merlin-c-30.psi.ch Ippl> CommMPI: Parent process waiting for children ... Ippl> CommMPI: Initialization complete. > ____ _____ ___ > / __ \| __ \ /\ | | > | | | | |__) / \ | | > | | | | ___/ /\ \ | | > | |__| | | / ____ \| |____ > \____/|_| /_/ \_\______| OPAL> OPAL> This is OPAL (Object Oriented Parallel Accelerator Library) Version 1.6.0 OPAL> OPAL> (c) PSI, http://amas.web.psi.ch OPAL> OPAL> OPAL compiled with DKS (Dynamic Kernel Scheduler) Version 1.1.2 OPAL> OPAL> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL> to the OPAL developers opal@lists.psi.ch OPAL> OPAL> Time: 15:26:02 date: 19/10/2017 OPAL> OPAL> Couldn't find startup file "/gpfs/home/rizzoglio_v/init.opal". OPAL> Note: this is not mandatory for an OPAL simulation! OPAL> OPAL> * Reading input stream "MonteCarlo_Cyc.in". OPAL> OPAL> Current settings of options: OPAL> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL> TELL=TRUE,PSDUMPFREQ=50,STATDUMPFREQ=10,PSDUMPEACHTURN=FALSE, OPAL> PSDUMPFRAME="GLOBAL",SPTDUMPFREQ=1,REPARTFREQ=10,REBINFREQ=100, OPAL> SCSOLVEFREQ=1,MTSSUBSTEPS=1,REMOTEPARTDEL=0,SCAN=FALSE, OPAL> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=0,PPDEBUG=FALSE, OPAL> SURFDUMPFREQ=-1,NUMBLOCKS=0,RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE, OPAL> RNGTYPE="RANDOM",ENABLEHDF5=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,VERSION=10000; OPAL> OPAL> * ************* S U R F A C E P H Y S I C S **************************************** OPAL> * SurfacePhysics::initSurfacePhysicsHandler OPAL> * ********************************************************************************** OPAL> * ************* S U R F A C E P H Y S I C S **************************************** OPAL> * SURFACEPHYSICS QUAD1_BP_sphys OPAL> * MATERIAL GraphiteR6710 OPAL> * RADIUS 0 OPAL> * SIGMA 0 OPAL> * TAU 0 OPAL> * LOWENERGYTHR 0.1 (MeV) OPAL> * RUTHERFORD SCAT ENABLED OPAL> * ********************************************************************************** OPAL> Ippl> no solver attached OPAL> * m before gsl_linalg_cholesky_decomp OPAL> * r(0, : ) = 1 & 0.503 & 0 & 0 & 0 & 0 \\ OPAL> * r(1, : ) = 0.503 & 1 & 0 & 0 & 0 & 0 \\ OPAL> * r(2, : ) = 0 & 0 & 1 & 0.858 & 0 & 0 \\ OPAL> * r(3, : ) = 0 & 0 & 0.858 & 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, : ) = 0.503 & 0.8643 & 0 & 0 & 0 & 0 \\ OPAL> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL> * r(3, : ) = 0 & 0 & 0.858 & 0.5136 & 0 & 0 \\ OPAL> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL> * Mass of simulation particle= 9.37e-07 GeV/c^2 OPAL> * Charge of simulation particle= 1.6e-25 [C] OPAL> * ********************************************************************************** OPAL> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL> * ********************************************************************************** OPAL> * Number of neighbour bunches= 1 OPAL> * DT = 5e-12 OPAL> * MAXSTEPS = 2140 OPAL> * Phase space dump frequency = 50 OPAL> * Statistics dump frequency = 10 w.r.t. the time step. OPAL> * ********************************************************************************** OPAL> * ************* D I S T R I B U T I O N ******************************************** OPAL> * OPAL> * Number of particles: 10000 OPAL> * OPAL> * Distribution type: GAUSS OPAL> * OPAL> * SIGMAX = 0.005 [m] OPAL> * SIGMAY = 1e-05 [m] OPAL> * SIGMAZ = 0.005 [m] OPAL> * SIGMAPX = 0.001152 [Beta Gamma] OPAL> * SIGMAPY = 0.001002 [Beta Gamma] OPAL> * SIGMAPZ = 0.0005433 [Beta Gamma] OPAL> * AVRGPZ = 0 [Beta Gamma] OPAL> * CORRX = 0.503 OPAL> * CORRY = 0.858 OPAL> * CORRZ = 0 OPAL> * R61 = 0 OPAL> * R62 = 0 OPAL> * R51 = 0 OPAL> * R52 = 0 OPAL> * CUTOFFX = 5 [units of SIGMAX] OPAL> * CUTOFFY = 5 [units of SIGMAY] OPAL> * CUTOFFZ = 5 [units of SIGMAZ] OPAL> * CUTOFFPX = 5 [units of SIGMAPX] OPAL> * CUTOFFPY = 5 [units of SIGMAPY] OPAL> * CUTOFFPZ = 5 [units of SIGMAPY] OPAL> * OPAL> * Distribution is injected. OPAL> * OPAL> * ********************************************************************************** OPAL> OPAL> * ************* B E A M ************************************************************ OPAL> * BEAM BEAM_4 OPAL> * PARTICLE PROTON OPAL> * CURRENT 1.6e-14 A OPAL> * FREQUENCY 10 MHz OPAL> * CHARGE +e * 1 OPAL> * REST MASS 0.9383 GeV OPAL> * MOMENTUM 0.6176 OPAL> * NPART 1e+04 