Updating OPAL source repository... Already on 'master' From https://gitlab.psi.ch/OPAL/src 13931a3..f1081e5 master -> origin/master 0e1c1b7..51cbf15 765-momentum-tolerance-in-opal-t -> origin/765-momentum-tolerance-in-opal-t Updating 13931a3..f1081e5 Fast-forward src/Algorithms/BoostMatrix.h | 42 ++++++++++ src/Algorithms/CMakeLists.txt | 1 + src/Algorithms/ParallelCyclotronTracker.cpp | 97 +++++++++++++++------- src/Classic/AbsBeamline/Bend2D.cpp | 12 ++- src/Classic/Algorithms/CoordinateSystemTrafo.cpp | 19 ++++- src/Classic/Algorithms/CoordinateSystemTrafo.h | 26 +++--- src/Classic/Algorithms/Quaternion.cpp | 28 ++++--- src/Classic/Algorithms/Quaternion.h | 10 +-- src/Classic/Utilities/MSLang.h | 1 - .../Utilities/MSLang/AffineTransformation.h | 52 ++++++++---- src/Distribution/Distribution.cpp | 8 +- src/Distribution/Distribution.h | 4 +- 12 files changed, 208 insertions(+), 92 deletions(-) create mode 100644 src/Algorithms/BoostMatrix.h Compiling OPAL ... -- The C compiler identification is GNU 10.4.0 -- The CXX compiler identification is GNU 10.4.0 -- Detecting C compiler ABI info -- Detecting C compiler ABI info - done -- Check for working C compiler: /opt/psi/Programming/gcc/10.4.0/bin/gcc - skipped -- Detecting C compile features -- Detecting C compile features - done -- Detecting CXX compiler ABI info -- Detecting CXX compiler ABI info - done -- Check for working CXX compiler: /opt/psi/Programming/gcc/10.4.0/bin/g++ - skipped -- Detecting CXX compile features -- Detecting CXX compile features - done -- PACKAGE_VERSION=20220299 -- Build type is: RELEASE -- Host OS System: Linux-3.10.0-1160.81.1.el7.x86_64 -- Hostname: afsfs06.psi.ch -- Found MPI_C: /afs/psi.ch/sys/psi.x86_64_slp6/Compiler/openmpi/4.1.5/gcc/10.4.0/lib/libmpi.so (found version "3.1") -- Found MPI_CXX: /afs/psi.ch/sys/psi.x86_64_slp6/Compiler/openmpi/4.1.5/gcc/10.4.0/lib/libmpi_cxx.so (found version "3.1") -- Found MPI: TRUE (found version "3.1") -- The C++ compiler identification is: GNU -- The C++ compiler version is: 10.4.0 -- The MPI C++ compiler is: /opt/psi/Compiler/openmpi/4.1.5/gcc/10.4.0/bin/mpicxx -- The underlying C++ compiler is: /opt/psi/Programming/gcc/10.4.0/bin/g++ -- The underlying C++ compiler ID is: GNU -- The Fortran compiler identification is GNU 10.4.0 -- Detecting Fortran compiler ABI info -- Detecting Fortran compiler ABI info - done -- Check for working Fortran compiler: /opt/psi/Programming/gcc/10.4.0/bin/gfortran - skipped -- Checking whether /opt/psi/Programming/gcc/10.4.0/bin/gfortran supports Fortran 90 -- Checking whether /opt/psi/Programming/gcc/10.4.0/bin/gfortran supports Fortran 90 - yes -- Fortran compilers: f95 -- The Fortran compiler identification is: GNU -- The Fortran compiler version is: 10.4.0 -- The Fortran compiler is: /opt/psi/Programming/gcc/10.4.0/bin/gfortran -- Found H5Hut libraries: /opt/psi/HDF5/H5hut/2.0.0rc6/hdf5/1.10.8/openmpi/4.1.5/gcc/10.4.0/lib64/libH5hut.so -- Found H5Hut include dir: /opt/psi/HDF5/H5hut/2.0.0rc6/hdf5/1.10.8/openmpi/4.1.5/gcc/10.4.0/include -- Looking for H5_file_attribs.h -- Looking for H5_file_attribs.h - found -- H5hut version is OK -- Found HDF5: /opt/psi/MPI/hdf5/1.10.8/openmpi/4.1.5/gcc/10.4.0/lib/libhdf5.so;/usr/lib64/libz.so;/usr/lib64/libdl.so;/usr/lib64/libm.so (found version "1.10.8") -- Found HDF5 libraries: /opt/psi/MPI/hdf5/1.10.8/openmpi/4.1.5/gcc/10.4.0/lib/libhdf5.so;/usr/lib64/libz.so;/usr/lib64/libdl.so;/usr/lib64/libm.so;dl;rt;z -- Found GSL libraries: /opt/psi/Compiler/gsl/2.7/gcc/10.4.0/lib/libgsl.so -- Found GSL include dir: /opt/psi/Compiler/gsl/2.7/gcc/10.4.0/include -- Found gsl libraries: /opt/psi/Compiler/gsl/2.7/gcc/10.4.0/lib/libgsl.so,/opt/psi/Compiler/gsl/2.7/gcc/10.4.0/lib/libgslcblas.so -- Found Boost: /opt/psi/MPI/boost/1.82.0/openmpi/4.1.5/gcc/10.4.0/lib64/cmake/Boost-1.82.0/BoostConfig.cmake (found suitable version "1.82.0", minimum required is "1.66.0") found components: chrono filesystem iostreams regex serialization system timer -- Found Boost include dirs: /opt/psi/MPI/boost/1.82.0/openmpi/4.1.5/gcc/10.4.0/include -- Found Boost library dirs: /opt/psi/MPI/boost/1.82.0/openmpi/4.1.5/gcc/10.4.0/lib -- Found Boost libraries: Boost::chrono;Boost::filesystem;Boost::iostreams;Boost::regex;Boost::serialization;Boost::system;Boost::timer;rt -- Found gtest libraries: /opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/lib64/libgtest.a;/opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/lib64/libgtest_main.a -- Found gtest include dir: /opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/include -- Enable AMR_SOLVER TRUE -- Found AMReX include dir: /opt/psi/MPI/amrex/18.07.1_3d/openmpi/4.1.5/gcc/10.4.0/include -- Found AMReX library dir: /opt/psi/MPI/amrex/18.07.1_3d/openmpi/4.1.5/gcc/10.4.0/lib -- Found AMReX libraries: amrex -- Found AMReX Fortran links: -Wl,-rpath -Wl,/opt/psi/Compiler/openmpi/4.1.5/gcc/10.4.0/lib -Wl,--enable-new-dtags -pthread /afs/psi.ch/sys/psi.x86_64_el7/Compiler/openmpi/4.1.5/gcc/10.4.0/lib/libmpi_usempif08.so;/afs/psi.ch/sys/psi.x86_64_el7/Compiler/openmpi/4.1.5/gcc/10.4.0/lib/libmpi_usempi_ignore_tkr.so;/afs/psi.ch/sys/psi.x86_64_el7/Compiler/openmpi/4.1.5/gcc/10.4.0/lib/libmpi_mpifh.so;/afs/psi.ch/sys/psi.x86_64_el7/Compiler/openmpi/4.1.5/gcc/10.4.0/lib/libmpi.so -- AMReX configuration options: -- AMREX_DEBUG = OFF -- AMREX_DIM = 3 -- AMREX_ENABLE_PIC = 0 -- AMREX_ENABLE_MPI = 1 -- AMREX_ENABLE_OMP = 0 -- AMREX_ENABLE_DP = 1 -- AMREX_ENABLE_EB = OFF -- AMREX_ENABLE_FORTRAN_INTERFACES = OFF -- AMREX_ENABLE_LINEAR_SOLVERS = 1 -- AMREX_ENABLE_FBASELIB = OFF -- AMREX_ENABLE_AMRDATA = OFF -- AMREX_ENABLE_PARTICLES = 1 -- AMREX_ENABLE_DP_PARTICLES = 1 -- AMREX_ENABLE_FPE = 0 -- AMREX_ENABLE_ASSERTION = OFF -- AMREX_ENABLE_BASE_PROFILE = OFF -- AMREX_ENABLE_TINY_PROFILE = OFF -- AMREX_ENABLE_TRACE_PROFILE = OFF -- AMREX_ENABLE_MEM_PROFILE = OFF -- AMREX_ENABLE_COMM_PROFILE = OFF -- AMREX_ENABLE_BACKTRACE = OFF -- AMREX_ENABLE_PROFPARSER = OFF -- Enable SAAMG_SOLVER: TRUE -- Enable AMR_MG_SOLVER: TRUE -- Enabled Kokkos devices: SERIAL -- Found Trilinos: /opt/psi/HDF5/trilinos/13.4.0/hdf5/1.10.8/openmpi/4.1.5/gcc/10.4.0/lib64/cmake/Trilinos -- Trilinos version: 13.4 -- Trilinos package list: MueLu;NOX;Intrepid2;Teko;Stratimikos;Ifpack2;Anasazi;Amesos2;ShyLU_Node;ShyLU_NodeTacho;ShyLU_NodeHTS;Belos;ML;Ifpack;Zoltan2Core;Pamgen;Amesos;Galeri;AztecOO;Isorropia;Xpetra;Thyra;ThyraTpetraAdapters;ThyraEpetraExtAdapters;ThyraEpetraAdapters;ThyraCore;TrilinosSS;Tpetra;TpetraCore;TpetraTSQR;TpetraClassic;EpetraExt;Triutils;Shards;Zoltan;Epetra;Sacado;RTOp;KokkosKernels;Teuchos;TeuchosKokkosComm;TeuchosKokkosCompat;TeuchosRemainder;TeuchosNumerics;TeuchosComm;TeuchosParameterList;TeuchosParser;TeuchosCore;Kokkos;KokkosAlgorithms;KokkosContainers;KokkosCore;Gtest -- Trilinos libraries: muelu-adapters;muelu-interface;muelu;locatpetra;locathyra;locaepetra;localapack;loca;noxepetra;noxlapack;nox;intrepid2;teko;stratimikos;stratimikosbelos;stratimikosamesos2;stratimikosaztecoo;stratimikosamesos;stratimikosml;stratimikosifpack;ifpack2-adapters;ifpack2;anasazitpetra;ModeLaplace;anasaziepetra;anasazi;amesos2;tacho;shylu_nodehts;belosxpetra;belostpetra;belosepetra;belos;ml;ifpack;zoltan2;pamgen_extras;pamgen;amesos;galeri-xpetra;galeri-epetra;aztecoo;isorropia;xpetra-sup;xpetra;thyratpetra;thyraepetraext;thyraepetra;thyracore;trilinosss;tpetraext;tpetrainout;tpetra;kokkostsqr;tpetraclassiclinalg;tpetraclassicnodeapi;tpetraclassic;epetraext;triutils;shards;zoltan;epetra;sacado;rtop;kokkoskernels;teuchoskokkoscomm;teuchoskokkoscompat;teuchosremainder;teuchosnumerics;teuchoscomm;teuchosparameterlist;teuchosparser;teuchoscore;kokkosalgorithms;kokkoscontainers;kokkoscore -- Trilinos TPL libraries: /opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libparmetis.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/MPI/parmetis/4.0.3/openmpi/4.1.5/gcc/10.4.0/lib/libmetis.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a;/opt/psi/Compiler/OpenBLAS/0.3.23/gcc/10.4.0/lib64/libopenblas.a -- Enable OPAL FEL: TRUE -- Found MITHRA include dir: /opt/psi/MPI/MITHRA/2.0/openmpi/4.1.5/gcc/10.4.0/include -- Found MITHRA library dir: /opt/psi/MPI/MITHRA/2.0/openmpi/4.1.5/gcc/10.4.0/lib64 -- configure: make IpplInfo.h -- Adding test FFT found in ippl/test/FFT -- Adding more FFT tests found in ippl/test/FFT/SeaborgRes -- Adding ttrack test in ippl/test/PwrSpec -- Adding test t3 found in ippl/test/nok -- Adding parallel tests found in ippl/test/parallel -- Adding particle tests found in ippl/test/particle -- Adding simple tests found in ippl/test/simple -- Adding index test found in ippl/test/sindex -- Adding test ippltoyfdtd found in ippl/test/toyfdtf -- Found gtest libraries: /opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/lib64/libgtest.a;/opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/lib64/libgtest_main.a -- Found gtest include dir: /opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/include -- Configuring BandRF -- Found gtest libraries: /opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/lib64/libgtest.a;/opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/lib64/libgtest_main.a -- Found gtest include dir: /opt/psi/Compiler/gtest/1.13.0-1/gcc/10.4.0/include -- Configuring done -- Generating done -- Build files have been written to: /vicepa/NightlyBuild/workspace/master/build [ 0%] Building CXX object optimizer/Tests/CMakeFiles/HashNameGeneratorTest.exe.dir/HashNameGeneratorTest.cpp.o [ 0%] Building CXX object optimizer/CMakeFiles/optp.dir/Expression/SumErrSq.cpp.o [ 0%] Generating src/OPALrevision.h [ 0%] Building CXX object optimizer/extlib/wfgHypervolume/CMakeFiles/wfgHypervolume.dir/hypervolume.cpp.o [ 1%] Building CXX object ippl/src/CMakeFiles/ippl.dir/DataSource/DataSource.cpp.o [ 1%] Built target always_rebuild [ 1%] Building CXX object optimizer/CMakeFiles/optp.dir/Expression/FromFile.cpp.o [ 1%] Building CXX object optimizer/extlib/wfgHypervolume/CMakeFiles/wfgHypervolume.dir/avl.cpp.o [ 1%] Building CXX object 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tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/EndFieldModel/TanhTest.cpp.o [ 93%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/DipoleFieldTest.cpp.o [ 93%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/MultipoleTTest.cpp.o [ 94%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/OffsetTest.cpp.o [ 94%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/PolynomialTest.cpp.o [ 94%] Built target opal [ 94%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/RingTest.cpp.o [ 94%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/ScalingFFAMagnetTest.cpp.o [ 94%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/SBend3DTest.cpp.o [ 94%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/AbsBeamline/TrimCoilTest.cpp.o [ 94%] Building CXX 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tests/CMakeFiles/opal_unit_tests.dir/classic_src/Fields/Interpolation/NDGridTest.cpp.o [ 96%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/Fields/Interpolation/PolynomialPatchTest.cpp.o [ 96%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/Fields/Interpolation/PPSolveFactoryTest.cpp.o [ 96%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/Fields/Interpolation/SolveFactoryTest.cpp.o [ 96%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/Fields/Interpolation/SquarePolynomialVectorTest.cpp.o [ 96%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/Fields/Interpolation/ThreeDGridTest.cpp.o [ 96%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/Solvers/GreenWakeFunctionTest.cpp.o [ 96%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/classic_src/Structure/BoundingBoxTest.cpp.o [ 97%] Building CXX object 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object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Field/DataConnect.cpp.o [ 98%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Field/Eureka.cpp.o [ 98%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Field/Field.cpp.o [ 98%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Field/FieldDebug.cpp.o [ 99%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Field/FieldDebug2.cpp.o [ 99%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Field/FunctionFace.cpp.o [ 99%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Field/Periodic.cpp.o [ 99%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Index/Index.cpp.o [ 99%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Meshes/Average.cpp.o [ 99%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Meshes/Cartesian.cpp.o [ 99%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Meshes/CartesianCentering.cpp.o [100%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Particle/EdgeCentering.cpp.o [100%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/ippl_src/Particle/ParticleDebug.cpp.o [100%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/opal_test_utilities/SilenceTest.cpp.o [100%] Building CXX object tests/CMakeFiles/opal_unit_tests.dir/opal_test_utilities/Maxwell.cpp.o [100%] Linking CXX executable opal_unit_tests [100%] Built target opal_unit_tests real 22m55.232s user 74m34.490s sys 34m55.237s Running unit tests... [==========] Running 243 tests from 54 test suites. [----------] Global test environment set-up. [----------] 1 test from PredefinedStringTest [ RUN ] PredefinedStringTest.TestDistributionType [ OK ] PredefinedStringTest.TestDistributionType (1 ms) [----------] 1 test from PredefinedStringTest (1 ms total) [----------] 3 tests from DumpFieldsTest [ RUN ] DumpFieldsTest.ConstructorDestructor [ OK ] DumpFieldsTest.ConstructorDestructor (0 ms) [ RUN ] DumpFieldsTest.executeTest [ OK ] DumpFieldsTest.executeTest (0 ms) [ RUN ] DumpFieldsTest.writeFieldsTest [ OK ] DumpFieldsTest.writeFieldsTest (1 ms) [----------] 3 tests from DumpFieldsTest (2 ms total) [----------] 4 tests from DumpEMFieldsTest [ RUN ] DumpEMFieldsTest.ConstructorDestructor [ OK ] DumpEMFieldsTest.ConstructorDestructor (0 ms) [ RUN ] DumpEMFieldsTest.executeTest [ OK ] DumpEMFieldsTest.executeTest (0 ms) [ RUN ] DumpEMFieldsTest.writeFieldsCartTest [ OK ] DumpEMFieldsTest.writeFieldsCartTest (1 ms) [ RUN ] DumpEMFieldsTest.writeFieldsCylTest [ OK ] DumpEMFieldsTest.writeFieldsCylTest (4 ms) [----------] 4 tests from DumpEMFieldsTest (6 ms total) [----------] 2 tests from BinomialTest [ RUN ] BinomialTest.FullSigmaTest1 [ OK ] BinomialTest.FullSigmaTest1 (985 ms) [ RUN ] BinomialTest.FullSigmaTest2 [ OK ] BinomialTest.FullSigmaTest2 (691 ms) [----------] 2 tests from BinomialTest (1677 ms total) [----------] 2 tests from GaussTest [ RUN ] GaussTest.FullSigmaTest1 [ OK ] GaussTest.FullSigmaTest1 (1009 ms) [ RUN ] GaussTest.FullSigmaTest2 [ OK ] GaussTest.FullSigmaTest2 (1005 ms) [----------] 2 tests from GaussTest (2014 ms total) [----------] 1 test from OpalAsymmetricEngeTest [ RUN ] OpalAsymmetricEngeTest.TestUpdate [ OK ] OpalAsymmetricEngeTest.TestUpdate (2 ms) [----------] 1 test from OpalAsymmetricEngeTest (2 ms total) [----------] 1 test from OpalEngeTest [ RUN ] OpalEngeTest.TestUpdate [ OK ] OpalEngeTest.TestUpdate (0 ms) [----------] 1 test from OpalEngeTest (0 ms total) [----------] 2 tests from OpalOffsetTest [ RUN ] OpalOffsetTest.TestGlobalCartesianOffset [ OK ] OpalOffsetTest.TestGlobalCartesianOffset (0 ms) [ RUN ] OpalOffsetTest.TestLocalCartesianOffset [ OK ] OpalOffsetTest.TestLocalCartesianOffset (0 ms) [----------] 2 tests from OpalOffsetTest (0 ms total) [----------] 3 tests from OpalPolynomialTimeDependenceTest [ RUN ] OpalPolynomialTimeDependenceTest.ConstructorTest [ OK ] OpalPolynomialTimeDependenceTest.ConstructorTest (0 ms) [ RUN ] OpalPolynomialTimeDependenceTest.PrintTest [ OK ] OpalPolynomialTimeDependenceTest.PrintTest (0 ms) [ RUN ] OpalPolynomialTimeDependenceTest.UpdateTest [ OK ] OpalPolynomialTimeDependenceTest.UpdateTest (0 ms) [----------] 3 tests from OpalPolynomialTimeDependenceTest (0 ms total) [----------] 3 tests from OpalScalingFFAMagnetTest [ RUN ] OpalScalingFFAMagnetTest.TestConstructorDestructor [ OK ] OpalScalingFFAMagnetTest.TestConstructorDestructor (0 ms) [ RUN ] OpalScalingFFAMagnetTest.TestUpdate [ OK ] OpalScalingFFAMagnetTest.TestUpdate (0 ms) [ RUN ] OpalScalingFFAMagnetTest.TestFieldCheck [ OK ] OpalScalingFFAMagnetTest.TestFieldCheck (0 ms) [----------] 3 tests from OpalScalingFFAMagnetTest (0 ms total) [----------] 1 test from OpalSplineTimeDependenceTest [ RUN ] OpalSplineTimeDependenceTest.ConstructorTest [ OK ] OpalSplineTimeDependenceTest.ConstructorTest (0 ms) [----------] 1 test from OpalSplineTimeDependenceTest (0 ms total) [----------] 1 test from OpalSplineSplineDependenceTest [ RUN ] OpalSplineSplineDependenceTest.PrintTest [ OK ] OpalSplineSplineDependenceTest.PrintTest (0 ms) [----------] 1 test from OpalSplineSplineDependenceTest (0 ms total) [----------] 3 tests from OpalVariableRFCavityTest [ RUN ] OpalVariableRFCavityTest.TestConstructorDestructor [ OK ] OpalVariableRFCavityTest.TestConstructorDestructor (0 ms) [ RUN ] OpalVariableRFCavityTest.TestFillRegisteredAttributes [ OK ] OpalVariableRFCavityTest.TestFillRegisteredAttributes (0 ms) [ RUN ] OpalVariableRFCavityTest.TestUpdate [ OK ] OpalVariableRFCavityTest.TestUpdate (0 ms) [----------] 3 tests from OpalVariableRFCavityTest (0 ms total) [----------] 1 test from OpalVariableRFCavityFringeFieldTest [ RUN ] OpalVariableRFCavityFringeFieldTest.TestConstructorDestructor [ OK ] OpalVariableRFCavityFringeFieldTest.TestConstructorDestructor (0 ms) [----------] 1 test from OpalVariableRFCavityFringeFieldTest (0 ms total) [----------] 1 test from GaussSampleTest [ RUN ] GaussSampleTest.ChainTest [ OK ] GaussSampleTest.ChainTest (0 ms) [----------] 1 test from GaussSampleTest (0 ms total) [----------] 2 tests from AsymmetricEngeTest [ RUN ] AsymmetricEngeTest.FunctionTest [ OK ] AsymmetricEngeTest.FunctionTest (0 ms) [ RUN ] AsymmetricEngeTest.DerivativeTest [ OK ] AsymmetricEngeTest.DerivativeTest (0 ms) [----------] 2 tests from AsymmetricEngeTest (1 ms total) [----------] 1 test from EndFieldModelTest [ RUN ] EndFieldModelTest.TestGetSetEndFieldModel [ OK ] EndFieldModelTest.TestGetSetEndFieldModel (0 ms) [----------] 1 test from EndFieldModelTest (0 ms total) [----------] 5 tests from EngeTest [ RUN ] EngeTest.DerivativeTest [ OK ] EngeTest.DerivativeTest (5 ms) [ RUN ] EngeTest.FunctionTest [ OK ] EngeTest.FunctionTest (0 ms) [ RUN ] EngeTest.HNTest [ OK ] EngeTest.HNTest (5 ms) [ RUN ] EngeTest.GNTest [ OK ] EngeTest.GNTest (0 ms) [ RUN ] EngeTest.RescaleTest [ OK ] EngeTest.RescaleTest (1 ms) [----------] 5 tests from EngeTest (13 ms total) [----------] 2 tests from TanhTest [ RUN ] TanhTest.FunctionTest [ OK ] TanhTest.FunctionTest (0 ms) [ RUN ] TanhTest.RescaleTest [ OK ] TanhTest.RescaleTest (0 ms) [----------] 2 tests from TanhTest (0 ms total) [----------] 1 test from Maxwell [ RUN ] Maxwell.Zeros [ OK ] Maxwell.Zeros (93 ms) [----------] 1 test from Maxwell (93 ms total) [----------] 1 test from Quad [ RUN ] Quad.Quadrupole [ OK ] Quad.Quadrupole (2796 ms) [----------] 1 test from Quad (2796 ms total) [----------] 5 tests from MultipoleTTest [ RUN ] MultipoleTTest.Maxwell [ OK ] MultipoleTTest.Maxwell (24 ms) [ RUN ] MultipoleTTest.CurvedMagnet [ OK ] MultipoleTTest.CurvedMagnet (1004 ms) [ RUN ] MultipoleTTest.Straight [ OK ] MultipoleTTest.Straight (744 ms) [ RUN ] MultipoleTTest.CurvedConstRadius [ OK ] MultipoleTTest.CurvedConstRadius (99 ms) [ RUN ] MultipoleTTest.CurvedVarRadius [ OK ] MultipoleTTest.CurvedVarRadius (1181 ms) [----------] 5 tests from MultipoleTTest (3054 ms total) [----------] 12 tests from OffsetTest [ RUN ] OffsetTest.TestConstructDestruct [ OK ] OffsetTest.TestConstructDestruct (0 ms) [ RUN ] OffsetTest.TestGetSet [ OK ] OffsetTest.TestGetSet (0 ms) [ RUN ] OffsetTest.TestUpdateIdentityTransforms [ OK ] OffsetTest.TestUpdateIdentityTransforms (0 ms) [ RUN ] OffsetTest.TestUpdateRotationsNotXY [ OK ] OffsetTest.TestUpdateRotationsNotXY (0 ms) [ RUN ] OffsetTest.TestUpdateRotations [ OK ] OffsetTest.TestUpdateRotations (0 ms) [ RUN ] OffsetTest.TestCopy [ OK ] OffsetTest.TestCopy (0 ms) [ RUN ] OffsetTest.TestRotateGetTheta [ OK ] OffsetTest.TestRotateGetTheta (0 ms) [ RUN ] OffsetTest.TestBends [ OK ] OffsetTest.TestBends (0 ms) [ RUN ] OffsetTest.TestLocalCylindricalOffset [ OK ] OffsetTest.TestLocalCylindricalOffset (0 ms) [ RUN ] OffsetTest.TestGlobalCylindricalOffset [ OK ] OffsetTest.TestGlobalCylindricalOffset (0 ms) [ RUN ] OffsetTest.TestLocalCartesianOffset [ OK ] OffsetTest.TestLocalCartesianOffset (0 ms) [ RUN ] OffsetTest.TestGlobalCartesianOffset [ OK ] OffsetTest.TestGlobalCartesianOffset (0 ms) [----------] 12 tests from OffsetTest (0 ms total) [----------] 8 tests from PolynomialTest [ RUN ] PolynomialTest.Polynomial [ OK ] PolynomialTest.Polynomial (0 ms) [ RUN ] PolynomialTest.DifferentialOperator [ OK ] PolynomialTest.DifferentialOperator (0 ms) [ RUN ] PolynomialTest.RecursionRelation [ OK ] PolynomialTest.RecursionRelation (0 ms) [ RUN ] PolynomialTest.TwoPolynomial [ OK ] PolynomialTest.TwoPolynomial (0 ms) [ RUN ] PolynomialTest.PolynomialSum [ OK ] PolynomialTest.PolynomialSum (0 ms) [ RUN ] PolynomialTest.DifferentialOperatorTwo [ OK ] PolynomialTest.DifferentialOperatorTwo (0 ms) [ RUN ] PolynomialTest.RecursionRelationTwo [ OK ] PolynomialTest.RecursionRelationTwo (2 ms) [ RUN ] PolynomialTest.TanhDeriv [ OK ] PolynomialTest.TanhDeriv (3 ms) [----------] 8 tests from PolynomialTest (7 ms total) [----------] 6 tests from RingTest [ RUN ] RingTest.TestConstructDestruct [ OK ] RingTest.TestConstructDestruct (0 ms) [ RUN ] RingTest.TestAppend1 [ OK ] RingTest.TestAppend1 (0 ms) [ RUN ] RingTest.TestAppend2 [ OK ] RingTest.TestAppend2 (0 ms) [ RUN ] RingTest.TestAppend3 [ OK ] RingTest.TestAppend3 (1 ms) [ RUN ] RingTest.TestLatticeRInitPhiInit [ OK ] RingTest.TestLatticeRInitPhiInit (2 ms) [ RUN ] RingTest.TestApply [ OK ] RingTest.TestApply (1 ms) [----------] 6 tests from RingTest (5 ms total) [----------] 5 tests from SBend3DTest [ RUN ] SBend3DTest.SBend3DGeometryTest [ OK ] SBend3DTest.SBend3DGeometryTest (1 ms) [ RUN ] SBend3DTest.SBend3DFieldTest [ OK ] SBend3DTest.SBend3DFieldTest (0 ms) [ RUN ] SBend3DTest.SBend3DBadFileTest [ OK ] SBend3DTest.SBend3DBadFileTest (0 ms) [ RUN ] SBend3DTest.SBend3DPolyPatchTest [ OK ] SBend3DTest.SBend3DPolyPatchTest (3 ms) [ RUN ] SBend3DTest.GeometryTest2 [ OK ] SBend3DTest.GeometryTest2 (0 ms) [----------] 5 tests from SBend3DTest (6 ms total) [----------] 13 tests from ScalingFFAMagnetTest [ RUN ] ScalingFFAMagnetTest.ConstructorTest [ OK ] ScalingFFAMagnetTest.ConstructorTest (0 ms) [ RUN ] ScalingFFAMagnetTest.PlacementTest [ OK ] ScalingFFAMagnetTest.PlacementTest (0 ms) [ RUN ] ScalingFFAMagnetTest.DFCoefficientsTest [ OK ] ScalingFFAMagnetTest.DFCoefficientsTest (0 ms) [ RUN ] ScalingFFAMagnetTest.DFCoefficientsTanDeltaTest [ OK ] ScalingFFAMagnetTest.DFCoefficientsTanDeltaTest (0 ms) [ RUN ] ScalingFFAMagnetTest.TanhTest [ OK ] ScalingFFAMagnetTest.TanhTest (0 ms) [ RUN ] ScalingFFAMagnetTest.BTwoDTest [ OK ] ScalingFFAMagnetTest.BTwoDTest (345 ms) [ RUN ] ScalingFFAMagnetTest.ConvergenceYTest [ OK ] ScalingFFAMagnetTest.ConvergenceYTest (4 ms) [ RUN ] ScalingFFAMagnetTest.ConvergenceOrderTest [ OK ] ScalingFFAMagnetTest.ConvergenceOrderTest (1 ms) [ RUN ] ScalingFFAMagnetTest.ConvergenceOrderHackedTest [ OK ] ScalingFFAMagnetTest.ConvergenceOrderHackedTest (0 ms) [ RUN ] ScalingFFAMagnetTest.ConvergenceEndLengthTest [ OK ] ScalingFFAMagnetTest.ConvergenceEndLengthTest (1 ms) [ RUN ] ScalingFFAMagnetTest.VerticalBoundingBoxTest [ OK ] ScalingFFAMagnetTest.VerticalBoundingBoxTest (0 ms) [ RUN ] ScalingFFAMagnetTest.RadialBoundingBoxTest [ OK ] ScalingFFAMagnetTest.RadialBoundingBoxTest (0 ms) [ RUN ] ScalingFFAMagnetTest.AzimuthalBoundingBoxTest [ OK ] ScalingFFAMagnetTest.AzimuthalBoundingBoxTest (0 ms) [----------] 13 tests from ScalingFFAMagnetTest (353 ms total) [----------] 4 tests from TrimCoil [ RUN ] TrimCoil.TrimCoilBFitZeros [ OK ] TrimCoil.TrimCoilBFitZeros (0 ms) [ RUN ] TrimCoil.TrimCoilBFit [ OK ] TrimCoil.TrimCoilBFit (0 ms) [ RUN ] TrimCoil.TrimCoilPhaseFit [ OK ] TrimCoil.TrimCoilPhaseFit (0 ms) [ RUN ] TrimCoil.TrimCoilMirrored [ OK ] TrimCoil.TrimCoilMirrored (0 ms) [----------] 4 tests from TrimCoil (0 ms total) [----------] 10 tests from VariableRFCavityTest [ RUN ] VariableRFCavityTest.TestConstructorEtc [ OK ] VariableRFCavityTest.TestConstructorEtc (0 ms) [ RUN ] VariableRFCavityTest.TestGetSet [ OK ] VariableRFCavityTest.TestGetSet (0 ms) [ RUN ] VariableRFCavityTest.TestAssignmentNull [ OK ] VariableRFCavityTest.TestAssignmentNull (0 ms) [ RUN ] VariableRFCavityTest.TestAssignmentValue [ OK ] VariableRFCavityTest.TestAssignmentValue (0 ms) [ RUN ] VariableRFCavityTest.TestClone [ OK ] VariableRFCavityTest.TestClone (0 ms) [ RUN ] VariableRFCavityTest.TestInitialiseFinalise [ OK ] VariableRFCavityTest.TestInitialiseFinalise (0 ms) [ RUN ] VariableRFCavityTest.TestGetGeometry [ OK ] VariableRFCavityTest.TestGetGeometry (0 ms) [ RUN ] VariableRFCavityTest.TestBends [ OK ] VariableRFCavityTest.TestBends (0 ms) [ RUN ] VariableRFCavityTest.TestApplyField [ OK ] VariableRFCavityTest.TestApplyField (0 ms) [ RUN ] VariableRFCavityTest.TestApplyBoundingBox [ OK ] VariableRFCavityTest.TestApplyBoundingBox (0 ms) [----------] 10 tests from VariableRFCavityTest (0 ms total) [----------] 9 tests from VariableRFCavityFringeFieldTest [ RUN ] VariableRFCavityFringeFieldTest.TestConstructor [ OK ] VariableRFCavityFringeFieldTest.TestConstructor (0 ms) [ RUN ] VariableRFCavityFringeFieldTest.TestSetGet [ OK ] VariableRFCavityFringeFieldTest.TestSetGet (0 ms) [ RUN ] VariableRFCavityFringeFieldTest.TestClone [ OK ] VariableRFCavityFringeFieldTest.TestClone (0 ms) [ RUN ] VariableRFCavityFringeFieldTest.TestAssignment [ OK ] VariableRFCavityFringeFieldTest.TestAssignment (0 ms) [ RUN ] VariableRFCavityFringeFieldTest.TestCopyConstructor [ OK ] VariableRFCavityFringeFieldTest.TestCopyConstructor (0 ms) [ RUN ] VariableRFCavityFringeFieldTest.TestApplyBoundingBox [ OK ] VariableRFCavityFringeFieldTest.TestApplyBoundingBox (0 ms) [ RUN ] VariableRFCavityFringeFieldTest.TestField [ OK ] VariableRFCavityFringeFieldTest.TestField (0 ms) [ RUN ] VariableRFCavityFringeFieldTest.TestMaxwell [ OK ] VariableRFCavityFringeFieldTest.TestMaxwell (0 ms) [ RUN ] VariableRFCavityFringeFieldTest.TestOrder [ OK ] VariableRFCavityFringeFieldTest.TestOrder (0 ms) [----------] 9 tests from VariableRFCavityFringeFieldTest (1 ms total) [----------] 5 tests from VerticalFFAMagnetTest [ RUN ] VerticalFFAMagnetTest.ConstructorTest [ OK ] VerticalFFAMagnetTest.ConstructorTest (0 ms) [ RUN ] VerticalFFAMagnetTest.MidplaneFieldTest [ OK ] VerticalFFAMagnetTest.MidplaneFieldTest (0 ms) [ RUN ] VerticalFFAMagnetTest.BoundingBoxTest [ OK ] VerticalFFAMagnetTest.BoundingBoxTest (0 ms) [ RUN ] VerticalFFAMagnetTest.MaxwellTest [ OK ] VerticalFFAMagnetTest.MaxwellTest (0 ms) [ RUN ] VerticalFFAMagnetTest.CoefficientsTest [ OK ] VerticalFFAMagnetTest.CoefficientsTest (0 ms) [----------] 5 tests from VerticalFFAMagnetTest (1 ms total) [----------] 4 tests from UndulatorTest [ RUN ] UndulatorTest.TestConstructorAndGets [ OK ] UndulatorTest.TestConstructorAndGets (0 ms) [ RUN ] UndulatorTest.TestBends [ OK ] UndulatorTest.TestBends (0 ms) [ RUN ] UndulatorTest.TestGetSet [ OK ] UndulatorTest.TestGetSet (0 ms) [ RUN ] UndulatorTest.TestApplyFullWaveSolver [ OK ] UndulatorTest.TestApplyFullWaveSolver (0 ms) [----------] 4 tests from UndulatorTest (0 ms total) [----------] 3 tests from PolynomialTimeDependenceTest [ RUN ] PolynomialTimeDependenceTest.PolynomialTimeDependenceTest [ OK ] PolynomialTimeDependenceTest.PolynomialTimeDependenceTest (0 ms) [ RUN ] PolynomialTimeDependenceTest.TDMapTest [ OK ] PolynomialTimeDependenceTest.TDMapTest (0 ms) [ RUN ] PolynomialTimeDependenceTest.TDMapNameLookupTest [ OK ] PolynomialTimeDependenceTest.TDMapNameLookupTest (0 ms) [----------] 3 tests from PolynomialTimeDependenceTest (0 ms total) [----------] 3 tests from SplineTimeDependenceTest [ RUN ] SplineTimeDependenceTest.ConstructorTest [ OK ] SplineTimeDependenceTest.ConstructorTest (0 ms) [ RUN ] SplineTimeDependenceTest.LinearLookupTest [ OK ] SplineTimeDependenceTest.LinearLookupTest (0 ms) [ RUN ] SplineTimeDependenceTest.CubicLookupTest [ OK ] SplineTimeDependenceTest.CubicLookupTest (0 ms) [----------] 3 tests from SplineTimeDependenceTest (0 ms total) [----------] 13 tests from DistributionMomentsTest [ RUN ] DistributionMomentsTest.FullPositionTest [ OK ] DistributionMomentsTest.FullPositionTest (0 ms) [ RUN ] DistributionMomentsTest.FullMomentumTest [ OK ] DistributionMomentsTest.FullMomentumTest (0 ms) [ RUN ] DistributionMomentsTest.FullNormalizeEmittanceTest [ OK ] DistributionMomentsTest.FullNormalizeEmittanceTest (0 ms) [ RUN ] DistributionMomentsTest.FullEnergyTest [ OK ] DistributionMomentsTest.FullEnergyTest (0 ms) [ RUN ] DistributionMomentsTest.FullDispersionTest [ OK ] DistributionMomentsTest.FullDispersionTest (0 ms) [ RUN ] DistributionMomentsTest.SixtyEightPercentile [ OK ] DistributionMomentsTest.SixtyEightPercentile (0 ms) [ RUN ] DistributionMomentsTest.NormalizedEmittanceAt68Percentile [ OK ] DistributionMomentsTest.NormalizedEmittanceAt68Percentile (0 ms) [ RUN ] DistributionMomentsTest.NinetyFivePercentile [ OK ] DistributionMomentsTest.NinetyFivePercentile (0 ms) [ RUN ] DistributionMomentsTest.NormalizedEmittanceAt95Percentile [ OK ] DistributionMomentsTest.NormalizedEmittanceAt95Percentile (0 ms) [ RUN ] DistributionMomentsTest.NinetyNinePercentile [ OK ] DistributionMomentsTest.NinetyNinePercentile (0 ms) [ RUN ] DistributionMomentsTest.NormalizedEmittanceAt99Percentile [ OK ] DistributionMomentsTest.NormalizedEmittanceAt99Percentile (0 ms) [ RUN ] DistributionMomentsTest.NinetyNine_NinetyNinePercentile [ OK ] DistributionMomentsTest.NinetyNine_NinetyNinePercentile (0 ms) [ RUN ] DistributionMomentsTest.NormalizedEmittanceAt99_99Percentile [ OK ] DistributionMomentsTest.NormalizedEmittanceAt99_99Percentile (0 ms) [----------] 13 tests from DistributionMomentsTest (0 ms total) [----------] 19 tests from NDGridTest [ RUN ] NDGridTest.DefaultConstructorTest [ OK ] NDGridTest.DefaultConstructorTest (0 ms) [ RUN ] NDGridTest.Constructor1Test [ OK ] NDGridTest.Constructor1Test (0 ms) [ RUN ] NDGridTest.Constructor2Test [ OK ] NDGridTest.Constructor2Test (0 ms) [ RUN ] NDGridTest.Constructor3Test [ OK ] NDGridTest.Constructor3Test (0 ms) [ RUN ] NDGridTest.CpyConstructorTest [ OK ] NDGridTest.CpyConstructorTest (0 ms) [ RUN ] NDGridTest.CoordTest [ OK ] NDGridTest.CoordTest (0 ms) [ RUN ] NDGridTest.CoordVectorTest [ OK ] NDGridTest.CoordVectorTest (0 ms) [ RUN ] NDGridTest.CoordLowerBoundTest [ OK ] NDGridTest.CoordLowerBoundTest (0 ms) [ RUN ] NDGridTest.LowerBoundTest [ OK ] NDGridTest.LowerBoundTest (0 ms) [ RUN ] NDGridTest.MinMaxTest [ OK ] NDGridTest.MinMaxTest (0 ms) [ RUN ] NDGridTest.SetCoordTest [ OK ] NDGridTest.SetCoordTest (0 ms) [ RUN ] NDGridTest.BeginEndTest [ OK ] NDGridTest.BeginEndTest (0 ms) [ RUN ] NDGridTest.GetPositionTest [ OK ] NDGridTest.GetPositionTest (0 ms) [ RUN ] NDGridTest.GetSetConstantSpacingTest [ OK ] NDGridTest.GetSetConstantSpacingTest (0 ms) [ RUN ] NDGridTest.ToIntegerTest [ OK ] NDGridTest.ToIntegerTest (0 ms) [ RUN ] NDGridTest.GetNearestTest [ OK ] NDGridTest.GetNearestTest (0 ms) [ RUN ] NDGridTest.DualTest [ OK ] NDGridTest.DualTest (0 ms) [ RUN ] NDGridTest.IsOutOfBoundsBeginTest [ OK ] NDGridTest.IsOutOfBoundsBeginTest (0 ms) [ RUN ] NDGridTest.IsOutOfBoundsEndTest [ OK ] NDGridTest.IsOutOfBoundsEndTest (0 ms) [----------] 19 tests from NDGridTest (0 ms total) [----------] 1 test from PolynomialPatchTest [ RUN ] PolynomialPatchTest.TestPolynomialPatch [ OK ] PolynomialPatchTest.TestPolynomialPatch (0 ms) [----------] 1 test from PolynomialPatchTest (0 ms total) [----------] 2 tests from PPSolveFactoryTest [ RUN ] PPSolveFactoryTest.TestNearbyPointsSquares [ OK ] PPSolveFactoryTest.TestNearbyPointsSquares (6 ms) [ RUN ] PPSolveFactoryTest.TestThreeDSolveSinCos [ OK ] PPSolveFactoryTest.TestThreeDSolveSinCos (702 ms) [----------] 2 tests from PPSolveFactoryTest (708 ms total) [----------] 4 tests from PPSolveFactoryTestFixture [ RUN ] PPSolveFactoryTestFixture.TestSolvePolynomialLinear [ OK ] PPSolveFactoryTestFixture.TestSolvePolynomialLinear (3 ms) [ RUN ] PPSolveFactoryTestFixture.TestSolvePolynomialQuadratic [ OK ] PPSolveFactoryTestFixture.TestSolvePolynomialQuadratic (101 ms) [ RUN ] PPSolveFactoryTestFixture.TestSolvePolynomialQuadratic1DSmoothed [ OK ] PPSolveFactoryTestFixture.TestSolvePolynomialQuadratic1DSmoothed (1 ms) [ RUN ] PPSolveFactoryTestFixture.TestSolvePolynomialQuadratic2DSmoothed [ OK ] PPSolveFactoryTestFixture.TestSolvePolynomialQuadratic2DSmoothed (3 ms) [----------] 4 tests from PPSolveFactoryTestFixture (109 ms total) [----------] 2 tests from SolveFactoryTest [ RUN ] SolveFactoryTest.TestSolveNoDerivs [ OK ] SolveFactoryTest.TestSolveNoDerivs (0 ms) [ RUN ] SolveFactoryTest.TestSolveDerivs [ OK ] SolveFactoryTest.TestSolveDerivs (0 ms) [----------] 2 tests from SolveFactoryTest (0 ms total) [----------] 4 tests from SquarePolynomialVectorTest [ RUN ] SquarePolynomialVectorTest.TestConstructorDestructor [ OK ] SquarePolynomialVectorTest.TestConstructorDestructor (0 ms) [ RUN ] SquarePolynomialVectorTest.TestMakePolyVector [ OK ] SquarePolynomialVectorTest.TestMakePolyVector (0 ms) [ RUN ] SquarePolynomialVectorTest.TestF [ OK ] SquarePolynomialVectorTest.TestF (0 ms) [ RUN ] SquarePolynomialVectorTest.TestDeriv [ OK ] SquarePolynomialVectorTest.TestDeriv (0 ms) [----------] 4 tests from SquarePolynomialVectorTest (0 ms total) [----------] 1 test from ThreeDGridTest [ RUN ] ThreeDGridTest.LowerBoundTest [ OK ] ThreeDGridTest.LowerBoundTest (0 ms) [----------] 1 test from ThreeDGridTest (0 ms total) [----------] 1 test from GreenWakeFunctionTest [ RUN ] GreenWakeFunctionTest.TestApply [ OK ] GreenWakeFunctionTest.TestApply (3285 ms) [----------] 1 test from GreenWakeFunctionTest (3285 ms total) [----------] 2 tests from BoundingBoxTest [ RUN ] BoundingBoxTest.InsideTest [ OK ] BoundingBoxTest.InsideTest (0 ms) [ RUN ] BoundingBoxTest.IntersectionTest [ OK ] BoundingBoxTest.IntersectionTest (0 ms) [----------] 2 tests from BoundingBoxTest (0 ms total) [----------] 2 tests from PBMReaderTest [ RUN ] PBMReaderTest.SimpleAsciiTest [ OK ] PBMReaderTest.SimpleAsciiTest (3 ms) [ RUN ] PBMReaderTest.SimpleBinaryTest [ OK ] PBMReaderTest.SimpleBinaryTest (1 ms) [----------] 2 tests from PBMReaderTest (4 ms total) [----------] 4 tests from PGMReaderTest [ RUN ] PGMReaderTest.SimpleAscii8Test [ OK ] PGMReaderTest.SimpleAscii8Test (13 ms) [ RUN ] PGMReaderTest.SimpleAscii16Test [ OK ] PGMReaderTest.SimpleAscii16Test (16 ms) [ RUN ] PGMReaderTest.SimpleBinary8Test [ OK ] PGMReaderTest.SimpleBinary8Test (5 ms) [ RUN ] PGMReaderTest.SimpleBinary16Test [ OK ] PGMReaderTest.SimpleBinary16Test (9 ms) [----------] 4 tests from PGMReaderTest (45 ms total) [----------] 8 tests from RingSectionTest [ RUN ] RingSectionTest.TestConstructDestruct [ OK ] RingSectionTest.TestConstructDestruct (0 ms) [ RUN ] RingSectionTest.TestIsOnOrPastStartPlane [ OK ] RingSectionTest.TestIsOnOrPastStartPlane (0 ms) [ RUN ] RingSectionTest.TestIsPastEndPlane [ OK ] RingSectionTest.TestIsPastEndPlane (0 ms) [ RUN ] RingSectionTest.TestGetFieldValue [ OK ] RingSectionTest.TestGetFieldValue (314 ms) [ RUN ] RingSectionTest.TestGetVirtualBoundingBox [ OK ] RingSectionTest.TestGetVirtualBoundingBox (0 ms) [ RUN ] RingSectionTest.TestDoesOverlap [ OK ] RingSectionTest.TestDoesOverlap (0 ms) [ RUN ] RingSectionTest.TestGlobalOffset1 [ OK ] RingSectionTest.TestGlobalOffset1 (0 ms) [ RUN ] RingSectionTest.TestGlobalOffset2 [ OK ] RingSectionTest.TestGlobalOffset2 (0 ms) [----------] 8 tests from RingSectionTest (314 ms total) [----------] 2 tests from AppTypes [ RUN ] AppTypes.Chsr2 [ OK ] AppTypes.Chsr2 (8 ms) [ RUN ] AppTypes.Operators [ OK ] AppTypes.Operators (17 ms) [----------] 2 tests from AppTypes (26 ms total) [----------] 1 test from Tensor [ RUN ] Tensor.Tensor [ OK ] Tensor.Tensor (0 ms) [----------] 1 test from Tensor (0 ms total) [----------] 2 tests from Vektor [ RUN ] Vektor.dot [ OK ] Vektor.dot (0 ms) [ RUN ] Vektor.tz [ OK ] Vektor.tz (0 ms) [----------] 2 tests from Vektor (0 ms total) [----------] 39 tests from Field [ RUN ] Field.Left [ OK ] Field.Left (0 ms) [ RUN ] Field.BCSimple [ OK ] Field.BCSimple (0 ms) [ RUN ] Field.BCSimple2 [ OK ] Field.BCSimple2 (0 ms) [ RUN ] Field.BC [ OK ] Field.BC (8 ms) [ RUN ] Field.CellToVertex2D [ OK ] Field.CellToVertex2D (1 ms) [ RUN ] Field.CellToVertex3D [ OK ] Field.CellToVertex3D (3 ms) [ RUN ] Field.CelllToTenzorCell [ OK ] Field.CelllToTenzorCell (0 ms) [ RUN ] Field.VertexToCell [ OK ] Field.VertexToCell (4 ms) [ RUN ] Field.DataConnect2D [ OK ] Field.DataConnect2D (4 ms) [ RUN ] Field.DataConnect3D [ OK ] Field.DataConnect3D (3 ms) [ RUN ] Field.Eureka [ OK ] Field.Eureka (0 ms) [ RUN ] Field.Balance [ OK ] Field.Balance (0 ms) [ RUN ] Field.Bool [ OK ] Field.Bool (0 ms) [ RUN ] Field.Component [ OK ] Field.Component (0 ms) [ RUN ] Field.Compressed [ OK ] Field.Compressed (0 ms) [ RUN ] Field.FiveFields [ OK ] Field.FiveFields (0 ms) [ RUN ] Field.Float [ OK ] Field.Float (0 ms) [ RUN ] Field.FlyerCode [ OK ] Field.FlyerCode (0 ms) [ RUN ] Field.MinMax [ OK ] Field.MinMax (0 ms) [ RUN ] Field.Patches [ OK ] Field.Patches (0 ms) [ RUN ] Field.Reduce [ OK ] Field.Reduce (0 ms) [ RUN ] Field.Reduceloc [ OK ] Field.Reduceloc (0 ms) [ RUN ] Field.Repartition [ OK ] Field.Repartition (0 ms) [ RUN ] Field.ScalarIndexing [ OK ] Field.ScalarIndexing (0 ms) [ RUN ] Field.Single [ OK ] Field.Single (0 ms) [ RUN ] Field.SimpleTest1 [ OK ] Field.SimpleTest1 (0 ms) [ RUN ] Field.SimpleTest2 [ OK ] Field.SimpleTest2 (0 ms) [ RUN ] Field.SimpleTest3 [ OK ] Field.SimpleTest3 (0 ms) [ RUN ] Field.SimpleTest5 [ OK ] Field.SimpleTest5 (0 ms) [ RUN ] Field.SimpleTest7 [ OK ] Field.SimpleTest7 (0 ms) [ RUN ] Field.SimpleTest8 [ OK ] Field.SimpleTest8 (0 ms) [ RUN ] Field.Subdivide [ OK ] Field.Subdivide (0 ms) [ RUN ] Field.SubReadTest [ OK ] Field.SubReadTest (0 ms) [ RUN ] Field.Transpose [ OK ] Field.Transpose (0 ms) [ RUN ] Field.Transpose2 [ OK ] Field.Transpose2 (0 ms) [ RUN ] Field.FieldDebug [ OK ] Field.FieldDebug (2 ms) [ RUN ] Field.FieldDebug2 [ OK ] Field.FieldDebug2 (10 ms) [ RUN ] Field.FunctionFace [ OK ] Field.FunctionFace (0 ms) [ RUN ] Field.PeriodicBC [ OK ] Field.PeriodicBC (0 ms) [----------] 39 tests from Field (43 ms total) [----------] 4 tests from Index [ RUN ] Index.SOffset [ OK ] Index.SOffset (0 ms) [ RUN ] Index.SIndex [ OK ] Index.SIndex (0 ms) [ RUN ] Index.SubField [ OK ] Index.SubField (0 ms) [ RUN ] Index.VertCell [ OK ] Index.VertCell (0 ms) [----------] 4 tests from Index (1 ms total) [----------] 3 tests from Meshes [ RUN ] Meshes.Average [ OK ] Meshes.Average (0 ms) [ RUN ] Meshes.Cartesian [ OK ] Meshes.Cartesian (0 ms) [ RUN ] Meshes.CartesianCentering [ OK ] Meshes.CartesianCentering (0 ms) [----------] 3 tests from Meshes (1 ms total) [----------] 1 test from Particle [ RUN ] Particle.ParticleDebug [ OK ] Particle.ParticleDebug (0 ms) [----------] 1 test from Particle (0 ms total) [----------] Global test environment tear-down [==========] 243 tests from 54 test suites ran. (14593 ms total) [ PASSED ] 243 tests. YOU HAVE 1 DISABLED TEST '/vicepa/NightlyBuild/scripts/html/gtest-result.xsl' -> '/afs/psi.ch/project/amas/webhosting/opal/unitTests/master/results.xsl' Updating regression tests repository... Already on 'master' M DisabledTests/FIELDMAPS/FINLB01-RACF.T7 M DisabledTests/FIELDMAPS/FINLB01-RACH.T7 M DisabledTests/FIELDMAPS/FINSB-MSLAC.T7 M DisabledTests/PROSCAN-3/PROSCAN-3.in M DisabledTests/PROSCAN-3/reference/PROSCAN-3.out M DisabledTests/PROSCAN-4/PROSCAN-4.in M DisabledTests/PROSCAN-4/reference/PROSCAN-4.out M RegressionTests/GasStripping/GasStripping.local warning: CRLF will be replaced by LF in DisabledTests/FIELDMAPS/FINLB01-RACF.T7. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/FIELDMAPS/FINLB01-RACH.T7. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/FIELDMAPS/FINSB-MSLAC.T7. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/PROSCAN-3/PROSCAN-3.in. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/PROSCAN-3/reference/PROSCAN-3.out. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/PROSCAN-4/PROSCAN-4.in. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/PROSCAN-4/reference/PROSCAN-4.out. The file will have its original line endings in your working directory. Already up-to-date. 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 P3MSwissFEL 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 -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AWAGun-TrackBack-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-01.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-02.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-03.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-04.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-05.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-06.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-07.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-08.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-09.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-10.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./BeamLine-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./BeamLine-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./CSRBendDrift.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./DCGun-Cornell-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./DCGun-Cornell-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Degrader-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Distribution-Binomial-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Distribution-Gauss-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Distribution-Gauss-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Distribution-MultiGauss.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./EGunCTF3-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./EGunCTF3-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Elliptic-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./ExternalFieldTest.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./GasStripping.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./HKick-Test-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Kick-Test-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./MAP-Circular.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./MAP-FODO.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./MAP-FODODipole.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./MAP-Gantry2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Mask-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./P3MSwissFEL.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./PROSCAN-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./PROSCAN-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./PSIGUN-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./PerfectDiode.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Quad-Simple-Test-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RBend-Simple-Test-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RBend-Simple-Test-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RBend-Simple-Test-3.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RBend-Simple-Test-4.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RestartTest-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RestartTest-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RestartTest-3.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RestartTest-4.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RingCyclotron.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RingCyclotronMTS.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./RingCyclotronMatched.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./SBend-Simple-Test-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./SBend-Simple-Test-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./SBend-Simple-Test-3.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./SBend-Simple-Test-4.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Slit-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./Slit-2.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./UndulatorAWA.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./VFFA-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./VKick-Test-1.local -------------------------------------------------------------------------- mpirun has detected an attempt to run as root. Running as root is *strongly* discouraged as any mistake (e.g., in defining TMPDIR) or bug can result in catastrophic damage to the OS file system, leaving your system in an unusable state. We strongly suggest that you run mpirun as a non-root user. You can override this protection by adding the --allow-run-as-root option to the cmd line or by setting two environment variables in the following way: the variable OMPI_ALLOW_RUN_AS_ROOT=1 to indicate the desire to override this protection, and OMPI_ALLOW_RUN_AS_ROOT_CONFIRM=1 to confirm the choice and add one more layer of certainty that you want to do so. We reiterate our advice against doing so - please proceed at your own risk. -------------------------------------------------------------------------- Running test: ./opalimpact-1.local OPAL> ____ _____ ___ OPAL> / __ \| __ \ /\ | | OPAL> | | | | |__) / \ | | OPAL> | | | | ___/ /\ \ | | OPAL> | |__| | | / ____ \| |____ OPAL> \____/|_| /_/ \_\______| OPAL> OPAL> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2022.2.99 OPAL> git rev. f1081e540647eef178c4350fd97b82d45e814cdc OPAL> OPAL> OPAL> (c) PSI, http://amas.web.psi.ch OPAL> OPAL> OPAL> The optimiser (former opt-Pilot) is integrated OPAL> OPAL> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL> to the OPAL developers opal@lists.psi.ch OPAL> OPAL> Time: 10:18:56 date: 24/08/2023 OPAL> OPAL> * Reading input stream 'opalimpact-1.in' OPAL[2]> OPAL[2]> 3 elements selected. OPAL[2]> Ippl[3]> BC set for normal Beam OPAL[2]> * Generation of distribution with seed = 123456789 OPAL[2]> * isn't scalable with number of particles and cores. OPAL> * m before gsl_linalg_cholesky_decomp OPAL> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL> * m after gsl_linalg_cholesky_decomp OPAL> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL> OPAL> * ************* T R A C K R U N *************************************************** OPAL> * Selected Tracking Method == PARALLEL-T, NEW TRACK OPAL> * ********************************************************************************** OPAL> * Phase space dump frequency = 10 OPAL> * Statistics dump frequency = 10 w.r.t. the time step. OPAL> * DT = 1e-10 [s] OPAL> * MAXSTEPS = 1000 OPAL> * Mass of simulation particle = 5.856e+05 [GeV/c^2] OPAL> * Charge of simulation particle = 1e-13 [C] OPAL> * ********************************************************************************** Ippl> * Creating new file for data: 'opalimpact-1.stat' Ippl> * Creating new file for data: 'opalimpact-1.lbal' OPAL> OPAL> * ************* D I S T R I B U T I O N ******************************************** OPAL> * OPAL> * Number of particles: 100000 OPAL> * OPAL> * Distribution input momentum units: [Beta Gamma] OPAL> * OPAL> * Distribution type: GAUSS OPAL> * OPAL> * SIGMAX = 5.0000e-03 [m] OPAL> * SIGMAY = 5.0000e-03 [m] OPAL> * SIGMAZ = 5.0000e-03 [m] OPAL> * SIGMAPX = 0.0000e+00 [Beta Gamma] OPAL> * SIGMAPY = 0.0000e+00 [Beta Gamma] OPAL> * SIGMAPZ = 0.0000e+00 [Beta Gamma] OPAL> * AVRGPZ = 4.6181e-02 [Beta Gamma] OPAL> * CORRX = 0.0000e+00 OPAL> * CORRY = 0.0000e+00 OPAL> * CORRZ = 0.0000e+00 OPAL> * R61 = 0.0000e+00 OPAL> * R62 = 0.0000e+00 OPAL> * R51 = 0.0000e+00 OPAL> * R52 = 0.0000e+00 OPAL> * CUTOFFX = 4.0000e+00 [units of SIGMAX] OPAL> * CUTOFFY = 4.0000e+00 [units of SIGMAY] OPAL> * CUTOFFLONG = 4.0000e+00 [units of SIGMAZ] OPAL> * CUTOFFPX = 3.0000e+00 [units of SIGMAPX] OPAL> * CUTOFFPY = 3.0000e+00 [units of SIGMAPY] OPAL> * CUTOFFPZ = 3.0000e+00 [units of SIGMAPY] OPAL> * OPAL> * Distribution is injected. OPAL> * OPAL> * ********************************************************************************** OPAL> OPAL> * ************* B E A M ************************************************************ OPAL> * BEAM BEAM1 OPAL> * PARTICLE PROTON OPAL> * REST MASS 9.3827e-01 [GeV] OPAL> * CHARGE +e * 1.0000e+00 OPAL> * MOMENTUM 4.3331e+07 [eV/c] OPAL> * CURRENT 1.0000e-02 [A] OPAL> * FREQUENCY 1.0000e+00 [MHz] OPAL> * NPART 1.0000e+05 OPAL> * ********************************************************************************** OPAL> OPAL> * ************* F I E L D S O L V E R ********************************************** OPAL> * FIELDSOLVER FS1 OPAL> * TYPE FFT OPAL> * N-PROCESSORS 1 OPAL> * MX 1.6000e+01 OPAL> * MY 1.6000e+01 OPAL> * MT 1.6000e+01 OPAL> * BBOXINCR 1.0000e-01 OPAL> * GREENSF INTEGRATED OPAL> * XDIM serial OPAL> * YDIM serial OPAL> * Z(T)DIM parallel Ippl[3]> ======UniformCartesian<3,MFLOAT>==begin====== Ippl[3]> gridSizes[0] = 17 Ippl[3]> gridSizes[1] = 17 Ippl[3]> gridSizes[2] = 17 Ippl[3]> origin = ( 0 , 0 , 0 ) Ippl[3]> meshSpacing[0] = 1 Ippl[3]> meshSpacing[1] = 1 Ippl[3]> meshSpacing[2] = 1 Ippl[3]> Dvc[0] = ( -0.25 , -0.25 , -0.25 ) Ippl[3]> Dvc[1] = ( 0.25 , -0.25 , -0.25 ) Ippl[3]> Dvc[2] = ( -0.25 , 0.25 , -0.25 ) Ippl[3]> Dvc[3] = ( 0.25 , 0.25 , -0.25 ) Ippl[3]> Dvc[4] = ( -0.25 , -0.25 , 0.25 ) Ippl[3]> Dvc[5] = ( 0.25 , -0.25 , 0.25 ) Ippl[3]> Dvc[6] = ( -0.25 , 0.25 , 0.25 ) Ippl[3]> Dvc[7] = ( 0.25 , 0.25 , 0.25 ) Ippl[3]> cell volume = 1 Ippl[3]> ======UniformCartesian<3,MFLOAT>==end======== Ippl[3]> Ippl[3]> ParticleSpatialLayout, with particle distribution: Ippl[3]> Number of particles 0 Ippl[3]> SpatialLayout decomposition = Total Domain = {[0,16),[0,16),[0,16)} Ippl[3]> Local Rnodes = 1 Ippl[3]> rnode 0 : {[0,16),[0,16),[0,16)} Ippl[3]> Remote Rnodes = 0 Ippl[3]> Internal FieldLayout = Domain = {[0:15:1],[0:15:1],[0:15:1]} Ippl[3]> FieldLayoutUsers = 4 Ippl[3]> Total number of vnodes = 1 Ippl[3]> Local Vnodes = 1 Ippl[3]> vnode 0: Node = 0 ; vnode_m = 0 ; Domain = {[0:15:1],[0:15:1],[0:15:1]} Ippl[3]> Remote Vnodes = 0 Ippl[3]> OPAL> OPAL> * ********************************************************************************** OPAL> Ippl[3]> D1 gone live OPAL> OPAL> * Size of map 2 sections OPAL> * Key: (-0.000213 - 0.999701) number of overlapping elements 1 OPAL> * D1 OPAL> * Key: (0.999701 - 1.039463) number of overlapping elements 0 OPAL> Ippl> * Creating new file for data: 'data/opalimpact-1_ElementPositions.sdds' OPAL> OPAL> * ************** B U N C H ********************************************************* OPAL> * NP = 100000 OPAL> * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL> * Ekin = 1000.000 [keV] dEkin = 0.000 [eV] OPAL> * rmax = ( 19.33585 , 19.41396 , 19.75719 ) [mm] OPAL> * rmin = ( -19.61656 , -18.54914 , -19.73158 ) [mm] OPAL> * rms beam size = ( 4.97160 , 4.99350 , 5.00487 ) [mm] OPAL> * rms momenta = ( 0.00000e+00 , 0.00000e+00 , 3.54508e-14 ) [beta gamma] OPAL> * mean position = ( -0.00000 , 0.00000 , -0.00000 ) [um] OPAL> * mean momenta = ( 0.00000e+00 , 0.00000e+00 , 4.61813e-02 ) [beta gamma] OPAL> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 3.84196e-15 ) (not normalized) OPAL> * rms correlation = ( -nan , -nan , -4.58227e-05 ) OPAL> * hr = ( 2.60202 , 2.53594 , 2.63785 ) [mm] OPAL> * dh = 1.00000e-01 [%] OPAL> * t = 1.085 [ns] dT = 100.000 [ps] OPAL> * spos = 15.000 [mm] OPAL> * ********************************************************************************** OPAL> OPAL> * Track start at: 10:18:57, t= 1.085 [ns]; zstart at: 15.000 [mm] OPAL> * Executing ParallelTTracker OPAL> * Initial dt = 100.000 [ps] OPAL> * Max integration steps = 1000, next step = 0 OPAL> ParallelTTracker [2]> MINBINEMITTED 10 ParallelTTracker [2]> MINSTEPFORREBIN 200 