Commit 394eb34d authored by kraus's avatar kraus

reflect change of shape of transverse cutoff

parent 720fba0d
This source diff could not be displayed because it is too large. You can view the blob instead.
a446b967c9a4f4b31ad9ba1c6038d9d9 BeamLine-2.out
f6c2b015aa5bf57b8fcfe86ad9a6da0c BeamLine-2.out
This source diff could not be displayed because it is too large. You can view the blob instead.
bd560e2a01ae504641f0ae42a66ac868 BeamLine-2.stat
fcb2585f7e82e8a8d96e7e540571565c BeamLine-2.stat
--------------------------------------------------------------------------
WARNING: It appears that your OpenFabrics subsystem is configured to only
allow registering part of your physical memory. This can cause MPI jobs to
run with erratic performance, hang, and/or crash.
This may be caused by your OpenFabrics vendor limiting the amount of
physical memory that can be registered. You should investigate the
relevant Linux kernel module parameters that control how much physical
memory can be registered, and increase them to allow registering all
physical memory on your machine.
See this Open MPI FAQ item for more information on these Linux kernel module
parameters:
http://www.open-mpi.org/faq/?category=openfabrics#ib-locked-pages
Local host: merlinl02
Registerable memory: 32768 MiB
Total memory: 49141 MiB
Your MPI job will continue, but may be behave poorly and/or hang.
--------------------------------------------------------------------------
Ippl> CommMPI: Started job 1 on host `merlinl02'.
Ippl> CommMPI: Started job 2 on host `merlinl02'.
Ippl> CommMPI: Started job 3 on host `merlinl02'.
Ippl> CommMPI: Parent process waiting for children ...
Ippl> CommMPI: Child 2 ready.
Ippl> CommMPI: Child 1 ready.
Ippl> CommMPI: Child 3 ready.
Ippl> CommMPI: Child 2 ready.
Ippl> CommMPI: Initialization complete.
Ippl> CommMPI: Started job 1 on host `dude.psi.ch'.
Ippl> CommMPI: Started job 2 on host `dude.psi.ch'.
Ippl> CommMPI: Started job 3 on host `dude.psi.ch'.
{0}> ____ _____ ___
{0}> / __ \| __ \ /\ | |
{0}> | | | | |__) / \ | |
{0}> | | | | ___/ /\ \ | |
{0}> | |__| | | / ____ \| |____
{0}> \____/|_| /_/ \_\______|
OPAL{0}>
OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 1.3.99.1
OPAL{0}>
OPAL{0}> (c) PSI, http://amas.web.psi.ch
OPAL{0}>
OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... )
OPAL{0}> to the OPAL developers opal@lists.psi.ch
OPAL{0}>
OPAL{0}> Time: 12:52:28 date: 04/08/2015
OPAL{0}>
OPAL{0}> Couldn't find startup file "/gpfs/home/kraus/init.opal".
OPAL{0}> Note: this is not mandatory for an OPAL simulation!
OPAL{0}>
OPAL{0}> * Reading input stream "Distribution-Gauss-1.in".
OPAL{0}[3]>
OPAL{0}[3]> 3 elements selected.
OPAL{0}[3]>
OPAL{0}> * **********************************************************************************
OPAL{0}> * Selected Tracking Method == PARALLEL-T, NEW TRACK
OPAL{0}> * **********************************************************************************
Ippl{0}[3]> BC set for normal Beam
OPAL{0}> * m before gsl_linalg_cholesky_decomp
OPAL{0}> * r(0, : ) = 1 & -0 & 0 & 0 & 0 & 0 \\
OPAL{0}> * r(1, : ) = -0 & 1 & 0 & 0 & 0 & 0 \\
OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0.5 & 0 & 0 \\
OPAL{0}> * r(3, : ) = 0 & 0 & 0.5 & 1 & 0 & 0 \\
OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\
OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\
OPAL{0}> * m after gsl_linalg_cholesky_decomp
OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\
OPAL{0}> * r(1, : ) = -0 & 1 & 0 & 0 & 0 & 0 \\
OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\
OPAL{0}> * r(3, : ) = 0 & 0 & 0.5 & 0.866 & 0 & 0 \\
OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\
OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\
OPAL{0}> * ************* D I S T R I B U T I O N ********************************************
OPAL{0}> *
OPAL{0}> * Number of particles: 1000000
OPAL{0}> *
OPAL{0}> * Distribution type: GAUSS
OPAL{0}> *
OPAL{0}> * SIGMAX = 1e-05 [m]
OPAL{0}> * SIGMAY = 1e-05 [m]
OPAL{0}> * SIGMAZ = 1e-08 [m]
OPAL{0}> * SIGMAPX = 1.46e-07 [Beta Gamma]
OPAL{0}> * SIGMAPY = 1.46e-07 [Beta Gamma]
OPAL{0}> * SIGMAPZ = 0 [Beta Gamma]
OPAL{0}> * AVRGPZ = 1.162 [Beta Gamma]
OPAL{0}> * CORRX = -0
OPAL{0}> * CORRY = 0.5
OPAL{0}> * CORRZ = 0
OPAL{0}> * R61 = 0
OPAL{0}> * R62 = 0
OPAL{0}> * R51 = 0
OPAL{0}> * R52 = 0
OPAL{0}> * CUTOFFX = 3 [units of SIGMAX]
OPAL{0}> * CUTOFFY = 3 [units of SIGMAY]
OPAL{0}> * CUTOFFZ = 3 [units of SIGMAZ]
OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX]
OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY]
OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY]
OPAL{0}> *
OPAL{0}> * Distribution is injected.
