Commit cffd7b91 authored by kraus's avatar kraus

adding a few more tests

parent 7cc455b4
This diff is collapsed.
Option, PSDUMPFREQ=50;
Option, STATDUMPFREQ=1;
Option, ECHO=FALSE;
Option, AUTOPHASE=4;
Title, string="Phase 1 of PSI FEL 250 Injector with CTF3 RF Photoinjector";
FINSB01_RACC_phi = 0;
FINSB02_RACC_phi = 0;
REPARTFREQ = 100;
MINSTEPFORREBIN = 600;
QB = 0.2e-9;
BF = 2998.0;
BC = QB*BF;
// Begin: CTF3 /////////////////////////////////////////////////////////////////////////////////////////////////
//
// Definition of CTF3 RF photoinjector.
//
//
// L: physical element length (real in m)
// VOLT: field scaling factor (real)
// FMAPFN: field file name (string)
// ELEMEDGE: physical start of the element on the floor (real in m)
// TYPE: specifies "STANDING" (default), "TRAVELLING" or "SINGLE GAP" structure
// FREQ: RF frequency of cavity (real in MHz).
//
FINSS_RGUN: RFCavity, L = 0.34986, VOLT = 100.0, FMAPFN = "CTF3_Ez_ASTRA.opal",
ELEMEDGE =0.0, TYPE = "STANDING", FREQ = BF,
LAG = -3.5/180.0*PI;
//
// L: physical element length (real in m)
// KS: field scaling factor (real)
// FMAPFN: field file name (string)
// ELEMEDGE: physical start of the element on the floor (real in m)
//
FIND1_MSOL10: Solenoid, L = 0.6, KS = 0.206, FMAPFN = "NEW_SINGLE_SOL_NOFRINGE_ASTRA.opal", ELEMEDGE = 0.3;
//
// L: physical element length (real in m)
// KS: field scaling factor (real)
// ELEMEDGE: physical start of the element on the floor (real in m)
//
FIND1_MQ10: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.38;
FIND1_MQ20: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.56;
FIND1_MQ30: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.74;
//elemento fittizio utilizzato per prolungare la linea del fascio
END: Solenoid, L=0.01, KS = 0.01, ELEMEDGE=100., FMAPFN="NEW_SINGLE_SOL_NOFRINGE_ASTRA.opal";
Injector: Line = (FINSS_RGUN, FIND1_MSOL10, FIND1_MQ10, FIND1_MQ20, FIND1_MQ30, END);
// End: CTF3 //////////////////////////////////////////////////////////////////////////////////////////////////
// Begin: Screen monitors ////////////////////////////////////////////////////////////////////////////////////
//
// Define screen monitors in beam line.
//
// L: physical element length (real in m). Always equal to 1 cm.
// ELEMEDGE: position of screen (real in m). This is where the particle information is taken.
// OUTFN: name of .h5 file to store data. Include ".h5" on end.
//
SCREEN1: Monitor, L = 0.01, ELEMEDGE = 0.902, OUTFN = "Screen1.h5";
SCREEN2: Monitor, L = 0.01, ELEMEDGE = 1.0165, OUTFN = "Screen2.h5";
//previous screen, virtual screen placed in the mid point of RFD
SCREEN3: Monitor, L = 0.01, ELEMEDGE = 1.1295, OUTFN = "Screen3.h5";
SCREEN4: Monitor, L = 0.01, ELEMEDGE = 2.2525, OUTFN = "Screen4.h5";
SCREEN5: Monitor, L = 0.01, ELEMEDGE = 2.735, OUTFN = "Screen5.h5";
SCREEN6: Monitor, L = 0.01, ELEMEDGE = 3.0, OUTFN = "Screen6.h5";
SCREEN7: Monitor, L = 0.01, ELEMEDGE = 3.126, OUTFN = "Screen7.h5";
SCREEN8: Monitor, L = 0.01, ELEMEDGE = 3.252, OUTFN = "Screen8.h5";
SCREEN9: Monitor, L = 0.01, ELEMEDGE = 4.126, OUTFN = "Screen9.h5";
SCREEN10: Monitor, L = 0.01, ELEMEDGE = 5.126, OUTFN = "Screen10.h5";
SCREENS: Line = (SCREEN1,SCREEN2,SCREEN3,SCREEN4,SCREEN5,SCREEN6,SCREEN7,SCREEN8,SCREEN9,SCREEN10);
// End: Screen monitors //////////////////////////////////////////////////////////////////////////////////////
// Begin: Fieldsolver ///////////////////////////////////////////
//
// Definition of first field solver.