OPAL> * ********************************************************************************** OPAL> OPAL> * ************* F I E L D S O L V E R ********************************************** OPAL> * FIELDSOLVER FS1 OPAL> * TYPE NONE OPAL> * N-PROCESSORS 1 OPAL> * MX 64 OPAL> * MY 64 OPAL> * MT 64 OPAL> * BBOXINCR 1 OPAL> * XDIM parallel OPAL> * YDIM parallel OPAL> * Z(T)DIM parallel OPAL> * ********************************************************************************** OPAL> OPAL> * ----------------------------- Adding Ring ------------------------------ * OPAL> * Initial beam radius = -1000 [mm] OPAL> * Initial gamma = 1.197 OPAL> * Initial beta = 0.5498 OPAL> * Total reference momentum = 658.2 [MCU] OPAL> * Reference azimuthal momentum = 658.2 [MCU] OPAL> * Reference radial momentum = 0 [MCU] OPAL> * 1 fold field symmetry OPAL> * Harmonic number h= 1 OPAL> * Added OFFQUAD1 to Ring OPAL> * Start position (-1375, 8.41945e-14, 0) normal (6.12323e-17, 1, 0), phi 6.12323e-17 OPAL> * End position (-1375, 1800, 0) normal (6.12323e-17, 1, 0) OPAL> * CCollimator QUAD1_BP Xstart=-1000 Xend=-1000 Ystart=1800 Yend=1810 Zstart=70 Zend=170 Width=200 all in [mm] OPAL> * CCollimator QUAD1_BP angle start -1000 angle end 1800 all (Deg) R start -1000 R rend 1810 all (mm) OPAL > Applying symmetry to Ring OPAL> * ------------------------------------- OPAL> * The selected Beam line elements are : OPAL> * -> OPALRING OPAL> * -> CCOLLIMATOR OPAL> * ------------------------------------- OPAL> * 4th order Runge-Kutta integrator OPAL> * Before repartition: min local particle number 10000 max local particle number: 10000 OPAL> * After repartition: min local particle number 10000 max local particle number: 10000 OPAL> OPAL> * *********************** Bunch information in local frame: ************************ OPAL> * ************** B U N C H ********************************************************* OPAL> * NP = 10000 OPAL> * Qtot = 1.60000e-12 [nC] Qi = 1.60000e-16 [nC] OPAL> * Ekin = 1.84994e+02 [MeV] dEkin = 5.16103e-01 [MeV] OPAL> * rmax = ( 1.91032e-05 , 2.68549e-07 , 1.88814e-05 ) [m] OPAL> * rmin = ( -2.37718e-05 , -5.17562e-08 , -1.19996e-04 ) [m] OPAL> * rms beam size = ( 5.03009e-03 , 1.47466e-05 , 4.92598e-03 ) [m] OPAL> * rms momenta = ( 1.15771e-03 , 1.00050e-03 , 5.46933e-04 ) [beta gamma] OPAL> * mean position = ( -2.33459e-09 , -2.68576e-08 , 1.20008e-05 ) [m] OPAL> * mean momenta = ( -1.19208e-09 , 6.58180e-01 , -1.47233e-07 ) [beta gamma] OPAL> * rms emittance = ( 7.66891e-06 , 1.83022e-08 , 4.09186e-06 ) (not normalized) OPAL> * rms correlation = ( 4.98212e-01 , 5.77003e-01 , -8.85034e-03 ) OPAL> * hr = ( 6.80554e-04 , 5.08421e-06 , 2.20440e-03 ) [m] OPAL> * dh = 1.00000e-10 [%] OPAL> * t = 0.00000e+00 [s] dT = 2.00000e-11 [s] OPAL> * spos = 0.00000e+00 [m] OPAL> * ********************************************************************************** OPAL> OPAL> OPAL> * Phase space dump 0 (local frame) at integration step 0 OPAL> * T = 0 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1000 mm, Theta = -180 Deg, Z = 120 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * *********************** Bunch information in global frame: *********************** OPAL> * ************** B U N C H ********************************************************* OPAL> * NP = 10000 OPAL> * Qtot = 1.60000e-12 [nC] Qi = 1.60000e-16 [nC] OPAL> * Ekin = 1.84994e+02 [MeV] dEkin = 5.16102e-01 [MeV] OPAL> * rmax = ( 1.91032e-05 , 2.68549e-07 , 1.88814e-05 ) [m] OPAL> * rmin = ( -2.37718e-05 , -5.17562e-08 , -1.19996e-04 ) [m] OPAL> * rms beam size = ( 5.03009e-03 , 9.93987e-06 , 4.92599e-03 ) [m] OPAL> * rms momenta = ( 1.15771e-03 , 1.00049e-03 , 5.46937e-04 ) [beta gamma] OPAL> * mean position = ( -1.00002e+00 , -1.52965e-07 , 1.20008e-01 ) [m] OPAL> * mean momenta = ( -1.19206e-05 , 6.58178e-01 , -1.47230e-03 ) [beta gamma] OPAL> * rms emittance = ( 7.66891e-06 , 7.75761e-09 , 4.09190e-06 ) (not normalized) OPAL> * rms correlation = ( 4.98212e-01 , 8.58032e-01 , -8.85818e-03 ) OPAL> * hr = ( 6.80554e-04 , 5.08421e-06 , 2.20440e-03 ) [m] OPAL> * dh = 1.00000e-10 [%] OPAL> * t = 0.00000e+00 [s] dT = 2.00000e-11 [s] OPAL> * spos = 0.00000e+00 [m] OPAL> * ********************************************************************************** OPAL> OPAL> * Beginning of