OPAL{0}> *
OPAL{0}> * **********************************************************************************
OPAL{0}>
OPAL{0}> * ************* B E A M ************************************************************
OPAL{0}> * BEAM BEAM1
OPAL{0}> * PARTICLE PROTON
OPAL{0}> * CURRENT 1.001e-09 A
OPAL{0}> * FREQUENCY 1.3e+09 Hz
OPAL{0}> * CHARGE +e * 1
OPAL{0}> * REST MASS 0.9383 GeV
OPAL{0}> * MOMENTUM 1.09
OPAL{0}> * NPART 1e+06
OPAL{0}> * **********************************************************************************
OPAL{0}>
OPAL{0}> * ************* F I E L D S O L V E R **********************************************
OPAL{0}> * FIELDSOLVER FS1
OPAL{0}> * TYPE FFT
OPAL{0}> * N-PROCESSORS 4
OPAL{0}> * MX 4
OPAL{0}> * MY 4
OPAL{0}> * MT 4
OPAL{0}> * BBOXINCR 1
OPAL{0}> * GRRENSF INTEGRATED
OPAL{0}> * XDIM parallel
OPAL{0}> * YDIM parallel
OPAL{0}> * Z(T)DIM parallel
Ippl{0}[3]> ======UniformCartesian<3,MFLOAT>==begin======
Ippl{0}[3]> gridSizes[0] = 5
Ippl{0}[3]> gridSizes[1] = 5
Ippl{0}[3]> gridSizes[2] = 5
Ippl{0}[3]> origin = ( -4.07172e-05 , -4.07497e-05 , -1.08069e-08 )
Ippl{0}[3]> meshSpacing[0] = 2.03641e-05
Ippl{0}[3]> meshSpacing[1] = 2.03799e-05
Ippl{0}[3]> meshSpacing[2] = 2.04019e-08
Ippl{0}[3]> Dvc[0] = ( -12276.5 , -12267 , -1.22538e+07 )
Ippl{0}[3]> Dvc[1] = ( 12276.5 , -12267 , -1.22538e+07 )
Ippl{0}[3]> Dvc[2] = ( -12276.5 , 12267 , -1.22538e+07 )
Ippl{0}[3]> Dvc[3] = ( 12276.5 , 12267 , -1.22538e+07 )
Ippl{0}[3]> Dvc[4] = ( -12276.5 , -12267 , 1.22538e+07 )
Ippl{0}[3]> Dvc[5] = ( 12276.5 , -12267 , 1.22538e+07 )
Ippl{0}[3]> Dvc[6] = ( -12276.5 , 12267 , 1.22538e+07 )
Ippl{0}[3]> Dvc[7] = ( 12276.5 , 12267 , 1.22538e+07 )
Ippl{0}[3]> cell volume = 8.46716e-18
Ippl{0}[3]> ======UniformCartesian<3,MFLOAT>==end========
Ippl{0}[3]>
Ippl{0}[3]> ParticleSpatialLayout, with particle distribution:
Ippl{0}[3]> Number of particles 251585 Number of particles 249229 Number of particles 249795 Number of particles 249391
Ippl{0}[3]> SpatialLayout decomposition = Total Domain = {[-4.07172e-05,4.07392e-05),[-4.07497e-05,4.07699e-05),[-1.08069e-08,7.08006e-08)}
Ippl{0}[3]> Local Rnodes = 1
Ippl{0}[3]> rnode 0 : {[-4.07172e-05,1.09905e-08),[-4.07497e-05,1.00693e-08),[-1.08069e-08,7.08006e-08)}
Ippl{0}[3]> Remote Rnodes = 3
Ippl{0}[3]> rnode 0 : {[1.09905e-08,4.07392e-05),[-4.07497e-05,1.00693e-08),[-1.08069e-08,7.08006e-08)}
Ippl{0}[3]> rnode 1 : {[-4.07172e-05,1.09905e-08),[1.00693e-08,4.07699e-05),[-1.08069e-08,7.08006e-08)}
Ippl{0}[3]> rnode 2 : {[1.09905e-08,4.07392e-05),[1.00693e-08,4.07699e-05),[-1.08069e-08,7.08006e-08)}
Ippl{0}[3]> Internal FieldLayout = Domain = {[0:3:1],[0:3:1],[0:3:1]}
Ippl{0}[3]> FieldLayoutUsers = 3
Ippl{0}[3]> Total number of vnodes = 4
Ippl{0}[3]> Local Vnodes = 1
Ippl{0}[3]> vnode 0: Node = 0 ; vnode_m = 0 ; Domain = {[0:1:1],[0:1:1],[0:3:1]}
Ippl{0}[3]> Remote Vnodes = 3
Ippl{0}[3]> vnode 0 : Node = 1 ; vnode_m = 1 ; Domain = {[0:1:1],[2:3:1],[0:3:1]}
Ippl{0}[3]> vnode 1 : Node = 2 ; vnode_m = 2 ; Domain = {[2:3:1],[0:1:1],[0:3:1]}
Ippl{0}[3]> vnode 2 : Node = 3 ; vnode_m = 3 ; Domain = {[2:3:1],[2:3:1],[0:3:1]}
Ippl{0}[3]>
OPAL{0}>
OPAL{0}> * **********************************************************************************
OPAL{0}>
OPAL{0}>
OPAL{0}> * ************** B U N C H *********************************************************