ParallelTTracker [3]> 10:18:57 Step 0 at 16.383 [mm], t= 1.185 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:18:57 Step 1 at 17.766 [mm], t= 1.285 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:18:58 Step 2 at 19.149 [mm], t= 1.385 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:18:58 Step 3 at 20.532 [mm], t= 1.485 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:18:58 Step 4 at 21.915 [mm], t= 1.585 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:18:58 Step 5 at 23.298 [mm], t= 1.685 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:18:59 Step 6 at 24.681 [mm], t= 1.785 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:18:59 Step 7 at 26.064 [mm], t= 1.885 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:18:59 Step 8 at 27.447 [mm], t= 1.985 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:00 Step 9 at 28.830 [mm], t= 2.085 [ns], E=1.000 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.000 [MeV] dEkin = 4.373 [keV] OPAL > * rmax = ( 19.34640 , 19.42315 , 19.76581 ) [mm] OPAL > * rmin = ( -19.62713 , -18.56027 , -19.74004 ) [mm] OPAL > * rms beam size = ( 4.98533 , 5.00732 , 5.01857 ) [mm] OPAL > * rms momenta = ( 1.01117e-04 , 1.01533e-04 , 1.01026e-04 ) [beta gamma] OPAL > * mean position = ( -0.00002 , -0.00001 , -0.00008 ) [um] OPAL > * mean momenta = ( -1.09348e-10 , -5.89734e-11 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.62238e-06 , 4.60465e-06 , 4.62379e-06 ) (not normalized) OPAL > * rms correlation = ( 9.05913e-01 , 9.08325e-01 , 9.06983e-01 ) OPAL > * hr = ( 2.60329 , 2.53716 , 2.63888 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 2.085 [ns] dT = 100.000 [ps] OPAL > * spos = 28.830 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:00 Step 10 at 30.213 [mm], t= 2.185 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:00 Step 11 at 31.596 [mm], t= 2.285 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:00 Step 12 at 32.979 [mm], t= 2.385 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:01 Step 13 at 34.362 [mm], t= 2.485 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:01 Step 14 at 35.745 [mm], t= 2.585 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:01 Step 15 at 37.128 [mm], t= 2.685 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:02 Step 16 at 38.511 [mm], t= 2.785 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:02 Step 17 at 39.894 [mm], t= 2.885 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:02 Step 18 at 41.277 [mm], t= 2.985 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:02 Step 19 at 42.660 [mm], t= 3.085 [ns], E=1.000 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.000 [MeV] dEkin = 8.693 [keV] OPAL > * rmax = ( 19.37804 , 19.45071 , 19.79165 ) [mm] OPAL > * rmin = ( -19.65883 , -18.59362 , -19.76538 ) [mm] OPAL > * rms beam size = ( 5.02640 , 5.04867 , 5.05957 ) [mm] OPAL > * rms momenta = ( 2.01012e-04 , 2.01830e-04 , 2.00833e-04 ) [beta gamma] OPAL > * mean position = ( -0.00007 , -0.00004 , -0.00060 ) [um] OPAL > * mean momenta = ( -2.17959e-10 , -1.19326e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 9.16858e-06 , 9.13222e-06 , 9.17139e-06 ) (not normalized) OPAL > * rms correlation = ( 9.07947e-01 , 9.10324e-01 , 9.08982e-01 ) OPAL > * hr = ( 2.60738 , 2.54109 , 2.64218 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 3.085 [ns] dT = 100.000 [ps] OPAL > * spos = 42.660 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:03 Step 20 at 44.043 [mm], t= 3.185 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:03 Step 21 at 45.426 [mm], t= 3.285 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:03 Step 22 at 46.809 [mm], t= 3.385 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:04 Step 23 at 48.192 [mm], t= 3.485 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:04 Step 24 at 49.575 [mm], t= 3.585 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:04 Step 25 at 50.958 [mm], t= 3.685 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:04 Step 26 at 52.341 [mm], t= 3.785 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:05 Step 27 at 53.724 [mm], t= 3.885 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:05 Step 28 at 55.107 [mm], t= 3.985 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:05 Step 29 at 56.490 [mm], t= 4.085 [ns], E=1.000 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.000 [MeV] dEkin = 12.911 [keV] OPAL > * rmax = ( 19.43069 , 19.49658 , 19.83467 ) [mm] OPAL > * rmin = ( -19.71160 , -18.64912 , -19.80757 ) [mm] OPAL > * rms beam size = ( 5.09450 , 5.11722 , 5.12754 ) [mm] OPAL > * rms momenta = ( 2.98535e-04 , 2.99729e-04 , 2.98277e-04 ) [beta gamma] OPAL > * mean position = ( -0.00015 , -0.00008 , -0.00196 ) [um] OPAL > * mean momenta = ( -3.25482e-10 , -1.82103e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 1.35668e-05 , 1.35101e-05 , 1.35710e-05 ) (not normalized) OPAL > * rms correlation = ( 9.11194e-01 , 9.13514e-01 , 9.12173e-01 ) OPAL > * hr = ( 2.61428 , 2.54773 , 2.64776 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 4.085 [ns] dT = 100.000 [ps] OPAL > * spos = 56.490 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:06 Step 30 at 57.873 [mm], t= 4.185 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:06 Step 31 at 59.256 [mm], t= 4.285 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:06 Step 32 at 60.639 [mm], t= 4.385 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:06 Step 33 at 62.022 [mm], t= 4.485 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:07 Step 34 at 63.405 [mm], t= 4.585 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:07 Step 35 at 64.788 [mm], t= 4.685 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:07 Step 36 at 66.171 [mm], t= 4.785 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:08 Step 37 at 67.554 [mm], t= 4.885 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:08 Step 38 at 68.937 [mm], t= 4.985 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:08 Step 39 at 70.320 [mm], t= 5.085 [ns], E=1.000 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.000 [MeV] dEkin = 16.983 [keV] OPAL > * rmax = ( 19.50426 , 19.56070 , 19.89479 ) [mm] OPAL > * rmin = ( -19.78533 , -18.72666 , -19.86655 ) [mm] OPAL > * rms beam size = ( 5.18912 , 5.21245 , 5.22197 ) [mm] OPAL > * rms momenta = ( 3.92679e-04 , 3.94211e-04 , 3.92349e-04 ) [beta gamma] OPAL > * mean position = ( -0.00026 , -0.00014 , -0.00453 ) [um] OPAL > * mean momenta = ( -4.31571e-10 , -2.48176e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 1.77534e-05 , 1.76742e-05 , 1.77590e-05 ) (not normalized) OPAL > * rms correlation = ( 9.15462e-01 , 9.17703e-01 , 9.16369e-01 ) OPAL > * hr = ( 2.62398 , 2.55706 , 2.65560 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 5.085 [ns] dT = 100.000 [ps] OPAL > * spos = 70.320 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:08 Step 40 at 71.703 [mm], t= 5.185 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:09 Step 41 at 73.086 [mm], t= 5.285 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:09 Step 42 at 74.469 [mm], t= 5.385 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:09 Step 43 at 75.852 [mm], t= 5.485 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:09 Step 44 at 77.235 [mm], t= 5.585 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:10 Step 45 at 78.618 [mm], t= 5.685 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:10 Step 46 at 80.001 [mm], t= 5.785 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:10 Step 47 at 81.384 [mm], t= 5.885 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:11 Step 48 at 82.767 [mm], t= 5.985 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:11 Step 49 at 84.150 [mm], t= 6.085 [ns], E=1.000 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.000 [MeV] dEkin = 20.874 [keV] OPAL > * rmax = ( 19.59860 , 19.64294 , 19.97192 ) [mm] OPAL > * rmin = ( -19.87989 , -18.82609 , -19.94220 ) [mm] OPAL > * rms beam size = ( 5.30954 , 5.33362 , 5.34215 ) [mm] OPAL > * rms momenta = ( 4.82621e-04 , 4.84450e-04 , 4.82232e-04 ) [beta gamma] OPAL > * mean position = ( -0.00040 , -0.00023 , -0.00860 ) [um] OPAL > * mean momenta = ( -5.35501e-10 , -3.18095e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 2.16765e-05 , 2.15722e-05 , 2.16833e-05 ) (not normalized) OPAL > * rms correlation = ( 9.20511e-01 , 9.22657e-01 , 9.21335e-01 ) OPAL > * hr = ( 2.63646 , 2.56906 , 2.66570 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 6.085 [ns] dT = 100.000 [ps] OPAL > * spos = 84.150 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:11 Step 50 at 85.533 [mm], t= 6.185 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:11 Step 51 at 86.916 [mm], t= 6.285 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:12 Step 52 at 88.299 [mm], t= 6.385 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:12 Step 53 at 89.682 [mm], t= 6.485 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:12 Step 54 at 91.065 [mm], t= 6.585 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:13 Step 55 at 92.448 [mm], t= 6.685 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:13 Step 56 at 93.831 [mm], t= 6.785 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:13 Step 57 at 95.214 [mm], t= 6.885 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:13 Step 58 at 96.597 [mm], t= 6.985 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:14 Step 59 at 97.980 [mm], t= 7.085 [ns], E=1.000 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.000 [MeV] dEkin = 24.557 [keV] OPAL > * rmax = ( 19.71353 , 19.74316 , 20.06593 ) [mm] OPAL > * rmin = ( -19.99511 , -18.94719 , -20.03442 ) [mm] OPAL > * rms beam size = ( 5.45488 , 5.47983 , 5.48719 ) [mm] OPAL > * rms momenta = ( 5.67757e-04 , 5.69841e-04 , 5.67321e-04 ) [beta gamma] OPAL > * mean position = ( -0.00058 , -0.00034 , -0.01443 ) [um] OPAL > * mean momenta = ( -6.36372e-10 , -3.92218e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 2.52973e-05 , 2.51657e-05 , 2.53056e-05 ) (not normalized) OPAL > * rms correlation = ( 9.26090e-01 , 9.28126e-01 , 9.26825e-01 ) OPAL > * hr = ( 2.65170 , 2.58371 , 2.67803 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 7.085 [ns] dT = 100.000 [ps] OPAL > * spos = 97.980 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:14 Step 60 at 99.363 [mm], t= 7.185 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:14 Step 61 at 100.746 [mm], t= 7.285 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:15 Step 62 at 102.129 [mm], t= 7.385 [ns], E=1.000 [MeV] ParallelTTracker [3]> 10:19:15 Step 63 at 103.512 [mm], t= 7.485 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:15 Step 64 at 104.895 [mm], t= 7.585 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:15 Step 65 at 106.278 [mm], t= 7.685 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:16 Step 66 at 107.661 [mm], t= 7.785 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:16 Step 67 at 109.044 [mm], t= 7.885 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:16 Step 68 at 110.427 [mm], t= 7.985 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:17 Step 69 at 111.810 [mm], t= 8.085 [ns], E=1.001 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.001 [MeV] dEkin = 28.016 [keV] OPAL > * rmax = ( 19.84883 , 19.86121 , 20.17667 ) [mm] OPAL > * rmin = ( -20.13079 , -19.08973 , -20.14564 ) [mm] OPAL > * rms beam size = ( 5.62409 , 5.65002 , 5.65604 ) [mm] OPAL > * rms momenta = ( 6.47702e-04 , 6.50000e-04 , 6.47232e-04 ) [beta gamma] OPAL > * mean position = ( -0.00078 , -0.00047 , -0.02222 ) [um] OPAL > * mean momenta = ( -7.33226e-10 , -4.70344e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 2.85917e-05 , 2.84310e-05 , 2.86017e-05 ) (not normalized) OPAL > * rms correlation = ( 9.31952e-01 , 9.33867e-01 , 9.32596e-01 ) OPAL > * hr = ( 2.66967 , 2.60099 , 2.69268 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 8.085 [ns] dT = 100.000 [ps] OPAL > * spos = 111.810 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:17 Step 70 at 113.193 [mm], t= 8.185 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:17 Step 71 at 114.577 [mm], t= 8.285 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:17 Step 72 at 115.960 [mm], t= 8.385 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:18 Step 73 at 117.343 [mm], t= 8.485 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:18 Step 74 at 118.726 [mm], t= 8.585 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:18 Step 75 at 120.109 [mm], t= 8.685 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:18 Step 76 at 121.492 [mm], t= 8.785 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:19 Step 77 at 122.875 [mm], t= 8.885 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:19 Step 78 at 124.258 [mm], t= 8.985 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:19 Step 79 at 125.641 [mm], t= 9.085 [ns], E=1.001 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.001 [MeV] dEkin = 31.244 [keV] OPAL > * rmax = ( 20.00426 , 19.99687 , 20.30397 ) [mm] OPAL > * rmin = ( -20.28668 , -19.25345 , -20.29199 ) [mm] OPAL > * rms beam size = ( 5.81601 , 5.84299 , 5.84754 ) [mm] OPAL > * rms momenta = ( 7.22274e-04 , 7.24750e-04 , 7.21781e-04 ) [beta gamma] OPAL > * mean position = ( -0.00101 , -0.00062 , -0.03209 ) [um] OPAL > * mean momenta = ( -8.26155e-10 , -5.53682e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 3.15490e-05 , 3.13575e-05 , 3.15603e-05 ) (not normalized) OPAL > * rms correlation = ( 9.37878e-01 , 9.39666e-01 , 9.38436e-01 ) OPAL > * hr = ( 2.69033 , 2.62086 , 2.71084 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 9.085 [ns] dT = 100.000 [ps] OPAL > * spos = 125.641 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:20 Step 80 at 127.024 [mm], t= 9.185 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:20 Step 81 at 128.407 [mm], t= 9.285 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:20 Step 82 at 129.790 [mm], t= 9.385 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:20 Step 83 at 131.173 [mm], t= 9.485 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:21 Step 84 at 132.556 [mm], t= 9.585 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:21 Step 85 at 133.939 [mm], t= 9.685 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:21 Step 86 at 135.322 [mm], t= 9.785 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:22 Step 87 at 136.705 [mm], t= 9.885 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:22 Step 88 at 138.088 [mm], t= 9.985 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:22 Step 89 at 139.471 [mm], t= 10.085 [ns], E=1.001 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.001 [MeV] dEkin = 34.238 [keV] OPAL > * rmax = ( 20.17956 , 20.14995 , 20.44763 ) [mm] OPAL > * rmin = ( -20.46255 , -19.43803 , -20.45706 ) [mm] OPAL > * rms beam size = ( 6.02939 , 6.05748 , 6.06044 ) [mm] OPAL > * rms momenta = ( 7.91468e-04 , 7.94091e-04 , 7.90961e-04 ) [beta gamma] OPAL > * mean position = ( -0.00127 , -0.00080 , -0.04413 ) [um] OPAL > * mean momenta = ( -9.14834e-10 , -6.43809e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 3.41703e-05 , 3.39468e-05 , 3.41824e-05 ) (not normalized) OPAL > * rms correlation = ( 9.43692e-01 , 9.45350e-01 , 9.44170e-01 ) OPAL > * hr = ( 2.71365 , 2.64329 , 2.73134 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 10.085 [ns] dT = 100.000 [ps] OPAL > * spos = 139.471 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:22 Step 90 at 140.854 [mm], t= 10.185 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:23 Step 91 at 142.237 [mm], t= 10.285 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:23 Step 92 at 143.620 [mm], t= 10.385 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:23 Step 93 at 145.003 [mm], t= 10.485 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:24 Step 94 at 146.386 [mm], t= 10.585 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:24 Step 95 at 147.769 [mm], t= 10.685 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:24 Step 96 at 149.152 [mm], t= 10.785 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:24 Step 97 at 150.535 [mm], t= 10.885 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:25 Step 98 at 151.918 [mm], t= 10.985 [ns], E=1.001 [MeV] ParallelTTracker [2]> 10:19:25 Step 99 at 153.301 [mm], t= 11.085 [ns], E=1.001 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.001 [MeV] dEkin = 37.007 [keV] OPAL > * rmax = ( 20.37441 , 20.32019 , 20.60745 ) [mm] OPAL > * rmin = ( -20.65811 , -19.64318 , -20.64060 ) [mm] OPAL > * rms beam size = ( 6.26293 , 6.29217 , 6.29344 ) [mm] OPAL > * rms momenta = ( 8.55415e-04 , 8.58157e-04 , 8.54903e-04 ) [beta gamma] OPAL > * mean position = ( -0.00155 , -0.00101 , -0.05836 ) [um] OPAL > * mean momenta = ( -9.97311e-10 , -7.43732e-10 , 4.61813e-02 ) [beta gamma] OPAL > * rms emittance = ( 3.64664e-05 , 3.62103e-05 , 3.64789e-05 ) (not normalized) OPAL > * rms correlation = ( 9.49255e-01 , 9.50785e-01 , 9.49662e-01 ) OPAL > * hr = ( 2.73960 , 2.66824 , 2.75417 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 11.085 [ns] dT = 100.000 [ps] OPAL > * spos = 153.301 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:25 Step 100 at 154.684 [mm], t= 11.185 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:26 Step 101 at 156.067 [mm], t= 11.285 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:26 Step 102 at 157.450 [mm], t= 11.385 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:26 Step 103 at 158.833 [mm], t= 11.485 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:26 Step 104 at 160.216 [mm], t= 11.585 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:27 Step 105 at 161.599 [mm], t= 11.685 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:27 Step 106 at 162.982 [mm], t= 11.785 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:27 Step 107 at 164.365 [mm], t= 11.885 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:28 Step 108 at 165.748 [mm], t= 11.985 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:28 Step 109 at 167.131 [mm], t= 12.085 [ns], E=1.001 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.001 [MeV] dEkin = 39.558 [keV] OPAL > * rmax = ( 20.58852 , 20.50734 , 20.78319 ) [mm] OPAL > * rmin = ( -20.87309 , -19.86853 , -20.84233 ) [mm] OPAL > * rms beam size = ( 6.51530 , 6.54572 , 6.54523 ) [mm] OPAL > * rms momenta = ( 9.14343e-04 , 9.17182e-04 , 9.13833e-04 ) [beta gamma] OPAL > * mean position = ( -0.00186 , -0.00124 , -0.07479 ) [um] OPAL > * mean momenta = ( -1.06988e-09 , -8.53212e-10 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 3.84549e-05 , 3.81660e-05 , 3.84674e-05 ) (not normalized) OPAL > * rms correlation = ( 9.54477e-01 , 9.55881e-01 , 9.54821e-01 ) OPAL > * hr = ( 2.76814 , 2.69567 , 2.77927 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 12.085 [ns] dT = 100.000 [ps] OPAL > * spos = 167.131 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:28 Step 110 at 168.514 [mm], t= 12.185 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:28 Step 111 at 169.897 [mm], t= 12.285 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:29 Step 112 at 171.280 [mm], t= 12.385 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:29 Step 113 at 172.663 [mm], t= 12.485 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:29 Step 114 at 174.046 [mm], t= 12.585 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:30 Step 115 at 175.429 [mm], t= 12.685 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:30 Step 116 at 176.812 [mm], t= 12.785 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:30 Step 117 at 178.195 [mm], t= 12.885 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:30 Step 118 at 179.578 [mm], t= 12.985 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:31 Step 119 at 180.961 [mm], t= 13.085 [ns], E=1.001 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.001 [MeV] dEkin = 41.904 [keV] OPAL > * rmax = ( 20.82155 , 20.71115 , 20.97463 ) [mm] OPAL > * rmin = ( -21.10718 , -20.11374 , -21.06196 ) [mm] OPAL > * rms beam size = ( 6.78520 , 6.81684 , 6.81451 ) [mm] OPAL > * rms momenta = ( 9.68540e-04 , 9.71458e-04 , 9.68039e-04 ) [beta gamma] OPAL > * mean position = ( -0.00218 , -0.00152 , -0.09337 ) [um] OPAL > * mean momenta = ( -1.12683e-09 , -9.73548e-10 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.01577e-05 , 3.98364e-05 , 4.01701e-05 ) (not normalized) OPAL > * rms correlation = ( 9.59301e-01 , 9.60585e-01 , 9.59590e-01 ) OPAL > * hr = ( 2.79922 , 2.72554 , 2.80662 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 13.085 [ns] dT = 100.000 [ps] OPAL > * spos = 180.961 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:31 Step 120 at 182.344 [mm], t= 13.185 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:31 Step 121 at 183.727 [mm], t= 13.285 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:32 Step 122 at 185.110 [mm], t= 13.385 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:32 Step 123 at 186.493 [mm], t= 13.485 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:32 Step 124 at 187.876 [mm], t= 13.585 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:32 Step 125 at 189.259 [mm], t= 13.685 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:33 Step 126 at 190.642 [mm], t= 13.785 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:33 Step 127 at 192.025 [mm], t= 13.885 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:33 Step 128 at 193.408 [mm], t= 13.985 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:34 Step 129 at 194.791 [mm], t= 14.085 [ns], E=1.001 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.001 [MeV] dEkin = 44.061 [keV] OPAL > * rmax = ( 21.07320 , 20.93134 , 21.18151 ) [mm] OPAL > * rmin = ( -21.36011 , -20.37843 , -21.29920 ) [mm] OPAL > * rms beam size = ( 7.07137 , 7.10422 , 7.10000 ) [mm] OPAL > * rms momenta = ( 1.01833e-03 , 1.02131e-03 , 1.01784e-03 ) [beta gamma] OPAL > * mean position = ( -0.00252 , -0.00183 , -0.11404 ) [um] OPAL > * mean momenta = ( -1.16139e-09 , -1.10289e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.15994e-05 , 4.12465e-05 , 4.16119e-05 ) (not normalized) OPAL > * rms correlation = ( 9.63702e-01 , 9.64872e-01 , 9.63943e-01 ) OPAL > * hr = ( 2.83280 , 2.75781 , 2.83617 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 14.085 [ns] dT = 100.000 [ps] OPAL > * spos = 194.791 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:34 Step 130 at 196.174 [mm], t= 14.185 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:34 Step 131 at 197.557 [mm], t= 14.285 [ns], E=1.001 [MeV] ParallelTTracker [3]> 10:19:34 Step 132 at 198.940 [mm], t= 14.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:35 Step 133 at 200.323 [mm], t= 14.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:35 Step 134 at 201.706 [mm], t= 14.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:35 Step 135 at 203.089 [mm], t= 14.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:36 Step 136 at 204.472 [mm], t= 14.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:36 Step 137 at 205.855 [mm], t= 14.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:36 Step 138 at 207.238 [mm], t= 14.985 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:36 Step 139 at 208.621 [mm], t= 15.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 46.041 [keV] OPAL > * rmax = ( 21.34312 , 21.16763 , 21.40359 ) [mm] OPAL > * rmin = ( -21.63155 , -20.66222 , -21.55374 ) [mm] OPAL > * rms beam size = ( 7.37259 , 7.40666 , 7.40051 ) [mm] OPAL > * rms momenta = ( 1.06405e-03 , 1.06708e-03 , 1.06358e-03 ) [beta gamma] OPAL > * mean position = ( -0.00287 , -0.00218 , -0.13674 ) [um] OPAL > * mean momenta = ( -1.16636e-09 , -1.24056e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.28053e-05 , 4.24220e-05 , 4.28179e-05 ) (not normalized) OPAL > * rms correlation = ( 9.67678e-01 , 9.68740e-01 , 9.67877e-01 ) OPAL > * hr = ( 2.86884 , 2.79244 , 2.86790 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 15.085 [ns] dT = 100.000 [ps] OPAL > * spos = 208.621 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:37 Step 140 at 210.004 [mm], t= 15.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:37 Step 141 at 211.387 [mm], t= 15.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:37 Step 142 at 212.770 [mm], t= 15.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:38 Step 143 at 214.153 [mm], t= 15.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:38 Step 144 at 215.536 [mm], t= 15.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:38 Step 145 at 216.919 [mm], t= 15.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:38 Step 146 at 218.302 [mm], t= 15.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:39 Step 147 at 219.685 [mm], t= 15.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:39 Step 148 at 221.068 [mm], t= 15.985 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:39 Step 149 at 222.451 [mm], t= 16.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 47.859 [keV] OPAL > * rmax = ( 21.63099 , 21.41977 , 21.65165 ) [mm] OPAL > * rmin = ( -21.92122 , -20.96471 , -21.82529 ) [mm] OPAL > * rms beam size = ( 7.68771 , 7.72299 , 7.71488 ) [mm] OPAL > * rms momenta = ( 1.10603e-03 , 1.10910e-03 , 1.10558e-03 ) [beta gamma] OPAL > * mean position = ( -0.00321 , -0.00257 , -0.16136 ) [um] OPAL > * mean momenta = ( -1.13384e-09 , -1.39153e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.38004e-05 , 4.33879e-05 , 4.38129e-05 ) (not normalized) OPAL > * rms correlation = ( 9.71241e-01 , 9.72206e-01 , 9.71406e-01 ) OPAL > * hr = ( 2.90730 , 2.82937 , 2.90228 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 16.085 [ns] dT = 100.000 [ps] OPAL > * spos = 222.451 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:40 Step 150 at 223.834 [mm], t= 16.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:40 Step 151 at 225.217 [mm], t= 16.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:40 Step 152 at 226.600 [mm], t= 16.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:40 Step 153 at 227.983 [mm], t= 16.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:41 Step 154 at 229.366 [mm], t= 16.