this run is at t = 0 [ns] OPAL> * The time step is set to dt = 0.02 [ns] OPAL> * Single particle trajectory dump frequency is set to 1 OPAL> * The frequency to solve space charge fields is set to 1 OPAL> * The repartition frequency is set to 10 OPAL> OPAL> * --------------------------------- Start tracking ------------------------------------ * OPAL> OPAL> * Phase space dump 1 (local frame) at integration step 50 OPAL> * T = 1 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1013.5 mm, Theta = 170.64 Deg, Z = 119.63 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 2 (local frame) at integration step 100 OPAL> * T = 2 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1053 mm, Theta = 161.76 Deg, Z = 119.26 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 3 (local frame) at integration step 150 OPAL> * T = 3 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1115.6 mm, Theta = 153.69 Deg, Z = 118.89 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 4 (local frame) at integration step 200 OPAL> * T = 4 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1197.8 mm, Theta = 146.6 Deg, Z = 118.52 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 5 (local frame) at integration step 250 OPAL> * T = 5 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1295.8 mm, Theta = 140.51 Deg, Z = 118.15 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 6 (local frame) at integration step 300 OPAL> * T = 6 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1406.4 mm, Theta = 135.32 Deg, Z = 117.78 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 7 (local frame) at integration step 350 OPAL> * T = 7 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1526.8 mm, Theta = 130.92 Deg, Z = 117.42 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 8 (local frame) at integration step 400 OPAL> * T = 8 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1654.9 mm, Theta = 127.18 Deg, Z = 117.05 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 9 (local frame) at integration step 450 OPAL> * T = 9 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1789 mm, Theta = 123.99 Deg, Z = 116.68 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg OPAL> OPAL> * Phase space dump 10 (local frame) at integration step 500 OPAL> * T = 10 ns, Live Particles: 10000 OPAL> * E = 184.99 MeV, beta * gamma = 0.65818 OPAL> * Bunch position: R = 1927.9 mm, Theta = 121.25 Deg, Z = 116.31 mm OPAL> * Local Azimuth = 0.0010376 Deg, Local Elevation = -0.12815 Deg Ippl> Step 544, 1 particles lost on stripper, collimator, septum, or out of cyclotron aperture Ippl> Step 545, 333 particles lost on stripper, collimator, septum, or out of cyclotron aperture Ippl> Step 546, 4356 particles lost on stripper, collimator, septum, or out of cyclotron aperture Ippl> Step 547, 4786 particles lost on stripper, collimator, septum, or out of cyclotron aperture Ippl> Step 548, 519 particles lost on stripper, collimator, septum, or out of cyclotron aperture Ippl> Step 549, 4 particles lost on stripper, collimator, septum, or out of cyclotron aperture OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 550 OPAL> * T = 11 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 2070.5 mm, Theta = 118.88 Deg, Z = 2.8422e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 600 OPAL> * T = 12 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 2216.3 mm, Theta = 116.82 Deg, Z = 2.8476e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 650 OPAL> * T = 13 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 2364.6 mm, Theta = 115.02 Deg, Z = 2.853e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 700 OPAL> * T = 14 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 2514.9 mm, Theta = 113.43 Deg, Z = 2.8585e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 750 OPAL> * T = 15 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 2666.9 mm, Theta = 112.02 Deg, Z = 2.8639e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 800 OPAL> * T = 16 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 2820.4 mm, Theta = 110.77 Deg, Z = 2.8693e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 850 OPAL> * T = 17 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 2975.1 mm, Theta = 109.64 Deg, Z = 2.8748e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 