPAL{0}> Bin # 750 val 0 OPAL{0}> Bin # 751 val 0 OPAL{0}> Bin # 752 val 0 OPAL{0}> Bin # 753 val 0 OPAL{0}> Bin # 754 val 0 OPAL{0}> Bin # 755 val 0 OPAL{0}> Bin # 756 val 0 OPAL{0}> Bin # 757 val 0 OPAL{0}> Bin # 758 val 0 OPAL{0}> Bin # 759 val 0 OPAL{0}> Bin # 760 val 0 OPAL{0}> Bin # 761 val 0 OPAL{0}> Bin # 762 val 0 OPAL{0}> Bin # 763 val 0 OPAL{0}> Bin # 764 val 0 OPAL{0}> Bin # 765 val 0 OPAL{0}> Bin # 766 val 0 OPAL{0}> Bin # 767 val 0 OPAL{0}> Bin # 768 val 0 OPAL{0}> Bin # 769 val 0 OPAL{0}> Bin # 770 val 0 OPAL{0}> Bin # 771 val 0 OPAL{0}> Bin # 772 val 0 OPAL{0}> Bin # 773 val 0 OPAL{0}> Bin # 774 val 0 OPAL{0}> Bin # 775 val 0 OPAL{0}> Bin # 776 val 0 OPAL{0}> Bin # 777 val 0 OPAL{0}> Bin # 778 val 0 OPAL{0}> Bin # 779 val 0 OPAL{0}> Bin # 780 val 0 OPAL{0}> Bin # 781 val 0 OPAL{0}> Bin # 782 val 0 OPAL{0}> Bin # 783 val 0 OPAL{0}> Bin # 784 val 0 OPAL{0}> Bin # 785 val 0 OPAL{0}> Bin # 786 val 0 OPAL{0}> Bin # 787 val 0 OPAL{0}> Bin # 788 val 0 OPAL{0}> Bin # 789 val 0 OPAL{0}> Bin # 790 val 0 OPAL{0}> Bin # 791 val 0 OPAL{0}> Bin # 792 val 0 OPAL{0}> Bin # 793 val 0 OPAL{0}> Bin # 794 val 0 OPAL{0}> Bin # 795 val 0 OPAL{0}> Bin # 796 val 0 OPAL{0}> Bin # 797 val 0 OPAL{0}> Bin # 798 val 0 OPAL{0}> Bin # 799 val 0 OPAL{0}> Bin # 800 val 0 OPAL{0}> Bin # 801 val 0 OPAL{0}> Bin # 802 val 0 OPAL{0}> Bin # 803 val 0 OPAL{0}> Bin # 804 val 0 OPAL{0}> Bin # 805 val 0 OPAL{0}> Bin # 806 val 0 OPAL{0}> Bin # 807 val 0 OPAL{0}> Bin # 808 val 0 OPAL{0}> Bin # 809 val 0 OPAL{0}> Bin # 810 val 0 OPAL{0}> Bin # 811 val 0 OPAL{0}> Bin # 812 val 0 OPAL{0}> Bin # 813 val 0 OPAL{0}> Bin # 814 val 0 OPAL{0}> Bin # 815 val 0 OPAL{0}> Bin # 816 val 0 OPAL{0}> Bin # 817 val 0 OPAL{0}> Bin # 818 val 0 OPAL{0}> Bin # 819 val 0 OPAL{0}> Bin # 820 val 0 OPAL{0}> Bin # 821 val 0 OPAL{0}> Bin # 822 val 0 OPAL{0}> Bin # 823 val 0 OPAL{0}> Bin # 824 val 0 OPAL{0}> Bin # 825 val 0 OPAL{0}> Bin # 826 val 0 OPAL{0}> Bin # 827 val 0 OPAL{0}> Bin # 828 val 0 OPAL{0}> Bin # 829 val 0 OPAL{0}> Bin # 830 val 0 OPAL{0}> Bin # 831 val 0 OPAL{0}> Bin # 832 val 0 OPAL{0}> Bin # 833 val 0 OPAL{0}> Bin # 834 val 0 OPAL{0}> Bin # 835 val 0 OPAL{0}> Bin # 836 val 0 OPAL{0}> Bin # 837 val 0 OPAL{0}> Bin # 838 val 0 OPAL{0}> Bin # 839 val 0 OPAL{0}> Bin # 840 val 0 OPAL{0}> Bin # 841 val 0 OPAL{0}> Bin # 842 val 0 OPAL{0}> Bin # 843 val 0 OPAL{0}> Bin # 844 val 0 OPAL{0}> Bin # 845 val 0 OPAL{0}> Bin # 846 val 0 OPAL{0}> Bin # 847 val 0 OPAL{0}> Bin # 848 val 0 OPAL{0}> Bin # 849 val 0 OPAL{0}> Bin # 850 val 0 OPAL{0}> Bin # 851 val 0 OPAL{0}> Bin # 852 val 0 OPAL{0}> Bin # 853 val 0 OPAL{0}> Bin # 854 val 0 OPAL{0}> Bin # 855 val 0 OPAL{0}> Bin # 856 val 0 OPAL{0}> Bin # 857 val 0 OPAL{0}> Bin # 858 val 0 OPAL{0}> Bin # 859 val 0 OPAL{0}> Bin # 860 val 0 OPAL{0}> Bin # 861 val 0 OPAL{0}> Bin # 862 val 0 OPAL{0}> Bin # 863 val 0 OPAL{0}> Bin # 864 val 0 OPAL{0}> Bin # 865 val 0 OPAL{0}> Bin # 866 val 0 OPAL{0}> Bin # 867 val 0 OPAL{0}> Bin # 868 val 0 OPAL{0}> Bin # 869 val 0 OPAL{0}> Bin # 870 val 0 OPAL{0}> Bin # 871 val 0 OPAL{0}> Bin # 872 val 0 OPAL{0}> Bin # 873 val 0 OPAL{0}> Bin # 874 val 0 OPAL{0}> Bin # 875 val 0 OPAL{0}> Bin # 876 val 0 OPAL{0}> Bin # 877 val 0 OPAL{0}> Bin # 878 val 0 OPAL{0}> Bin # 879 val 0 OPAL{0}> Bin # 880 val 0 OPAL{0}> Bin # 881 val 0 OPAL{0}> Bin # 882 val 0 OPAL{0}> Bin # 883 val 0 OPAL{0}> Bin # 884 val 0 OPAL{0}> Bin # 885 val 0 OPAL{0}> Bin # 886 val 0 OPAL{0}> Bin # 887 val 0 OPAL{0}> Bin # 888 val 0 OPAL{0}> Bin # 889 val 0 OPAL{0}> Bin # 890 val 0 OPAL{0}> Bin # 891 val 0 OPAL{0}> Bin # 892 val 0 OPAL{0}> Bin # 893 val 0 OPAL{0}> Bin # 894 val 0 OPAL{0}> Bin # 895 val 0 OPAL{0}> Bin # 896 val 0 OPAL{0}> Bin # 897 val 0 OPAL{0}> Bin # 898 val 0 OPAL{0}> Bin # 899 val 0 OPAL{0}> Bin # 900 val 0 OPAL{0}> Bin # 901 val 0 OPAL{0}> Bin # 902 val 0 OPAL{0}> Bin # 903 val 0 OPAL{0}> Bin # 904 val 0 OPAL{0}> Bin # 905 val 0 OPAL{0}> Bin # 906 val 0 OPAL{0}> Bin # 907 val 0 OPAL{0}> Bin # 908 val 0 OPAL{0}> Bin # 909 val 0 OPAL{0}> Bin # 910 val 0 OPAL{0}> Bin # 911 val 0 OPAL{0}> Bin # 912 val 0 OPAL{0}> Bin # 913 val 0 OPAL{0}> Bin # 914 val 0 OPAL{0}> Bin # 915 val 0 OPAL{0}> Bin # 916 val 0 OPAL{0}> Bin # 917 val 0 OPAL{0}> Bin # 918 val 0 OPAL{0}> Bin # 919 val 0 OPAL{0}> Bin # 920 val 0 OPAL{0}> Bin # 921 val 0 OPAL{0}> Bin # 922 val 0 OPAL{0}> Bin # 923 val 0 OPAL{0}> Bin # 924 val 0 OPAL{0}> Bin # 925 val 0 OPAL{0}> Bin # 926 val 0 OPAL{0}> Bin # 927 val 0 OPAL{0}> Bin # 928 val 0 OPAL{0}> Bin # 929 val 0 OPAL{0}> Bin # 930 val 0 OPAL{0}> Bin # 931 val 0 OPAL{0}> Bin # 932 val 0 OPAL{0}> Bin # 933 val 0 OPAL{0}> Bin # 934 val 0 OPAL{0}> Bin # 935 val 0 OPAL{0}> Bin # 936 val 0 OPAL{0}> Bin # 937 val 0 OPAL{0}> Bin # 938 val 0 OPAL{0}> Bin # 939 val 0 OPAL{0}> Bin # 940 val 0 OPAL{0}> Bin # 941 val 0 OPAL{0}> Bin # 942 val 0 OPAL{0}> Bin # 943 val 0 OPAL{0}> Bin # 944 val 0 OPAL{0}> Bin # 945 val 0 OPAL{0}> Bin # 946 val 0 OPAL{0}> Bin # 947 val 0 OPAL{0}> Bin # 948 val 0 OPAL{0}> Bin # 949 val 0 OPAL{0}> Bin # 950 val 0 OPAL{0}> Bin # 951 val 0 OPAL{0}> Bin # 952 val 0 OPAL{0}> Bin # 953 val 0 OPAL{0}> Bin # 954 val 0 OPAL{0}> Bin # 955 val 0 OPAL{0}> Bin # 956 val 0 OPAL{0}> Bin # 957 val 0 OPAL{0}> Bin # 958 val 0 OPAL{0}> Bin # 959 val 0 OPAL{0}> Bin # 960 val 0 OPAL{0}> Bin # 961 val 0 OPAL{0}> Bin # 962 val 0 OPAL{0}> Bin # 963 val 0 OPAL{0}> Bin # 964 val 0 OPAL{0}> Bin # 965 val 0 OPAL{0}> Bin # 966 val 0 OPAL{0}> Bin # 967 val 0 OPAL{0}> Bin # 968 val 0 OPAL{0}> Bin # 969 val 0 OPAL{0}> Bin # 970 val 0 OPAL{0}> Bin # 971 val 0 OPAL{0}> Bin # 972 val 0 OPAL{0}> Bin # 973 val 0 OPAL{0}> Bin # 974 val 0 OPAL{0}> Bin # 975 val 0 OPAL{0}> Bin # 976 val 0 OPAL{0}> Bin # 977 val 0 OPAL{0}> Bin # 978 val 0 OPAL{0}> Bin # 979 val 0 OPAL{0}> Bin # 980 val 0 OPAL{0}> Bin # 981 val 0 OPAL{0}> Bin # 982 val 0 OPAL{0}> Bin # 983 val 0 OPAL{0}> Bin # 984 val 0 OPAL{0}> Bin # 985 val 0 OPAL{0}> Bin # 986 val 0 OPAL{0}> Bin # 987 val 0 OPAL{0}> Bin # 988 val 0 OPAL{0}> Bin # 989 val 0 OPAL{0}> Bin # 990 val 0 OPAL{0}> Bin # 991 val 0 OPAL{0}> Bin # 992 val 0 OPAL{0}> Bin # 993 val 0 OPAL{0}> Bin # 994 val 0 OPAL{0}> Bin # 995 val 0 OPAL{0}> Bin # 996 val 0 OPAL{0}> Bin # 997 val 0 OPAL{0}> Bin # 998 val 0 OPAL{0}> Bin # 999 val 0 OPAL{0}> Last emitted bin is 2 OPAL{0}> Ippl{0}> ---------------Finished reading hdf5 file--------------- OPAL{0}> * Mass of simulation particle= 7056.98 GeV/c^2 OPAL{0}> * Charge of simulation particle= 1.20504e-15 [C] Ippl{0}> * Creating new file for data: AmrRingCyclotron-10.stat Ippl{0}> * Appending data to existing data file: AmrRingCyclotron-10.lbal Ippl{0}> * Appending data to existing data file: AmrRingCyclotron-10.grid Ippl{0}> * Appending data to existing data file: AmrRingCyclotron-10.mem Ippl{0}> * Appending data to existing data file: AmrRingCyclotron-10-bunch-0000.smb Ippl{0}> * Creating new file for data: AmrRingCyclotron-10-bunch-0001.smb OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Number of neighbour bunches = 2 OPAL{0}> * DT = 1e-12 OPAL{0}> * MAXSTEPS = 1440 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * ********************************************************************************** OPAL{0}> Use 'GAMMA_BINNING' for binning. OPAL{0}> ***---------------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE ----------------------------*** OPAL{0}> In this restart job, the multi-bunches mode is forcely set to FORCE mode. OPAL{0}> If the existing bunch number is less than the specified number of TURN, readin the phase space of STEP#0 from h5 file consecutively OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * In restart. Distribution read in from .h5 file. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 0.002 A OPAL{0}> * FREQUENCY 50.65 MHz OPAL{0}> * CHARGE +e * 1 OPAL{0}> * REST MASS 0.938272 GeV OPAL{0}> * MOMENTUM 0.37456 OPAL{0}> * NPART 32768 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE AMR_MG OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 2 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * ITSOLVER (AMR_MG) SA OPAL{0}> * AMR_MG_PREC NONE OPAL{0}> * AMR_MG_REBALANCE 1 OPAL{0}> * AMR_MG_REUSE RAP OPAL{0}> * AMR_MG_SMOOTHER GS OPAL{0}> * AMR_MG_NSWEEPS 12 OPAL{0}> * AMR_MG_INTERP PC OPAL{0}> * AMR_MG_NORM LINF_NORM OPAL{0}> * AMR_MG_TOL 1e-10 OPAL{0}> * AMR_MG_VERBOSE 0 OPAL{0}> * BCFFTX DIRICHLET OPAL{0}> * BCFFTY DIRICHLET OPAL{0}> * BCFFTT (deprec.) DIRICHLET OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2200.86 [mm] OPAL{0}> * PHIINIT = 0.17203 [deg] OPAL{0}> * ZINIT = 0.00067071 [mm] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.07674 OPAL{0}> * Initial beta = 0.370752 OPAL{0}> * Reference total momentum (beta * gamma) = 415.811 [MCU] OPAL{0}> * Reference azimuthal momentum (Pt) = 415.796 [MCU] OPAL{0}> * Reference radial momentum (Pr) = 0.0673084 [MCU] OPAL{0}> * Reference axial momentum (Pz) = 0.00027064 [MCU] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = s03av.nar OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.333333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.18243e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 35 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.18243e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 125 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 9.5473e+08 [rad/s] OPAL{0}> * RF Field map file = Cav3.dat OPAL{0}> * Cavity azimuth position= 170 [deg] OPAL{0}> * Cavity gap width= 250 [mm] OPAL{0}> * Cavity Shift distance= 452 [mm] OPAL{0}> * Initial RF phase (t=0)= 149.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.18243e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 215 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 139.