//
Fs1:FIELDSOLVER, FSTYPE = FFT, MX = 32, MY = 32, MT = 64,
PARFFTX = true, PARFFTY = true, PARFFTT = true,
BCFFTX = open, BCFFTY = open, BCFFTT = open,
BBOXINCR = 1, GREENSF = INTEGRATED;
// End: Fieldsolver ////////////////////////////////////////////
Dist1:DISTRIBUTION, DISTRIBUTION = "GUNGAUSSFLATTOPTH",
sigmax = 0.000395,
sigmapx = 0.0,
corrx = 0.0,
sigmay = 0.000395,
sigmapy = 0.0,
corry = 0.0,
sigmat = 0.0,
pt = 0.0,
sigmapt = 0.0,
corrt = 0.0,
tRise = 7.45e-12,
tFall = 7.45e-12,
tPulseFWHM = 10.4e-12,
ekin = 0.4,
NBIN = 5,
DEBIN = 30;
beam1: BEAM, PARTICLE = ELECTRON, pc = P0, NPART = 20000, BFREQ = BF , BCURRENT = BC, CHARGE = -1;
SELECT, LINE=Injector;
// Simulation of the gun with step size DTGUN
TRACK, LINE= Injector, BEAM=beam1, MAXSTEPS=100, DT=5.0e-12, ZSTOP=0.03;
RUN, METHOD = "PARALLEL-T", BEAM = beam1, FIELDSOLVER = Fs1, DISTRIBUTION = Dist1;
ENDTRACK;
QUIT;
#!/bin/bash
#cp RestartTest-3.h5.bak RestartTest-3.h5
rm -f RestartTest-3.stat
mpirun -np 4 $OPAL_EXE_PATH/opal RestartTest-3.in -restart -1 -restartfn RestartTest-3.h5.bak --commlib mpi --info 0 --warn 0 2>&1
"testing that we can restart from the last step of file other than basename.h5"
stat "rms_x" last 1E-10 #this is a comment
stat "rms_y" last 1E-10 #this is a comment
stat "rms_s" last 1E-10 #this is a comment
\ No newline at end of file
#!/bin/bash
#$ -cwd
#$ -j y
#$ -pe orte 4
#$ -N RestartTest-3-RT
#$ -v LD_LIBRARY_PATH,OPAL_EXE_PATH,OPENMPI,REG_TEST_DIR
MACHINE_FILE=$TMPDIR/machinefile
awk '/^merlin/ {print $1" slots="$2}' $PE_HOSTFILE > $MACHINE_FILE
cp $MACHINE_FILE machinefile.last
cd $REG_TEST_DIR
cp RestartTest-3.h5.bak RestartTest-3.h5
rm -f RestartTest-3.stat
OPAL="$OPAL_EXE_PATH/opal RestartTest-3.in -restart -1 --commlib mpi --info 0 --warn 0 2>&1"
CMD="$OPENMPI/bin/mpirun -x LD_LIBRARY_PATH -machinefile $MACHINE_FILE -np $NSLOTS $OPAL "
$CMD
# 4
5201 4593 5090 5116
5191 4595 5093 5121
5177 4597 5099 5127
5173 4592 5103 5132
5160 4598 5108 5134
5150 4605 5111 5134
5146 4606 5113 5135
5143 4605 5117 5135
6b0d08d99b30f050f99b5c336ab9393a RestartTest-3.lbal
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d53d3168d352acc4614f9db8d50822cf RestartTest-3.out
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83e841580185df999bbdecc6da366485 RestartTest-3.stat
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Option, PSDUMPFREQ=50;
Option, STATDUMPFREQ=1;
Option, ECHO=FALSE;
Option, AUTOPHASE=4;
Title, string="Phase 1 of PSI FEL 250 Injector with CTF3 RF Photoinjector";
FINSB01_RACC_phi = 0;
FINSB02_RACC_phi = 0;
REPARTFREQ = 100;
MINSTEPFORREBIN = 600;
QB = 0.2e-9;
BF = 2998.0;
BC = QB*BF;
// Begin: CTF3 /////////////////////////////////////////////////////////////////////////////////////////////////
//
// Definition of CTF3 RF photoinjector.