900 OPAL> * T = 18 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 3130.8 mm, Theta = 108.63 Deg, Z = 2.8802e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 950 OPAL> * T = 19 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 3287.4 mm, Theta = 107.71 Deg, Z = 2.8856e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1000 OPAL> * T = 20 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 3444.8 mm, Theta = 106.88 Deg, Z = 2.891e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1050 OPAL> * T = 21 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 3602.8 mm, Theta = 106.11 Deg, Z = 2.8965e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1100 OPAL> * T = 22 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 3761.5 mm, Theta = 105.42 Deg, Z = 2.9019e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1150 OPAL> * T = 23 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 3920.6 mm, Theta = 104.78 Deg, Z = 2.9073e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1200 OPAL> * T = 24 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 4080.2 mm, Theta = 104.19 Deg, Z = 2.9128e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1250 OPAL> * T = 25 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 4240.2 mm, Theta = 103.64 Deg, Z = 2.9182e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1300 OPAL> * T = 26 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 4400.5 mm, Theta = 103.13 Deg, Z = 2.9236e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1350 OPAL> * T = 27 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 4561.2 mm, Theta = 102.66 Deg, Z = 2.9291e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1400 OPAL> * T = 28 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 4722.1 mm, Theta = 102.23 Deg, Z = 2.9345e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1450 OPAL> * T = 29 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 4883.4 mm, Theta = 101.82 Deg, Z = 2.9399e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1500 OPAL> * T = 30 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 5044.8 mm, Theta = 101.43 Deg, Z = 2.9453e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1550 OPAL> * T = 31 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 5206.5 mm, Theta = 101.07 Deg, Z = 2.9508e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1600 OPAL> * T = 32 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 5368.3 mm, Theta = 100.74 Deg, Z = 2.9562e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1650 OPAL> * T = 33 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 5530.3 mm, Theta = 100.42 Deg, Z = 2.9616e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1700 OPAL> * T = 34 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 5692.5 mm, Theta = 100.12 Deg, Z = 2.9671e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1750 OPAL> * T = 35 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 5854.8 mm, Theta = 99.834 Deg, Z = 2.9725e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1800 OPAL> * T = 36 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 6017.3 mm, Theta = 99.566 Deg, Z = 2.9779e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1850 OPAL> * T = 37 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 6179.9 mm, Theta = 99.312 Deg, Z = 2.9834e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1900 OPAL> * T = 38 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 6342.6 mm, Theta = 99.071 Deg, Z = 2.9888e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 1950 OPAL> * T = 39 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 6505.4 mm, Theta = 98.842 Deg, Z = 2.9942e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 2000 OPAL> * T = 40 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 6668.3 mm, Theta = 98.625 Deg, Z = 2.9996e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 2050 OPAL> * T = 41 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 6831.3 mm, Theta = 98.417 Deg, Z = 3.0051e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * Phase space dump -1 (local frame) at integration step 2100 OPAL> * T = 42 ns, Live Particles: 1 OPAL> * E = 185 MeV, beta * gamma = 0.65819 OPAL> * Bunch position: R = 6994.4 mm, Theta = 98.22 Deg, Z = 3.0105e-14 mm OPAL> * Local