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * Minimal radius of cavity= 1900 [mm] OPAL{0}> * Maximal radius of cavity= 4500 [mm] OPAL{0}> * RF frequency (2*pi*f)= 3.18243e+08 [rad/s] OPAL{0}> * RF Field map file = Cav1.dat OPAL{0}> * Cavity azimuth position= 305 [deg] OPAL{0}> * Cavity gap width= 220 [mm] OPAL{0}> * Cavity Shift distance= 416 [mm] OPAL{0}> * Initial RF phase (t=0)= 319.428 [deg] OPAL{0}> * Read cavity voltage profile data OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> * Restart at integration step 1080 at turn 3 OPAL{0}> * Restart in the local frame OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 14495 OPAL{0}> * max local particle number: 18282 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> OPAL{0}> * After repartition: min local particle number: 12995 OPAL{0}> * max local particle number: 19994 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.881 [MeV] dEkin = 1.196 [MeV] OPAL{0}> * rmax = ( 28.63078 , 16.67849 , 3.28124 ) [mm] OPAL{0}> * rmin = ( -31.00265 , -11.85066 , -3.34837 ) [mm] OPAL{0}> * rms beam size = ( 17.17446 , 4.66661 , 1.03609 ) [mm] OPAL{0}> * rms momenta = ( 1.74607e-03 , 3.32066e-03 , 2.47786e-04 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , 0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( 2.95716e-17 , 4.15796e-01 , 5.32917e-17 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.59636e-05 , 2.38631e-05 , 5.63269e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.30744e-01 , 7.68108e-01 , -4.09523e-01 ) OPAL{0}> * hr = ( 2.32520 , 1.74390 , 1.74390 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.191 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.881 [MeV] dEkin = 1.196 [MeV] OPAL{0}> * rmax = ( 2.22949 , 0.02331 , 0.00328 ) [m] OPAL{0}> * rmin = ( 2.16984 , -0.00525 , -0.00335 ) [m] OPAL{0}> * rms beam size = ( 17.16624 , 4.69674 , 1.03609 ) [mm] OPAL{0}> * rms momenta = ( 1.75359e-03 , 3.31670e-03 , 2.47786e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.20085 , 0.00661 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.18111e-03 , 4.15794e-01 , 2.70640e-07 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.60573e-05 , 2.37819e-05 , 5.63269e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.32783e-01 , 7.72673e-01 , -4.09523e-01 ) OPAL{0}> * hr = ( 2.32520 , 1.74390 , 1.74390 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.191 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 0 gamma = 0 Ippl{0}> Bin 1 : particle number = 0 gamma = 0 Ippl{0}> minimal beta*gamma = 0.412203 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Beginning of this run is at t = 355.38 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 2 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding ******* WARNING ******* No repartitioning necessary: partitions were left unchanged by the repartitioner ******* WARNING ******* Only one partition: Skip call to the repartitioner. Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> minimal beta*gamma = 0.412185 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.083 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08367 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> minimal beta*gamma = 0.415634 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08434 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08423 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> minimal beta*gamma = 0.417185 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0849 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> minimal beta*gamma = 0.418782 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08557 OPAL{0}> OPAL{0}> *** Finished turn 4, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 1440 OPAL{0}> * T = 473.84 ns, Live Particles: 65536 OPAL{0}> * E = 77.881 MeV, beta * gamma = 0.42243 OPAL{0}> * Bunch position: R = 2234.2 mm, Theta = 0.32873 Deg, Z = 0.00016255 mm OPAL{0}> * Local Azimuth = 0.50291 Deg, Local Elevation = 3.9833e-05 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 80.286 [MeV] dEkin = 1.215 [MeV] OPAL{0}> * rmax = ( 2.25994 , 0.03122 , 0.00458 ) [m] OPAL{0}> * rmin = ( 2.20499 , -0.00434 , -0.00459 ) [m] OPAL{0}> * rms beam size = ( 17.45582 , 4.88557 , 1.31254 ) [mm] OPAL{0}> * rms momenta = ( 1.69459e-03 , 3.31934e-03 , 2.06346e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.23421 , 0.01282 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -3.70781e-03 , 4.22412e-01 , 2.93679e-07 ) [beta gamma] OPAL{0}> * rms emittance = ( 6.46430e-05 , 3.46154e-05 , 5.48179e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -3.84384e-01 , 4.32326e-01 , -5.18582e-01 ) OPAL{0}> * hr = ( 2.19826 , 1.64870 , 1.64870 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 473.840 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 13.738 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream "AmrRingCyclotron-10.in". Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 471.98, CPU tot = 472.03 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 1.39295, CPU max = 1.34 Timings{0}> Wall avg = 1.28003, CPU avg = 1.2525 Timings{0}> Wall min = 1.17808, CPU min = 1.17 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.18076, CPU max = 0.22 Timings{0}> Wall avg = 0.170451, CPU avg = 0.1825 Timings{0}> Wall min = 0.158378, CPU min = 0.15 Timings{0}> Timings{0}> AMR MG average down. Wall max = 0.774545, CPU max = 0.82 Timings{0}> Wall avg = 0.727148, CPU avg = 0.715 Timings{0}> Wall min = 0.702418, CPU min = 0.59 Timings{0}> Timings{0}> AMR MG bottom-solve. Wall max = 14.1047, CPU max = 14.45 Timings{0}> Wall avg = 14.0414, CPU avg = 14.1475 Timings{0}> Wall min = 13.9143, CPU min = 13.59 Timings{0}> Timings{0}> AMR MG bsolver setu. Wall max = 0.032636, CPU max = 0.04 Timings{0}> Wall avg = 0.0325864, CPU avg = 0.0325 Timings{0}> Wall min = 0.0325343, CPU min = 0.03 Timings{0}> Timings{0}> AMR MG dump......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> AMR MG e-field...... Wall max = 4.96185, CPU max = 5.04 Timings{0}> Wall avg = 4.9396, CPU avg = 4.9375 Timings{0}> Wall min = 4.8962, CPU min = 4.81 Timings{0}> Timings{0}> AMR MG matrix setup. Wall max = 86.6998, CPU max = 86.57 Timings{0}> Wall avg = 86.4699, CPU avg = 86.4575 Timings{0}> Wall min = 86.313, CPU min = 86.35 Timings{0}> Timings{0}> AMR MG prolongate... Wall max = 3.99186, CPU max = 4.13 Timings{0}> Wall avg = 3.14932, CPU avg = 3.0675 Timings{0}> Wall min = 2.48314, CPU min = 2.45 Timings{0}> Timings{0}> AMR MG restrict..... Wall max = 30.747, CPU max = 30.88 Timings{0}> Wall avg = 29.6292, CPU avg = 29.67 Timings{0}> Wall min = 28.3929, CPU min = 28.53 Timings{0}> Timings{0}> AMR MG smooth....... Wall max = 236.091, CPU max = 236.35 Timings{0}> Wall avg = 232.429, CPU avg = 232.622 Timings{0}> Wall min = 228.088, CPU min = 228.01 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 15.6359, CPU max = 15.69 Timings{0}> Wall avg = 15.6153, CPU avg = 15.615 Timings{0}> Wall min = 15.5962, CPU min = 15.57 Timings{0}> Timings{0}> AMR solve........... Wall max = 425.512, CPU max = 425.71 Timings{0}> Wall avg = 425.394, CPU avg = 425.585 Timings{0}> Wall min = 425.313, CPU min = 425.47 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 1.85441, CPU max = 1.84 Timings{0}> Wall avg = 1.70876, CPU avg = 1.7175 Timings{0}> Wall min = 1.55189, CPU min = 1.39 Timings{0}> Timings{0}> AMR update particle. Wall max = 12.6618, CPU max = 12.71 Timings{0}> Wall avg = 12.5203, CPU avg = 12.5425 Timings{0}> Wall min = 12.3733, CPU min = 12.31 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.383515, CPU max = 0.4 Timings{0}> Wall avg = 0.38335, CPU avg = 0.38 Timings{0}> Wall min = 0.383104, CPU min = 0.36 Timings{0}> Timings{0}> Boundingbox......... Wall max = 1.95548, CPU max = 1.99 Timings{0}> Wall avg = 1.88877, CPU avg = 1.9 Timings{0}> Wall min = 1.8024, CPU min = 1.82 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0112733, CPU max = 0.01 Timings{0}> Wall avg = 0.0100869, CPU avg = 0.0025 Timings{0}> Wall min = 0.00792184, CPU min = 0 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 7.23088, CPU max = 7.27 Timings{0}> Wall avg = 5.68822, CPU avg = 5.7575 Timings{0}> Wall min = 4.37089, CPU min = 4.41 Timings{0}> Timings{0}> Dump................ Wall max = 1.31429, CPU max = 0.75 Timings{0}> Wall avg = 0.923475, CPU avg = 0.675 Timings{0}> Wall min = 0.780417, CPU min = 0.52 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 0.479024, CPU max = 0.61 Timings{0}> Wall avg = 0.444619, CPU avg = 0.5 Timings{0}> Wall min = 0.403509, CPU min = 0.37 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 18.0012, CPU max = 17.99 Timings{0}> Wall avg = 16.7315, CPU avg = 16.6975 Timings{0}> Wall min = 15.246, CPU min = 15.19 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0.0764604, CPU max = 0.21 Timings{0}> Wall avg = 0.0743495, CPU avg = 0.125 Timings{0}> Wall min = 0.0731794, CPU min = 0.06 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.00841864, CPU max = 0.02 Timings{0}> Wall avg = 0.0084126, CPU avg = 0.0125 Timings{0}> Wall min = 0.00840316, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.000429399, CPU max = 0 Timings{0}> Wall avg = 0.000391435, CPU avg = 0 Timings{0}> Wall min = 0.000373502, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> SelfField total..... Wall max = 444.871, CPU max = 445.05 Timings{0}> Wall avg = 444.834, CPU avg = 445 Timings{0}> Wall min = 444.793, CPU min = 444.9 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.14282, CPU max = 0.02 Timings{0}> Wall avg = 0.142738, CPU avg = 0.0175 Timings{0}> Wall min = 0.142633, CPU min = 0.01 Timings{0}> Timings{0}> Write Stat.......... Wall max = 0.807796, CPU max = 0.3 Timings{0}> Wall avg = 0.405012, CPU avg = 0.2575 Timings{0}> Wall min = 0.261628, CPU min = 0.17 Timings{0}> Timings{0}> ----------------------------------------------------------------- Running test: ./BeamLine-1.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2021.1.0 OPAL{0}> git rev. 5559ff44d63262c82aed3dc8b7e0dc5382f45990 OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 02:33:57 date: 10/05/2022 OPAL{0}> OPAL{0}> * Reading input stream "BeamLine-1.in". OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=1e+06,STATDUMPFREQ=750,PSDUMPEACHTURN=FALSE, OPAL{0}> PSDUMPFRAME="GLOBAL",SPTDUMPFREQ=1,REPARTFREQ=10,REBINFREQ=100, OPAL{0}> SCSOLVEFREQ=1,MTSSUBSTEPS=1,REMOTEPARTDEL=0,RHODUMP=FALSE, OPAL{0}> EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0,RECYCLEBLOCKS=0, OPAL{0}> NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM",ENABLEHDF5=TRUE,ENABLEVTK=TRUE, OPAL{0}> ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10,BEAMHALOBOUNDARY=0, OPAL{0}> CLOTUNEONLY=FALSE,IDEALIZED=FALSE,LOGBENDTRAJECTORY=FALSE, OPAL{0}> VERSION=10000,AMR=FALSE,AMR_YT_DUMP_FREQ=10,AMR_REGRID_FREQ=10, OPAL{0}> MEMORYDUMP=FALSE,HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10, OPAL{0}> MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=1e+06,STATDUMPFREQ=750,PSDUMPEACHTURN=FALSE, OPAL{0}> PSDUMPFRAME="GLOBAL",SPTDUMPFREQ=1,REPARTFREQ=10,REBINFREQ=100, OPAL{0}> SCSOLVEFREQ=1,MTSSUBSTEPS=1,REMOTEPARTDEL=0,RHODUMP=FALSE, OPAL{0}> EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0,RECYCLEBLOCKS=0, OPAL{0}> NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM",ENABLEHDF5=TRUE,ENABLEVTK=TRUE, OPAL{0}> ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10,BEAMHALOBOUNDARY=0, OPAL{0}> CLOTUNEONLY=FALSE,IDEALIZED=FALSE,LOGBENDTRAJECTORY=FALSE, OPAL{0}> VERSION=10900,AMR=FALSE,AMR_YT_DUMP_FREQ=10,AMR_REGRID_FREQ=10, OPAL{0}> MEMORYDUMP=FALSE,HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10, OPAL{0}> MINSTEPFORREBIN=200; OPAL{0}> OPAL{0}> OPAL{0}> value: {GAMMA,BRHO,EDES,BETA,GAMBET} = {1.10947, 1.504, 0.102715, 0.433135, 0.480551} OPAL{0}> OPAL{0}> * Reading input stream "BeamLineG2_100_30RCOLs.opal" from CALL