//
//
// L: physical element length (real in m)
// VOLT: field scaling factor (real)
// FMAPFN: field file name (string)
// ELEMEDGE: physical start of the element on the floor (real in m)
// TYPE: specifies "STANDING" (default), "TRAVELLING" or "SINGLE GAP" structure
// FREQ: RF frequency of cavity (real in MHz).
//
FINSS_RGUN: RFCavity, L = 0.34986, VOLT = 100.0, FMAPFN = "CTF3_Ez_ASTRA.opal",
ELEMEDGE =0.0, TYPE = "STANDING", FREQ = BF,
LAG = -3.5/180.0*PI;
//
// L: physical element length (real in m)
// KS: field scaling factor (real)
// FMAPFN: field file name (string)
// ELEMEDGE: physical start of the element on the floor (real in m)
//
FIND1_MSOL10: Solenoid, L = 0.6, KS = 0.206, FMAPFN = "NEW_SINGLE_SOL_NOFRINGE_ASTRA.opal", ELEMEDGE = 0.3;
//
// L: physical element length (real in m)
// KS: field scaling factor (real)
// ELEMEDGE: physical start of the element on the floor (real in m)
//
FIND1_MQ10: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.38;
FIND1_MQ20: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.56;
FIND1_MQ30: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.74;
//elemento fittizio utilizzato per prolungare la linea del fascio
END: Solenoid, L=0.01, KS = 0.01, ELEMEDGE=100., FMAPFN="NEW_SINGLE_SOL_NOFRINGE_ASTRA.opal";
Injector: Line = (FINSS_RGUN, FIND1_MSOL10, FIND1_MQ10, FIND1_MQ20, FIND1_MQ30, END);
// End: CTF3 //////////////////////////////////////////////////////////////////////////////////////////////////
// Begin: Screen monitors ////////////////////////////////////////////////////////////////////////////////////
//
// Define screen monitors in beam line.
//
// L: physical element length (real in m). Always equal to 1 cm.
// ELEMEDGE: position of screen (real in m). This is where the particle information is taken.
// OUTFN: name of .h5 file to store data. Include ".h5" on end.
//
SCREEN1: Monitor, L = 0.01, ELEMEDGE = 0.902, OUTFN = "Screen1.h5";
SCREEN2: Monitor, L = 0.01, ELEMEDGE = 1.0165, OUTFN = "Screen2.h5";
//previous screen, virtual screen placed in the mid point of RFD
SCREEN3: Monitor, L = 0.01, ELEMEDGE = 1.1295, OUTFN = "Screen3.h5";
SCREEN4: Monitor, L = 0.01, ELEMEDGE = 2.2525, OUTFN = "Screen4.h5";
SCREEN5: Monitor, L = 0.01, ELEMEDGE = 2.735, OUTFN = "Screen5.h5";
SCREEN6: Monitor, L = 0.01, ELEMEDGE = 3.0, OUTFN = "Screen6.h5";
SCREEN7: Monitor, L = 0.01, ELEMEDGE = 3.126, OUTFN = "Screen7.h5";
SCREEN8: Monitor, L = 0.01, ELEMEDGE = 3.252, OUTFN = "Screen8.h5";
SCREEN9: Monitor, L = 0.01, ELEMEDGE = 4.126, OUTFN = "Screen9.h5";
SCREEN10: Monitor, L = 0.01, ELEMEDGE = 5.126, OUTFN = "Screen10.h5";
SCREENS: Line = (SCREEN1,SCREEN2,SCREEN3,SCREEN4,SCREEN5,SCREEN6,SCREEN7,SCREEN8,SCREEN9,SCREEN10);
// End: Screen monitors //////////////////////////////////////////////////////////////////////////////////////
// Begin: Fieldsolver ///////////////////////////////////////////
//
// Definition of first field solver.