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:41 Step 155 at 230.749 [mm], t= 16.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:41 Step 156 at 232.132 [mm], t= 16.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:41 Step 157 at 233.515 [mm], t= 16.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:42 Step 158 at 234.898 [mm], t= 16.985 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:42 Step 159 at 236.281 [mm], t= 17.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 49.530 [keV] OPAL > * rmax = ( 21.93647 , 21.72295 , 21.97342 ) [mm] OPAL > * rmin = ( -22.22880 , -21.28550 , -22.11353 ) [mm] OPAL > * rms beam size = ( 8.01565 , 8.05214 , 8.04204 ) [mm] OPAL > * rms momenta = ( 1.14461e-03 , 1.14771e-03 , 1.14418e-03 ) [beta gamma] OPAL > * mean position = ( -0.00353 , -0.00302 , -0.18781 ) [um] OPAL > * mean momenta = ( -1.05198e-09 , -1.56534e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.46087e-05 , 4.41687e-05 , 4.46210e-05 ) (not normalized) OPAL > * rms correlation = ( 9.74417e-01 , 9.75291e-01 , 9.74554e-01 ) OPAL > * hr = ( 2.94813 , 2.87073 , 2.94291 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 17.085 [ns] dT = 100.000 [ps] OPAL > * spos = 236.281 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:42 Step 160 at 237.664 [mm], t= 17.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:43 Step 161 at 239.047 [mm], t= 17.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:43 Step 162 at 240.430 [mm], t= 17.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:43 Step 163 at 241.813 [mm], t= 17.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:43 Step 164 at 243.196 [mm], t= 17.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:44 Step 165 at 244.579 [mm], t= 17.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:44 Step 166 at 245.962 [mm], t= 17.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:44 Step 167 at 247.345 [mm], t= 17.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:45 Step 168 at 248.728 [mm], t= 17.985 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:45 Step 169 at 250.111 [mm], t= 18.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 51.067 [keV] OPAL > * rmax = ( 22.25921 , 22.06980 , 22.31314 ) [mm] OPAL > * rmin = ( -22.55395 , -21.62414 , -22.41815 ) [mm] OPAL > * rms beam size = ( 8.35541 , 8.39310 , 8.38100 ) [mm] OPAL > * rms momenta = ( 1.18008e-03 , 1.18320e-03 , 1.17967e-03 ) [beta gamma] OPAL > * mean position = ( -0.00382 , -0.00352 , -0.21596 ) [um] OPAL > * mean momenta = ( -9.05933e-10 , -1.82217e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.52533e-05 , 4.47873e-05 , 4.52649e-05 ) (not normalized) OPAL > * rms correlation = ( 9.77235e-01 , 9.78027e-01 , 9.77348e-01 ) OPAL > * hr = ( 2.99130 , 2.91641 , 2.98584 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 18.085 [ns] dT = 100.000 [ps] OPAL > * spos = 250.111 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:45 Step 170 at 251.494 [mm], t= 18.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:45 Step 171 at 252.877 [mm], t= 18.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:46 Step 172 at 254.260 [mm], t= 18.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:46 Step 173 at 255.643 [mm], t= 18.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:46 Step 174 at 257.026 [mm], t= 18.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:47 Step 175 at 258.409 [mm], t= 18.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:47 Step 176 at 259.792 [mm], t= 18.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:47 Step 177 at 261.175 [mm], t= 18.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:47 Step 178 at 262.558 [mm], t= 18.985 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:48 Step 179 at 263.941 [mm], t= 19.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 52.481 [keV] OPAL > * rmax = ( 22.59885 , 22.43445 , 22.67041 ) [mm] OPAL > * rmin = ( -22.89631 , -21.98018 , -22.73883 ) [mm] OPAL > * rms beam size = ( 8.70606 , 8.74494 , 8.73083 ) [mm] OPAL > * rms momenta = ( 1.21273e-03 , 1.21588e-03 , 1.21234e-03 ) [beta gamma] OPAL > * mean position = ( -0.00405 , -0.00412 , -0.24571 ) [um] OPAL > * mean momenta = ( -6.82290e-10 , -2.24573e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.57556e-05 , 4.52650e-05 , 4.57662e-05 ) (not normalized) OPAL > * rms correlation = ( 9.79726e-01 , 9.80443e-01 , 9.79819e-01 ) OPAL > * hr = ( 3.03674 , 2.96443 , 3.03102 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 19.085 [ns] dT = 100.000 [ps] OPAL > * spos = 263.941 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:48 Step 180 at 265.324 [mm], t= 19.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:48 Step 181 at 266.707 [mm], t= 19.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:49 Step 182 at 268.090 [mm], t= 19.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:49 Step 183 at 269.473 [mm], t= 19.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:49 Step 184 at 270.856 [mm], t= 19.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:49 Step 185 at 272.239 [mm], t= 19.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:50 Step 186 at 273.622 [mm], t= 19.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:50 Step 187 at 275.005 [mm], t= 19.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:50 Step 188 at 276.388 [mm], t= 19.985 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:51 Step 189 at 277.771 [mm], t= 20.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 53.786 [keV] OPAL > * rmax = ( 22.95499 , 22.81642 , 23.04479 ) [mm] OPAL > * rmin = ( -23.25549 , -22.35313 , -23.07522 ) [mm] OPAL > * rms beam size = ( 9.06677 , 9.10683 , 9.09069 ) [mm] OPAL > * rms momenta = ( 1.24284e-03 , 1.24600e-03 , 1.24246e-03 ) [beta gamma] OPAL > * mean position = ( -0.00420 , -0.00489 , -0.27694 ) [um] OPAL > * mean momenta = ( -3.64257e-10 , -2.96455e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.61349e-05 , 4.56207e-05 , 4.61440e-05 ) (not normalized) OPAL > * rms correlation = ( 9.81923e-01 , 9.82574e-01 , 9.82001e-01 ) OPAL > * hr = ( 3.08442 , 3.01475 , 3.07839 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 20.085 [ns] dT = 100.000 [ps] OPAL > * spos = 277.771 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:51 Step 190 at 279.154 [mm], t= 20.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:51 Step 191 at 280.537 [mm], t= 20.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:51 Step 192 at 281.920 [mm], t= 20.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:52 Step 193 at 283.303 [mm], t= 20.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:52 Step 194 at 284.686 [mm], t= 20.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:52 Step 195 at 286.069 [mm], t= 20.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:52 Step 196 at 287.452 [mm], t= 20.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:53 Step 197 at 288.835 [mm], t= 20.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:53 Step 198 at 290.218 [mm], t= 20.985 [ns], E=1.002 [MeV] ParallelTTracker [2]> 10:19:53 Step 199 at 291.601 [mm], t= 21.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 54.990 [keV] OPAL > * rmax = ( 23.32720 , 23.21518 , 23.43578 ) [mm] OPAL > * rmin = ( -23.63106 , -22.74245 , -23.42696 ) [mm] OPAL > * rms beam size = ( 9.43675 , 9.47797 , 9.45980 ) [mm] OPAL > * rms momenta = ( 1.27063e-03 , 1.27380e-03 , 1.27027e-03 ) [beta gamma] OPAL > * mean position = ( -0.00424 , -0.00594 , -0.30956 ) [um] OPAL > * mean momenta = ( 7.03545e-11 , -4.14037e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.64083e-05 , 4.58719e-05 , 4.64159e-05 ) (not normalized) OPAL > * rms correlation = ( 9.83860e-01 , 9.84450e-01 , 9.83924e-01 ) OPAL > * hr = ( 3.13426 , 3.06728 , 3.12790 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 21.085 [ns] dT = 100.000 [ps] OPAL > * spos = 291.601 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:54 Step 200 at 292.984 [mm], t= 21.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:54 Step 201 at 294.367 [mm], t= 21.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:54 Step 202 at 295.750 [mm], t= 21.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:54 Step 203 at 297.133 [mm], t= 21.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:55 Step 204 at 298.516 [mm], t= 21.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:55 Step 205 at 299.899 [mm], t= 21.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:55 Step 206 at 301.282 [mm], t= 21.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:56 Step 207 at 302.665 [mm], t= 21.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:56 Step 208 at 304.048 [mm], t= 21.985 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:56 Step 209 at 305.431 [mm], t= 22.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 56.103 [keV] OPAL > * rmax = ( 23.71698 , 23.63018 , 23.84286 ) [mm] OPAL > * rmin = ( -24.02256 , -23.14760 , -23.79367 ) [mm] OPAL > * rms beam size = ( 9.81530 , 9.85768 , 9.83746 ) [mm] OPAL > * rms momenta = ( 1.29633e-03 , 1.29951e-03 , 1.29598e-03 ) [beta gamma] OPAL > * mean position = ( -0.00412 , -0.00744 , -0.34350 ) [um] OPAL > * mean momenta = ( 6.67209e-10 , -6.00674e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.65908e-05 , 4.60335e-05 , 4.65969e-05 ) (not normalized) OPAL > * rms correlation = ( 9.85564e-01 , 9.86101e-01 , 9.85618e-01 ) OPAL > * hr = ( 3.18627 , 3.12196 , 3.17949 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 22.085 [ns] dT = 100.000 [ps] OPAL > * spos = 305.431 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:56 Step 210 at 306.814 [mm], t= 22.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:57 Step 211 at 308.197 [mm], t= 22.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:57 Step 212 at 309.580 [mm], t= 22.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:57 Step 213 at 310.963 [mm], t= 22.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:58 Step 214 at 312.346 [mm], t= 22.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:58 Step 215 at 313.730 [mm], t= 22.685 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:58 Step 216 at 315.113 [mm], t= 22.785 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:58 Step 217 at 316.496 [mm], t= 22.885 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:59 Step 218 at 317.879 [mm], t= 22.985 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:19:59 Step 219 at 319.262 [mm], t= 23.085 [ns], E=1.002 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.002 [MeV] dEkin = 57.134 [keV] OPAL > * rmax = ( 24.14426 , 24.06081 , 24.26547 ) [mm] OPAL > * rmin = ( -24.42947 , -23.56798 , -24.17492 ) [mm] OPAL > * rms beam size = ( 10.20177 , 10.24529 , 10.22303 ) [mm] OPAL > * rms momenta = ( 1.32013e-03 , 1.32332e-03 , 1.31980e-03 ) [beta gamma] OPAL > * mean position = ( -0.00380 , -0.00964 , -0.37869 ) [um] OPAL > * mean momenta = ( 1.42435e-09 , -8.83634e-09 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.66960e-05 , 4.61190e-05 , 4.67006e-05 ) (not normalized) OPAL > * rms correlation = ( 9.87065e-01 , 9.87553e-01 , 9.87110e-01 ) OPAL > * hr = ( 3.24189 , 3.17871 , 3.23308 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 23.085 [ns] dT = 100.000 [ps] OPAL > * spos = 319.262 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:19:59 Step 220 at 320.645 [mm], t= 23.185 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:20:00 Step 221 at 322.028 [mm], t= 23.285 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:20:00 Step 222 at 323.411 [mm], t= 23.385 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:20:00 Step 223 at 324.794 [mm], t= 23.485 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:20:00 Step 224 at 326.177 [mm], t= 23.585 [ns], E=1.002 [MeV] ParallelTTracker [3]> 10:20:01 Step 225 at 327.560 [mm], t= 23.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:01 Step 226 at 328.943 [mm], t= 23.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:01 Step 227 at 330.326 [mm], t= 23.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:01 Step 228 at 331.709 [mm], t= 23.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:02 Step 229 at 333.092 [mm], t= 24.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 58.090 [keV] OPAL > * rmax = ( 24.58649 , 24.50644 , 24.70301 ) [mm] OPAL > * rmin = ( -24.85124 , -24.00299 , -24.57022 ) [mm] OPAL > * rms beam size = ( 10.59557 , 10.64022 , 10.61591 ) [mm] OPAL > * rms momenta = ( 1.34220e-03 , 1.34541e-03 , 1.34189e-03 ) [beta gamma] OPAL > * mean position = ( -0.00324 , -0.01285 , -0.41512 ) [um] OPAL > * mean momenta = ( 2.32587e-09 , -1.28230e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.67355e-05 , 4.61398e-05 , 4.67384e-05 ) (not normalized) OPAL > * rms correlation = ( 9.88387e-01 , 9.88832e-01 , 9.88425e-01 ) OPAL > * hr = ( 3.29951 , 3.23744 , 3.28862 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 24.085 [ns] dT = 100.000 [ps] OPAL > * spos = 333.092 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:02 Step 230 at 334.475 [mm], t= 24.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:02 Step 231 at 335.858 [mm], t= 24.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:03 Step 232 at 337.241 [mm], t= 24.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:03 Step 233 at 338.624 [mm], t= 24.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:03 Step 234 at 340.007 [mm], t= 24.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:03 Step 235 at 341.390 [mm], t= 24.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:04 Step 236 at 342.773 [mm], t= 24.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:04 Step 237 at 344.156 [mm], t= 24.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:04 Step 238 at 345.539 [mm], t= 24.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:05 Step 239 at 346.922 [mm], t= 25.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 58.979 [keV] OPAL > * rmax = ( 25.04301 , 24.96642 , 25.15485 ) [mm] OPAL > * rmin = ( -25.28727 , -24.45197 , -24.98121 ) [mm] OPAL > * rms beam size = ( 10.99616 , 11.04194 , 11.01558 ) [mm] OPAL > * rms momenta = ( 1.36271e-03 , 1.36593e-03 , 1.36241e-03 ) [beta gamma] OPAL > * mean position = ( -0.00238 , -0.01745 , -0.45284 ) [um] OPAL > * mean momenta = ( 3.34013e-09 , -1.80789e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.67197e-05 , 4.61064e-05 , 4.67207e-05 ) (not normalized) OPAL > * rms correlation = ( 9.89552e-01 , 9.89959e-01 , 9.89584e-01 ) OPAL > * hr = ( 3.35904 , 3.29807 , 3.34616 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 25.085 [ns] dT = 100.000 [ps] OPAL > * spos = 346.922 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:05 Step 240 at 348.305 [mm], t= 25.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:05 Step 241 at 349.688 [mm], t= 25.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:05 Step 242 at 351.071 [mm], t= 25.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:06 Step 243 at 352.454 [mm], t= 25.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:06 Step 244 at 353.837 [mm], t= 25.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:06 Step 245 at 355.220 [mm], t= 25.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:07 Step 246 at 356.603 [mm], t= 25.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:07 Step 247 at 357.986 [mm], t= 25.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:07 Step 248 at 359.369 [mm], t= 25.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:07 Step 249 at 360.752 [mm], t= 26.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 59.807 [keV] OPAL > * rmax = ( 25.51315 , 25.44004 , 25.62032 ) [mm] OPAL > * rmin = ( -25.73693 , -24.91425 , -25.40584 ) [mm] OPAL > * rms beam size = ( 11.40307 , 11.44997 , 11.42155 ) [mm] OPAL > * rms momenta = ( 1.38181e-03 , 1.38504e-03 , 1.38152e-03 ) [beta gamma] OPAL > * mean position = ( -0.00120 , -0.02380 , -0.49193 ) [um] OPAL > * mean momenta = ( 4.47218e-09 , -2.45537e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.66576e-05 , 4.60278e-05 , 4.66565e-05 ) (not normalized) OPAL > * rms correlation = ( 9.90581e-01 , 9.90952e-01 , 9.90608e-01 ) OPAL > * hr = ( 3.42039 , 3.36050 , 3.40553 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 26.085 [ns] dT = 100.000 [ps] OPAL > * spos = 360.752 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:08 Step 250 at 362.135 [mm], t= 26.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:08 Step 251 at 363.518 [mm], t= 26.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:08 Step 252 at 364.901 [mm], t= 26.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:09 Step 253 at 366.284 [mm], t= 26.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:09 Step 254 at 367.667 [mm], t= 26.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:09 Step 255 at 369.050 [mm], t= 26.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:09 Step 256 at 370.433 [mm], t= 26.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:10 Step 257 at 371.816 [mm], t= 26.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:10 Step 258 at 373.199 [mm], t= 26.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:10 Step 259 at 374.582 [mm], t= 27.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 60.578 [keV] OPAL > * rmax = ( 25.99622 , 25.92658 , 26.09875 ) [mm] OPAL > * rmin = ( -26.19957 , -25.41649 , -25.84294 ) [mm] OPAL > * rms beam size = ( 11.81585 , 11.86386 , 11.83338 ) [mm] OPAL > * rms momenta = ( 1.39961e-03 , 1.40286e-03 , 1.39934e-03 ) [beta gamma] OPAL > * mean position = ( 0.00032 , -0.03225 , -0.53250 ) [um] OPAL > * mean momenta = ( 5.61136e-09 , -3.20057e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.65575e-05 , 4.59125e-05 , 4.65541e-05 ) (not normalized) OPAL > * rms correlation = ( 9.91489e-01 , 9.91829e-01 , 9.91512e-01 ) OPAL > * hr = ( 3.48348 , 3.42632 , 3.46661 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 27.085 [ns] dT = 100.000 [ps] OPAL > * spos = 374.582 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:11 Step 260 at 375.965 [mm], t= 27.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:11 Step 261 at 377.348 [mm], t= 27.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:11 Step 262 at 378.731 [mm], t= 27.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:11 Step 263 at 380.114 [mm], t= 27.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:12 Step 264 at 381.497 [mm], t= 27.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:12 Step 265 at 382.880 [mm], t= 27.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:12 Step 266 at 384.263 [mm], t= 27.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:12 Step 267 at 385.646 [mm], t= 27.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:13 Step 268 at 387.029 [mm], t= 27.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:13 Step 269 at 388.412 [mm], t= 28.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 61.299 [keV] OPAL > * rmax = ( 26.49150 , 26.42531 , 26.58942 ) [mm] OPAL > * rmin = ( -26.67448 , -25.94709 , -26.29188 ) [mm] OPAL > * rms beam size = ( 12.23410 , 12.28321 , 12.25067 ) [mm] OPAL > * rms momenta = ( 1.41624e-03 , 1.41951e-03 , 1.41599e-03 ) [beta gamma] OPAL > * mean position = ( 0.00217 , -0.04298 , -0.57475 ) [um] OPAL > * mean momenta = ( 6.64722e-09 , -3.96554e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.64265e-05 , 4.57678e-05 , 4.64208e-05 ) (not normalized) OPAL > * rms correlation = ( 9.92292e-01 , 9.92605e-01 , 9.92312e-01 ) OPAL > * hr = ( 3.54821 , 3.49500 , 3.52929 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 28.085 [ns] dT = 100.000 [ps] OPAL > * spos = 388.412 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:13 Step 270 at 389.795 [mm], t= 28.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:14 Step 271 at 391.178 [mm], t= 28.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:14 Step 272 at 392.561 [mm], t= 28.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:14 Step 273 at 393.944 [mm], t= 28.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:14 Step 274 at 395.327 [mm], t= 28.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:15 Step 275 at 396.710 [mm], t= 28.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:15 Step 276 at 398.093 [mm], t= 28.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:15 Step 277 at 399.476 [mm], t= 28.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:16 Step 278 at 400.859 [mm], t= 28.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:16 Step 279 at 402.242 [mm], t= 29.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 61.973 [keV] OPAL > * rmax = ( 26.99827 , 26.93549 , 27.09160 ) [mm] OPAL > * rmin = ( -27.16096 , -26.48905 , -26.75201 ) [mm] OPAL > * rms beam size = ( 12.65745 , 12.70766 , 12.67305 ) [mm] OPAL > * rms momenta = ( 1.43180e-03 , 1.43509e-03 , 1.43157e-03 ) [beta gamma] OPAL > * mean position = ( 0.00431 , -0.05598 , -0.61885 ) [um] OPAL > * mean momenta = ( 7.55686e-09 , -4.70412e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.62710e-05 , 4.56001e-05 , 4.62629e-05 ) (not normalized) OPAL > * rms correlation = ( 9.93004e-01 , 9.93291e-01 , 9.93022e-01 ) OPAL > * hr = ( 3.61448 , 3.56521 , 3.59350 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 29.085 [ns] dT = 100.000 [ps] OPAL > * spos = 402.242 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:16 Step 280 at 403.625 [mm], t= 29.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:16 Step 281 at 405.008 [mm], t= 29.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:17 Step 282 at 406.391 [mm], t= 29.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:17 Step 283 at 407.774 [mm], t= 29.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:17 Step 284 at 409.157 [mm], t= 29.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:18 Step 285 at 410.540 [mm], t= 29.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:18 Step 286 at 411.923 [mm], t= 29.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:18 Step 287 at 413.306 [mm], t= 29.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:18 Step 288 at 414.689 [mm], t= 29.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:19 Step 289 at 416.072 [mm], t= 30.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 62.606 [keV] OPAL > * rmax = ( 27.51579 , 27.45639 , 27.60458 ) [mm] OPAL > * rmin = ( -27.65827 , -27.04163 , -27.22266 ) [mm] OPAL > * rms beam size = ( 13.08556 , 13.13688 , 13.10019 ) [mm] OPAL > * rms momenta = ( 1.44638e-03 , 1.44969e-03 , 1.44617e-03 ) [beta gamma] OPAL > * mean position = ( 0.00671 , -0.07110 , -0.66499 ) [um] OPAL > * mean momenta = ( 8.33546e-09 , -5.38115e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.60964e-05 , 4.54148e-05 , 4.60858e-05 ) (not normalized) OPAL > * rms correlation = ( 9.93636e-01 , 9.93899e-01 , 9.93651e-01 ) OPAL > * hr = ( 3.68220 , 3.63685 , 3.65914 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 30.085 [ns] dT = 100.000 [ps] OPAL > * spos = 416.072 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:19 Step 290 at 417.455 [mm], t= 30.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:19 Step 291 at 418.838 [mm], t= 30.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:20 Step 292 at 420.221 [mm], t= 30.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:20 Step 293 at 421.604 [mm], t= 30.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:20 Step 294 at 422.987 [mm], t= 30.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:20 Step 295 at 424.370 [mm], t= 30.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:21 Step 296 at 425.753 [mm], t= 30.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:21 Step 297 at 427.136 [mm], t= 30.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:21 Step 298 at 428.519 [mm], t= 30.985 [ns], E=1.003 [MeV] ParallelTTracker [2]> 10:20:21 Step 299 at 429.902 [mm], t= 31.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 63.199 [keV] OPAL > * rmax = ( 28.04336 , 27.98730 , 28.12763 ) [mm] OPAL > * rmin = ( -28.16571 , -27.69035 , -27.75261 ) [mm] OPAL > * rms beam size = ( 13.51814 , 13.57055 , 13.53180 ) [mm] OPAL > * rms momenta = ( 1.46007e-03 , 1.46339e-03 , 1.45987e-03 ) [beta gamma] OPAL > * mean position = ( 0.00931 , -0.08807 , -0.71325 ) [um] OPAL > * mean momenta = ( 8.95092e-09 , -5.92290e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.59076e-05 , 4.52168e-05 , 4.58946e-05 ) (not normalized) OPAL > * rms correlation = ( 9.94197e-01 , 9.94440e-01 , 9.94210e-01 ) OPAL > * hr = ( 3.75128 , 3.71525 , 3.72901 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 31.085 [ns] dT = 100.000 [ps] OPAL > * spos = 429.902 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:22 Step 300 at 431.285 [mm], t= 31.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:22 Step 301 at 432.668 [mm], t= 31.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:22 Step 302 at 434.051 [mm], t= 31.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:23 Step 303 at 435.434 [mm], t= 31.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:23 Step 304 at 436.817 [mm], t= 31.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:23 Step 305 at 438.200 [mm], t= 31.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:23 Step 306 at 439.583 [mm], t= 31.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:24 Step 307 at 440.966 [mm], t= 31.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:24 Step 308 at 442.349 [mm], t= 31.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:24 Step 309 at 443.732 [mm], t= 32.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 63.757 [keV] OPAL > * rmax = ( 28.58027 , 28.52750 , 28.66006 ) [mm] OPAL > * rmin = ( -28.68256 , -28.36563 , -28.36327 ) [mm] OPAL > * rms beam size = ( 13.95489 , 14.00840 , 13.96758 ) [mm] OPAL > * rms momenta = ( 1.47293e-03 , 1.47626e-03 , 1.47276e-03 ) [beta gamma] OPAL > * mean position = ( 0.01208 , -0.10636 , -0.76348 ) [um] OPAL > * mean momenta = ( 9.41752e-09 , -6.25480e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.57087e-05 , 4.50107e-05 , 4.56940e-05 ) (not normalized) OPAL > * rms correlation = ( 9.94697e-01 , 9.94920e-01 , 9.94708e-01 ) OPAL > * hr = ( 3.82161 , 3.79635 , 3.80531 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 32.085 [ns] dT = 100.000 [ps] OPAL > * spos = 443.732 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:25 Step 310 at 445.115 [mm], t= 32.