OPAL{0}> * NP = 1000000
OPAL{0}> * Qtot = 7.70000e-10 [nC] Qi = 7.70000e-16 [nC]
OPAL{0}> * Ekin = 5.00000e+02 [MeV] dEkin = 6.92420e-04 [MeV]
OPAL{0}> * rmax = ( 3.05571e-05 , 3.05799e-05 , 6.05997e-08 ) [m]
OPAL{0}> * rmin = ( -3.05352e-05 , -3.05598e-05 , -6.05997e-10 ) [m]
OPAL{0}> * rms beam size = ( 9.73912e-06 , 9.69704e-06 , 9.85581e-09 ) [m]
OPAL{0}> * rms momenta = ( 1.42410e-07 , 1.41378e-07 , 9.73697e-07 ) [beta gamma]
OPAL{0}> * mean position = ( -9.58711e-09 , -9.63053e-09 , 3.00078e-08 ) [m]
OPAL{0}> * mean momenta = ( -1.38043e-11 , -3.96661e-12 , 1.16179e+00 ) [beta gamma]
OPAL{0}> * rms emittance = ( 1.19380e-12 , 1.03418e-12 , 8.26014e-15 ) (not normalized)
OPAL{0}> * rms correlation = ( -3.38281e-04 , 4.81576e-01 , 7.00500e-06 )
OPAL{0}> * hr = ( 2.03641e-05 , 2.03799e-05 , 2.04019e-08 ) [m]
OPAL{0}> * dh = 1.00000e-02 [m]
OPAL{0}> * t = 0.00000e+00 [s] dT = 1.00000e-11 [s]
OPAL{0}> * spos = 3.00078e-08 [m]
OPAL{0}> * **********************************************************************************
OPAL{0}>
OPAL{0}[2]> Phase space dump frequency 10 and statistics dump frequency 1 w.r.t. the time step.
OPAL{0}> Track start at: 12:52:30, t= 0; zstop at: 0.25 [m]
OPAL{0}> Executing ParallelTTracker, initial DT 1e-11 [s];
OPAL{0}> max integration steps 1, next step= 0
OPAL{0}> Using default (Boris-Buneman) integrator
OPAL{0}>
OPAL{0}> --- BEGIN FIELD LIST ---------------------------------------------------------------
OPAL{0}>
OPAL{0}> --- 0 m -- 1 m -- alpha = 0 -- beta = 0 --------------------------------------------
OPAL{0}> Q1
OPAL{0}>
OPAL{0}> --- END FIELD LIST -----------------------------------------------------------------
OPAL{0}>
Ippl{0}[3]> Q1 gone live
ParallelTTracker {0}[2]> MINBINEMITTED 10
ParallelTTracker {0}[2]> MINSTEPFORREBIN 200
ParallelTTracker {0}[2]> SURFACEEMISSIONSTOP after 1000 seconds
ParallelTTracker {0}[2]> REPARTFREQ 1000
Ippl{0}[3]> mesh size( 2.03641e-05 , 2.03801e-05 , 2.04019e-08 )
ParallelTTracker {0}[3]> 12:52:30 Step 0 at 2.272 [mm] t= 1.000e-11 [s] E= 500.000 [MeV]
OPAL {0}[3]> * Wrote beam phase space.
OPAL {0}>
OPAL {0}> * ************** B U N C H *********************************************************
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 7.70000e-10 [nC] Qi = 7.70000e-16 [nC]
OPAL {0}> * Ekin = 5.00000e+02 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {0}> * rmax = ( 3.05571e-05 , 3.05802e-05 , 1.13614e-03 ) [m]
OPAL {0}> * rmin = ( -3.05351e-05 , -3.05600e-05 , 1.13608e-03 ) [m]
OPAL {0}> * rms beam size = ( 9.73912e-06 , 9.69717e-06 , 9.85678e-09 ) [m]
OPAL {0}> * rms momenta = ( 1.42410e-07 , 1.41384e-07 , 0.00000e+00 ) [beta gamma]
OPAL {0}> * mean position = ( -9.58711e-09 , -9.63053e-09 , 2.27218e-03 ) [m]
OPAL {0}> * mean momenta = ( -6.02935e-15 , -6.51570e-15 , 1.16179e+00 ) [beta gamma]
OPAL {0}> * rms emittance = ( 1.19380e-12 , 1.03418e-12 , 0.00000e+00 ) (not normalized)
OPAL {0}> * rms correlation = ( -2.27077e-04 , 4.81661e-01 , 0.00000e+00 )
OPAL {0}> * hr = ( 2.03641e-05 , 2.03801e-05 , 2.04019e-08 ) [m]
OPAL {0}> * dh = 1.00000e-02 [m]
OPAL {0}> * t = 1.00000e-11 [s] dT = 1.00000e-11 [s]
OPAL {0}> * spos = 2.27218e-03 [m]
OPAL {0}> * **********************************************************************************
OPAL {0}>
OPAL {0}[3]> * Wrote beam statistics.