Azimuth = 0 Deg, Local Elevation = 0 Deg OPAL> OPAL> * ---------------------------- DONE TRACKING PARTICLES -------------------------------- * OPAL> * Final energy of reference particle = 185 [MeV] OPAL> * Total phase space dump number(includes the initial distribution) = 0 OPAL> * One can restart simulation from the last dump step (-restart -1) OPAL> * OPAL> * Finished during turn 1 (0 turns completed) OPAL> * Cave: Turn number is not correct for restart mode OPAL> OPAL> * *********************** Bunch information in global frame: *********************** OPAL> * ************** B U N C H ********************************************************* OPAL> * NP = 1 OPAL> * Qtot = 1.60000e-16 [nC] Qi = 1.60000e-16 [nC] OPAL> * Ekin = 1.85000e+02 [MeV] dEkin = -nan [MeV] OPAL> * rmax = ( 7.97336e-06 , 5.95310e-06 , 2.84132e-05 ) [m] OPAL> * rmin = ( -7.17170e-06 , -1.68556e-06 , -9.09300e-05 ) [m] OPAL> * rms beam size = ( -nan , -nan , -nan ) [m] OPAL> * rms momenta = ( -nan , -nan , -nan ) [beta gamma] OPAL> * mean position = ( -nan , -nan , -nan ) [m] OPAL> * mean momenta = ( -nan , -nan , -nan ) [beta gamma] OPAL> * rms emittance = ( -nan , -nan , -nan ) (not normalized) OPAL> * rms correlation = ( -nan , -nan , -nan ) OPAL> * hr = ( 2.40398e-04 , 1.21249e-04 , 1.89434e-03 ) [m] OPAL> * dh = 1.00000e-10 [%] OPAL> * t = 4.28000e-08 [s] dT = 2.00000e-11 [s] OPAL> * spos = 7.05443e+00 [m] OPAL> * ********************************************************************************** OPAL> OPAL> * ----------------------------------------------- * OPAL> * Finalizing i.e. write data and close files : OPAL> * Finalize cyclotron collimator QUAD1_BP OPAL> * ----------------------------------------------- * OPAL> * End of input stream "MonteCarlo_Cyc.in". Timings> ----------------------------------------------------------------- Timings> Timing results for 1 nodes: Timings> ----------------------------------------------------------------- Timings> mainTimer........... Wall tot = 7.09375, CPU tot = 6.74 Timings> Timings> Binaryrepart........ Wall max = 0.001978, CPU max = 0 Timings> Wall avg = 0.001978, CPU avg = 0 Timings> Wall min = 0.001978, CPU min = 0 Timings> Timings> Boundingbox......... Wall max = 0.001815, CPU max = 0 Timings> Wall avg = 0.001815, CPU avg = 0 Timings> Wall min = 0.001815, CPU min = 0 Timings> Timings> Cleanup emission.... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Create Distr........ Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> DegraderApply....... Wall max = 0.00032, CPU max = 0 Timings> Wall avg = 0.00032, CPU avg = 0 Timings> Wall min = 0.00032, CPU min = 0 Timings> Timings> DegraderInit........ Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> DegraderLoop........ Wall max = 4e-06, CPU max = 0 Timings> Wall avg = 4e-06, CPU avg = 0 Timings> Wall min = 4e-06, CPU min = 0 Timings> Timings> Dump................ Wall max = 0.464412, CPU max = 0.16 Timings> Wall avg = 0.464412, CPU avg = 0.16 Timings> Wall min = 0.464412, CPU min = 0.16 Timings> Timings> Emit Distr.......... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 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> Frametransform...... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> H5PartTimer......... Wall max = 0.326738, CPU max = 0.01 Timings> Wall avg = 0.326738, CPU avg = 0.01 Timings> Wall min = 0.326738, CPU min = 0.01 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> Integration......... Wall max = 4.5458, CPU max = 4.63 Timings> Wall avg = 4.5458, CPU avg = 4.63 Timings> Wall min = 4.5458, CPU min = 4.63 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> Secondary emission.. 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 = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> SF: Potential....... Wall max = 0, CPU max = 0 Timings> Wall avg = 0, CPU avg = 0 Timings> Wall min = 0, CPU min = 0 Timings> Timings> Statistics.......... Wall max = 0.024599, CPU max = 0.02 Timings> Wall avg = 0.024599, CPU avg = 0.02 Timings> Wall min = 0.024599, CPU min = 0.02 Timings> Timings> StatMarkerTimer..... Wall max = 0.035578, CPU max = 0.05 Timings> Wall avg = 0.035578, CPU avg = 0.05 Timings> Wall min = 0.035578, CPU min = 0.05 Timings> Timings> -----------------------------------------------------------------