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:25 Step 311 at 446.498 [mm], t= 32.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:25 Step 312 at 447.881 [mm], t= 32.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:25 Step 313 at 449.264 [mm], t= 32.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:26 Step 314 at 450.647 [mm], t= 32.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:26 Step 315 at 452.030 [mm], t= 32.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:26 Step 316 at 453.413 [mm], t= 32.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:27 Step 317 at 454.796 [mm], t= 32.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:27 Step 318 at 456.179 [mm], t= 32.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:27 Step 319 at 457.562 [mm], t= 33.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 64.282 [keV] OPAL > * rmax = ( 29.12588 , 29.07635 , 29.20120 ) [mm] OPAL > * rmin = ( -29.20814 , -29.06542 , -28.99642 ) [mm] OPAL > * rms beam size = ( 14.39558 , 14.45017 , 14.40728 ) [mm] OPAL > * rms momenta = ( 1.48503e-03 , 1.48837e-03 , 1.48488e-03 ) [beta gamma] OPAL > * mean position = ( 0.01497 , -0.12534 , -0.81529 ) [um] OPAL > * mean momenta = ( 9.75644e-09 , -6.39774e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.55033e-05 , 4.47997e-05 , 4.54877e-05 ) (not normalized) OPAL > * rms correlation = ( 9.95142e-01 , 9.95348e-01 , 9.95152e-01 ) OPAL > * hr = ( 3.89311 , 3.87964 , 3.88353 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 33.085 [ns] dT = 100.000 [ps] OPAL > * spos = 457.562 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:27 Step 320 at 458.945 [mm], t= 33.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:28 Step 321 at 460.328 [mm], t= 33.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:28 Step 322 at 461.711 [mm], t= 33.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:28 Step 323 at 463.094 [mm], t= 33.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:29 Step 324 at 464.477 [mm], t= 33.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:29 Step 325 at 465.860 [mm], t= 33.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:29 Step 326 at 467.243 [mm], t= 33.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:29 Step 327 at 468.626 [mm], t= 33.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:30 Step 328 at 470.009 [mm], t= 33.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:30 Step 329 at 471.392 [mm], t= 34.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 64.776 [keV] OPAL > * rmax = ( 29.67953 , 29.72618 , 29.75041 ) [mm] OPAL > * rmin = ( -29.74179 , -29.78380 , -29.70406 ) [mm] OPAL > * rms beam size = ( 14.83995 , 14.89563 , 14.85066 ) [mm] OPAL > * rms momenta = ( 1.49644e-03 , 1.49978e-03 , 1.49629e-03 ) [beta gamma] OPAL > * mean position = ( 0.01794 , -0.14452 , -0.86823 ) [um] OPAL > * mean momenta = ( 1.00039e-08 , -6.39801e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.52944e-05 , 4.45870e-05 , 4.52788e-05 ) (not normalized) OPAL > * rms correlation = ( 9.95540e-01 , 9.95730e-01 , 9.95549e-01 ) OPAL > * hr = ( 3.96569 , 3.97020 , 3.96712 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 34.085 [ns] dT = 100.000 [ps] OPAL > * spos = 471.392 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:30 Step 330 at 472.775 [mm], t= 34.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:31 Step 331 at 474.158 [mm], t= 34.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:31 Step 332 at 475.541 [mm], t= 34.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:31 Step 333 at 476.924 [mm], t= 34.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:31 Step 334 at 478.307 [mm], t= 34.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:32 Step 335 at 479.690 [mm], t= 34.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:32 Step 336 at 481.073 [mm], t= 34.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:32 Step 337 at 482.456 [mm], t= 34.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:32 Step 338 at 483.839 [mm], t= 34.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:33 Step 339 at 485.222 [mm], t= 35.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 65.242 [keV] OPAL > * rmax = ( 30.48275 , 30.52348 , 30.54768 ) [mm] OPAL > * rmin = ( -30.46420 , -30.56405 , -30.49356 ) [mm] OPAL > * rms beam size = ( 15.28780 , 15.34455 , 15.29752 ) [mm] OPAL > * rms momenta = ( 1.50720e-03 , 1.51053e-03 , 1.50706e-03 ) [beta gamma] OPAL > * mean position = ( 0.02094 , -0.16367 , -0.92191 ) [um] OPAL > * mean momenta = ( 9.84522e-09 , -6.39328e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.50861e-05 , 4.43761e-05 , 4.50711e-05 ) (not normalized) OPAL > * rms correlation = ( 9.95896e-01 , 9.96071e-01 , 9.95903e-01 ) OPAL > * hr = ( 4.06584 , 4.07531 , 4.07212 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 35.085 [ns] dT = 100.000 [ps] OPAL > * spos = 485.222 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:33 Step 340 at 486.605 [mm], t= 35.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:33 Step 341 at 487.988 [mm], t= 35.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:34 Step 342 at 489.371 [mm], t= 35.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:34 Step 343 at 490.754 [mm], t= 35.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:34 Step 344 at 492.137 [mm], t= 35.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:34 Step 345 at 493.520 [mm], t= 35.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:35 Step 346 at 494.903 [mm], t= 35.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:35 Step 347 at 496.286 [mm], t= 35.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:35 Step 348 at 497.669 [mm], t= 35.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:36 Step 349 at 499.052 [mm], t= 36.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 65.682 [keV] OPAL > * rmax = ( 31.31912 , 31.34733 , 31.37790 ) [mm] OPAL > * rmin = ( -31.26863 , -31.37358 , -31.30388 ) [mm] OPAL > * rms beam size = ( 15.73891 , 15.79674 , 15.74763 ) [mm] OPAL > * rms momenta = ( 1.51736e-03 , 1.52068e-03 , 1.51722e-03 ) [beta gamma] OPAL > * mean position = ( 0.02385 , -0.18281 , -0.97622 ) [um] OPAL > * mean momenta = ( 9.49664e-09 , -6.38934e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.48822e-05 , 4.41697e-05 , 4.48678e-05 ) (not normalized) OPAL > * rms correlation = ( 9.96214e-01 , 9.96376e-01 , 9.96220e-01 ) OPAL > * hr = ( 4.17533 , 4.18423 , 4.18163 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 36.085 [ns] dT = 100.000 [ps] OPAL > * spos = 499.052 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:36 Step 350 at 500.435 [mm], t= 36.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:36 Step 351 at 501.818 [mm], t= 36.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:36 Step 352 at 503.201 [mm], t= 36.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:37 Step 353 at 504.584 [mm], t= 36.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:37 Step 354 at 505.967 [mm], t= 36.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:37 Step 355 at 507.350 [mm], t= 36.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:38 Step 356 at 508.733 [mm], t= 36.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:38 Step 357 at 510.116 [mm], t= 36.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:38 Step 358 at 511.500 [mm], t= 36.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:38 Step 359 at 512.883 [mm], t= 37.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 66.098 [keV] OPAL > * rmax = ( 32.16722 , 32.18932 , 32.21474 ) [mm] OPAL > * rmin = ( -32.10634 , -32.19749 , -32.14270 ) [mm] OPAL > * rms beam size = ( 16.19311 , 16.25199 , 16.20082 ) [mm] OPAL > * rms momenta = ( 1.52695e-03 , 1.53027e-03 , 1.52682e-03 ) [beta gamma] OPAL > * mean position = ( 0.02664 , -0.20194 , -1.03117 ) [um] OPAL > * mean momenta = ( 9.06821e-09 , -6.39099e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.46837e-05 , 4.39690e-05 , 4.46699e-05 ) (not normalized) OPAL > * rms correlation = ( 9.96500e-01 , 9.96650e-01 , 9.96505e-01 ) OPAL > * hr = ( 4.28780 , 4.29544 , 4.29341 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 37.085 [ns] dT = 100.000 [ps] OPAL > * spos = 512.883 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:39 Step 360 at 514.266 [mm], t= 37.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:39 Step 361 at 515.649 [mm], t= 37.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:39 Step 362 at 517.032 [mm], t= 37.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:40 Step 363 at 518.415 [mm], t= 37.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:40 Step 364 at 519.798 [mm], t= 37.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:40 Step 365 at 521.181 [mm], t= 37.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:40 Step 366 at 522.564 [mm], t= 37.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:41 Step 367 at 523.947 [mm], t= 37.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:41 Step 368 at 525.330 [mm], t= 37.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:41 Step 369 at 526.713 [mm], t= 38.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 66.491 [keV] OPAL > * rmax = ( 33.02156 , 33.03940 , 33.06652 ) [mm] OPAL > * rmin = ( -32.95611 , -33.03982 , -33.00361 ) [mm] OPAL > * rms beam size = ( 16.65021 , 16.71016 , 16.65692 ) [mm] OPAL > * rms momenta = ( 1.53602e-03 , 1.53934e-03 , 1.53590e-03 ) [beta gamma] OPAL > * mean position = ( 0.02931 , -0.22109 , -1.08672 ) [um] OPAL > * mean momenta = ( 8.65953e-09 , -6.39435e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.44915e-05 , 4.37746e-05 , 4.44782e-05 ) (not normalized) OPAL > * rms correlation = ( 9.96757e-01 , 9.96897e-01 , 9.96761e-01 ) OPAL > * hr = ( 4.40160 , 4.40835 , 4.40774 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 38.085 [ns] dT = 100.000 [ps] OPAL > * spos = 526.713 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:42 Step 370 at 528.096 [mm], t= 38.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:42 Step 371 at 529.479 [mm], t= 38.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:42 Step 372 at 530.862 [mm], t= 38.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:42 Step 373 at 532.245 [mm], t= 38.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:43 Step 374 at 533.628 [mm], t= 38.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:43 Step 375 at 535.011 [mm], t= 38.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:43 Step 376 at 536.394 [mm], t= 38.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:43 Step 377 at 537.777 [mm], t= 38.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:44 Step 378 at 539.160 [mm], t= 38.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:44 Step 379 at 540.543 [mm], t= 39.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 66.864 [keV] OPAL > * rmax = ( 33.88180 , 33.90113 , 33.92418 ) [mm] OPAL > * rmin = ( -33.81341 , -33.90298 , -33.87040 ) [mm] OPAL > * rms beam size = ( 17.11006 , 17.17106 , 17.11576 ) [mm] OPAL > * rms momenta = ( 1.54461e-03 , 1.54793e-03 , 1.54450e-03 ) [beta gamma] OPAL > * mean position = ( 0.03186 , -0.24023 , -1.14281 ) [um] OPAL > * mean momenta = ( 8.27565e-09 , -6.39456e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.43062e-05 , 4.35872e-05 , 4.42934e-05 ) (not normalized) OPAL > * rms correlation = ( 9.96988e-01 , 9.97119e-01 , 9.96992e-01 ) OPAL > * hr = ( 4.51628 , 4.52353 , 4.52290 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 39.085 [ns] dT = 100.000 [ps] OPAL > * spos = 540.543 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:44 Step 380 at 541.926 [mm], t= 39.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:45 Step 381 at 543.309 [mm], t= 39.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:45 Step 382 at 544.692 [mm], t= 39.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:45 Step 383 at 546.075 [mm], t= 39.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:46 Step 384 at 547.458 [mm], t= 39.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:46 Step 385 at 548.841 [mm], t= 39.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:46 Step 386 at 550.224 [mm], t= 39.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:46 Step 387 at 551.607 [mm], t= 39.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:47 Step 388 at 552.990 [mm], t= 39.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:47 Step 389 at 554.373 [mm], t= 40.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 67.217 [keV] OPAL > * rmax = ( 34.74760 , 34.76838 , 34.78742 ) [mm] OPAL > * rmin = ( -34.67869 , -34.77652 , -34.74278 ) [mm] OPAL > * rms beam size = ( 17.57251 , 17.63456 , 17.57720 ) [mm] OPAL > * rms momenta = ( 1.55276e-03 , 1.55607e-03 , 1.55265e-03 ) [beta gamma] OPAL > * mean position = ( 0.03430 , -0.25938 , -1.19942 ) [um] OPAL > * mean momenta = ( 7.92443e-09 , -6.39109e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.41279e-05 , 4.34070e-05 , 4.41156e-05 ) (not normalized) OPAL > * rms correlation = ( 9.97198e-01 , 9.97319e-01 , 9.97200e-01 ) OPAL > * hr = ( 4.63188 , 4.63975 , 4.63880 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 40.085 [ns] dT = 100.000 [ps] OPAL > * spos = 554.373 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:47 Step 390 at 555.756 [mm], t= 40.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:48 Step 391 at 557.139 [mm], t= 40.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:48 Step 392 at 558.522 [mm], t= 40.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:48 Step 393 at 559.905 [mm], t= 40.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:48 Step 394 at 561.288 [mm], t= 40.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:49 Step 395 at 562.671 [mm], t= 40.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:49 Step 396 at 564.054 [mm], t= 40.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:49 Step 397 at 565.437 [mm], t= 40.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:50 Step 398 at 566.820 [mm], t= 40.985 [ns], E=1.003 [MeV] ParallelTTracker [2]> 10:20:50 Step 399 at 568.203 [mm], t= 41.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 67.552 [keV] OPAL > * rmax = ( 35.61868 , 35.64084 , 35.66718 ) [mm] OPAL > * rmin = ( -35.54922 , -35.66358 , -35.62043 ) [mm] OPAL > * rms beam size = ( 18.03743 , 18.10052 , 18.04109 ) [mm] OPAL > * rms momenta = ( 1.56049e-03 , 1.56380e-03 , 1.56039e-03 ) [beta gamma] OPAL > * mean position = ( 0.03664 , -0.27850 , -1.25651 ) [um] OPAL > * mean momenta = ( 7.60321e-09 , -6.38191e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.39570e-05 , 4.32342e-05 , 4.39452e-05 ) (not normalized) OPAL > * rms correlation = ( 9.97387e-01 , 9.97501e-01 , 9.97389e-01 ) OPAL > * hr = ( 4.74818 , 4.75724 , 4.75612 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 41.085 [ns] dT = 100.000 [ps] OPAL > * spos = 568.203 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:50 Step 400 at 569.586 [mm], t= 41.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:50 Step 401 at 570.969 [mm], t= 41.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:51 Step 402 at 572.352 [mm], t= 41.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:51 Step 403 at 573.735 [mm], t= 41.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:51 Step 404 at 575.118 [mm], t= 41.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:52 Step 405 at 576.501 [mm], t= 41.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:52 Step 406 at 577.884 [mm], t= 41.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:52 Step 407 at 579.267 [mm], t= 41.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:52 Step 408 at 580.650 [mm], t= 41.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:53 Step 409 at 582.033 [mm], t= 42.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 67.870 [keV] OPAL > * rmax = ( 36.49477 , 36.51826 , 36.55424 ) [mm] OPAL > * rmin = ( -36.42473 , -36.55575 , -36.50310 ) [mm] OPAL > * rms beam size = ( 18.50468 , 18.56881 , 18.50732 ) [mm] OPAL > * rms momenta = ( 1.56784e-03 , 1.57115e-03 , 1.56775e-03 ) [beta gamma] OPAL > * mean position = ( 0.03889 , -0.29759 , -1.31404 ) [um] OPAL > * mean momenta = ( 7.30835e-09 , -6.36708e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.37934e-05 , 4.30689e-05 , 4.37822e-05 ) (not normalized) OPAL > * rms correlation = ( 9.97559e-01 , 9.97665e-01 , 9.97561e-01 ) OPAL > * hr = ( 4.86516 , 4.87542 , 4.87430 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 42.085 [ns] dT = 100.000 [ps] OPAL > * spos = 582.033 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:53 Step 410 at 583.416 [mm], t= 42.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:53 Step 411 at 584.799 [mm], t= 42.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:54 Step 412 at 586.182 [mm], t= 42.385 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:54 Step 413 at 587.565 [mm], t= 42.485 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:54 Step 414 at 588.948 [mm], t= 42.585 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:54 Step 415 at 590.331 [mm], t= 42.685 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:55 Step 416 at 591.714 [mm], t= 42.785 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:55 Step 417 at 593.097 [mm], t= 42.885 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:55 Step 418 at 594.480 [mm], t= 42.985 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:55 Step 419 at 595.863 [mm], t= 43.085 [ns], E=1.003 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.003 [MeV] dEkin = 68.173 [keV] OPAL > * rmax = ( 37.39251 , 37.40604 , 37.44607 ) [mm] OPAL > * rmin = ( -37.30798 , -37.45265 , -37.39052 ) [mm] OPAL > * rms beam size = ( 18.97415 , 19.03932 , 18.97576 ) [mm] OPAL > * rms momenta = ( 1.57483e-03 , 1.57813e-03 , 1.57474e-03 ) [beta gamma] OPAL > * mean position = ( 0.04105 , -0.31663 , -1.37201 ) [um] OPAL > * mean momenta = ( 7.01273e-09 , -6.34787e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.36373e-05 , 4.29110e-05 , 4.36266e-05 ) (not normalized) OPAL > * rms correlation = ( 9.97715e-01 , 9.97815e-01 , 9.97717e-01 ) OPAL > * hr = ( 4.98398 , 4.99456 , 4.99313 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 43.085 [ns] dT = 100.000 [ps] OPAL > * spos = 595.863 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:56 Step 420 at 597.246 [mm], t= 43.185 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:56 Step 421 at 598.629 [mm], t= 43.285 [ns], E=1.003 [MeV] ParallelTTracker [3]> 10:20:56 Step 422 at 600.012 [mm], t= 43.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:57 Step 423 at 601.395 [mm], t= 43.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:57 Step 424 at 602.778 [mm], t= 43.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:57 Step 425 at 604.161 [mm], t= 43.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:58 Step 426 at 605.544 [mm], t= 43.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:58 Step 427 at 606.927 [mm], t= 43.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:58 Step 428 at 608.310 [mm], t= 43.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:58 Step 429 at 609.693 [mm], t= 44.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 68.461 [keV] OPAL > * rmax = ( 38.29522 , 38.30577 , 38.34242 ) [mm] OPAL > * rmin = ( -38.21017 , -38.35404 , -38.28247 ) [mm] OPAL > * rms beam size = ( 19.44572 , 19.51192 , 19.44631 ) [mm] OPAL > * rms momenta = ( 1.58148e-03 , 1.58478e-03 , 1.58140e-03 ) [beta gamma] OPAL > * mean position = ( 0.04312 , -0.33561 , -1.43039 ) [um] OPAL > * mean momenta = ( 6.71783e-09 , -6.32753e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.34885e-05 , 4.27606e-05 , 4.34783e-05 ) (not normalized) OPAL > * rms correlation = ( 9.97858e-01 , 9.97952e-01 , 9.97859e-01 ) OPAL > * hr = ( 5.10452 , 5.11484 , 5.11256 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 44.085 [ns] dT = 100.000 [ps] OPAL > * spos = 609.693 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:20:59 Step 430 at 611.076 [mm], t= 44.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:59 Step 431 at 612.459 [mm], t= 44.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:20:59 Step 432 at 613.842 [mm], t= 44.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:00 Step 433 at 615.225 [mm], t= 44.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:00 Step 434 at 616.608 [mm], t= 44.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:00 Step 435 at 617.991 [mm], t= 44.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:00 Step 436 at 619.374 [mm], t= 44.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:01 Step 437 at 620.757 [mm], t= 44.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:01 Step 438 at 622.140 [mm], t= 44.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:01 Step 439 at 623.523 [mm], t= 45.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 68.736 [keV] OPAL > * rmax = ( 39.20224 , 39.20976 , 39.24309 ) [mm] OPAL > * rmin = ( -39.11665 , -39.26067 , -39.17871 ) [mm] OPAL > * rms beam size = ( 19.91930 , 19.98654 , 19.91886 ) [mm] OPAL > * rms momenta = ( 1.58782e-03 , 1.59112e-03 , 1.58774e-03 ) [beta gamma] OPAL > * mean position = ( 0.04510 , -0.35453 , -1.48917 ) [um] OPAL > * mean momenta = ( 6.43809e-09 , -6.30681e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.33469e-05 , 4.26175e-05 , 4.33373e-05 ) (not normalized) OPAL > * rms correlation = ( 9.97988e-01 , 9.98076e-01 , 9.97989e-01 ) OPAL > * hr = ( 5.22563 , 5.23576 , 5.23256 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 45.085 [ns] dT = 100.000 [ps] OPAL > * spos = 623.523 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:02 Step 440 at 624.906 [mm], t= 45.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:02 Step 441 at 626.289 [mm], t= 45.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:02 Step 442 at 627.672 [mm], t= 45.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:02 Step 443 at 629.055 [mm], t= 45.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:03 Step 444 at 630.438 [mm], t= 45.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:03 Step 445 at 631.821 [mm], t= 45.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:03 Step 446 at 633.204 [mm], t= 45.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:04 Step 447 at 634.587 [mm], t= 45.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:04 Step 448 at 635.970 [mm], t= 45.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:04 Step 449 at 637.353 [mm], t= 46.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 68.998 [keV] OPAL > * rmax = ( 40.11335 , 40.11781 , 40.14786 ) [mm] OPAL > * rmin = ( -40.02723 , -40.17274 , -40.07905 ) [mm] OPAL > * rms beam size = ( 20.39479 , 20.46305 , 20.39331 ) [mm] OPAL > * rms momenta = ( 1.59387e-03 , 1.59717e-03 , 1.59380e-03 ) [beta gamma] OPAL > * mean position = ( 0.04701 , -0.37338 , -1.54833 ) [um] OPAL > * mean momenta = ( 6.17134e-09 , -6.28555e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.32125e-05 , 4.24814e-05 , 4.32033e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98107e-01 , 9.98190e-01 , 9.98107e-01 ) OPAL > * hr = ( 5.34729 , 5.35732 , 5.35312 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 46.085 [ns] dT = 100.000 [ps] OPAL > * spos = 637.353 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:04 Step 450 at 638.736 [mm], t= 46.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:05 Step 451 at 640.119 [mm], t= 46.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:05 Step 452 at 641.502 [mm], t= 46.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:05 Step 453 at 642.885 [mm], t= 46.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:06 Step 454 at 644.268 [mm], t= 46.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:06 Step 455 at 645.651 [mm], t= 46.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:06 Step 456 at 647.034 [mm], t= 46.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:06 Step 457 at 648.417 [mm], t= 46.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:07 Step 458 at 649.800 [mm], t= 46.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:07 Step 459 at 651.183 [mm], t= 47.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 69.249 [keV] OPAL > * rmax = ( 41.03014 , 41.02973 , 41.05964 ) [mm] OPAL > * rmin = ( -40.94172 , -41.08871 , -40.98330 ) [mm] OPAL > * rms beam size = ( 20.87211 , 20.94139 , 20.86959 ) [mm] OPAL > * rms momenta = ( 1.59964e-03 , 1.60294e-03 , 1.59957e-03 ) [beta gamma] OPAL > * mean position = ( 0.04883 , -0.39217 , -1.60786 ) [um] OPAL > * mean momenta = ( 5.91525e-09 , -6.26379e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.30849e-05 , 4.23523e-05 , 4.30762e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98216e-01 , 9.98295e-01 , 9.98216e-01 ) OPAL > * hr = ( 5.46958 , 5.47939 , 5.47436 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 47.085 [ns] dT = 100.000 [ps] OPAL > * spos = 651.183 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:07 Step 460 at 652.566 [mm], t= 47.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:08 Step 461 at 653.949 [mm], t= 47.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:08 Step 462 at 655.332 [mm], t= 47.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:08 Step 463 at 656.715 [mm], t= 47.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:08 Step 464 at 658.098 [mm], t= 47.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:09 Step 465 at 659.481 [mm], t= 47.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:09 Step 466 at 660.864 [mm], t= 47.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:09 Step 467 at 662.247 [mm], t= 47.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:09 Step 468 at 663.630 [mm], t= 47.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:10 Step 469 at 665.013 [mm], t= 48.