OPAL {0}[3]> * Wrote beam phase space.
OPAL {0}>
OPAL {0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 1.2.0 SVN version 13869 (c) PSI, http://amas.web.psi.ch
OPAL {0}> * ************** B U N C H *********************************************************
OPAL {0}> * NP = 1000000
OPAL {0}> * Qtot = 7.70000e-10 [nC] Qi = 7.70000e-16 [nC]
OPAL {0}> * Ekin = 5.00000e+02 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {0}> * rmax = ( 3.05570e-05 , 3.05805e-05 , 2.27221e-03 ) [m]
OPAL {0}> * rmin = ( -3.05351e-05 , -3.05602e-05 , 2.27215e-03 ) [m]
OPAL {0}> * rms beam size = ( 9.73912e-06 , 9.69717e-06 , 9.85669e-09 ) [m]
OPAL {0}> * rms momenta = ( 1.42410e-07 , 1.41384e-07 , 0.00000e+00 ) [beta gamma]
OPAL {0}> * mean position = ( -9.58711e-09 , -9.63053e-09 , 2.27218e-03 ) [m]
OPAL {0}> * mean momenta = ( -6.02935e-15 , -6.51570e-15 , 1.16179e+00 ) [beta gamma]
OPAL {0}> * rms emittance = ( 1.19380e-12 , 1.03418e-12 , 0.00000e+00 ) (not normalized)
OPAL {0}> * rms correlation = ( -2.27077e-04 , 4.81661e-01 , 0.00000e+00 )
OPAL {0}> * hr = ( 2.03641e-05 , 2.03802e-05 , 2.04019e-08 ) [m]
OPAL {0}> * dh = 1.00000e-02 [m]
OPAL {0}> * t = 1.00000e-11 [s] dT = 1.00000e-11 [s]
OPAL {0}> * spos = 2.27218e-03 [m]
OPAL {0}> * **********************************************************************************
OPAL {0}>
OPAL {0}> Please send cookies, goodies or other motivations (wine and beer ... ) to the OPAL developers opal@lists.psi.ch
OPAL {0}> Time: 07.14.47 date: 17/06/2013
OPAL {0}> NOTE 17: unable to mkdir; File exists
OPAL {+0}> No startup file "/Users/adelmann/init.opal" found.
OPAL {+0}> Reading input stream "Distribution-Gauss-1.in".
OPAL {+0}> * **********************************************************************************
OPAL {+0}> Selected Tracking Method == PARALLEL-T, NEW TRACK
OPAL {+0}> * **********************************************************************************
OPAL {+0}> r(0,0) = 1 -0.5 0 0 0 0
OPAL {+0}> r(1,0) = -0.5 1 0 0 0 0
OPAL {+0}> r(2,0) = 0 0 1 0.5 0 0
OPAL {+0}> r(3,0) = 0 0 0.5 1 0 0
OPAL {+0}> r(4,0) = 0 0 0 0 1 0
OPAL {+0}> r(5,0) = 0 0 0 0 0 1
OPAL {+0}> r(0,0) = 1 0 0 0 0 0
OPAL {+0}> r(1,0) = -0.5 0.866 0 0 0 0
OPAL {+0}> r(2,0) = 0 0 1 0 0 0
OPAL {+0}> r(3,0) = 0 0 0.5 0.866 0 0
OPAL {+0}> r(4,0) = 0 0 0 0 1 0
OPAL {+0}> r(5,0) = 0 0 0 0 0 1
OPAL {+0}> ********************** DISTRIBUTION **********************
OPAL {+0}>
OPAL {+0}> Number of particles: 1000000
OPAL {+0}>
OPAL {+0}> * Distribution type: GAUSS
OPAL {+0}>
OPAL {+0}> * SIGMAX = 1e-05 [m]
OPAL {+0}> * SIGMAY = 1e-05 [m]
OPAL {+0}> * SIGMAZ = 1e-08 [m]
OPAL {+0}> * SIGMAPX = 1.46e-07 [Beta Gamma]
OPAL {+0}> * SIGMAPY = 1.46e-07 [Beta Gamma]
OPAL {+0}> * SIGMAPZ = 0 [Beta Gamma]
OPAL {+0}> * AVRGPZ = 1.16 [Beta Gamma]
OPAL {+0}> * CORRX = -0.5
OPAL {+0}> * CORRY = 0.5
OPAL {+0}> * CORRZ = 0
OPAL {+0}> * R61 = 0
OPAL {+0}> * R62 = 0
OPAL {+0}> * R51 = 0
OPAL {+0}> * R52 = 0
OPAL {+0}> * CUTOFFX = 3 [units of SIGMAX]
OPAL {+0}> * CUTOFFY = 3 [units of SIGMAY]
OPAL {+0}> * CUTOFFZ = 3 [units of SIGMAZ]
OPAL {+0}> * CUTOFFPX = 3 [units of SIGMAPX]
OPAL {+0}> * CUTOFFPY = 3 [units of SIGMAPY]
OPAL {+0}> * CUTOFFPZ = 3 [units of SIGMAPY]
OPAL {+0}>
OPAL {+0}> * Distribution is injected.