command. OPAL{0}> OPAL{0}> * Reading input stream "InDistr_LG2_100.opal" from CALL command. OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 175 elements selected. OPAL{0}[2]> OPAL{0}> * ********************************************************************************** OPAL{0}> * Selected Tracking Method == PARALLEL-T, NEW TRACK OPAL{0}> * ********************************************************************************** Ippl{0}> no solver attached OPAL{0}> No momentum units were specified, using default units (see manual). OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. Ippl{0}> * Creating new file for data: BeamLine-1.stat Ippl{0}> * Creating new file for data: BeamLine-1.lbal OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 3520 OPAL{0}> * OPAL{0}> * Distribution type: FROMFILE OPAL{0}> * OPAL{0}> * Input file: Sample_LG2.dat OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM_4 OPAL{0}> * PARTICLE PROTON OPAL{0}> * CURRENT 2.885665e-08 A OPAL{0}> * FREQUENCY 5.063280e+01 MHz OPAL{0}> * CHARGE +e * 1.000000e+00 OPAL{0}> * REST MASS 9.382721e-01 GeV OPAL{0}> * MOMENTUM 4.508876e-01 OPAL{0}> * NPART 3.520000e+03 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE NONE OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 6.400000e+01 OPAL{0}> * MY 6.400000e+01 OPAL{0}> * MT 6.400000e+01 OPAL{0}> * BBOXINCR 1.000000e+00 OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}[2]> Phase space dump frequency 1000000 and statistics dump frequency 750 w.r.t. the time step. SBend {0}[2]> ====================================================================== SBend {0}[2]> ===== AMF1 =========================================================== SBend {0}[2]> ====================================================================== SBend {0}[2]> AMF1 using file 1DPROFILE1-DEFAULT (1D Profile type 1) SBend {0}[2]> SBend {0}[2]> Start of field map: 38.8652 m (in s coordinates) SBend {0}[2]> End of field map: 41.0331 m (in s coordinates) SBend {0}[2]> Entrance edge of magnet: 39.1706 m (in s coordinates) SBend {0}[2]> SBend {0}[2]> Reference Trajectory Properties SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Bend angle magnitude: 1.00161 rad (57.3878 degrees) SBend {0}[2]> Entrance edge angle: 0.1881 rad (10.7773 degrees) SBend {0}[2]> Exit edge angle: 0.1881 rad (10.7773 degrees) SBend {0}[2]> Bend design radius: 1.55468 m SBend {0}[2]> Bend design energy: 1.02715e+08 eV SBend {0}[2]> SBend {0}[2]> Bend Field and Rotation Properties SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Field amplitude: 0.9674 T SBend {0}[2]> Field index: 0 SBend {0}[2]> Rotation about z axis: 0 rad (0 degrees) SBend {0}[2]> SBend {0}[2]> Reference Trajectory Properties Through Bend Magnet with Fringe Fields SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Reference particle is bent: 1.00161 rad (57.3878 degrees) in x plane SBend {0}[2]> Reference particle is bent: 0 rad (0 degrees) in y plane SBend {0}[2]> SBend {0}[2]> Effective Field Map SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> 1DProfile1 5 5 6 SBend {0}[2]> -30.0194 -0.0194092 29.9806 0 SBend {0}[2]> -29.9806 0.0194092 30.0194 0 SBend {0}[2]> 0.478959 SBend {0}[2]> 1.91129 SBend {0}[2]> -1.18595 SBend {0}[2]> 1.63055 SBend {0}[2]> -1.08266 SBend {0}[2]> 0.318111 SBend {0}[2]> 0.478959 SBend {0}[2]> 1.91129 SBend {0}[2]> -1.18595 SBend {0}[2]> 1.63055 SBend {0}[2]> -1.08266 SBend {0}[2]> 0.31811 SBend {0}[2]> SBend {0}[2]> ====================================================================== SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> ====================================================================== SBend {0}[2]> ===== AMF2 =========================================================== SBend {0}[2]> ====================================================================== SBend {0}[2]> AMF2 using file 1DPROFILE1-DEFAULT (1D Profile type 1) SBend {0}[2]> SBend {0}[2]> Start of field map: 42.4905 m (in s coordinates) SBend {0}[2]> End of field map: 44.6577 m (in s coordinates) SBend {0}[2]> Entrance edge of magnet: 42.7959 m (in s coordinates) SBend {0}[2]> SBend {0}[2]> Reference Trajectory Properties SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Bend angle magnitude: 0.996179 rad (57.0768 degrees) SBend {0}[2]> Entrance edge angle: 0.1881 rad (10.7773 degrees) SBend {0}[2]> Exit edge angle: 0.1881 rad (10.7773 degrees) SBend {0}[2]> Bend design radius: 1.56243 m SBend {0}[2]> Bend design energy: 1.02715e+08 eV SBend {0}[2]> SBend {0}[2]> Bend Field and Rotation Properties SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Field amplitude: 0.9626 T SBend {0}[2]> Field index: 0 SBend {0}[2]> Rotation about z axis: 3.14159 rad (180 degrees) SBend {0}[2]> SBend {0}[2]> Reference Trajectory Properties Through Bend Magnet with Fringe Fields SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Reference particle is bent: 0.996178 rad (57.0768 degrees) in x plane SBend {0}[2]> Reference particle is bent: 0 rad (0 degrees) in y plane SBend {0}[2]> SBend {0}[2]> Effective Field Map SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> 1DProfile1 5 5 6 SBend {0}[2]> -30.019 -0.019043 29.981 0 SBend {0}[2]> -29.981 0.019043 30.019 0 SBend {0}[2]> 0.478959 SBend {0}[2]> 1.91129 SBend {0}[2]> -1.18595 SBend {0}[2]> 1.63055 SBend {0}[2]> -1.08266 SBend {0}[2]> 0.318111 SBend {0}[2]> 0.478959 SBend {0}[2]> 1.91129 SBend {0}[2]> -1.18595 SBend {0}[2]> 1.63055 SBend {0}[2]> -1.08266 SBend {0}[2]> 0.31811 SBend {0}[2]> SBend {0}[2]> ====================================================================== SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> ====================================================================== SBend {0}[2]> ===== AMF3 =========================================================== SBend {0}[2]> ====================================================================== SBend {0}[2]> AMF3 using file 1DPROFILE1-DEFAULT (1D Profile type 1) SBend {0}[2]> SBend {0}[2]> Start of field map: 47.2258 m (in s coordinates) SBend {0}[2]> End of field map: 51.2212 m (in s coordinates) SBend {0}[2]> Entrance edge of magnet: 47.9923 m (in s coordinates) SBend {0}[2]> SBend {0}[2]> Reference Trajectory Properties SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Bend angle magnitude: 1.55731 rad (89.227 degrees) SBend {0}[2]> Entrance edge angle: 0.2077 rad (11.9003 degrees) SBend {0}[2]> Exit edge angle: 0.4014 rad (22.9985 degrees) SBend {0}[2]> Bend design radius: 1.55019 m SBend {0}[2]> Bend design energy: 1.02715e+08 eV SBend {0}[2]> SBend {0}[2]> Bend Field and Rotation Properties SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Field amplitude: 0.9702 T SBend {0}[2]> Field index: 0 SBend {0}[2]> Rotation about z axis: 3.14159 rad (180 degrees) SBend {0}[2]> SBend {0}[2]> Reference Trajectory Properties Through Bend Magnet with Fringe Fields SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> Reference particle is bent: 1.55731 rad (89.227 degrees) in x plane SBend {0}[2]> Reference particle is bent: 0 rad (0 degrees) in y plane SBend {0}[2]> SBend {0}[2]> Effective Field Map SBend {0}[2]> ====================================================================== SBend {0}[2]> SBend {0}[2]> 1DProfile1 5 5 15 SBend {0}[2]> -75.2046 -0.20462 74.7954 0 SBend {0}[2]> -74.7954 0.20462 75.2046 0 SBend {0}[2]> 0.478959 SBend {0}[2]> 1.91129 SBend {0}[2]> -1.18595 SBend {0}[2]> 1.63055 SBend {0}[2]> -1.08266 SBend {0}[2]> 0.318111 SBend {0}[2]> 0.478959 SBend {0}[2]> 1.91129 SBend {0}[2]> -1.18595 SBend {0}[2]> 1.63055 SBend {0}[2]> -1.08266 SBend {0}[2]> 0.31811 SBend {0}[2]> SBend {0}[2]> ====================================================================== SBend {0}[2]> ====================================================================== SBend {0}[2]> OPAL{0}> OPAL{0}> * Size of map 172 sections OPAL{0}> * Key: (36.200664 - 36.426950) number of overlapping elements 0 OPAL{0}> * Key: (36.426950 - 36.464520) number of overlapping elements 1 OPAL{0}> * UPG2B OPAL{0}> * Key: (36.464520 - 36.466425) number of overlapping elements 1 OPAL{0}> * KMB2O OPAL{0}> * Key: (36.466425 - 36.479410) number of overlapping elements 1 OPAL{0}> * D76 OPAL{0}> * Key: (36.479410 - 36.543469) number of overlapping elements 1 OPAL{0}> * D77 OPAL{0}> * Key: (36.543469 - 36.635923) number of overlapping elements 1 OPAL{0}> * D78 OPAL{0}> * Key: (36.635923 - 37.036035) number of overlapping elements 1 OPAL{0}> * DEG OPAL{0}> * Key: (37.036035 - 37.181641) number of overlapping elements 1 OPAL{0}> * D79 OPAL{0}> * Key: (37.181641 - 37.501073) number of overlapping elements 1 OPAL{0}> * D80 OPAL{0}> * Key: (37.501073 - 37.506094) number of overlapping elements 3 OPAL{0}> * D80 OPAL{0}> * MMFP1X OPAL{0}> * MMFP2Y OPAL{0}> * Key: (37.506094 - 37.511115) number of overlapping elements 3 OPAL{0}> * MMFP1X OPAL{0}> * MMFP2Y OPAL{0}> * D81 OPAL{0}> * Key: (37.511115 - 37.784494) number of overlapping elements 1 OPAL{0}> * D81 OPAL{0}> * Key: (37.784494 - 37.864655) number of overlapping elements 2 OPAL{0}> * QMF1 OPAL{0}> * QMF1_R0 OPAL{0}> * Key: (37.864655 - 37.944643) number of overlapping elements 2 OPAL{0}> * QMF1 OPAL{0}> * QMF1_R1 OPAL{0}> * Key: (37.944643 - 38.024631) number of overlapping elements 2 OPAL{0}> * QMF1 OPAL{0}> * QMF1_R2 OPAL{0}> * Key: (38.024631 - 38.104618) number of overlapping elements 2 OPAL{0}> * QMF1 OPAL{0}> * QMF1_R3 OPAL{0}> * Key: (38.104618 - 38.259573) number of overlapping elements 1 OPAL{0}> * QMFC OPAL{0}> * Key: (38.259573 - 38.414528) number of overlapping elements 1 OPAL{0}> * D82 OPAL{0}> * Key: (38.414528 - 38.494516) number of overlapping elements 2 OPAL{0}> * QMF2 OPAL{0}> * QMF2_R0 OPAL{0}> * Key: (38.494516 - 38.574504) number of overlapping elements 2 OPAL{0}> * QMF2 OPAL{0}> * QMF2_R1 OPAL{0}> * Key: (38.574504 - 38.654665) number of overlapping elements 2 OPAL{0}> * QMF2 OPAL{0}> * QMF2_R2 OPAL{0}> * Key: (38.654665 - 38.734653) number of overlapping elements 2 OPAL{0}> * QMF2 OPAL{0}> * QMF2_R3 OPAL{0}> * Key: (38.734653 - 38.865023) number of overlapping elements 1 OPAL{0}> * D83 OPAL{0}> * Key: (38.865023 - 39.170258) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * D83 OPAL{0}> * Key: (39.170258 - 39.170605) number of overlapping elements 3 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R0 OPAL{0}> * D83 OPAL{0}> * Key: (39.170605 - 39.222198) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R0 OPAL{0}> * Key: (39.222198 - 39.223930) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.223930 - 39.275870) number of overlapping elements 2 OPAL{0}> * AMF1_R1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.275870 - 39.277774) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.277774 - 39.329715) number of overlapping elements 2 OPAL{0}> * AMF1_R2 