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 69.488 [keV] OPAL > * rmax = ( 41.95546 , 41.94534 , 41.98313 ) [mm] OPAL > * rmin = ( -41.85994 , -42.00838 , -41.89127 ) [mm] OPAL > * rms beam size = ( 21.35116 , 21.42146 , 21.34760 ) [mm] OPAL > * rms momenta = ( 1.60516e-03 , 1.60846e-03 , 1.60510e-03 ) [beta gamma] OPAL > * mean position = ( 0.05058 , -0.41089 , -1.66775 ) [um] OPAL > * mean momenta = ( 5.65888e-09 , -6.24165e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.29640e-05 , 4.22299e-05 , 4.29558e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98317e-01 , 9.98391e-01 , 9.98317e-01 ) OPAL > * hr = ( 5.59270 , 5.60197 , 5.59668 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 48.085 [ns] dT = 100.000 [ps] OPAL > * spos = 665.013 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:10 Step 470 at 666.396 [mm], t= 48.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:10 Step 471 at 667.779 [mm], t= 48.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:11 Step 472 at 669.162 [mm], t= 48.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:11 Step 473 at 670.545 [mm], t= 48.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:11 Step 474 at 671.928 [mm], t= 48.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:11 Step 475 at 673.311 [mm], t= 48.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:12 Step 476 at 674.694 [mm], t= 48.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:12 Step 477 at 676.077 [mm], t= 48.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:12 Step 478 at 677.460 [mm], t= 48.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:13 Step 479 at 678.843 [mm], t= 49.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 69.716 [keV] OPAL > * rmax = ( 42.88435 , 42.86740 , 42.91020 ) [mm] OPAL > * rmin = ( -42.78172 , -42.93160 , -42.80280 ) [mm] OPAL > * rms beam size = ( 21.83187 , 21.90319 , 21.82727 ) [mm] OPAL > * rms momenta = ( 1.61044e-03 , 1.61373e-03 , 1.61038e-03 ) [beta gamma] OPAL > * mean position = ( 0.05225 , -0.42955 , -1.72798 ) [um] OPAL > * mean momenta = ( 5.39964e-09 , -6.21933e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.28496e-05 , 4.21140e-05 , 4.28419e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98409e-01 , 9.98479e-01 , 9.98409e-01 ) OPAL > * hr = ( 5.71630 , 5.72519 , 5.71948 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 49.085 [ns] dT = 100.000 [ps] OPAL > * spos = 678.843 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:13 Step 480 at 680.226 [mm], t= 49.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:13 Step 481 at 681.609 [mm], t= 49.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:13 Step 482 at 682.992 [mm], t= 49.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:14 Step 483 at 684.375 [mm], t= 49.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:14 Step 484 at 685.758 [mm], t= 49.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:14 Step 485 at 687.141 [mm], t= 49.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:15 Step 486 at 688.524 [mm], t= 49.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:15 Step 487 at 689.907 [mm], t= 49.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:15 Step 488 at 691.290 [mm], t= 49.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:15 Step 489 at 692.673 [mm], t= 50.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 69.935 [keV] OPAL > * rmax = ( 43.81666 , 43.79666 , 43.84069 ) [mm] OPAL > * rmin = ( -43.70692 , -43.85821 , -43.72478 ) [mm] OPAL > * rms beam size = ( 22.31416 , 22.38650 , 22.30852 ) [mm] OPAL > * rms momenta = ( 1.61549e-03 , 1.61878e-03 , 1.61543e-03 ) [beta gamma] OPAL > * mean position = ( 0.05385 , -0.44814 , -1.78856 ) [um] OPAL > * mean momenta = ( 5.13850e-09 , -6.19775e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.27415e-05 , 4.20044e-05 , 4.27342e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98494e-01 , 9.98561e-01 , 9.98494e-01 ) OPAL > * hr = ( 5.84036 , 5.84914 , 5.84315 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 50.085 [ns] dT = 100.000 [ps] OPAL > * spos = 692.673 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:16 Step 490 at 694.056 [mm], t= 50.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:16 Step 491 at 695.439 [mm], t= 50.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:16 Step 492 at 696.822 [mm], t= 50.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:17 Step 493 at 698.205 [mm], t= 50.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:17 Step 494 at 699.588 [mm], t= 50.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:17 Step 495 at 700.971 [mm], t= 50.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:17 Step 496 at 702.354 [mm], t= 50.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:18 Step 497 at 703.737 [mm], t= 50.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:18 Step 498 at 705.120 [mm], t= 50.985 [ns], E=1.004 [MeV] ParallelTTracker [2]> 10:21:18 Step 499 at 706.503 [mm], t= 51.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 70.145 [keV] OPAL > * rmax = ( 44.75224 , 44.73060 , 44.77447 ) [mm] OPAL > * rmin = ( -44.63539 , -44.78861 , -44.65863 ) [mm] OPAL > * rms beam size = ( 22.79797 , 22.87133 , 22.79129 ) [mm] OPAL > * rms momenta = ( 1.62033e-03 , 1.62362e-03 , 1.62028e-03 ) [beta gamma] OPAL > * mean position = ( 0.05536 , -0.46667 , -1.84947 ) [um] OPAL > * mean momenta = ( 4.87614e-09 , -6.17709e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.26394e-05 , 4.19008e-05 , 4.26326e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98573e-01 , 9.98636e-01 , 9.98572e-01 ) OPAL > * hr = ( 5.96486 , 5.97360 , 5.96788 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 51.085 [ns] dT = 100.000 [ps] OPAL > * spos = 706.503 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:19 Step 500 at 707.886 [mm], t= 51.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:19 Step 501 at 709.269 [mm], t= 51.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:19 Step 502 at 710.653 [mm], t= 51.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:19 Step 503 at 712.036 [mm], t= 51.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:20 Step 504 at 713.419 [mm], t= 51.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:20 Step 505 at 714.802 [mm], t= 51.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:20 Step 506 at 716.185 [mm], t= 51.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:20 Step 507 at 717.568 [mm], t= 51.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:21 Step 508 at 718.951 [mm], t= 51.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:21 Step 509 at 720.334 [mm], t= 52.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 70.346 [keV] OPAL > * rmax = ( 45.69095 , 45.67551 , 45.71826 ) [mm] OPAL > * rmin = ( -45.56699 , -45.72784 , -45.59559 ) [mm] OPAL > * rms beam size = ( 23.28324 , 23.35761 , 23.27550 ) [mm] OPAL > * rms momenta = ( 1.62497e-03 , 1.62825e-03 , 1.62492e-03 ) [beta gamma] OPAL > * mean position = ( 0.05680 , -0.48513 , -1.91070 ) [um] OPAL > * mean momenta = ( 4.61349e-09 , -6.15771e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.25430e-05 , 4.18030e-05 , 4.25367e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98646e-01 , 9.98706e-01 , 9.98645e-01 ) OPAL > * hr = ( 6.08977 , 6.09944 , 6.09347 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 52.085 [ns] dT = 100.000 [ps] OPAL > * spos = 720.334 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:21 Step 510 at 721.717 [mm], t= 52.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:22 Step 511 at 723.100 [mm], t= 52.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:22 Step 512 at 724.483 [mm], t= 52.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:22 Step 513 at 725.866 [mm], t= 52.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:22 Step 514 at 727.249 [mm], t= 52.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:23 Step 515 at 728.632 [mm], t= 52.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:23 Step 516 at 730.015 [mm], t= 52.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:23 Step 517 at 731.398 [mm], t= 52.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:24 Step 518 at 732.781 [mm], t= 52.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:24 Step 519 at 734.164 [mm], t= 53.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 70.539 [keV] OPAL > * rmax = ( 46.63267 , 46.62341 , 46.66637 ) [mm] OPAL > * rmin = ( -46.50158 , -46.67005 , -46.53553 ) [mm] OPAL > * rms beam size = ( 23.76990 , 23.84528 , 23.76111 ) [mm] OPAL > * rms momenta = ( 1.62942e-03 , 1.63270e-03 , 1.62937e-03 ) [beta gamma] OPAL > * mean position = ( 0.05816 , -0.50354 , -1.97223 ) [um] OPAL > * mean momenta = ( 4.35142e-09 , -6.13970e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.24522e-05 , 4.17108e-05 , 4.24464e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98713e-01 , 9.98771e-01 , 9.98713e-01 ) OPAL > * hr = ( 6.21509 , 6.22568 , 6.21957 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 53.085 [ns] dT = 100.000 [ps] OPAL > * spos = 734.164 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:24 Step 520 at 735.547 [mm], t= 53.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:24 Step 521 at 736.930 [mm], t= 53.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:25 Step 522 at 738.313 [mm], t= 53.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:25 Step 523 at 739.696 [mm], t= 53.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:25 Step 524 at 741.079 [mm], t= 53.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:26 Step 525 at 742.462 [mm], t= 53.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:26 Step 526 at 743.845 [mm], t= 53.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:26 Step 527 at 745.228 [mm], t= 53.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:26 Step 528 at 746.611 [mm], t= 53.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:27 Step 529 at 747.994 [mm], t= 54.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 70.724 [keV] OPAL > * rmax = ( 47.57974 , 47.57418 , 47.61737 ) [mm] OPAL > * rmin = ( -47.43906 , -47.61557 , -47.48348 ) [mm] OPAL > * rms beam size = ( 24.25789 , 24.33429 , 24.24806 ) [mm] OPAL > * rms momenta = ( 1.63369e-03 , 1.63697e-03 , 1.63365e-03 ) [beta gamma] OPAL > * mean position = ( 0.05944 , -0.52190 , -2.03406 ) [um] OPAL > * mean momenta = ( 4.08980e-09 , -6.12292e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.23668e-05 , 4.16240e-05 , 4.23615e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98776e-01 , 9.98831e-01 , 9.98775e-01 ) OPAL > * hr = ( 6.34094 , 6.35233 , 6.34637 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 54.085 [ns] dT = 100.000 [ps] OPAL > * spos = 747.994 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:27 Step 530 at 749.377 [mm], t= 54.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:27 Step 531 at 750.760 [mm], t= 54.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:28 Step 532 at 752.143 [mm], t= 54.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:28 Step 533 at 753.526 [mm], t= 54.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:28 Step 534 at 754.909 [mm], t= 54.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:28 Step 535 at 756.292 [mm], t= 54.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:29 Step 536 at 757.675 [mm], t= 54.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:29 Step 537 at 759.058 [mm], t= 54.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:29 Step 538 at 760.441 [mm], t= 54.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:30 Step 539 at 761.824 [mm], t= 55.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 70.902 [keV] OPAL > * rmax = ( 48.53185 , 48.52771 , 48.57114 ) [mm] OPAL > * rmin = ( -48.38741 , -48.56536 , -48.44001 ) [mm] OPAL > * rms beam size = ( 24.74717 , 24.82457 , 24.73628 ) [mm] OPAL > * rms momenta = ( 1.63779e-03 , 1.64108e-03 , 1.63776e-03 ) [beta gamma] OPAL > * mean position = ( 0.06064 , -0.54021 , -2.09618 ) [um] OPAL > * mean momenta = ( 3.82884e-09 , -6.10711e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.22864e-05 , 4.15422e-05 , 4.22816e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98834e-01 , 9.98886e-01 , 9.98833e-01 ) OPAL > * hr = ( 6.46785 , 6.47945 , 6.47396 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 55.085 [ns] dT = 100.000 [ps] OPAL > * spos = 761.824 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:30 Step 540 at 763.207 [mm], t= 55.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:30 Step 541 at 764.590 [mm], t= 55.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:30 Step 542 at 765.973 [mm], t= 55.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:31 Step 543 at 767.356 [mm], t= 55.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:31 Step 544 at 768.739 [mm], t= 55.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:31 Step 545 at 770.122 [mm], t= 55.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:32 Step 546 at 771.505 [mm], t= 55.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:32 Step 547 at 772.888 [mm], t= 55.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:32 Step 548 at 774.271 [mm], t= 55.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:32 Step 549 at 775.654 [mm], t= 56.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 71.073 [keV] OPAL > * rmax = ( 49.48663 , 49.48389 , 49.52759 ) [mm] OPAL > * rmin = ( -49.33925 , -49.51778 , -49.40175 ) [mm] OPAL > * rms beam size = ( 25.23768 , 25.31609 , 25.22574 ) [mm] OPAL > * rms momenta = ( 1.64174e-03 , 1.64502e-03 , 1.64171e-03 ) [beta gamma] OPAL > * mean position = ( 0.06177 , -0.55848 , -2.15857 ) [um] OPAL > * mean momenta = ( 3.57435e-09 , -6.09209e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.22109e-05 , 4.14654e-05 , 4.22067e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98888e-01 , 9.98938e-01 , 9.98888e-01 ) OPAL > * hr = ( 6.59519 , 6.60693 , 6.60205 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 56.085 [ns] dT = 100.000 [ps] OPAL > * spos = 775.654 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:33 Step 550 at 777.037 [mm], t= 56.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:33 Step 551 at 778.420 [mm], t= 56.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:33 Step 552 at 779.803 [mm], t= 56.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:34 Step 553 at 781.186 [mm], t= 56.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:34 Step 554 at 782.569 [mm], t= 56.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:34 Step 555 at 783.952 [mm], t= 56.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:34 Step 556 at 785.335 [mm], t= 56.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:35 Step 557 at 786.718 [mm], t= 56.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:35 Step 558 at 788.101 [mm], t= 56.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:35 Step 559 at 789.484 [mm], t= 57.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 71.238 [keV] OPAL > * rmax = ( 50.44398 , 50.44262 , 50.48660 ) [mm] OPAL > * rmin = ( -50.29364 , -50.47273 , -50.36975 ) [mm] OPAL > * rms beam size = ( 25.72937 , 25.80879 , 25.71637 ) [mm] OPAL > * rms momenta = ( 1.64553e-03 , 1.64881e-03 , 1.64551e-03 ) [beta gamma] OPAL > * mean position = ( 0.06282 , -0.57670 , -2.22122 ) [um] OPAL > * mean momenta = ( 3.32637e-09 , -6.07783e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.21401e-05 , 4.13932e-05 , 4.21364e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98939e-01 , 9.98987e-01 , 9.98938e-01 ) OPAL > * hr = ( 6.72288 , 6.73475 , 6.73076 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 57.085 [ns] dT = 100.000 [ps] OPAL > * spos = 789.484 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:36 Step 560 at 790.867 [mm], t= 57.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:36 Step 561 at 792.250 [mm], t= 57.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:36 Step 562 at 793.633 [mm], t= 57.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:36 Step 563 at 795.016 [mm], t= 57.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:37 Step 564 at 796.399 [mm], t= 57.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:37 Step 565 at 797.782 [mm], t= 57.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:37 Step 566 at 799.165 [mm], t= 57.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:37 Step 567 at 800.548 [mm], t= 57.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:38 Step 568 at 801.931 [mm], t= 57.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:38 Step 569 at 803.314 [mm], t= 58.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 71.396 [keV] OPAL > * rmax = ( 51.40379 , 51.40381 , 51.44809 ) [mm] OPAL > * rmin = ( -51.25049 , -51.43012 , -51.34020 ) [mm] OPAL > * rms beam size = ( 26.22220 , 26.30262 , 26.20815 ) [mm] OPAL > * rms momenta = ( 1.64919e-03 , 1.65247e-03 , 1.64916e-03 ) [beta gamma] OPAL > * mean position = ( 0.06379 , -0.59488 , -2.28413 ) [um] OPAL > * mean momenta = ( 3.08466e-09 , -6.06433e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.20737e-05 , 4.13255e-05 , 4.20706e-05 ) (not normalized) OPAL > * rms correlation = ( 9.98986e-01 , 9.99032e-01 , 9.98985e-01 ) OPAL > * hr = ( 6.85090 , 6.86289 , 6.85980 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 58.085 [ns] dT = 100.000 [ps] OPAL > * spos = 803.314 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:38 Step 570 at 804.697 [mm], t= 58.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:39 Step 571 at 806.080 [mm], t= 58.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:39 Step 572 at 807.463 [mm], t= 58.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:39 Step 573 at 808.846 [mm], t= 58.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:39 Step 574 at 810.229 [mm], t= 58.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:40 Step 575 at 811.612 [mm], t= 58.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:40 Step 576 at 812.995 [mm], t= 58.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:40 Step 577 at 814.378 [mm], t= 58.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:41 Step 578 at 815.761 [mm], t= 58.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:41 Step 579 at 817.144 [mm], t= 59.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 71.549 [keV] OPAL > * rmax = ( 52.36599 , 52.36737 , 52.41196 ) [mm] OPAL > * rmin = ( -52.21537 , -52.38984 , -52.31303 ) [mm] OPAL > * rms beam size = ( 26.71613 , 26.79755 , 26.70101 ) [mm] OPAL > * rms momenta = ( 1.65271e-03 , 1.65599e-03 , 1.65269e-03 ) [beta gamma] OPAL > * mean position = ( 0.06470 , -0.61302 , -2.34727 ) [um] OPAL > * mean momenta = ( 2.85174e-09 , -6.05157e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.20116e-05 , 4.12621e-05 , 4.20090e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99030e-01 , 9.99074e-01 , 9.99029e-01 ) OPAL > * hr = ( 6.97959 , 6.99135 , 6.98915 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 59.085 [ns] dT = 100.000 [ps] OPAL > * spos = 817.144 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:41 Step 580 at 818.527 [mm], t= 59.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:41 Step 581 at 819.910 [mm], t= 59.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:42 Step 582 at 821.293 [mm], t= 59.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:42 Step 583 at 822.676 [mm], t= 59.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:42 Step 584 at 824.059 [mm], t= 59.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:43 Step 585 at 825.442 [mm], t= 59.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:43 Step 586 at 826.825 [mm], t= 59.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:43 Step 587 at 828.208 [mm], t= 59.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:43 Step 588 at 829.591 [mm], t= 59.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:44 Step 589 at 830.974 [mm], t= 60.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 71.696 [keV] OPAL > * rmax = ( 53.33585 , 53.33320 , 53.37812 ) [mm] OPAL > * rmin = ( -53.18317 , -53.35183 , -53.28814 ) [mm] OPAL > * rms beam size = ( 27.21111 , 27.29353 , 27.19493 ) [mm] OPAL > * rms momenta = ( 1.65610e-03 , 1.65938e-03 , 1.65608e-03 ) [beta gamma] OPAL > * mean position = ( 0.06554 , -0.63112 , -2.41064 ) [um] OPAL > * mean momenta = ( 2.62840e-09 , -6.03951e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.19535e-05 , 4.12027e-05 , 4.19515e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99072e-01 , 9.99114e-01 , 9.99071e-01 ) OPAL > * hr = ( 7.10899 , 7.12011 , 7.11881 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 60.085 [ns] dT = 100.000 [ps] OPAL > * spos = 830.974 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:44 Step 590 at 832.357 [mm], t= 60.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:44 Step 591 at 833.740 [mm], t= 60.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:45 Step 592 at 835.123 [mm], t= 60.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:45 Step 593 at 836.506 [mm], t= 60.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:45 Step 594 at 837.889 [mm], t= 60.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:45 Step 595 at 839.272 [mm], t= 60.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:46 Step 596 at 840.655 [mm], t= 60.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:46 Step 597 at 842.038 [mm], t= 60.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:46 Step 598 at 843.421 [mm], t= 60.985 [ns], E=1.004 [MeV] ParallelTTracker [2]> 10:21:47 Step 599 at 844.804 [mm], t= 61.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 71.838 [keV] OPAL > * rmax = ( 54.30963 , 54.30123 , 54.34650 ) [mm] OPAL > * rmin = ( -54.15318 , -54.31599 , -54.26545 ) [mm] OPAL > * rms beam size = ( 27.70711 , 27.79053 , 27.68987 ) [mm] OPAL > * rms momenta = ( 1.65937e-03 , 1.66265e-03 , 1.65936e-03 ) [beta gamma] OPAL > * mean position = ( 0.06631 , -0.64918 , -2.47422 ) [um] OPAL > * mean momenta = ( 2.40908e-09 , -6.02811e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.18994e-05 , 4.11472e-05 , 4.18978e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99111e-01 , 9.99151e-01 , 9.99109e-01 ) OPAL > * hr = ( 7.23882 , 7.24917 , 7.24877 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 61.085 [ns] dT = 100.000 [ps] OPAL > * spos = 844.804 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:47 Step 600 at 846.187 [mm], t= 61.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:47 Step 601 at 847.570 [mm], t= 61.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:47 Step 602 at 848.953 [mm], t= 61.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:48 Step 603 at 850.336 [mm], t= 61.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:48 Step 604 at 851.719 [mm], t= 61.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:48 Step 605 at 853.102 [mm], t= 61.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:49 Step 606 at 854.485 [mm], t= 61.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:49 Step 607 at 855.868 [mm], t= 61.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:49 Step 608 at 857.251 [mm], t= 61.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:49 Step 609 at 858.634 [mm], t= 62.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 71.974 [keV] OPAL > * rmax = ( 55.28554 , 55.27138 , 55.31701 ) [mm] OPAL > * rmin = ( -55.12530 , -55.28226 , -55.24490 ) [mm] OPAL > * rms beam size = ( 28.20409 , 28.28851 , 28.18578 ) [mm] OPAL > * rms momenta = ( 1.66253e-03 , 1.66581e-03 , 1.66252e-03 ) [beta gamma] OPAL > * mean position = ( 0.06701 , -0.66722 , -2.53801 ) [um] OPAL > * mean momenta = ( 2.19378e-09 , -6.01733e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.18489e-05 , 4.10955e-05 , 4.18479e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99147e-01 , 9.99186e-01 , 9.99146e-01 ) OPAL > * hr = ( 7.36893 , 7.37851 , 7.37902 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 62.085 [ns] dT = 100.000 [ps] OPAL > * spos = 858.634 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:50 Step 610 at 860.017 [mm], t= 62.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:50 Step 611 at 861.400 [mm], t= 62.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:50 Step 612 at 862.783 [mm], t= 62.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:51 Step 613 at 864.166 [mm], t= 62.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:51 Step 614 at 865.549 [mm], t= 62.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:51 Step 615 at 866.932 [mm], t= 62.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:51 Step 616 at 868.315 [mm], t= 62.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:52 Step 617 at 869.698 [mm], t= 62.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:52 Step 618 at 871.081 [mm], t= 62.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:52 Step 619 at 872.464 [mm], t= 63.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 72.107 [keV] OPAL > * rmax = ( 56.26351 , 56.24358 , 56.28958 ) [mm] OPAL > * rmin = ( -56.09948 , -56.25055 , -56.22639 ) [mm] OPAL > * rms beam size = ( 28.70201 , 28.78743 , 28.68264 ) [mm] OPAL > * rms momenta = ( 1.66558e-03 , 1.66885e-03 , 1.66557e-03 ) [beta gamma] OPAL > * mean position = ( 0.06766 , -0.68522 , -2.60199 ) [um] OPAL > * mean momenta = ( 1.98275e-09 , -6.00713e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.18019e-05 , 4.10472e-05 , 4.18015e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99181e-01 , 9.99218e-01 , 9.99180e-01 ) OPAL > * hr = ( 7.49932 , 7.50812 , 7.50953 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 63.085 [ns] dT = 100.000 [ps] OPAL > * spos = 872.464 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:53 Step 620 at 873.847 [mm], t= 63.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:53 Step 621 at 875.230 [mm], t= 63.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:53 Step 622 at 876.613 [mm], t= 63.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:53 Step 623 at 877.996 [mm], t= 63.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:54 Step 624 at 879.379 [mm], t= 63.