//
Fs1:FIELDSOLVER, FSTYPE = FFT, MX = 32, MY = 32, MT = 64,
PARFFTX = true, PARFFTY = true, PARFFTT = true,
BCFFTX = open, BCFFTY = open, BCFFTT = open,
BBOXINCR = 1, GREENSF = INTEGRATED;
// End: Fieldsolver ////////////////////////////////////////////
Dist1:DISTRIBUTION, DISTRIBUTION = "GUNGAUSSFLATTOPTH",
sigmax = 0.000395,
sigmapx = 0.0,
corrx = 0.0,
sigmay = 0.000395,
sigmapy = 0.0,
corry = 0.0,
sigmat = 0.0,
pt = 0.0,
sigmapt = 0.0,
corrt = 0.0,
tRise = 7.45e-12,
tFall = 7.45e-12,
tPulseFWHM = 10.4e-12,
ekin = 0.4,
NBIN = 5,
DEBIN = 30;
beam1: BEAM, PARTICLE = ELECTRON, pc = P0, NPART = 20000, BFREQ = BF , BCURRENT = BC, CHARGE = -1;
SELECT, LINE=Injector;
// Simulation of the gun with step size DTGUN
TRACK, LINE= Injector, BEAM=beam1, MAXSTEPS=100, DT=5.0e-12, ZSTOP=0.03;
RUN, METHOD = "PARALLEL-T", BEAM = beam1, FIELDSOLVER = Fs1, DISTRIBUTION = Dist1;
ENDTRACK;
QUIT;
#!/bin/bash
#cp RestartTest-4.h5.bak RestartTest-4.h5
rm -f RestartTest-4.stat
mpirun -np 4 $OPAL_EXE_PATH/opal RestartTest-4.in -restart 0 -restartfn RestartTest-4.h5.bak --commlib mpi --info 0 --warn 0 2>&1
"testing that we can restart from any step in the file basename.h5"
stat "rms_x" last 1E-10 #this is a comment
stat "rms_y" last 1E-10 #this is a comment
stat "rms_s" last 1E-10 #this is a comment
\ No newline at end of file
"RestartTest-4"
stat "rms_x" last 1E-10 #this is a comment
stat "rms_y" last 1E-10 #this is a comment
stat "rms_s" last 1E-10 #this is a comment
\ No newline at end of file
#!/bin/bash
#$ -cwd
#$ -j y
#$ -pe orte 4
#$ -N RestartTest-4-RT
#$ -v LD_LIBRARY_PATH,OPAL_EXE_PATH,OPENMPI,REG_TEST_DIR
MACHINE_FILE=$TMPDIR/machinefile
awk '/^merlin/ {print $1" slots="$2}' $PE_HOSTFILE > $MACHINE_FILE
cp $MACHINE_FILE machinefile.last
cd $REG_TEST_DIR
rm -f RestartTest-4.stat
OPAL="$OPAL_EXE_PATH/opal RestartTest-4.in -restart 0 -restartfn RestartTest-4.h5.bak --commlib mpi --info 0 --warn 0 2>&1"
CMD="$OPENMPI/bin/mpirun -x LD_LIBRARY_PATH -machinefile $MACHINE_FILE -np $NSLOTS $OPAL "
$CMD
\ No newline at end of file
# 4
82 74 263 283
48 52 242 360
38 48 227 389
32 40 216 414
30 39 203 430
30 38 196 438
30 37 195 440
30 35 191 446
29 34 189 450
29 33 190 450
29 32 191 450
29 32 189 452
28 33 189 452
27 32 191 452
27 32 191 452
27 32 191 452
27 32 191 452
27 31 192 452
27 31 191 453
27 31 191 453
27 31 190 454
27 31 190 454
27 31 189 455
27 31 189 455
27 31 189 455
27 31 189 455
bef6ccb33d79fb75d7f7f8156923b476 RestartTest-4.lbal
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74292d6fa73d85cdc2ddf934fdb7abf2 RestartTest-4.out
This diff is collapsed.
c2a79736a4e9bfa8e3db277982581495 RestartTest-4.stat
This diff is collapsed.