OPAL {+0}>
OPAL {+0}> * *********************************************************
OPAL {+0}>
OPAL {+0}> * ************* B E A M ************************************************************
OPAL {+0}> * BEAM BEAM1
OPAL {+0}> * PARTICLE PROTON
OPAL {+0}> * CURRENT 1e-09 A
OPAL {+0}> * FREQENCY 1.3e+09 Hz
OPAL {+0}> * CHARGE +e * 1
OPAL {+0}> * REST MASS 0.938 GeV
OPAL {+0}> * MOMENTUM 1.09
OPAL {+0}> * NPART 1e+06
OPAL {+0}> * **********************************************************************************
OPAL {+0}>
OPAL {+0}> * ************* F I E L D S O L V E R **********************************************
OPAL {+0}> * FIELDSOLVER FS1
OPAL {+0}> * TYPE FFT
OPAL {+0}> * N-PROCESSORS 4
OPAL {+0}> * MX 4
OPAL {+0}> * MY 4
OPAL {+0}> * MT 4
OPAL {+0}> * BBOXINCR 1
OPAL {+0}> * GRRENSF INTEGRATED
OPAL {+0}> * XDIM is parallel
OPAL {+0}> * YDIM is parallel
OPAL {+0}> * Z(T)DIM is parallel
OPAL {+0}>
OPAL {+0}> * **********************************************************************************
OPAL {+0}>
OPAL {+0}> * ************** B U N C H *********************************************************
OPAL {+0}> * NP = 1000000
OPAL {+0}> * Qtot = 7.70000e-10 [nC] Qi = 7.70000e-16 [nC]
OPAL {+0}> * Ekin = 1.43522e+03 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {+0}> * rmax = ( 3.05992e-05 , 3.05974e-05 , 6.05997e-08 ) [m]
OPAL {+0}> * rmin = ( -3.06037e-05 , -3.06032e-05 , -6.05997e-10 ) [m]
OPAL {+0}> * rms beam size = ( 9.85884e-06 , 9.86161e-06 , 9.86182e-09 ) [m]
OPAL {+0}> * rms momenta = ( 1.44127e-07 , 1.43982e-07 , 0.00000e+00 ) [beta gamma]
OPAL {+0}> * mean position = ( -4.92044e-09 , 6.16685e-09 , 3.00047e-08 ) [m]
OPAL {+0}> * mean momenta = ( -5.98084e-11 , 2.19857e-11 , 2.32359e+00 ) [beta gamma]
OPAL {+0}> * rms emittance = ( 5.29269e-13 , 5.29451e-13 , 0.00000e+00 ) (not normalized)
OPAL {+0}> * rms correlation = ( -5.00916e-01 , 4.99310e-01 , -0.00000e+00 )
OPAL {+0}> * hr = ( 2.04010e-05 , 2.04002e-05 , 2.04019e-08 ) [m]
OPAL {+0}> * dh = 1.00000e-02 [m]
OPAL {+0}> * t = 0.00000e+00 [s] dT = 1.00000e-11 [s]
OPAL {+0}> * spos = 3.00047e-08 [m]
OPAL {+0}> * **********************************************************************************
OPAL {+0}>
OPAL {+0}> Phase space dump frequency 10 and statistics dump frequency 1 w.r.t. the time step.
ParallelTTracker {+0}> Track start at: 07.14.49, t= 0; zstop at: 0.25 [m]
ParallelTTracker {+0}> Executing ParallelTTracker, initial DT 1e-11 [s];
ParallelTTracker {+0}> max integration steps 1, next step= 0
ParallelTTracker {+0}> Using default (Boris-Buneman) integrator
ParallelTTracker {+0}>
ParallelTTracker {+0}> --- BEGIN FIELD LIST ---------------------------------------------------------------
ParallelTTracker {+0}>
ParallelTTracker {+0}> --- 0 m -- 1 m -- alpha = 0 -- beta = 0 --------------------------------------------
ParallelTTracker {+0}> Q1
ParallelTTracker {+0}>
ParallelTTracker {+0}> --- END FIELD LIST -----------------------------------------------------------------
ParallelTTracker {+0}>
ParallelTTracker {+0}> MINBINEMITTED 10
ParallelTTracker {+0}> MINSTEPFORREBIN 200
ParallelTTracker {+0}> SURFACEEMISSIONSTOP after 1000 seconds
ParallelTTracker {+0}> REPARTFREQ 1000
ParallelTTracker {+0}> 07.14.51 Step 0 at 2.754 [mm] t= 1.000e-11 [s] E= 1435.215 [MeV]
OPAL {+0}> * Wrote beam phase space.