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.329715 - 39.331446) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.331446 - 39.383386) number of overlapping elements 2 OPAL{0}> * AMF1_R3 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.383386 - 39.385118) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.385118 - 39.437231) number of overlapping elements 2 OPAL{0}> * AMF1_R4 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.437231 - 39.438962) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.438962 - 39.490902) number of overlapping elements 2 OPAL{0}> * AMF1_R5 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.490902 - 39.492634) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.492634 - 39.544574) number of overlapping elements 2 OPAL{0}> * AMF1_R6 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.544574 - 39.546478) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.546478 - 39.598419) number of overlapping elements 2 OPAL{0}> * AMF1_R7 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.598419 - 39.600150) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.600150 - 39.652090) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R8 OPAL{0}> * Key: (39.652090 - 39.653822) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.653822 - 39.705935) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R9 OPAL{0}> * Key: (39.705935 - 39.707666) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.707666 - 39.759606) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R10 OPAL{0}> * Key: (39.759606 - 39.761338) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.761338 - 39.813278) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R11 OPAL{0}> * Key: (39.813278 - 39.815182) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.815182 - 39.867123) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R12 OPAL{0}> * Key: (39.867123 - 39.868854) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.868854 - 39.920794) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R13 OPAL{0}> * Key: (39.920794 - 39.922525) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.922525 - 39.974639) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R14 OPAL{0}> * Key: (39.974639 - 39.976370) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (39.976370 - 40.028310) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R15 OPAL{0}> * Key: (40.028310 - 40.030042) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.030042 - 40.081982) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R16 OPAL{0}> * Key: (40.081982 - 40.083886) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.083886 - 40.135827) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R17 OPAL{0}> * Key: (40.135827 - 40.137558) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.137558 - 40.189498) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R18 OPAL{0}> * Key: (40.189498 - 40.191229) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.191229 - 40.243170) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R19 OPAL{0}> * Key: (40.243170 - 40.245074) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.245074 - 40.297014) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R20 OPAL{0}> * Key: (40.297014 - 40.298746) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.298746 - 40.350686) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R21 OPAL{0}> * Key: (40.350686 - 40.352417) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.352417 - 40.404357) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R22 OPAL{0}> * Key: (40.404357 - 40.406262) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.406262 - 40.458202) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R23 OPAL{0}> * Key: (40.458202 - 40.459933) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.459933 - 40.511874) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R24 OPAL{0}> * Key: (40.511874 - 40.513605) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.513605 - 40.565545) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R25 OPAL{0}> * Key: (40.565545 - 40.567450) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.567450 - 40.619390) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R26 OPAL{0}> * Key: (40.619390 - 40.621121) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.621121 - 40.673061) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R27 OPAL{0}> * Key: (40.673061 - 40.674793) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.674793 - 40.726733) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R28 OPAL{0}> * Key: (40.726733 - 40.728637) number of overlapping elements 1 OPAL{0}> * AMF1 OPAL{0}> * Key: (40.728637 - 40.729157) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * AMF1_R29 OPAL{0}> * Key: (40.729157 - 40.780578) number of overlapping elements 3 OPAL{0}> * AMF1 OPAL{0}> * D84 OPAL{0}> * AMF1_R29 OPAL{0}> * Key: (40.780578 - 41.032661) number of overlapping elements 2 OPAL{0}> * AMF1 OPAL{0}> * D84 OPAL{0}> * Key: (41.032661 - 41.119228) number of overlapping elements 1 OPAL{0}> * D84 OPAL{0}> * Key: (41.119228 - 41.124249) number of overlapping elements 3 OPAL{0}> * D84 OPAL{0}> * MMFP3X OPAL{0}> * MMFP4Y OPAL{0}> * Key: (41.124249 - 41.129269) number of overlapping elements 3 OPAL{0}> * MMFP3X OPAL{0}> * MMFP4Y OPAL{0}> * D86 OPAL{0}> * Key: (41.129269 - 41.390875) number of overlapping elements 1 OPAL{0}> * D86 OPAL{0}> * Key: (41.390875 - 41.470863) number of overlapping elements 2 OPAL{0}> * QMF3 OPAL{0}> * QMF3_R0 OPAL{0}> * Key: (41.470863 - 41.550851) number of overlapping elements 2 OPAL{0}> * QMF3 OPAL{0}> * QMF3_R1 OPAL{0}> * Key: (41.550851 - 41.630839) number of overlapping elements 2 OPAL{0}> * QMF3 OPAL{0}> * QMF3_R2 OPAL{0}> * Key: (41.630839 - 41.710827) number of overlapping elements 2 OPAL{0}> * QMF3 OPAL{0}> * QMF3_R3 OPAL{0}> * Key: (41.710827 - 41.880844) number of overlapping elements 1 OPAL{0}> * SMF2 OPAL{0}> * Key: (41.880844 - 42.050862) number of overlapping elements 1 OPAL{0}> * D87 OPAL{0}> * Key: (42.050862 - 42.130850) number of overlapping elements 2 OPAL{0}> * QMF4 OPAL{0}> * QMF4_R0 OPAL{0}> * Key: (42.130850 - 42.210838) number of overlapping elements 2 OPAL{0}> * QMF4 OPAL{0}> * QMF4_R1 OPAL{0}> * Key: (42.210838 - 42.290999) number of overlapping elements 2 OPAL{0}> * QMF4 OPAL{0}> * QMF4_R2 OPAL{0}> * Key: (42.290999 - 42.370987) number of overlapping elements 2 OPAL{0}> * QMF4 OPAL{0}> * QMF4_R3 OPAL{0}> * Key: (42.370987 - 42.490276) number of overlapping elements 1 OPAL{0}> * D88 OPAL{0}> * Key: (42.490276 - 42.795857) number of overlapping elements 2 OPAL{0}> * D88 OPAL{0}> * AMF2 OPAL{0}> * Key: (42.795857 - 42.796030) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (42.796030 - 42.847971) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R0 OPAL{0}> * Key: (42.847971 - 42.849529) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (42.849529 - 42.901469) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R1 OPAL{0}> * Key: (42.901469 - 42.903027) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (42.903027 - 42.954968) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R2 OPAL{0}> * Key: (42.954968 - 42.956353) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (42.956353 - 43.008293) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R3 OPAL{0}> * Key: (43.008293 - 43.009851) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.009851 - 43.061791) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R4 OPAL{0}> * Key: (43.061791 - 43.063349) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.063349 - 43.115290) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R5 OPAL{0}> * Key: (43.115290 - 43.116848) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.116848 - 43.168788) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R6 OPAL{0}> * Key: (43.168788 - 43.170346) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.170346 - 43.222286) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R7 OPAL{0}> * Key: (43.222286 - 43.223845) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.223845 - 43.275785) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R8 OPAL{0}> * Key: (43.275785 - 43.277343) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.277343 - 43.329283) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R9 OPAL{0}> * Key: (43.329283 - 43.330841) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.330841 - 43.382782) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R10 OPAL{0}> * Key: (43.382782 - 43.384340) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.384340 - 43.436280) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R11 OPAL{0}> * Key: (43.436280 - 43.437838) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.437838 - 43.489778) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R12 OPAL{0}> * Key: (43.489778 - 43.491337) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.491337 - 43.543277) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R13 OPAL{0}> * Key: (43.543277 - 43.544835) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.544835 - 43.596948) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R14 OPAL{0}> * Key: (43.596948 - 43.598507) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.598507 - 43.650447) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R15 OPAL{0}> * Key: (43.650447 - 43.652005) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.652005 - 43.703945) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R16 OPAL{0}> * Key: (43.703945 - 43.705677) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.705677 - 43.757617) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R17 OPAL{0}> * Key: (43.757617 - 43.759175) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.759175 - 43.811115) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R18 OPAL{0}> * Key: (43.811115 - 43.812673) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.812673 - 43.864787) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R19 OPAL{0}> * Key: (43.864787 - 43.866345) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.866345 - 43.918285) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R20 OPAL{0}> * Key: (43.918285 - 43.919843) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.919843 - 43.971957) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R21 OPAL{0}> * Key: (43.971957 - 43.973515) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (43.973515 - 44.025455) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R22 OPAL{0}> * Key: (44.025455 - 44.027186) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (44.027186 - 44.079127) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R23 OPAL{0}> * Key: (44.079127 - 44.080685) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (44.080685 - 