Option, PSDUMPFREQ=50;
Option, STATDUMPFREQ=1;
Option, ECHO=FALSE;
Option, AUTOPHASE=4;
Title, string="Phase 1 of PSI FEL 250 Injector with CTF3 RF Photoinjector";
FINSB01_RACC_phi = 0;
FINSB02_RACC_phi = 0;
REPARTFREQ = 100;
MINSTEPFORREBIN = 600;
QB = 0.2e-9;
BF = 2998.0;
BC = QB*BF;
// Begin: CTF3 /////////////////////////////////////////////////////////////////////////////////////////////////
//
// Definition of CTF3 RF photoinjector.
//
//
// L: physical element length (real in m)
// VOLT: field scaling factor (real)
// FMAPFN: field file name (string)
// ELEMEDGE: physical start of the element on the floor (real in m)
// TYPE: specifies "STANDING" (default), "TRAVELLING" or "SINGLE GAP" structure
// FREQ: RF frequency of cavity (real in MHz).
//
FINSS_RGUN: RFCavity, L = 0.34986, VOLT = 100.0, FMAPFN = "CTF3_Ez_ASTRA.opal",
ELEMEDGE =0.0, TYPE = "STANDING", FREQ = BF,
LAG = -3.5/180.0*PI;
//
// L: physical element length (real in m)
// KS: field scaling factor (real)
// FMAPFN: field file name (string)
// ELEMEDGE: physical start of the element on the floor (real in m)
//
FIND1_MSOL10: Solenoid, L = 0.6, KS = 0.206, FMAPFN = "NEW_SINGLE_SOL_NOFRINGE_ASTRA.opal", ELEMEDGE = 0.3;
//
// L: physical element length (real in m)
// KS: field scaling factor (real)
// ELEMEDGE: physical start of the element on the floor (real in m)
//
FIND1_MQ10: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.38;
FIND1_MQ20: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.56;
FIND1_MQ30: Quadrupole, L=0.1, K1= 0.0, ELEMEDGE=1.74;
//elemento fittizio utilizzato per prolungare la linea del fascio
END: Solenoid, L=0.01, KS = 0.01, ELEMEDGE=100., FMAPFN="NEW_SINGLE_SOL_NOFRINGE_ASTRA.opal";
Injector: Line = (FINSS_RGUN, FIND1_MSOL10, FIND1_MQ10, FIND1_MQ20, FIND1_MQ30, END);
// End: CTF3 //////////////////////////////////////////////////////////////////////////////////////////////////
// Begin: Screen monitors ////////////////////////////////////////////////////////////////////////////////////
//
// Define screen monitors in beam line.
//
// L: physical element length (real in m). Always equal to 1 cm.
// ELEMEDGE: position of screen (real in m). This is where the particle information is taken.
// OUTFN: name of .h5 file to store data. Include ".h5" on end.
//
SCREEN1: Monitor, L = 0.01, ELEMEDGE = 0.902, OUTFN = "Screen1.h5";
SCREEN2: Monitor, L = 0.01, ELEMEDGE = 1.0165, OUTFN = "Screen2.h5";
//previous screen, virtual screen placed in the mid point of RFD
SCREEN3: Monitor, L = 0.01, ELEMEDGE = 1.1295, OUTFN = "Screen3.h5";
SCREEN4: Monitor, L = 0.01, ELEMEDGE = 2.2525, OUTFN = "Screen4.h5";
SCREEN5: Monitor, L = 0.01, ELEMEDGE = 2.735, OUTFN = "Screen5.h5";
SCREEN6: Monitor, L = 0.01, ELEMEDGE = 3.0, OUTFN = "Screen6.h5";
SCREEN7: Monitor, L = 0.01, ELEMEDGE = 3.126, OUTFN = "Screen7.h5";
SCREEN8: Monitor, L = 0.01, ELEMEDGE = 3.252, OUTFN = "Screen8.h5";
SCREEN9: Monitor, L = 0.01, ELEMEDGE = 4.126, OUTFN = "Screen9.h5";
SCREEN10: Monitor, L = 0.01, ELEMEDGE = 5.126, OUTFN = "Screen10.h5";
SCREENS: Line = (SCREEN1,SCREEN2,SCREEN3,SCREEN4,SCREEN5,SCREEN6,SCREEN7,SCREEN8,SCREEN9,SCREEN10);
// End: Screen monitors //////////////////////////////////////////////////////////////////////////////////////
// Begin: Fieldsolver ///////////////////////////////////////////
//
// Definition of first field solver.