OPAL {+0}> * ************** B U N C H *********************************************************
OPAL {+0}> * NP = 1000000
OPAL {+0}> * Qtot = 7.70000e-10 [nC] Qi = 7.70000e-16 [nC]
OPAL {+0}> * Ekin = 1.43522e+03 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {+0}> * rmax = ( 3.05992e-05 , 3.05976e-05 , 1.37693e-03 ) [m]
OPAL {+0}> * rmin = ( -3.06036e-05 , -3.06033e-05 , 1.37687e-03 ) [m]
OPAL {+0}> * rms beam size = ( 9.85875e-06 , 9.86170e-06 , 9.85322e-09 ) [m]
OPAL {+0}> * rms momenta = ( 1.44123e-07 , 1.43985e-07 , 0.00000e+00 ) [beta gamma]
OPAL {+0}> * mean position = ( -4.92044e-09 , 6.16685e-09 , 2.75376e-03 ) [m]
OPAL {+0}> * mean momenta = ( -1.01847e-15 , 2.36527e-15 , 2.32359e+00 ) [beta gamma]
OPAL {+0}> * rms emittance = ( 5.29269e-13 , 5.29451e-13 , 0.00000e+00 ) (not normalized)
OPAL {+0}> * rms correlation = ( -5.00867e-01 , 4.99360e-01 , -0.00000e+00 )
OPAL {+0}> * hr = ( 2.04010e-05 , 2.04003e-05 , 2.04019e-08 ) [m]
OPAL {+0}> * dh = 1.00000e-02 [m]
OPAL {+0}> * t = 1.00000e-11 [s] dT = 1.00000e-11 [s]
OPAL {+0}> * spos = 2.75376e-03 [m]
OPAL {+0}> * **********************************************************************************
OPAL {+0}>
OPAL {+0}> * Wrote beam statistics.
OPAL {+0}> * Wrote beam phase space.
OPAL {+0}> * ************** B U N C H *********************************************************
OPAL {+0}> * NP = 1000000
OPAL {+0}> * Qtot = 7.70000e-10 [nC] Qi = 7.70000e-16 [nC]
OPAL {+0}> * Ekin = 1.43522e+03 [MeV] dEkin = 0.00000e+00 [MeV]
OPAL {+0}> * rmax = ( 3.05992e-05 , 3.05979e-05 , 2.75379e-03 ) [m]
OPAL {+0}> * rmin = ( -3.06035e-05 , -3.06034e-05 , 2.75373e-03 ) [m]
OPAL {+0}> * rms beam size = ( 9.85875e-06 , 9.86170e-06 , 9.85331e-09 ) [m]
OPAL {+0}> * rms momenta = ( 1.44123e-07 , 1.43985e-07 , 0.00000e+00 ) [beta gamma]
OPAL {+0}> * mean position = ( -4.92044e-09 , 6.16685e-09 , 2.75376e-03 ) [m]
OPAL {+0}> * mean momenta = ( -1.01847e-15 , 2.36527e-15 , 2.32359e+00 ) [beta gamma]
OPAL {+0}> * rms emittance = ( 5.29269e-13 , 5.29451e-13 , 0.00000e+00 ) (not normalized)
OPAL {+0}> * rms correlation = ( -5.00867e-01 , 4.99360e-01 , -0.00000e+00 )
OPAL {+0}> * hr = ( 2.04009e-05 , 2.04004e-05 , 2.04019e-08 ) [m]
OPAL {+0}> * dh = 1.00000e-02 [m]
OPAL {+0}> * t = 1.00000e-11 [s] dT = 1.00000e-11 [s]
OPAL {+0}> * spos = 2.75376e-03 [m]
OPAL {+0}> * **********************************************************************************
OPAL {+0}>
OPAL {+0}> * Wrote beam statistics.
ParallelTTracker {+0}> Dump phase space of last step
ParallelTTracker {+0}> done executing ParallelTTracker at 07.14.53
OPAL {+0}> End of input stream "Distribution-Gauss-1.in".