44.132625) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R24 OPAL{0}> * Key: (44.132625 - 44.134356) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (44.134356 - 44.186297) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R25 OPAL{0}> * Key: (44.186297 - 44.188028) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (44.188028 - 44.239968) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R26 OPAL{0}> * Key: (44.239968 - 44.241526) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (44.241526 - 44.293466) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R27 OPAL{0}> * Key: (44.293466 - 44.295198) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (44.295198 - 44.347138) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R28 OPAL{0}> * Key: (44.347138 - 44.348869) number of overlapping elements 1 OPAL{0}> * AMF2 OPAL{0}> * Key: (44.348869 - 44.354583) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R29 OPAL{0}> * Key: (44.354583 - 44.400810) number of overlapping elements 3 OPAL{0}> * AMF2 OPAL{0}> * AMF2_R29 OPAL{0}> * D89 OPAL{0}> * Key: (44.400810 - 44.657394) number of overlapping elements 2 OPAL{0}> * AMF2 OPAL{0}> * D89 OPAL{0}> * Key: (44.657394 - 44.744654) number of overlapping elements 1 OPAL{0}> * D89 OPAL{0}> * Key: (44.744654 - 44.749501) number of overlapping elements 3 OPAL{0}> * D89 OPAL{0}> * MMFP5X OPAL{0}> * MMFP6Y OPAL{0}> * Key: (44.749501 - 44.754522) number of overlapping elements 3 OPAL{0}> * MMFP5X OPAL{0}> * MMFP6Y OPAL{0}> * SMF3 OPAL{0}> * Key: (44.754522 - 45.094211) number of overlapping elements 1 OPAL{0}> * SMF3 OPAL{0}> * Key: (45.094211 - 45.221118) number of overlapping elements 1 OPAL{0}> * D92 OPAL{0}> * Key: (45.221118 - 45.301106) number of overlapping elements 2 OPAL{0}> * QMF5 OPAL{0}> * QMF5_R0 OPAL{0}> * Key: (45.301106 - 45.381094) number of overlapping elements 2 OPAL{0}> * QMF5 OPAL{0}> * QMF5_R1 OPAL{0}> * Key: (45.381094 - 45.445846) number of overlapping elements 2 OPAL{0}> * QMF5 OPAL{0}> * QMF5_R2 OPAL{0}> Ippl{0}> * Creating new file for data: data/BeamLine-1_ElementPositions.sdds OPAL{0}> OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 3520 OPAL{0}> * Qtot = 0.570 [fC] Qi = 0.000 [fC] OPAL{0}> * Ekin = 102.716 [MeV] dEkin = 809.355 [keV] OPAL{0}> * rmax = ( 3.79700 , 3.24300 , 216.47700 ) [mm] OPAL{0}> * rmin = ( -3.72900 , -3.09100 , -224.36700 ) [mm] OPAL{0}> * rms beam size = ( 1.74875 , 1.26568 , 106.36239 ) [mm] OPAL{0}> * rms momenta = ( 2.43766e-03 , 3.01097e-03 , 1.99134e-03 ) [beta gamma] OPAL{0}> * mean position = ( -0.00256 , 0.00369 , 0.00021 ) [um] OPAL{0}> * mean momenta = ( -3.18466e-07 , -8.21023e-08 , 4.80535e-01 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.63944e-06 , 7.79270e-06 , 2.46971e-06 ) (not normalized) OPAL{0}> * rms correlation = ( -7.71906e-01 , -1.85437e-01 , 9.99984e-01 ) OPAL{0}> * hr = ( 0.11946 , 0.10054 , 6.99752 ) [mm] OPAL{0}> * dh = 1.00000e-10 [%] OPAL{0}> * t = 280.530 [ns] dT = 1.333 [ps] OPAL{0}> * spos = 36.427 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Track start at: 02:34:00, t= 280.530 [ns]; zstart at: 36.427 [m] OPAL{0}> * Executing ParallelTTracker OPAL{0}> * Initial dt = 1.333 [ps] OPAL{0}> * Max integration steps = 6993509, next step = 0 OPAL{0}> ParallelTTracker {0}[2]> MINBINEMITTED 10 ParallelTTracker {0}[2]> MINSTEPFORREBIN 200 ParallelTTracker {0}[2]> REPARTFREQ 1000 ParallelTTracker {0}[2]> 02:34:00 Step 99 at 36.444 [m], t= 280.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 199 at 36.462 [m], t= 280.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 299 at 36.479 [m], t= 280.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 399 at 36.496 [m], t= 281.063 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 499 at 36.514 [m], t= 281.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 599 at 36.531 [m], t= 281.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 699 at 36.548 [m], t= 281.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 799 at 36.565 [m], t= 281.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 899 at 36.583 [m], t= 281.730 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:00 Step 999 at 36.600 [m], t= 281.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 1099 at 36.617 [m], t= 281.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:00 Step 1199 at 36.635 [m], t= 282.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 1299 at 36.652 [m], t= 282.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 1399 at 36.669 [m], t= 282.397 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 1499 at 36.687 [m], t= 282.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 1599 at 36.704 [m], t= 282.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 1699 at 36.721 [m], t= 282.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 1799 at 36.739 [m], t= 282.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 1899 at 36.756 [m], t= 283.063 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:01 Step 1999 at 36.773 [m], t= 283.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2099 at 36.791 [m], t= 283.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2199 at 36.808 [m], t= 283.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2299 at 36.825 [m], t= 283.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2399 at 36.842 [m], t= 283.730 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2499 at 36.860 [m], t= 283.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2599 at 36.877 [m], t= 283.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2699 at 36.894 [m], t= 284.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2799 at 36.912 [m], t= 284.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 2899 at 36.929 [m], t= 284.397 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:01 Step 2999 at 36.946 [m], t= 284.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 3099 at 36.964 [m], t= 284.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 3199 at 36.981 [m], t= 284.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:01 Step 3299 at 36.998 [m], t= 284.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 3399 at 37.016 [m], t= 285.063 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 3499 at 37.033 [m], t= 285.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 3599 at 37.050 [m], t= 285.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 3699 at 37.068 [m], t= 285.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 3799 at 37.085 [m], t= 285.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 3899 at 37.102 [m], t= 285.730 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:02 Step 3999 at 37.119 [m], t= 285.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4099 at 37.137 [m], t= 285.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4199 at 37.154 [m], t= 286.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4299 at 37.171 [m], t= 286.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4399 at 37.189 [m], t= 286.397 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4499 at 37.206 [m], t= 286.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4599 at 37.223 [m], t= 286.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4699 at 37.241 [m], t= 286.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4799 at 37.258 [m], t= 286.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 4899 at 37.275 [m], t= 287.063 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:02 Step 4999 at 37.293 [m], t= 287.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 5099 at 37.310 [m], t= 287.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 5199 at 37.327 [m], t= 287.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 5299 at 37.345 [m], t= 287.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 5399 at 37.362 [m], t= 287.730 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:02 Step 5499 at 37.379 [m], t= 287.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 5599 at 37.397 [m], t= 287.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 5699 at 37.414 [m], t= 288.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 5799 at 37.431 [m], t= 288.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 5899 at 37.448 [m], t= 288.397 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:03 Step 5999 at 37.466 [m], t= 288.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6099 at 37.483 [m], t= 288.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6199 at 37.500 [m], t= 288.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6299 at 37.518 [m], t= 288.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6399 at 37.535 [m], t= 289.063 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6499 at 37.552 [m], t= 289.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6599 at 37.570 [m], t= 289.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6699 at 37.587 [m], t= 289.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6799 at 37.604 [m], t= 289.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 6899 at 37.622 [m], t= 289.730 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:03 Step 6999 at 37.639 [m], t= 289.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 7099 at 37.656 [m], t= 289.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:03 Step 7199 at 37.674 [m], t= 290.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 7299 at 37.691 [m], t= 290.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 7399 at 37.708 [m], t= 290.397 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 7499 at 37.725 [m], t= 290.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 7599 at 37.743 [m], t= 290.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 7699 at 37.760 [m], t= 290.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 7799 at 37.777 [m], t= 290.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 7899 at 37.795 [m], t= 291.063 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:04 Step 7999 at 37.812 [m], t= 291.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 8099 at 37.829 [m], t= 291.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 8199 at 37.847 [m], t= 291.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 8299 at 37.864 [m], t= 291.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 8399 at 37.881 [m], t= 291.730 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:04 Step 8499 at 37.899 [m], t= 291.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 8599 at 37.916 [m], t= 291.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 8699 at 37.933 [m], t= 292.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 8799 at 37.951 [m], t= 292.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 8899 at 37.968 [m], t= 292.397 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:05 Step 8999 at 37.985 [m], t= 292.