//
Fs1:FIELDSOLVER, FSTYPE = FFT, MX = 32, MY = 32, MT = 64,
PARFFTX = true, PARFFTY = true, PARFFTT = true,
BCFFTX = open, BCFFTY = open, BCFFTT = open,
BBOXINCR = 1, GREENSF = INTEGRATED;
// End: Fieldsolver ////////////////////////////////////////////
Dist1:DISTRIBUTION, DISTRIBUTION = "GUNGAUSSFLATTOPTH",
sigmax = 0.000395,
sigmapx = 0.0,
corrx = 0.0,
sigmay = 0.000395,
sigmapy = 0.0,
corry = 0.0,
sigmat = 0.0,
pt = 0.0,
sigmapt = 0.0,
corrt = 0.0,
tRise = 7.45e-12,
tFall = 7.45e-12,
tPulseFWHM = 10.4e-12,
ekin = 0.4,
NBIN = 5,
DEBIN = 30;
beam1: BEAM, PARTICLE = ELECTRON, pc = P0, NPART = 20000, BFREQ = BF , BCURRENT = BC, CHARGE = -1;
SELECT, LINE=Injector;
// Simulation of the gun with step size DTGUN
TRACK, LINE= Injector, BEAM=beam1, MAXSTEPS=100, DT=5.0e-12, ZSTOP=0.03;
RUN, METHOD = "PARALLEL-T", BEAM = beam1, FIELDSOLVER = Fs1, DISTRIBUTION = Dist1;
ENDTRACK;
QUIT;
#!/bin/bash
cp RestartTest-5.h5.bak RestartTest-5.h5
rm -f RestartTest-5.stat
mpirun -np 4 $OPAL_EXE_PATH/opal RestartTest-5.in -restart 0 --commlib mpi --info 0 --warn 0 2>&1
"testin that we can restart from any step in a file other than basename.h5"
stat "rms_x" last 1E-10 #this is a comment
stat "rms_y" last 1E-10 #this is a comment
stat "rms_s" last 1E-10 #this is a comment
\ No newline at end of file
"RestartTest-5"
stat "rms_x" last 1E-10 #this is a comment
stat "rms_y" last 1E-10 #this is a comment
stat "rms_s" last 1E-10 #this is a comment
\ No newline at end of file
#!/bin/bash
#$ -cwd
#$ -j y
#$ -pe orte 4
#$ -N RestartTest-5-RT
#$ -v LD_LIBRARY_PATH,OPAL_EXE_PATH,OPENMPI,REG_TEST_DIR
MACHINE_FILE=$TMPDIR/machinefile
awk '/^merlin/ {print $1" slots="$2}' $PE_HOSTFILE > $MACHINE_FILE
cp $MACHINE_FILE machinefile.last
cd $REG_TEST_DIR
cp RestartTest-5.h5.bak RestartTest-5.h5
rm -f RestartTest-5.stat
OPAL="$OPAL_EXE_PATH/opal RestartTest-5.in -restart 0 --commlib mpi --info 0 --warn 0 2>&1"
CMD="$OPENMPI/bin/mpirun -x LD_LIBRARY_PATH -machinefile $MACHINE_FILE -np $NSLOTS $OPAL "
$CMD
\ No newline at end of file
# 4
82 74 263 283
48 52 242 360
38 48 227 389
32 40 216 414
30 39 203 430
30 38 196 438
30 37 195 440
30 35 191 446
29 34 189 450
29 33 190 450
29 32 191 450
29 32 189 452
28 33 189 452
27 32 191 452
27 32 191 452
27 32 191 452
27 32 191 452
27 31 192 452
27 31 191 453
27 31 191 453
27 31 190 454
27 31 190 454
27 31 189 455
27 31 189 455
27 31 189 455
27 31 189 455
bef6ccb33d79fb75d7f7f8156923b476 RestartTest-5.lbal
This diff is collapsed.
74292d6fa73d85cdc2ddf934fdb7abf2 RestartTest-5.out
This diff is collapsed.
c2a79736a4e9bfa8e3db277982581495 RestartTest-5.stat
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