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:54 Step 625 at 880.762 [mm], t= 63.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:54 Step 626 at 882.145 [mm], t= 63.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:54 Step 627 at 883.528 [mm], t= 63.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:55 Step 628 at 884.911 [mm], t= 63.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:55 Step 629 at 886.294 [mm], t= 64.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 72.234 [keV] OPAL > * rmax = ( 57.24348 , 57.21775 , 57.27043 ) [mm] OPAL > * rmin = ( -57.07563 , -57.22079 , -57.20988 ) [mm] OPAL > * rms beam size = ( 29.20085 , 29.28726 , 29.18042 ) [mm] OPAL > * rms momenta = ( 1.66852e-03 , 1.67180e-03 , 1.66852e-03 ) [beta gamma] OPAL > * mean position = ( 0.06824 , -0.70319 , -2.66616 ) [um] OPAL > * mean momenta = ( 1.77601e-09 , -5.99748e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.17583e-05 , 4.10024e-05 , 4.17584e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99213e-01 , 9.99249e-01 , 9.99212e-01 ) OPAL > * hr = ( 7.62998 , 7.63799 , 7.64071 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 64.085 [ns] dT = 100.000 [ps] OPAL > * spos = 886.294 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:55 Step 630 at 887.677 [mm], t= 64.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:56 Step 631 at 889.060 [mm], t= 64.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:56 Step 632 at 890.443 [mm], t= 64.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:56 Step 633 at 891.826 [mm], t= 64.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:56 Step 634 at 893.209 [mm], t= 64.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:57 Step 635 at 894.592 [mm], t= 64.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:57 Step 636 at 895.975 [mm], t= 64.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:57 Step 637 at 897.358 [mm], t= 64.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:58 Step 638 at 898.741 [mm], t= 64.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:58 Step 639 at 900.124 [mm], t= 65.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 72.358 [keV] OPAL > * rmax = ( 58.22537 , 58.19384 , 58.25479 ) [mm] OPAL > * rmin = ( -58.05370 , -58.19293 , -58.19528 ) [mm] OPAL > * rms beam size = ( 29.70057 , 29.78798 , 29.67907 ) [mm] OPAL > * rms momenta = ( 1.67137e-03 , 1.67464e-03 , 1.67136e-03 ) [beta gamma] OPAL > * mean position = ( 0.06876 , -0.72114 , -2.73051 ) [um] OPAL > * mean momenta = ( 1.57350e-09 , -5.98833e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.17179e-05 , 4.09607e-05 , 4.17186e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99244e-01 , 9.99278e-01 , 9.99242e-01 ) OPAL > * hr = ( 7.76089 , 7.76812 , 7.77228 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 65.085 [ns] dT = 100.000 [ps] OPAL > * spos = 900.124 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:21:58 Step 640 at 901.507 [mm], t= 65.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:58 Step 641 at 902.890 [mm], t= 65.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:59 Step 642 at 904.273 [mm], t= 65.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:59 Step 643 at 905.656 [mm], t= 65.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:21:59 Step 644 at 907.039 [mm], t= 65.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:00 Step 645 at 908.423 [mm], t= 65.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:00 Step 646 at 909.806 [mm], t= 65.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:00 Step 647 at 911.189 [mm], t= 65.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:00 Step 648 at 912.572 [mm], t= 65.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:01 Step 649 at 913.955 [mm], t= 66.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 72.477 [keV] OPAL > * rmax = ( 59.20912 , 59.17176 , 59.24102 ) [mm] OPAL > * rmin = ( -59.04160 , -59.16689 , -59.18254 ) [mm] OPAL > * rms beam size = ( 30.20114 , 30.28955 , 30.17857 ) [mm] OPAL > * rms momenta = ( 1.67412e-03 , 1.67739e-03 , 1.67412e-03 ) [beta gamma] OPAL > * mean position = ( 0.06921 , -0.73906 , -2.79504 ) [um] OPAL > * mean momenta = ( 1.37747e-09 , -5.97967e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.16806e-05 , 4.09222e-05 , 4.16818e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99272e-01 , 9.99305e-01 , 9.99271e-01 ) OPAL > * hr = ( 7.89255 , 7.89850 , 7.90410 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 66.085 [ns] dT = 100.000 [ps] OPAL > * spos = 913.955 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:22:01 Step 650 at 915.338 [mm], t= 66.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:01 Step 651 at 916.721 [mm], t= 66.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:02 Step 652 at 918.104 [mm], t= 66.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:02 Step 653 at 919.487 [mm], t= 66.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:02 Step 654 at 920.870 [mm], t= 66.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:02 Step 655 at 922.253 [mm], t= 66.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:03 Step 656 at 923.636 [mm], t= 66.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:03 Step 657 at 925.019 [mm], t= 66.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:03 Step 658 at 926.402 [mm], t= 66.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:04 Step 659 at 927.785 [mm], t= 67.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 72.592 [keV] OPAL > * rmax = ( 60.19494 , 60.15148 , 60.22904 ) [mm] OPAL > * rmin = ( -60.03246 , -60.14262 , -60.17160 ) [mm] OPAL > * rms beam size = ( 30.70253 , 30.79194 , 30.67890 ) [mm] OPAL > * rms momenta = ( 1.67679e-03 , 1.68005e-03 , 1.67678e-03 ) [beta gamma] OPAL > * mean position = ( 0.06962 , -0.75695 , -2.85973 ) [um] OPAL > * mean momenta = ( 1.19150e-09 , -5.97145e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.16462e-05 , 4.08865e-05 , 4.16479e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99299e-01 , 9.99331e-01 , 9.99298e-01 ) OPAL > * hr = ( 8.02457 , 8.02911 , 8.03615 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 67.085 [ns] dT = 100.000 [ps] OPAL > * spos = 927.785 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:22:04 Step 660 at 929.168 [mm], t= 67.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:04 Step 661 at 930.551 [mm], t= 67.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:04 Step 662 at 931.934 [mm], t= 67.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:05 Step 663 at 933.317 [mm], t= 67.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:05 Step 664 at 934.700 [mm], t= 67.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:05 Step 665 at 936.083 [mm], t= 67.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:06 Step 666 at 937.466 [mm], t= 67.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:06 Step 667 at 938.849 [mm], t= 67.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:06 Step 668 at 940.232 [mm], t= 67.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:06 Step 669 at 941.615 [mm], t= 68.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 72.704 [keV] OPAL > * rmax = ( 61.18602 , 61.13764 , 61.21881 ) [mm] OPAL > * rmin = ( -61.02505 , -61.12006 , -61.16240 ) [mm] OPAL > * rms beam size = ( 31.20472 , 31.29512 , 31.18002 ) [mm] OPAL > * rms momenta = ( 1.67936e-03 , 1.68263e-03 , 1.67936e-03 ) [beta gamma] OPAL > * mean position = ( 0.06996 , -0.77482 , -2.92459 ) [um] OPAL > * mean momenta = ( 1.01360e-09 , -5.96372e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.16146e-05 , 4.08537e-05 , 4.16167e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99325e-01 , 9.99355e-01 , 9.99324e-01 ) OPAL > * hr = ( 8.15707 , 8.16023 , 8.16844 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 68.085 [ns] dT = 100.000 [ps] OPAL > * spos = 941.615 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:22:07 Step 670 at 942.998 [mm], t= 68.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:07 Step 671 at 944.381 [mm], t= 68.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:07 Step 672 at 945.764 [mm], t= 68.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:08 Step 673 at 947.147 [mm], t= 68.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:08 Step 674 at 948.530 [mm], t= 68.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:08 Step 675 at 949.913 [mm], t= 68.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:08 Step 676 at 951.296 [mm], t= 68.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:09 Step 677 at 952.679 [mm], t= 68.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:09 Step 678 at 954.062 [mm], t= 68.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:09 Step 679 at 955.445 [mm], t= 69.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 72.812 [keV] OPAL > * rmax = ( 62.17879 , 62.13068 , 62.21026 ) [mm] OPAL > * rmin = ( -62.01934 , -62.10284 , -62.15725 ) [mm] OPAL > * rms beam size = ( 31.70769 , 31.79908 , 31.68192 ) [mm] OPAL > * rms momenta = ( 1.68186e-03 , 1.68513e-03 , 1.68186e-03 ) [beta gamma] OPAL > * mean position = ( 0.07026 , -0.79266 , -2.98961 ) [um] OPAL > * mean momenta = ( 8.42254e-10 , -5.95686e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.15856e-05 , 4.08235e-05 , 4.15882e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99349e-01 , 9.99378e-01 , 9.99348e-01 ) OPAL > * hr = ( 8.28979 , 8.29219 , 8.30110 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 69.085 [ns] dT = 100.000 [ps] OPAL > * spos = 955.445 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:22:09 Step 680 at 956.828 [mm], t= 69.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:10 Step 681 at 958.211 [mm], t= 69.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:10 Step 682 at 959.594 [mm], t= 69.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:10 Step 683 at 960.977 [mm], t= 69.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:11 Step 684 at 962.360 [mm], t= 69.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:11 Step 685 at 963.743 [mm], t= 69.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:11 Step 686 at 965.126 [mm], t= 69.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:11 Step 687 at 966.509 [mm], t= 69.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:12 Step 688 at 967.892 [mm], t= 69.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:12 Step 689 at 969.275 [mm], t= 70.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 72.917 [keV] OPAL > * rmax = ( 63.17320 , 63.12532 , 63.20335 ) [mm] OPAL > * rmin = ( -63.01527 , -63.08879 , -63.15713 ) [mm] OPAL > * rms beam size = ( 32.21140 , 32.30378 , 32.18456 ) [mm] OPAL > * rms momenta = ( 1.68428e-03 , 1.68754e-03 , 1.68428e-03 ) [beta gamma] OPAL > * mean position = ( 0.07050 , -0.81049 , -3.05478 ) [um] OPAL > * mean momenta = ( 6.77298e-10 , -5.95072e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.15591e-05 , 4.07958e-05 , 4.15623e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99372e-01 , 9.99400e-01 , 9.99370e-01 ) OPAL > * hr = ( 8.42274 , 8.42448 , 8.43422 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 70.085 [ns] dT = 100.000 [ps] OPAL > * spos = 969.275 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:22:12 Step 690 at 970.658 [mm], t= 70.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:13 Step 691 at 972.041 [mm], t= 70.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:13 Step 692 at 973.424 [mm], t= 70.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:13 Step 693 at 974.807 [mm], t= 70.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:13 Step 694 at 976.190 [mm], t= 70.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:14 Step 695 at 977.573 [mm], t= 70.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:14 Step 696 at 978.956 [mm], t= 70.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:14 Step 697 at 980.339 [mm], t= 70.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:15 Step 698 at 981.722 [mm], t= 70.985 [ns], E=1.004 [MeV] ParallelTTracker [2]> 10:22:15 Step 699 at 983.105 [mm], t= 71.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 73.019 [keV] OPAL > * rmax = ( 64.16919 , 64.12152 , 64.19803 ) [mm] OPAL > * rmin = ( -64.01279 , -64.07629 , -64.15859 ) [mm] OPAL > * rms beam size = ( 32.71583 , 32.80921 , 32.68792 ) [mm] OPAL > * rms momenta = ( 1.68662e-03 , 1.68989e-03 , 1.68663e-03 ) [beta gamma] OPAL > * mean position = ( 0.07070 , -0.82830 , -3.12010 ) [um] OPAL > * mean momenta = ( 5.18391e-10 , -5.94524e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.15351e-05 , 4.07706e-05 , 4.15387e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99393e-01 , 9.99421e-01 , 9.99392e-01 ) OPAL > * hr = ( 8.55589 , 8.55698 , 8.56755 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 71.085 [ns] dT = 100.000 [ps] OPAL > * spos = 983.105 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:22:15 Step 700 at 984.488 [mm], t= 71.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:15 Step 701 at 985.871 [mm], t= 71.285 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:16 Step 702 at 987.254 [mm], t= 71.385 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:16 Step 703 at 988.637 [mm], t= 71.485 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:16 Step 704 at 990.020 [mm], t= 71.585 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:17 Step 705 at 991.403 [mm], t= 71.685 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:17 Step 706 at 992.786 [mm], t= 71.785 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:17 Step 707 at 994.169 [mm], t= 71.885 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:17 Step 708 at 995.552 [mm], t= 71.985 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:18 Step 709 at 996.935 [mm], t= 72.085 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 73.117 [keV] OPAL > * rmax = ( 65.16672 , 65.11923 , 65.19424 ) [mm] OPAL > * rmin = ( -65.01186 , -65.06531 , -65.16161 ) [mm] OPAL > * rms beam size = ( 33.22097 , 33.31534 , 33.19198 ) [mm] OPAL > * rms momenta = ( 1.68889e-03 , 1.69216e-03 , 1.68890e-03 ) [beta gamma] OPAL > * mean position = ( 0.07085 , -0.84610 , -3.18556 ) [um] OPAL > * mean momenta = ( 3.65219e-10 , -5.94038e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.15133e-05 , 4.07477e-05 , 4.15174e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99414e-01 , 9.99440e-01 , 9.99413e-01 ) OPAL > * hr = ( 8.68926 , 8.68969 , 8.70109 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 72.085 [ns] dT = 100.000 [ps] OPAL > * spos = 996.935 [mm] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [3]> 10:22:18 Step 710 at 998.318 [mm], t= 72.185 [ns], E=1.004 [MeV] ParallelTTracker [3]> 10:22:18 Step 711 at 999.701 [mm], t= 72.285 [ns], E=1.004 [MeV] OPAL [3]> * Wrote beam statistics. OPAL > OPAL > * ************** B U N C H ********************************************************* OPAL > * NP = 100000 OPAL > * Qtot = 10.000 [nC] Qi = 100.000 [fC] OPAL > * Ekin = 1.004 [MeV] dEkin = 73.136 [keV] OPAL > * rmax = ( 65.38800 , 65.34054 , 65.41523 ) [mm] OPAL > * rmin = ( -65.23347 , -65.28469 , -65.38410 ) [mm] OPAL > * rms beam size = ( 33.33301 , 33.42760 , 33.30378 ) [mm] OPAL > * rms momenta = ( 1.68934e-03 , 1.69261e-03 , 1.68935e-03 ) [beta gamma] OPAL > * mean position = ( 0.07088 , -0.85004 , -3.20009 ) [um] OPAL > * mean momenta = ( 3.35253e-10 , -5.93948e-08 , 4.61814e-02 ) [beta gamma] OPAL > * rms emittance = ( 4.15093e-05 , 4.07434e-05 , 4.15134e-05 ) (not normalized) OPAL > * rms correlation = ( 9.99418e-01 , 9.99445e-01 , 9.99417e-01 ) OPAL > * hr = ( 8.71595 , 8.71625 , 8.72782 ) [mm] OPAL > * dh = 1.00000e-01 [%] OPAL > * t = 72.285 [ns] dT = 100.000 [ps] OPAL > * spos = 1.000 [m] OPAL > * ********************************************************************************** OPAL > OPAL [2]> * Wrote beam phase space. ParallelTTracker [2]> Dump phase space of last step Ippl[3]> D1 gone off OPAL> OPAL> * Done executing ParallelTTracker at 10:22:18 OPAL> OPAL> * End of input stream 'opalimpact-1.in' Timings> ----------------------------------------------------------------- Timings> Timing results for 1 nodes: Timings> ----------------------------------------------------------------- Timings> mainTimer........... Wall tot = 201.918, CPU tot = 201.17 Timings> Timings> Binaryrepart........ Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Boundingbox......... Wall max = 0.9454, CPU max = 0.99 Timings> Wall avg = 0.9454, CPU avg = 0.99 Timings> Wall min = 0.9454, CPU min = 0.99 Timings> Timings> Boundingbox-bounds.. Wall max = 0.281275, CPU max = 0.29 Timings> Wall avg = 0.281275, CPU avg = 0.29 Timings> Wall min = 0.281275, CPU min = 0.29 Timings> Timings> Boundingbox-update.. Wall max = 0.655687, CPU max = 0.7 Timings> Wall avg = 0.655687, CPU avg = 0.7 Timings> Wall min = 0.655687, CPU min = 0.7 Timings> Timings> Compute Statistics.. Wall max = 5.97365, CPU max = 6.02 Timings> Wall avg = 5.97365, CPU avg = 6.02 Timings> Wall min = 5.97365, CPU min = 6.02 Timings> Timings> ComputePotential.... Wall max = 2.49298, CPU max = 2.41 Timings> Wall avg = 2.49298, CPU avg = 2.41 Timings> Wall min = 2.49298, CPU min = 2.41 Timings> Timings> Create Distr........ Wall max = 0.103875, CPU max = 0.11 Timings> Wall avg = 0.103875, CPU avg = 0.11 Timings> Wall min = 0.103875, CPU min = 0.11 Timings> Timings> External field eval. Wall max = 71.1977, CPU max = 71.13 Timings> Wall avg = 71.1977, CPU avg = 71.13 Timings> Wall min = 71.1977, CPU min = 71.13 Timings> Timings> Fast inside test.... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Histogram........... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Initialize geometry. Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Inside test......... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Load Distr.......... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Particle Inside..... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Ray tracing......... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> SelfField total..... Wall max = 19.5079, CPU max = 19.51 Timings> Wall avg = 19.5079, CPU avg = 19.51 Timings> Wall min = 19.5079, CPU min = 19.51 Timings> Timings> SF: GreensFTotal.... Wall max = 1.70797, CPU max = 1.68 Timings> Wall avg = 1.70797, CPU avg = 1.68 Timings> Wall min = 1.70797, CPU min = 1.68 Timings> Timings> TIntegration1....... Wall max = 2.22535, CPU max = 2.26 Timings> Wall avg = 2.22535, CPU avg = 2.26 Timings> Wall min = 2.22535, CPU min = 2.26 Timings> Timings> TIntegration2....... Wall max = 5.40585, CPU max = 5.41 Timings> Wall avg = 5.40585, CPU avg = 5.41 Timings> Wall min = 5.40585, CPU min = 5.41 Timings> Timings> WakeField........... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Write H5-File....... Wall max = 1.85055, CPU max = 1.16 Timings> Wall avg = 1.85055, CPU avg = 1.16 Timings> Wall min = 1.85055, CPU min = 1.16 Timings> Timings> Write Stat.......... Wall max = 0.0155574, CPU max = 0.01 Timings> Wall avg = 0.0155574, CPU avg = 0.01 Timings> Wall min = 0.0155574, CPU min = 0.01 Timings> Timings> ----------------------------------------------------------------- line 0: warning: iconv failed to convert degree sign line 0: warning: iconv failed to convert degree sign line 0: warning: iconv failed to convert degree sign line 0: warning: iconv failed to convert degree sign line 0: warning: iconv failed to convert degree sign line 0: warning: iconv failed to convert degree sign Start Regression Test on 2023-08-24T10:18:52.335117 ========================================================== Checksum for reference AWAGun-1.stat.md5 OK Checksum for reference AWAGun-1.out.md5 OK Checksum for reference AWAGun-1.lbal.md5 OK Run regression test AWAGun-1 ERROR: no statfile AWAGun-1 Test rms_x(last) broken ERROR: no statfile AWAGun-1 Test rms_y(last) broken ERROR: no statfile AWAGun-1 Test rms_s(last) broken ERROR: no statfile AWAGun-1 Test emit_x(last) broken ERROR: no statfile AWAGun-1 Test emit_y(last) broken ERROR: no statfile AWAGun-1 Test emit_s(last) broken ERROR: no statfile AWAGun-1 Test energy(last) broken Checksum for reference AWAGun-TrackBack-1.stat.md5 OK Checksum for reference AWAGun-TrackBack-1.out.md5 OK Checksum for reference AWAGun-TrackBack-1.lbal.md5 OK Run regression test AWAGun-TrackBack-1 ERROR: no statfile AWAGun-TrackBack-1 Test rms_x(avg) broken ERROR: no statfile AWAGun-TrackBack-1 Test rms_y(avg) broken ERROR: no statfile AWAGun-TrackBack-1 Test rms_s(avg) broken ERROR: no statfile AWAGun-TrackBack-1 Test emit_x(avg) broken ERROR: no statfile AWAGun-TrackBack-1 Test emit_y(avg) broken ERROR: no statfile AWAGun-TrackBack-1 Test emit_s(avg) broken ERROR: no statfile AWAGun-TrackBack-1 Test energy(avg) broken Checksum for reference AmrRingCyclotron-01.out.md5 OK Checksum for reference AmrRingCyclotron-01-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-01-bunch-0001.smb.md5 OK Run regression test AmrRingCyclotron-01 ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0000 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-01-bunch-0001 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-02.out.md5 OK Checksum for reference AmrRingCyclotron-02-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-02-bunch-0001.smb.md5 OK Run regression test AmrRingCyclotron-02 ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0000 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-02-bunch-0001 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-03.out.md5 OK Checksum for reference AmrRingCyclotron-03-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-03-bunch-0001.smb.md5 OK Checksum for reference AmrRingCyclotron-03-bunch-0002.smb.md5 OK Checksum for reference AmrRingCyclotron-03-bunch-0003.smb.md5 OK Run regression test AmrRingCyclotron-03 ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0000 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0001 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0002 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-03-bunch-0003 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-04-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-04-bunch-0001.smb.md5 OK Checksum for reference AmrRingCyclotron-04-bunch-0002.smb.md5 OK Checksum for reference AmrRingCyclotron-04-bunch-0003.smb.md5 OK Run regression test AmrRingCyclotron-04 ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0000 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0001 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0002 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-04-bunch-0003 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-05-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-05-bunch-0001.smb.md5 OK Run regression test AmrRingCyclotron-05 ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0000 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-05-bunch-0001 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-06.out.md5 OK Checksum for reference AmrRingCyclotron-06-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-06-bunch-0001.smb.md5 OK Run regression test AmrRingCyclotron-06 ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0000 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-06-bunch-0001 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-07.out.md5 OK Checksum for reference AmrRingCyclotron-07-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-07-bunch-0001.smb.md5 OK Checksum for reference AmrRingCyclotron-07-bunch-0002.smb.md5 OK Checksum for reference AmrRingCyclotron-07-bunch-0003.smb.md5 OK Run regression test AmrRingCyclotron-07 ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0000 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0001 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0002 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-07-bunch-0003 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-08.out.md5 OK Checksum for reference AmrRingCyclotron-08-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-08-bunch-0001.smb.md5 OK Checksum for reference AmrRingCyclotron-08-bunch-0002.smb.md5 OK Checksum for reference AmrRingCyclotron-08-bunch-0003.smb.md5 OK Run regression test AmrRingCyclotron-08 ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0000 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0001 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0002 Test halo_z(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-08-bunch-0003 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-09.out.md5 OK Checksum for reference AmrRingCyclotron-09-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-09-bunch-0001.smb.md5 OK Run regression test AmrRingCyclotron-09 Error: size of stat variables (rms_x) dont agree! size reference: 1080, size simulation: 720 Test rms_x(last) broken: 0 (eps=1e-07) Error: size of stat variables (rms_y) dont agree! size reference: 1080, size simulation: 720 Test rms_y(last) broken: 0 (eps=1e-07) Error: size of stat variables (rms_s) dont agree! size reference: 1080, size simulation: 720 Test rms_s(last) broken: 0 (eps=1e-07) Error: size of stat variables (emit_x) dont agree! size reference: 1080, size simulation: 720 Test emit_x(last) broken: 0 (eps=1e-08) Error: size of stat variables (emit_y) dont agree! size reference: 1080, size simulation: 720 Test emit_y(last) broken: 0 (eps=1e-08) Error: size of stat variables (emit_s) dont agree! size reference: 1080, size simulation: 720 Test emit_s(last) broken: 0 (eps=1e-08) Error: size of stat variables (halo_x) dont agree! size reference: 1080, size simulation: 720 Test halo_x(last) broken: 0 (eps=1e-05) Error: size of stat variables (halo_y) dont agree! size reference: 1080, size simulation: 720 Test halo_y(last) broken: 0 (eps=1e-05) Error: size of stat variables (halo_z) dont agree! size reference: 1080, size simulation: 720 Test halo_z(last) broken: 0 (eps=1e-05) ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-09-bunch-0001 Test halo_z(last) broken Checksum for reference AmrRingCyclotron-10.out.md5 OK Checksum for