Timings{+0}> -----------------------------------------------------------------
Timings{+0}> Timing results for 4 nodes:
Timings{+0}> -----------------------------------------------------------------
Timings{+0}> mainTimer ........... Wall tot = 5.59124, CPU tot = 5.47
Timings{+0}>
Timings{+0}> Secondary emission .. Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> Particle Inside ..... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> zshiftPre Processing Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> Ray tracing ......... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> Check inward ........ Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> Pre Processing ...... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> SelfField ........... Wall max = 0.385508, CPU max = 0.39
Timings{+0}> Wall avg = 0.38251, CPU avg = 0.385
Timings{+0}> Wall min = 0.378394, CPU min = 0.38
Timings{+0}>
Timings{+0}> Boundingbox ......... Wall max = 1.67275, CPU max = 1.68
Timings{+0}> Wall avg = 1.66159, CPU avg = 1.66
Timings{+0}> Wall min = 1.65761, CPU min = 1.65
Timings{+0}>
Timings{+0}> Statistics .......... Wall max = 0.286559, CPU max = 0.29
Timings{+0}> Wall avg = 0.282882, CPU avg = 0.275
Timings{+0}> Wall min = 0.281573, CPU min = 0.27
Timings{+0}>
Timings{+0}> Potential ........... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> Histogram ........... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> CreatDistr .......... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> LoadDistr ........... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> GreensFTotal ........ Wall max = 0.000253, CPU max = 0
Timings{+0}> Wall avg = 0.0002525, CPU avg = 0
Timings{+0}> Wall min = 0.000252, CPU min = 0
Timings{+0}>
Timings{+0}> IntGreenF1 .......... Wall max = 5e-05, CPU max = 0
Timings{+0}> Wall avg = 4.125e-05, CPU avg = 0
Timings{+0}> Wall min = 3.5e-05, CPU min = 0
Timings{+0}>
Timings{+0}> IntGreenF2 .......... Wall max = 0.000107, CPU max = 0
Timings{+0}> Wall avg = 8.55e-05, CPU avg = 0
Timings{+0}> Wall min = 7.3e-05, CPU min = 0
Timings{+0}>
Timings{+0}> IntGreenF3 .......... Wall max = 8.9e-05, CPU max = 0
Timings{+0}> Wall avg = 8.4e-05, CPU avg = 0
Timings{+0}> Wall min = 7.9e-05, CPU min = 0
Timings{+0}>
Timings{+0}> MirrorRho1 .......... Wall max = 3.3e-05, CPU max = 0
Timings{+0}> Wall avg = 2.825e-05, CPU avg = 0
Timings{+0}> Wall min = 1.8e-05, CPU min = 0
Timings{+0}>
Timings{+0}> ShIntGreenF1 ........ Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> ShIntGreenF2 ........ Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> ShIntGreenF3 ........ Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> ShIntGreenF4 ........ Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> MirrorRho2 .......... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> GreenF1 ............. Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> GreenF2 ............. Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> GreenF3 ............. Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> GreenF4 ............. Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> H5PartTimer ......... Wall max = 1.65332, CPU max = 1.38
Timings{+0}> Wall avg = 1.55104, CPU avg = 1.1225
Timings{+0}> Wall min = 1.50948, CPU min = 0.4
Timings{+0}>
Timings{+0}> H5BlockTimer ........ Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> StatMarkerTimer ..... Wall max = 0.064072, CPU max = 0.06
Timings{+0}> Wall avg = 0.0634715, CPU avg = 0.06
Timings{+0}> Wall min = 0.063262, CPU min = 0.06
Timings{+0}>
Timings{+0}> TIntegration1 ....... Wall max = 0.152187, CPU max = 0.16
Timings{+0}> Wall avg = 0.152175, CPU avg = 0.1525
Timings{+0}> Wall min = 0.152151, CPU min = 0.15
Timings{+0}>
Timings{+0}> TIntegration2 ....... Wall max = 0.221585, CPU max = 0.23
Timings{+0}> Wall avg = 0.221179, CPU avg = 0.2225
Timings{+0}> Wall min = 0.220007, CPU min = 0.22
Timings{+0}>
Timings{+0}> Fieldeval ........... Wall max = 0.086417, CPU max = 0.09
Timings{+0}> Wall avg = 0.085163, CPU avg = 0.085
Timings{+0}> Wall min = 0.081756, CPU min = 0.08
Timings{+0}>
Timings{+0}> Binaryrepart ........ Wall max = 0.191381, CPU max = 0.19
Timings{+0}> Wall avg = 0.189928, CPU avg = 0.19
Timings{+0}> Wall min = 0.189405, CPU min = 0.19
Timings{+0}>
Timings{+0}> WakeField ........... Wall max = 0, CPU max = 0
Timings{+0}> Wall avg = 0, CPU avg = 0
Timings{+0}> Wall min = 0, CPU min = 0
Timings{+0}>
Timings{+0}> RC-RRtranspose ...... Wall max = 6.2e-05, CPU max = 0
Timings{+0}> Wall avg = 5.575e-05, CPU avg = 0
Timings{+0}> Wall min = 4.3e-05, CPU min = 0
Timings{+0}>
Timings{+0}> RC-CCtranspose ...... Wall max = 0.000183, CPU max = 0
Timings{+0}> Wall avg = 0.000175, CPU avg = 0
Timings{+0}> Wall min = 0.000161, CPU min = 0
Timings{+0}>
Timings{+0}> RC-RC1Dfft .......... Wall max = 2e-05, CPU max = 0
Timings{+0}> Wall avg = 1.85e-05, CPU avg = 0
Timings{+0}> Wall min = 1.7e-05, CPU min = 0
Timings{+0}>
Timings{+0}> RC-CC1Dfft .......... Wall max = 2.2e-05, CPU max = 0
Timings{+0}> Wall avg = 2.1e-05, CPU avg = 0
Timings{+0}> Wall min = 2e-05, CPU min = 0
Timings{+0}>
Timings{+0}> RC-total ............ Wall max = 0.000317, CPU max = 0
Timings{+0}> Wall avg = 0.00030425, CPU avg = 0
Timings{+0}> Wall min = 0.000278, CPU min = 0
Timings{+0}>
Timings{+0}> -----------------------------------------------------------------
OPAL {0}[3]> * Wrote beam statistics.