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 9099 at 38.002 [m], t= 292.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 9199 at 38.020 [m], t= 292.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 9299 at 38.037 [m], t= 292.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 9399 at 38.054 [m], t= 293.063 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 9499 at 38.072 [m], t= 293.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 9599 at 38.089 [m], t= 293.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:05 Step 9699 at 38.106 [m], t= 293.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 9799 at 38.124 [m], t= 293.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 9899 at 38.141 [m], t= 293.730 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:06 Step 9999 at 38.158 [m], t= 293.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10099 at 38.176 [m], t= 293.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10199 at 38.193 [m], t= 294.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10299 at 38.210 [m], t= 294.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10399 at 38.228 [m], t= 294.397 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10499 at 38.245 [m], t= 294.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10599 at 38.262 [m], t= 294.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10699 at 38.279 [m], t= 294.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10799 at 38.297 [m], t= 294.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:06 Step 10899 at 38.314 [m], t= 295.063 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:06 Step 10999 at 38.331 [m], t= 295.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11099 at 38.349 [m], t= 295.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11199 at 38.366 [m], t= 295.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11299 at 38.383 [m], t= 295.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11399 at 38.401 [m], t= 295.730 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11499 at 38.418 [m], t= 295.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11599 at 38.435 [m], t= 295.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11699 at 38.453 [m], t= 296.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11799 at 38.470 [m], t= 296.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 11899 at 38.487 [m], t= 296.397 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:07 Step 11999 at 38.505 [m], t= 296.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:07 Step 12099 at 38.522 [m], t= 296.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 12199 at 38.539 [m], t= 296.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 12299 at 38.556 [m], t= 296.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 12399 at 38.574 [m], t= 297.063 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 12499 at 38.591 [m], t= 297.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 12599 at 38.608 [m], t= 297.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 12699 at 38.626 [m], t= 297.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 12799 at 38.643 [m], t= 297.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 12899 at 38.660 [m], t= 297.730 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:08 Step 12999 at 38.678 [m], t= 297.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 13099 at 38.695 [m], t= 297.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 13199 at 38.712 [m], t= 298.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:08 Step 13299 at 38.730 [m], t= 298.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 13399 at 38.747 [m], t= 298.397 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 13499 at 38.764 [m], t= 298.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 13599 at 38.782 [m], t= 298.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 13699 at 38.799 [m], t= 298.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 13799 at 38.816 [m], t= 298.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 13899 at 38.834 [m], t= 299.063 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:09 Step 13999 at 38.851 [m], t= 299.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 14099 at 38.868 [m], t= 299.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 14199 at 38.885 [m], t= 299.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 14299 at 38.903 [m], t= 299.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:09 Step 14399 at 38.920 [m], t= 299.730 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 14499 at 38.937 [m], t= 299.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 14599 at 38.955 [m], t= 299.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 14699 at 38.972 [m], t= 300.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 14799 at 38.989 [m], t= 300.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 14899 at 39.007 [m], t= 300.397 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:10 Step 14999 at 39.024 [m], t= 300.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 15099 at 39.041 [m], t= 300.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 15199 at 39.059 [m], t= 300.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 15299 at 39.076 [m], t= 300.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:10 Step 15399 at 39.093 [m], t= 301.063 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 15499 at 39.111 [m], t= 301.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 15599 at 39.128 [m], t= 301.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 15699 at 39.145 [m], t= 301.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 15799 at 39.162 [m], t= 301.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 15899 at 39.180 [m], t= 301.730 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:11 Step 15999 at 39.197 [m], t= 301.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 16099 at 39.214 [m], t= 301.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 16199 at 39.232 [m], t= 302.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 16299 at 39.249 [m], t= 302.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:11 Step 16399 at 39.266 [m], t= 302.397 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:12 Step 16499 at 39.284 [m], t= 302.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:12 Step 16599 at 39.301 [m], t= 302.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:12 Step 16699 at 39.318 [m], t= 302.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:12 Step 16799 at 39.336 [m], t= 302.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:12 Step 16899 at 39.353 [m], t= 303.063 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:12 Step 16999 at 39.370 [m], t= 303.197 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:12 Step 17099 at 39.388 [m], t= 303.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:12 Step 17199 at 39.405 [m], t= 303.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:13 Step 17299 at 39.422 [m], t= 303.597 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:13 Step 17399 at 39.439 [m], t= 303.730 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:13 Step 17499 at 39.457 [m], t= 303.863 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:13 Step 17599 at 39.474 [m], t= 303.997 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:13 Step 17699 at 39.491 [m], t= 304.130 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:13 Step 17799 at 39.509 [m], t= 304.263 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:13 Step 17899 at 39.526 [m], t= 304.397 [ns], E=102.716 [MeV] ParallelTTracker {0}> 02:34:13 Step 17999 at 39.543 [m], t= 304.530 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:13 Step 18099 at 39.561 [m], t= 304.663 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:14 Step 18199 at 39.578 [m], t= 304.797 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:14 Step 18299 at 39.595 [m], t= 304.930 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:14 Step 18399 at 39.613 [m], t= 305.063 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:14 Step 18499 at 39.630 [m], t= 305.197 [ns], E=102.716 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3519 particles ParallelTTracker {0}[2]> 02:34:14 Step 18599 at 39.647 [m], t= 305.330 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:14 Step 18699 at 39.665 [m], t= 305.463 [ns], E=102.716 [MeV] ParallelTTracker {0}[2]> 02:34:14 Step 18799 at 39.682 [m], t= 305.597 [ns], E=102.716 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3518 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3517 particles ParallelTTracker {0}[2]> 02:34:14 Step 18899 at 39.699 [m], t= 305.730 [ns], E=102.716 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3516 particles ParallelTTracker {0}> 02:34:15 Step 18999 at 39.716 [m], t= 305.863 [ns], E=102.715 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3515 particles ParallelTTracker {0}[2]> 02:34:15 Step 19099 at 39.734 [m], t= 305.997 [ns], E=102.715 [MeV] ParallelTTracker {0}[2]> 02:34:15 Step 19199 at 39.751 [m], t= 306.130 [ns], E=102.715 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3514 particles ParallelTTracker {0}[2]> 02:34:15 Step 19299 at 39.768 [m], t= 306.263 [ns], E=102.715 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3513 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3512 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3511 particles ParallelTTracker {0}[2]> 02:34:15 Step 19399 at 39.786 [m], t= 306.397 [ns], E=102.714 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3510 particles ParallelTTracker {0}[2]> 02:34:15 Step 19499 at 39.803 [m], t= 306.530 [ns], E=102.713 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3509 particles ParallelTTracker {0}[2]> 02:34:15 Step 19599 at 39.820 [m], t= 306.663 [ns], E=102.713 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3508 particles ParallelTTracker {0}[2]> 02:34:15 Step 19699 at 39.838 [m], t= 306.797 [ns], E=102.713 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3507 particles ParallelTTracker {0}[2]> 02:34:15 Step 19799 at 39.855 [m], t= 306.930 [ns], E=102.712 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3506 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3505 particles ParallelTTracker {0}[2]> 02:34:16 Step 19899 at 39.872 [m], t= 307.063 [ns], E=102.712 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3504 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3503 particles ParallelTTracker {0}> 02:34:16 Step 19999 at 39.890 [m], t= 307.197 [ns], E=102.711 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3502 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3501 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3500 particles ParallelTTracker {0}[2]> 