reference AmrRingCyclotron-10-bunch-0000.smb.md5 OK Checksum for reference AmrRingCyclotron-10-bunch-0001.smb.md5 OK Run regression test AmrRingCyclotron-10 Error: size of stat variables (rms_x) dont agree! size reference: 1080, size simulation: 720 Test rms_x(last) broken: 0 (eps=1e-07) Error: size of stat variables (rms_y) dont agree! size reference: 1080, size simulation: 720 Test rms_y(last) broken: 0 (eps=1e-07) Error: size of stat variables (rms_s) dont agree! size reference: 1080, size simulation: 720 Test rms_s(last) broken: 0 (eps=1e-07) Error: size of stat variables (emit_x) dont agree! size reference: 1080, size simulation: 720 Test emit_x(last) broken: 0 (eps=1e-08) Error: size of stat variables (emit_y) dont agree! size reference: 1080, size simulation: 720 Test emit_y(last) broken: 0 (eps=1e-08) Error: size of stat variables (emit_s) dont agree! size reference: 1080, size simulation: 720 Test emit_s(last) broken: 0 (eps=1e-08) Error: size of stat variables (halo_x) dont agree! size reference: 1080, size simulation: 720 Test halo_x(last) broken: 0 (eps=1e-05) Error: size of stat variables (halo_y) dont agree! size reference: 1080, size simulation: 720 Test halo_y(last) broken: 0 (eps=1e-05) Error: size of stat variables (halo_z) dont agree! size reference: 1080, size simulation: 720 Test halo_z(last) broken: 0 (eps=1e-05) ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test rms_x(last) broken ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test rms_y(last) broken ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test rms_s(last) broken ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test emit_x(last) broken ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test emit_y(last) broken ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test emit_s(last) broken ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test halo_x(last) broken ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test halo_y(last) broken ERROR: no statfile AmrRingCyclotron-10-bunch-0001 Test halo_z(last) broken Checksum for reference BeamLine-1.stat.md5 OK Checksum for reference BeamLine-1.out.md5 OK Checksum for reference BeamLine-1.lbal.md5 OK Run regression test BeamLine-1 ERROR: no statfile BeamLine-1 Test rms_x(last) broken ERROR: no statfile BeamLine-1 Test rms_y(last) broken ERROR: no statfile BeamLine-1 Test rms_s(last) broken ERROR: no statfile BeamLine-1 Test emit_x(last) broken ERROR: no statfile BeamLine-1 Test emit_y(last) broken ERROR: no statfile BeamLine-1 Test emit_s(last) broken ERROR: no statfile BeamLine-1 Test energy(last) broken ERROR: no statfile BeamLine-1 Test numParticles(last) broken Checksum for reference BeamLine-2.stat.md5 OK Checksum for reference BeamLine-2.out.md5 OK Checksum for reference BeamLine-2.lbal.md5 OK Run regression test BeamLine-2 ERROR: no statfile BeamLine-2 Test rms_x(last) broken ERROR: no statfile BeamLine-2 Test rms_y(last) broken ERROR: no statfile BeamLine-2 Test rms_s(last) broken ERROR: no statfile BeamLine-2 Test emit_x(last) broken ERROR: no statfile BeamLine-2 Test emit_y(last) broken ERROR: no statfile BeamLine-2 Test emit_s(last) broken ERROR: no statfile BeamLine-2 Test energy(last) broken ERROR: no statfile BeamLine-2 Test numParticles(last) broken Checksum for reference CSRBendDrift.stat.md5 OK Checksum for reference CSRBendDrift.out.md5 OK Checksum for reference CSRBendDrift.lbal.md5 OK Run regression test CSRBendDrift ERROR: no statfile CSRBendDrift Test rms_x(last) broken ERROR: no statfile CSRBendDrift Test rms_y(last) broken ERROR: no statfile CSRBendDrift Test rms_s(last) broken ERROR: no statfile CSRBendDrift Test emit_x(last) broken ERROR: no statfile CSRBendDrift Test emit_y(last) broken ERROR: no statfile CSRBendDrift Test emit_s(last) broken ERROR: no statfile CSRBendDrift Test energy(last) broken Checksum for reference DCGun-Cornell-1.stat.md5 OK Checksum for reference DCGun-Cornell-1.out.md5 OK Checksum for reference DCGun-Cornell-1.lbal.md5 OK Run regression test DCGun-Cornell-1 ERROR: no statfile DCGun-Cornell-1 Test rms_x(last) broken ERROR: no statfile DCGun-Cornell-1 Test rms_y(last) broken ERROR: no statfile DCGun-Cornell-1 Test rms_s(last) broken ERROR: no statfile DCGun-Cornell-1 Test energy(last) broken Checksum for reference DCGun-Cornell-2.stat.md5 OK Checksum for reference DCGun-Cornell-2.out.md5 OK Checksum for reference DCGun-Cornell-2.lbal.md5 OK Run regression test DCGun-Cornell-2 ERROR: no statfile DCGun-Cornell-2 Test rms_x(last) broken ERROR: no statfile DCGun-Cornell-2 Test rms_y(last) broken ERROR: no statfile DCGun-Cornell-2 Test rms_s(last) broken ERROR: no statfile DCGun-Cornell-2 Test energy(last) broken Checksum for reference Degrader-1.stat.md5 OK Checksum for reference Degrader-1.out.md5 OK Checksum for reference Degrader-1.lbal.md5 OK Run regression test Degrader-1 Error: unknown variable (Ekin) selected for out test Test Ekin(last) broken: [] (eps=0.001) Error: unknown variable (rms beam size) selected for out test Test rms beam size(last) broken: [] (eps=0.0001) Error: unknown variable (rms emittance) selected for out test Test rms emittance(last) broken: [] (eps=0.0001) Checksum for reference Distribution-Binomial-1.stat.md5 OK Checksum for reference Distribution-Binomial-1.out.md5 OK Checksum for reference Distribution-Binomial-1.lbal.md5 OK Run regression test Distribution-Binomial-1 ERROR: no statfile Distribution-Binomial-1 Test rms_x(last) broken ERROR: no statfile Distribution-Binomial-1 Test rms_y(last) broken ERROR: no statfile Distribution-Binomial-1 Test rms_s(last) broken Checksum for reference Distribution-Gauss-1.stat.md5 OK Checksum for reference Distribution-Gauss-1.out.md5 OK Checksum for reference Distribution-Gauss-1.lbal.md5 OK Run regression test Distribution-Gauss-1 ERROR: no statfile Distribution-Gauss-1 Test rms_x(last) broken ERROR: no statfile Distribution-Gauss-1 Test rms_y(last) broken ERROR: no statfile Distribution-Gauss-1 Test rms_s(last) broken Checksum for reference Distribution-Gauss-2.stat.md5 OK Checksum for reference Distribution-Gauss-2.out.md5 OK Checksum for reference Distribution-Gauss-2.lbal.md5 OK Run regression test Distribution-Gauss-2 ERROR: no statfile Distribution-Gauss-2 Test rms_x(last) broken ERROR: no statfile Distribution-Gauss-2 Test rms_y(last) broken ERROR: no statfile Distribution-Gauss-2 Test rms_s(last) broken Checksum for reference Distribution-MultiGauss.stat.md5 OK Checksum for reference Distribution-MultiGauss.out.md5 OK Checksum for reference Distribution-MultiGauss.lbal.md5 OK Run regression test Distribution-MultiGauss ERROR: no statfile Distribution-MultiGauss Test rms_x(last) broken ERROR: no statfile Distribution-MultiGauss Test rms_y(last) broken ERROR: no statfile Distribution-MultiGauss Test rms_s(last) broken Checksum for reference EGunCTF3-1.stat.md5 OK Checksum for reference EGunCTF3-1.out.md5 OK Checksum for reference EGunCTF3-1.lbal.md5 OK Run regression test EGunCTF3-1 ERROR: no statfile EGunCTF3-1 Test rms_x(last) broken ERROR: no statfile EGunCTF3-1 Test rms_y(last) broken ERROR: no statfile EGunCTF3-1 Test rms_s(last) broken Checksum for reference EGunCTF3-2.stat.md5 OK Checksum for reference EGunCTF3-2.out.md5 OK Checksum for reference EGunCTF3-2.lbal.md5 OK Run regression test EGunCTF3-2 ERROR: no statfile EGunCTF3-2 Test rms_x(last) broken ERROR: no statfile EGunCTF3-2 Test rms_y(last) broken ERROR: no statfile EGunCTF3-2 Test rms_s(last) broken Checksum for reference Elliptic-1.stat.md5 OK Checksum for reference Elliptic-1.out.md5 OK Checksum for reference Elliptic-1.lbal.md5 OK Run regression test Elliptic-1 ERROR: no statfile Elliptic-1 Test rms_x(last) broken ERROR: no statfile Elliptic-1 Test rms_y(last) broken ERROR: no statfile Elliptic-1 Test rms_s(last) broken ERROR: no statfile Elliptic-1 Test emit_x(last) broken ERROR: no statfile Elliptic-1 Test emit_y(last) broken ERROR: no statfile Elliptic-1 Test emit_s(last) broken ERROR: no statfile Elliptic-1 Test energy(last) broken ERROR: no statfile Elliptic-1 Test numParticles(last) broken Checksum for reference ExternalFieldTest.stat.md5 OK Checksum for reference ExternalFieldTest.out.md5 OK Checksum for reference ExternalFieldTest.lbal.md5 OK Run regression test ExternalFieldTest ERROR: no statfile ExternalFieldTest Test rms_x(last) broken ERROR: no statfile ExternalFieldTest Test rms_y(last) broken ERROR: no statfile ExternalFieldTest Test rms_s(last) broken ERROR: no statfile ExternalFieldTest Test Ez_ref(avg) broken Checksum for reference GasStripping.stat.md5 OK Checksum for reference GasStripping.out.md5 OK Checksum for reference GasStripping.lbal.md5 OK Run regression test GasStripping ERROR: no statfile GasStripping Test numParticles(last) broken Checksum for reference HKick-Test-1.stat.md5 OK Checksum for reference HKick-Test-1.out.md5 OK Checksum for reference HKick-Test-1.lbal.md5 OK Run regression test HKick-Test-1 ERROR: no statfile HKick-Test-1 Test rms_x(last) broken ERROR: no statfile HKick-Test-1 Test rms_y(last) broken ERROR: no statfile HKick-Test-1 Test rms_s(last) broken ERROR: no statfile HKick-Test-1 Test mean_x(last) broken ERROR: no statfile HKick-Test-1 Test mean_y(last) broken ERROR: no statfile HKick-Test-1 Test mean_s(last) broken Checksum for reference Kick-Test-1.stat.md5 OK Checksum for reference Kick-Test-1.out.md5 OK Checksum for reference Kick-Test-1.lbal.md5 OK Run regression test Kick-Test-1 ERROR: no statfile Kick-Test-1 Test rms_x(last) broken ERROR: no statfile Kick-Test-1 Test rms_y(last) broken ERROR: no statfile Kick-Test-1 Test rms_s(last) broken ERROR: no statfile Kick-Test-1 Test mean_x(last) broken ERROR: no statfile Kick-Test-1 Test mean_y(last) broken ERROR: no statfile Kick-Test-1 Test mean_s(last) broken Checksum for reference MAP-Circular.stat.md5 OK Checksum for reference MAP-Circular.out.md5 OK Checksum for reference MAP-Circular.lbal.md5 OK Run regression test MAP-Circular ERROR: no statfile MAP-Circular Test mean_x(last) broken ERROR: no statfile MAP-Circular Test mean_y(last) broken ERROR: no statfile MAP-Circular Test mean_s(last) broken Checksum for reference MAP-FODO.stat.md5 OK Checksum for reference MAP-FODO.out.md5 OK Checksum for reference MAP-FODO.lbal.md5 OK Run regression test MAP-FODO ERROR: no statfile MAP-FODO Test mean_x(last) broken ERROR: no statfile MAP-FODO Test mean_y(last) broken ERROR: no statfile MAP-FODO Test mean_s(last) broken Checksum for reference MAP-FODODipole.stat.md5 OK Checksum for reference MAP-FODODipole.out.md5 OK Checksum for reference MAP-FODODipole.lbal.md5 OK Run regression test MAP-FODODipole ERROR: no statfile MAP-FODODipole Test mean_x(last) broken ERROR: no statfile MAP-FODODipole Test mean_y(last) broken ERROR: no statfile MAP-FODODipole Test mean_s(last) broken Checksum for reference MAP-Gantry2.stat.md5 OK Checksum for reference MAP-Gantry2.out.md5 OK Checksum for reference MAP-Gantry2.lbal.md5 OK Run regression test MAP-Gantry2 ERROR: no statfile MAP-Gantry2 Test mean_x(last) broken ERROR: no statfile MAP-Gantry2 Test mean_y(last) broken ERROR: no statfile MAP-Gantry2 Test mean_s(last) broken Checksum for reference Mask-1.stat.md5 OK Checksum for reference Mask-1.out.md5 OK Checksum for reference Mask-1.lbal.md5 OK Run regression test Mask-1 ERROR: no statfile Mask-1 Test rms_x(last) broken ERROR: no statfile Mask-1 Test rms_y(last) broken ERROR: no statfile Mask-1 Test rms_s(last) broken ERROR: no statfile Mask-1 Test energy(last) broken ERROR: no statfile Mask-1 Test numParticles(last) broken Checksum for reference P3MSwissFEL.stat.md5 OK Checksum for reference P3MSwissFEL.out.md5 OK Checksum for reference P3MSwissFEL.lbal.md5 OK Run regression test P3MSwissFEL ERROR: no statfile P3MSwissFEL Test rms_x(last) broken ERROR: no statfile P3MSwissFEL Test rms_s(last) broken ERROR: no statfile P3MSwissFEL Test emit_x(last) broken ERROR: no statfile P3MSwissFEL Test dE(last) broken ERROR: no statfile P3MSwissFEL Test DebyeLength(last) broken ERROR: no statfile P3MSwissFEL Test plasmaParameter(last) broken ERROR: no statfile P3MSwissFEL Test temperature(last) broken Checksum for reference PROSCAN-1.stat.md5 OK Checksum for reference PROSCAN-1.out.md5 OK Checksum for reference PROSCAN-1.lbal.md5 OK Run regression test PROSCAN-1 ERROR: no statfile PROSCAN-1 Test rms_x(last) broken ERROR: no statfile PROSCAN-1 Test rms_y(last) broken ERROR: no statfile PROSCAN-1 Test rms_s(last) broken ERROR: no statfile PROSCAN-1 Test emit_x(last) broken ERROR: no statfile PROSCAN-1 Test emit_y(last) broken ERROR: no statfile PROSCAN-1 Test emit_s(last) broken Checksum for reference PROSCAN-2.stat.md5 OK Checksum for reference PROSCAN-2.out.md5 OK Checksum for reference PROSCAN-2.lbal.md5 OK Run regression test PROSCAN-2 ERROR: no statfile PROSCAN-2 Test rms_x(last) broken ERROR: no statfile PROSCAN-2 Test rms_y(last) broken ERROR: no statfile PROSCAN-2 Test rms_s(last) broken ERROR: no statfile PROSCAN-2 Test emit_x(last) broken ERROR: no statfile PROSCAN-2 Test emit_y(last) broken ERROR: no statfile PROSCAN-2 Test emit_s(last) broken Checksum for reference PSIGUN-1.stat.md5 OK Checksum for reference PSIGUN-1.out.md5 OK Checksum for reference PSIGUN-1.lbal.md5 OK Run regression test PSIGUN-1 ERROR: no statfile PSIGUN-1 Test rms_x(last) broken ERROR: no statfile PSIGUN-1 Test rms_y(last) broken ERROR: no statfile PSIGUN-1 Test rms_s(last) broken ERROR: no statfile PSIGUN-1 Test emit_x(last) broken ERROR: no statfile PSIGUN-1 Test emit_y(last) broken ERROR: no statfile PSIGUN-1 Test emit_s(last) broken ERROR: no statfile PSIGUN-1 Test energy(last) broken Checksum for reference PerfectDiode.stat.md5 OK Checksum for reference PerfectDiode.out.md5 OK Checksum for reference PerfectDiode.lbal.md5 OK Run regression test PerfectDiode ERROR: no statfile PerfectDiode Test rms_x(avg) broken ERROR: no statfile PerfectDiode Test rms_y(avg) broken ERROR: no statfile PerfectDiode Test rms_s(avg) broken Error: unknown variable (Ekin) selected for out test Test Ekin(avg) broken: [] (eps=0.0001) Error: unknown variable (rms emittance) selected for out test Test rms emittance(avg) broken: [] (eps=1e-07) Checksum for reference Quad-Simple-Test-1.stat.md5 OK Checksum for reference Quad-Simple-Test-1.out.md5 OK Checksum for reference Quad-Simple-Test-1.lbal.md5 OK Run regression test Quad-Simple-Test-1 ERROR: no statfile Quad-Simple-Test-1 Test rms_x(last) broken ERROR: no statfile Quad-Simple-Test-1 Test rms_y(last) broken ERROR: no statfile Quad-Simple-Test-1 Test rms_s(last) broken ERROR: no statfile Quad-Simple-Test-1 Test emit_x(last) broken ERROR: no statfile Quad-Simple-Test-1 Test emit_y(last) broken ERROR: no statfile Quad-Simple-Test-1 Test emit_s(last) broken Checksum for reference RBend-Simple-Test-1.stat.md5 OK Checksum for reference RBend-Simple-Test-1.out.md5 OK Checksum for reference RBend-Simple-Test-1.lbal.md5 OK Run regression test RBend-Simple-Test-1 ERROR: no statfile RBend-Simple-Test-1 Test rms_x(last) broken ERROR: no statfile RBend-Simple-Test-1 Test rms_y(last) broken ERROR: no statfile RBend-Simple-Test-1 Test rms_s(last) broken ERROR: no statfile RBend-Simple-Test-1 Test emit_x(last) broken ERROR: no statfile RBend-Simple-Test-1 Test emit_y(last) broken ERROR: no statfile RBend-Simple-Test-1 Test emit_s(last) broken Checksum for reference RBend-Simple-Test-2.stat.md5 OK Checksum for reference RBend-Simple-Test-2.out.md5 OK Checksum for reference RBend-Simple-Test-2.lbal.md5 OK Run regression test RBend-Simple-Test-2 ERROR: no statfile RBend-Simple-Test-2 Test rms_x(last) broken ERROR: no statfile RBend-Simple-Test-2 Test rms_y(last) broken ERROR: no statfile RBend-Simple-Test-2 Test rms_s(last) broken ERROR: no statfile RBend-Simple-Test-2 Test emit_x(last) broken ERROR: no statfile RBend-Simple-Test-2 Test emit_y(last) broken ERROR: no statfile RBend-Simple-Test-2 Test emit_s(last) broken Checksum for reference RBend-Simple-Test-3.stat.md5 OK Checksum for reference RBend-Simple-Test-3.out.md5 OK Checksum for reference RBend-Simple-Test-3.lbal.md5 OK Run regression test RBend-Simple-Test-3 ERROR: no statfile RBend-Simple-Test-3 Test rms_x(last) broken ERROR: no statfile RBend-Simple-Test-3 Test rms_y(last) broken ERROR: no statfile RBend-Simple-Test-3 Test rms_s(last) broken ERROR: no statfile RBend-Simple-Test-3 Test emit_x(last) broken ERROR: no statfile RBend-Simple-Test-3 Test emit_y(last) broken ERROR: no statfile RBend-Simple-Test-3 Test emit_s(last) broken Checksum for reference RBend-Simple-Test-4.stat.md5 OK Checksum for reference RBend-Simple-Test-4.out.md5 OK Checksum for reference RBend-Simple-Test-4.lbal.md5 OK Run regression test RBend-Simple-Test-4 ERROR: no statfile RBend-Simple-Test-4 Test rms_x(last) broken ERROR: no statfile RBend-Simple-Test-4 Test rms_y(last) broken ERROR: no statfile RBend-Simple-Test-4 Test rms_s(last) broken ERROR: no statfile RBend-Simple-Test-4 Test emit_x(last) broken ERROR: no statfile RBend-Simple-Test-4 Test emit_y(last) broken ERROR: no statfile RBend-Simple-Test-4 Test emit_s(last) broken Checksum for reference RestartTest-1.stat.md5 OK Checksum for reference RestartTest-1.out.md5 OK Checksum for reference RestartTest-1.lbal.md5 OK Run regression test RestartTest-1 Error: size of stat variables (rms_x) dont agree! size reference: 27, size simulation: 21 Test rms_x(last) broken: 0 (eps=1e-08) Error: size of stat variables (rms_y) dont agree! size reference: 27, size simulation: 21 Test rms_y(last) broken: 0 (eps=1e-08) Error: size of stat variables (rms_s) dont agree! size reference: 27, size simulation: 21 Test rms_s(last) broken: 0 (eps=1e-08) Checksum for reference RestartTest-2.stat.md5 OK Checksum for reference RestartTest-2.out.md5 OK Checksum for reference RestartTest-2.lbal.md5 OK Run regression test RestartTest-2 Error: size of stat variables (rms_x) dont agree! size reference: 1921, size simulation: 961 Test rms_x(last) broken: 0 (eps=1e-08) Error: size of stat variables (rms_y) dont agree! size reference: 1921, size simulation: 961 Test rms_y(last) broken: 0 (eps=1e-08) Error: size of stat variables (rms_s) dont agree! size reference: 1921, size simulation: 961 Test rms_s(last) broken: 0 (eps=1e-08) Checksum for reference RestartTest-3.stat.md5 OK Checksum for reference RestartTest-3.out.md5 OK Checksum for reference RestartTest-3.lbal.md5 OK Run regression test RestartTest-3 Error: size of stat variables (rms_x) dont agree! size reference: 26, size simulation: 21 Test rms_x(last) broken: 0 (eps=1e-06) Error: size of stat variables (rms_y) dont agree! size reference: 26, size simulation: 21 Test rms_y(last) broken: 0 (eps=1e-06) Error: size of stat variables (rms_s) dont agree! size reference: 26, size simulation: 21 Test rms_s(last) broken: 0 (eps=1e-06) Checksum for reference RestartTest-4.stat.md5 OK Checksum for reference RestartTest-4.out.md5 OK Checksum for reference RestartTest-4.lbal.md5 OK Run regression test RestartTest-4 Error: size of stat variables (rms_x) dont agree! size reference: 26, size simulation: 21 Test rms_x(last) broken: 0 (eps=1e-10) Error: size of stat variables (rms_y) dont agree! size reference: 26, size simulation: 21 Test rms_y(last) broken: 0 (eps=1e-10) Error: size of stat variables (rms_s) dont agree! size reference: 26, size simulation: 21 Test rms_s(last) broken: 0 (eps=1e-10) Checksum for reference RingCyclotron.stat.md5 OK Checksum for reference RingCyclotron.out.md5 OK Checksum for reference RingCyclotron.lbal.md5 OK Run regression test RingCyclotron Error: unknown variable (Ekin) selected for out test Test Ekin(last) broken: [] (eps=1.0) Error: unknown variable (rms beam size) selected for out test Test rms beam size(last) broken: [] (eps=0.0001) Error: unknown variable (rms emittance) selected for out test Test rms emittance(last) broken: [] (eps=1e-07) Checksum for reference RingCyclotronMTS.stat.md5 OK Checksum for reference RingCyclotronMTS.out.md5 OK Checksum for reference RingCyclotronMTS.lbal.md5 OK Run regression test RingCyclotronMTS Error: unknown variable (Ekin) selected for out test Test Ekin(last) broken: [] (eps=1e-15) Error: unknown variable (rms beam size) selected for out test Test rms beam size(last) broken: [] (eps=0.0001) Error: unknown variable (rms emittance) selected for out test Test rms emittance(last) broken: [] (eps=1e-08) Checksum for reference RingCyclotronMatched.stat.md5 OK Checksum for reference RingCyclotronMatched.out.md5 OK Checksum for reference RingCyclotronMatched.lbal.md5 OK Run regression test RingCyclotronMatched Error: unknown variable (rms beam size) selected for out test Test rms beam size(last) broken: [] (eps=0.0001) Error: unknown variable (rms emittance) selected for out test Test rms emittance(last) broken: [] (eps=1e-07) Checksum for reference SBend-Simple-Test-1.stat.md5 OK Checksum for reference SBend-Simple-Test-1.out.md5 OK Checksum for reference SBend-Simple-Test-1.lbal.md5 OK Run regression test SBend-Simple-Test-1 ERROR: no statfile SBend-Simple-Test-1 Test rms_x(last) broken ERROR: no statfile SBend-Simple-Test-1 Test rms_y(last) broken ERROR: no statfile SBend-Simple-Test-1 Test rms_s(last) broken ERROR: no statfile SBend-Simple-Test-1 Test emit_x(last) broken ERROR: no statfile SBend-Simple-Test-1 Test emit_y(last) broken ERROR: no statfile SBend-Simple-Test-1 Test emit_s(last) broken Checksum for reference SBend-Simple-Test-2.stat.md5 OK Checksum for reference SBend-Simple-Test-2.out.md5 OK Checksum for reference SBend-Simple-Test-2.lbal.md5 OK Run regression test SBend-Simple-Test-2 ERROR: no statfile SBend-Simple-Test-2 Test rms_x(last) broken ERROR: no statfile SBend-Simple-Test-2 Test rms_y(last) broken ERROR: no statfile SBend-Simple-Test-2 Test rms_s(last) broken ERROR: no statfile SBend-Simple-Test-2 Test emit_x(last) broken ERROR: no statfile SBend-Simple-Test-2 Test emit_y(last) broken ERROR: no statfile SBend-Simple-Test-2 Test emit_s(last) broken Checksum for reference SBend-Simple-Test-3.stat.md5 OK Checksum for reference SBend-Simple-Test-3.out.md5 OK Checksum for reference SBend-Simple-Test-3.lbal.md5 OK Run regression test SBend-Simple-Test-3 ERROR: no statfile SBend-Simple-Test-3 Test rms_x(last) broken ERROR: no statfile SBend-Simple-Test-3 Test rms_y(last) broken ERROR: no statfile SBend-Simple-Test-3 Test rms_s(last) broken ERROR: no statfile SBend-Simple-Test-3 Test emit_x(last) broken ERROR: no statfile SBend-Simple-Test-3 Test emit_y(last) broken ERROR: no statfile SBend-Simple-Test-3 Test emit_s(last) broken Checksum for reference SBend-Simple-Test-4.stat.md5 OK Checksum for reference SBend-Simple-Test-4.out.md5 OK Checksum for reference SBend-Simple-Test-4.lbal.md5 OK Run regression test SBend-Simple-Test-4 ERROR: no statfile SBend-Simple-Test-4 Test rms_x(last) broken ERROR: no statfile SBend-Simple-Test-4 Test rms_y(last) broken ERROR: no statfile SBend-Simple-Test-4 Test rms_s(last) broken ERROR: no statfile SBend-Simple-Test-4 Test emit_x(last) broken ERROR: no statfile SBend-Simple-Test-4 Test emit_y(last) broken ERROR: no statfile SBend-Simple-Test-4 Test emit_s(last) broken Checksum for reference Slit-1.stat.md5 OK Checksum for reference Slit-1.out.md5 OK Checksum for reference Slit-1.lbal.md5 OK Run regression test Slit-1 ERROR: no statfile Slit-1 Test rms_x(last) broken ERROR: no statfile Slit-1 Test rms_y(last) broken ERROR: no statfile Slit-1 Test rms_s(last) broken ERROR: no statfile Slit-1 Test emit_x(last) broken ERROR: no statfile Slit-1 Test emit_y(last) broken ERROR: no statfile Slit-1 Test emit_s(last) broken ERROR: no statfile Slit-1 Test energy(last) broken ERROR: no statfile Slit-1 Test numParticles(last) broken Checksum for reference Slit-2.stat.md5 OK Checksum for reference Slit-2.out.md5 OK Checksum for reference Slit-2.lbal.md5 OK Run regression test Slit-2 ERROR: no statfile Slit-2 Test rms_x(last) broken ERROR: no statfile Slit-2 Test rms_y(last) broken ERROR: no statfile Slit-2 Test rms_s(last) broken ERROR: no statfile Slit-2 Test emit_x(last) broken ERROR: no statfile Slit-2 Test emit_y(last) broken ERROR: no statfile Slit-2 Test emit_s(last) broken ERROR: no statfile Slit-2 Test energy(last) broken ERROR: no statfile Slit-2 Test numParticles(last) broken Checksum for reference UndulatorAWA.stat.md5 OK Checksum for reference UndulatorAWA.out.md5 OK Checksum for reference UndulatorAWA.lbal.md5 OK Run regression test UndulatorAWA ERROR: no statfile UndulatorAWA Test rms_x(last) broken ERROR: no statfile UndulatorAWA Test rms_y(last) broken ERROR: no statfile UndulatorAWA Test rms_s(last) broken ERROR: no statfile UndulatorAWA Test rms_ps(last) broken Checksum for reference RINGPROBE01.loss.md5 OK Run regression test VFFA-1 ERROR: no loss file RINGPROBE01.loss Test x(all) broken Checksum for reference VKick-Test-1.stat.md5 OK Checksum for reference VKick-Test-1.out.md5 OK Checksum for reference VKick-Test-1.lbal.md5 OK Run regression test VKick-Test-1 ERROR: no statfile VKick-Test-1 Test rms_x(last) broken ERROR: no statfile VKick-Test-1 Test rms_y(last) broken ERROR: no statfile VKick-Test-1 Test rms_s(last) broken ERROR: no statfile VKick-Test-1 Test mean_x(last) broken ERROR: no statfile VKick-Test-1 Test mean_y(last) broken ERROR: no statfile VKick-Test-1 Test mean_s(last) broken Checksum for reference opalimpact-1.stat.md5 OK Checksum for reference opalimpact-1.out.md5 OK Checksum for reference opalimpact-1.lbal.md5 OK Run regression test opalimpact-1 Test rms_x(last) passed: 9.128946557024342e-10 (eps=1e-05) Test rms_y(last) passed: 9.146986570951476e-10 (eps=1e-05) Test rms_s(last) passed: 9.09018346706425e-10 (eps=1e-05) Test emit_x(last) passed: 4.7125087137406523e-14 (eps=1e-05) Test emit_y(last) passed: 4.619273107906764e-14 (eps=1e-05) Test emit_s(last) passed: 6.267275508447015e-14 (eps=1e-05) Summary: 6 / 498 tests passed ========================================================== Finished Regression Test on 2023-08-24T10:22:20.188422 mv: failed to preserve ownership for '/afs/psi.ch/project/amas/webhosting/opal/master/index.org': Operation not permitted