ParallelTTracker {0}[2]> Dump phase space of last step
Ippl{0}[3]> Q1 gone off
OPAL{0}> done executing ParallelTTracker at 12:52:31
OPAL{0}> * End of input stream "Distribution-Gauss-1.in".
Timings{0}> -----------------------------------------------------------------
Timings{0}> Timing results for 4 nodes:
Timings{0}> -----------------------------------------------------------------
Timings{0}> mainTimer........... Wall tot = 2.59868, CPU tot = 2.16
Timings{0}>
Timings{0}> Binaryrepart........ Wall max = 0.031557, CPU max = 0.04
Timings{0}> Wall avg = 0.0314168, CPU avg = 0.0325
Timings{0}> Wall min = 0.031054, CPU min = 0.03
Timings{0}>
Timings{0}> Boundingbox......... Wall max = 0.949477, CPU max = 0.97
Timings{0}> Wall avg = 0.947065, CPU avg = 0.9525
Timings{0}> Wall min = 0.944951, CPU min = 0.94
Timings{0}>
Timings{0}> ComputePotential.... Wall max = 0.000833, CPU max = 0
Timings{0}> Wall avg = 0.0008305, CPU avg = 0
Timings{0}> Wall min = 0.000829, CPU min = 0
Timings{0}>
Timings{0}> CreatDistr.......... Wall max = 0, CPU max = 0
Timings{0}> Wall avg = 0, CPU avg = 0
Timings{0}> Wall min = 0, CPU min = 0
Timings{0}>
Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0
Timings{0}> Wall avg = 0, CPU avg = 0
Timings{0}> Wall min = 0, CPU min = 0
Timings{0}>
Timings{0}> Fieldeval........... Wall max = 0.017124, CPU max = 0.02
Timings{0}> Wall avg = 0.016845, CPU avg = 0.0175
Timings{0}> Wall min = 0.016736, CPU min = 0.01
Timings{0}>
Timings{0}> H5PartTimer......... Wall max = 0.460299, CPU max = 0.07
Timings{0}> Wall avg = 0.460246, CPU avg = 0.0675
Timings{0}> Wall min = 0.460165, CPU min = 0.06
Timings{0}>
Timings{0}> Histogram........... Wall max = 0, CPU max = 0
Timings{0}> Wall avg = 0, CPU avg = 0
Timings{0}> Wall min = 0, CPU min = 0
Timings{0}>
Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0
Timings{0}> Wall avg = 0, CPU avg = 0
Timings{0}> Wall min = 0, CPU min = 0
Timings{0}>
Timings{0}> Inside test......... Wall max = 0, CPU max = 0
Timings{0}> Wall avg = 0, CPU avg = 0
Timings{0}> Wall min = 0, CPU min = 0
Timings{0}>
Timings{0}> LoadDistr........... Wall max = 0, CPU max = 0
Timings{0}> Wall avg = 0, CPU avg = 0
Timings{0}> Wall min = 0, CPU min = 0
Timings{0}>
Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0
Timings{0}> Wall avg = 0, CPU avg = 0
Timings{0}> Wall min = 0, CPU min = 0
Timings{0}>
Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0
Timings{0}> Wall avg = 0, CPU avg = 0
Timings{0}> Wall min = 0, CPU min = 0
Timings{0}>
Timings{0}> RC-CC1Dfft.......... Wall max = 5.6e-05, CPU max = 0
Timings{0}> Wall avg = 3.625e-05, CPU avg = 0
Timings{0}> Wall min = 1.1e-05, CPU min = 0
Timings{0}>
Timings{0}> RC-CCtranspose...... Wall max = 0.000241, CPU max = 0
Timings{0}> Wall avg = 0.00019725, CPU avg = 0
Timings{0}> Wall min = 0.000171, CPU min = 0
Timings{0}>
Timings{0}> RC-RC1Dfft.......... Wall max = 0.000107, CPU max = 0
Timings{0}> Wall avg = 9.125e-05, CPU avg = 0
Timings{0}> Wall min = 7.1e-05, CPU min = 0
Timings{0}>
Timings{0}> RC-RRtranspose...... Wall max = 6.9e-05, CPU max = 0
Timings{0}> Wall avg = 4.825e-05, CPU avg = 0
Timings{0}> Wall min = 3.3e-05, CPU min = 0
Timings{0}>