02:34:16 Step 20099 at 39.907 [m], t= 307.330 [ns], E=102.710 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3499 particles ParallelTTracker {0}[2]> 02:34:16 Step 20199 at 39.924 [m], t= 307.463 [ns], E=102.710 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3498 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3497 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3496 particles ParallelTTracker {0}[2]> 02:34:16 Step 20299 at 39.942 [m], t= 307.597 [ns], E=102.709 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3495 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3494 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3493 particles ParallelTTracker {0}[2]> 02:34:16 Step 20399 at 39.959 [m], t= 307.730 [ns], E=102.709 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3492 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3491 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3490 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3489 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3488 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3487 particles ParallelTTracker {0}[2]> 02:34:16 Step 20499 at 39.976 [m], t= 307.863 [ns], E=102.708 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3486 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3485 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3484 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3483 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3482 particles ParallelTTracker {0}[2]> 02:34:16 Step 20599 at 39.994 [m], t= 307.997 [ns], E=102.706 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3481 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3480 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3479 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3478 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3477 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3476 particles ParallelTTracker {0}[2]> 02:34:17 Step 20699 at 40.011 [m], t= 308.130 [ns], E=102.706 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3475 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3474 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3473 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3472 particles ParallelTTracker {0}[2]> 02:34:17 Step 20799 at 40.028 [m], t= 308.263 [ns], E=102.705 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3471 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3470 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3469 particles ParallelTTracker {0}[2]> 02:34:17 Step 20899 at 40.045 [m], t= 308.397 [ns], E=102.704 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3468 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3467 particles ParallelTTracker {0}> 02:34:17 Step 20999 at 40.063 [m], t= 308.530 [ns], E=102.704 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3466 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3465 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3464 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3463 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3462 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3461 particles ParallelTTracker {0}[2]> 02:34:17 Step 21099 at 40.080 [m], t= 308.663 [ns], E=102.702 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3460 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3459 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3458 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3457 particles ParallelTTracker {0}[2]> 02:34:17 Step 21199 at 40.097 [m], t= 308.797 [ns], E=102.702 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3456 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3455 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3454 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3453 particles ParallelTTracker {0}[2]> 02:34:17 Step 21299 at 40.115 [m], t= 308.930 [ns], E=102.701 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3452 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3451 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3450 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3449 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3448 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3447 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3446 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3445 particles ParallelTTracker {0}[2]> 02:34:17 Step 21399 at 40.132 [m], t= 309.063 [ns], E=102.700 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3444 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3443 particles ParallelTTracker {0}> * Deleted 2 particles, remaining 3441 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3440 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3439 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3438 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3437 particles ParallelTTracker {0}[2]> 02:34:17 Step 21499 at 40.149 [m], t= 309.197 [ns], E=102.699 [MeV] ParallelTTracker {0}> * Deleted 2 particles, remaining 3435 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3434 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3433 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3432 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3431 particles ParallelTTracker {0}[2]> 02:34:18 Step 21599 at 40.167 [m], t= 309.330 [ns], E=102.698 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3430 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3429 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3428 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3427 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3426 particles ParallelTTracker {0}[2]> 02:34:18 Step 21699 at 40.184 [m], t= 309.463 [ns], E=102.697 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3425 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3424 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3423 particles ParallelTTracker {0}[2]> 02:34:18 Step 21799 at 40.201 [m], t= 309.597 [ns], E=102.697 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3422 particles ParallelTTracker {0}> * Deleted 2 particles, remaining 3420 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3419 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3418 particles ParallelTTracker {0}[2]> 02:34:18 Step 21899 at 40.219 [m], t= 309.730 [ns], E=102.696 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3417 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3416 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3415 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3414 particles ParallelTTracker {0}> 02:34:18 Step 21999 at 40.236 [m], t= 309.863 [ns], E=102.695 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3413 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3412 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3411 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3410 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3409 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3408 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3407 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3406 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3405 particles ParallelTTracker {0}[2]> 02:34:18 Step 22099 at 40.253 [m], t= 309.997 [ns], E=102.694 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3404 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3403 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3402 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3401 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3400 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3399 particles ParallelTTracker {0}[2]> 02:34:18 Step 22199 at 40.271 [m], t= 310.130 [ns], E=102.692 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3398 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3397 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3396 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3395 particles ParallelTTracker {0}[2]> 02:34:18 Step 22299 at 40.288 [m], t= 310.263 [ns], E=102.693 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3394 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3393 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3392 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3391 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3390 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3389 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3388 particles ParallelTTracker {0}[2]> 02:34:19 Step 22399 at 40.305 [m], t= 310.397 [ns], E=102.692 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3387 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3386 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3385 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3384 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3383 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3382 particles ParallelTTracker {0}[2]> 02:34:19 Step 22499 at 40.322 [m], t= 310.530 [ns], E=102.690 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3381 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3380 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3379 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3378 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3377 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3376 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3375 particles ParallelTTracker {0}[2]> 02:34:19 Step 22599 at 40.340 [m], t= 310.663 [ns], E=102.689 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3374 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3373 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3372 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3371 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3370 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3369 particles ParallelTTracker {0}[2]> 02:34:19 Step 22699 at 40.357 [m], t= 310.797 [ns], E=102.688 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3368 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3367 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3366 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3365 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3364 particles ParallelTTracker {0}[2]> 02:34:19 Step 22799 at 40.374 [m], t= 310.930 [ns], E=102.687 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3363 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3362 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3361 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3360 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3359 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3358 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3357 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3356 particles ParallelTTracker {0}[2]> 02:34:19 Step 22899 at 40.392 [m], t= 311.063 [ns], E=102.686 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3355 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3354 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3353 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3352 particles ParallelTTracker {0}> * Deleted 2 particles, remaining 3350 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3349 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3348 particles ParallelTTracker {0}> 02:34:19 Step 22999 at 40.409 [m], t= 311.197 [ns], E=102.685 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3347 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3346 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3345 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3344 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3343 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3342 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3341 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3340 particles ParallelTTracker {0}> * Deleted 2 particles, remaining 3338 particles ParallelTTracker {0}[2]> 02:34:19 Step 23099 at 40.426 [m], t= 311.330 [ns], E=102.684 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3337 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3336 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3335 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3334 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3333 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3332 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3331 particles ParallelTTracker {0}[2]> 02:34:20 Step 23199 at 40.444 [m], t= 311.463 [ns], E=102.684 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3330 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3329 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3328 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3327 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3326 particles ParallelTTracker {0}[2]> 02:34:20 Step 23299 at 40.461 [m], t= 311.597 [ns], E=102.683 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3325 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3324 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3323 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3322 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3321 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3320 particles ParallelTTracker {0}[2]> 02:34:20 Step 23399 at 40.478 [m], t= 311.730 [ns], E=102.682 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3319 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3318 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3317 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3316 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3315 particles ParallelTTracker {0}[2]> 02:34:20 Step 23499 at 40.496 [m], t= 311.863 [ns], E=102.683 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3314 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3313 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3312 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3311 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3310 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3309 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3308 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3307 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3306 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3305 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3304 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3303 particles ParallelTTracker {0}[2]> 02:34:20 Step 23599 at 40.513 [m], t= 311.997 [ns], E=102.683 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3302 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3301 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3300 particles ParallelTTracker {0}[2]> 02:34:20 Step 23699 at 40.530 [m], t= 312.130 [ns], E=102.683 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3299 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3298 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3297 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3296 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3295 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3294 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3293 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3292 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3291 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3290 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3289 particles ParallelTTracker {0}[2]> 02:34:20 Step 23799 at 40.548 [m], t= 312.263 [ns], E=102.682 [MeV] ParallelTTracker {0}> * Deleted 2 particles, remaining 3287 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3286 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3285 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3284 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3283 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3282 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3281 particles ParallelTTracker {0}[2]> 02:34:20 Step 23899 at 40.565 [m], t= 312.397 [ns], E=102.683 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3280 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3279 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3278 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3277 particles ParallelTTracker {0}> * Deleted 2 particles, remaining 3275 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3274 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3273 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3272 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3271 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3270 particles ParallelTTracker {0}> 02:34:20 Step 23999 at 40.582 [m], t= 312.530 [ns], E=102.682 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3269 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3268 particles ParallelTTracker {0}> * Deleted 2 particles, remaining 3266 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3265 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3264 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3263 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3262 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3261 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3260 particles ParallelTTracker {0}[2]> 02:34:21 Step 24099 at 40.599 [m], t= 312.663 [ns], E=102.681 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3259 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3258 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3257 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3256 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3255 particles ParallelTTracker {0}> * Deleted 2 particles, remaining 3253 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3252 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3251 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3250 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3249 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3248 particles ParallelTTracker {0}[2]> 02:34:21 Step 24199 at 40.617 [m], t= 312.797 [ns], E=102.681 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3247 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3246 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3245 particles ParallelTTracker {0}[2]> 02:34:21 Step 24299 at 40.634 [m], t= 312.930 [ns], E=102.680 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3244 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3243 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3242 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3241 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3240 particles ParallelTTracker {0}[2]> 02:34:21 Step 24399 at 40.651 [m], t= 313.063 [ns], E=102.681 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3239 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3238 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3237 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3236 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3235 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3234 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3233 particles ParallelTTracker {0}[2]> 02:34:21 Step 24499 at 40.669 [m], t= 313.197 [ns], E=102.682 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3232 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3231 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3230 particles ParallelTTracker {0}[2]> 02:34:21 Step 24599 at 40.686 [m], t= 313.330 [ns], E=102.683 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3229 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3228 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3227 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3226 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3225 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3224 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3223 particles ParallelTTracker {0}[2]> 02:34:21 Step 24699 at 40.703 [m], t= 313.463 [ns], E=102.682 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3222 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3221 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3220 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3219 particles ParallelTTracker {0}[2]> 02:34:21 Step 24799 at 40.721 [m], t= 313.597 [ns], E=102.682 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3218 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3217 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3216 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3215 particles ParallelTTracker {0}[2]> 02:34:22 Step 24899 at 40.738 [m], t= 313.730 [ns], E=102.683 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3214 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3213 particles ParallelTTracker {0}> 02:34:22 Step 24999 at 40.755 [m], t= 313.863 [ns], E=102.683 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3212 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3211 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3210 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3209 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3208 particles ParallelTTracker {0}[2]> 02:34:22 Step 25099 at 40.773 [m], t= 313.997 [ns], E=102.684 [MeV] ParallelTTracker {0}> * Deleted 1 particles, remaining 3207 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3206 particles ParallelTTracker {0}> * Deleted 1 particles, remaining 3205 part