baiotti 23854 cactus_damiana_debug -parameter-level=strict Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par baiotti 8123 cactus_damiana_debug -parameter-level=strict Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par baiotti 8125 cactus_damiana_debug -parameter-level=strict Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par baiotti 14397 cactus_damiana_debug -parameter-level=strict Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par baiotti 12598 cactus_damiana_debug -parameter-level=strict Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par baiotti 12600 cactus_damiana_debug -parameter-level=strict Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par Warning: no access to tty (Bad file descriptor). Thus no job control in this shell. Sun Dec 16 00:06:53 CET 2007 00:06:53 up 15 days, 8:08, 0 users, load average: 3.03, 2.68, 2.91 /home/baiotti/Cactus/exe cactus_damiana_debug Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par /data35/baiotti/Meudon-45km-8lev-move5-dx.03_redo-for-data cp: cannot stat `/home/baiotti/Cactus/exe//var/spool/pbs/mom_priv/jobs/31631.damia.SC': No such file or directory /opt/scali/bin/mpimon -stdin all /home/baiotti/Cactus/exe/unlimit-cores.sh cactus_damiana_debug -parameter-level=strict Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par -- node133 1 node133 1 node133 1 node133 1 node132 1 node132 1 node132 1 node132 1 node115 1 node115 1 node115 1 node115 1 node114 1 node114 1 node114 1 node114 1 node169 1 node169 1 node169 1 node169 1 node166 1 node166 1 node166 1 node166 1 node165 1 node165 1 node165 1 node165 1 node088 1 node088 1 node088 1 node088 1 node087 1 node087 1 node087 1 node087 1 node086 1 node086 1 node086 1 node086 1 node134 1 node134 1 node134 1 node134 1 node137 1 node137 1 node137 1 node137 1 node038 1 node038 1 node038 1 node038 1 node022 1 node022 1 node022 1 node022 1 node013 1 node013 1 node013 1 node013 1 node009 1 node009 1 node009 1 node009 1 node008 1 node008 1 node008 1 node008 1 node050 1 node050 1 node050 1 node050 1 node141 1 node141 1 node141 1 node141 1 node119 1 node119 1 node119 1 node119 1 Dec 16 00:11:14: (submon-16@node009)(12349) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-14@node022)(27445) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-12@node137)(16909) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-4@node114)(16156) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-19@node141)(29780) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-10@node086)(12515) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-11@node134)(25165) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-9@node087)(13559) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-1@node133)(15336) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-15@node013)(14637) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-13@node038)(14310) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-17@node008)(19872) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-7@node165)(25686) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-2@node132)(9976) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-18@node050)(18846) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-6@node166)(24780) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-3@node115)(16235) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-20@node119)(29122) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-8@node088)(14466) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. Dec 16 00:11:14: (submon-5@node169)(29143) Warning: Process-to-Processor binding indeterminable. One reason could be asymmetric binding of existing processes. -------------------------------------------------------------------------------- 10 1 0101 ************************ 01 1010 10 The Cactus Code V4.0 1010 1101 011 www.cactuscode.org 1001 100101 ************************ 00010101 100011 (c) Copyright The Authors 0100 GNU Licensed. No Warranty 0101 -------------------------------------------------------------------------------- Cactus version: 4.0.b16 Compile date: Nov 17 2007 (02:39:19) Run date: Dec 16 2007 (00:12:15+0100) Run host: node133.damiana.admin Working directory: /data35/baiotti/Meudon-45km-8lev-move5-dx.03_redo-for-data Executable: cactus_damiana_debug Parameter file: Meudon-45km-8lev-move4-dtfac.35-dx.03_reduced.par -------------------------------------------------------------------------------- Activating thorn Cactus...Success -> active implementation Cactus Activation requested for --->Fortran<--- Activating thorn Fortran...Success -> active implementation Fortran Activation requested for --->LocalInterp AEILocalInterp<--- Activating thorn AEILocalInterp...Success -> active implementation AEILocalInterp Activating thorn LocalInterp...Success -> active implementation LocalInterp Activation requested for --->Slab<--- Activating thorn Slab...Success -> active implementation Slab Activation requested for --->IOUtil<--- Activating thorn IOUtil...Success -> active implementation IO Activation requested for --->Carpet CarpetLib CarpetInterp CarpetReduce CarpetSlab<--- Activating thorn Carpet...Success -> active implementation Driver Activating thorn CarpetInterp...Success -> active implementation interp Activating thorn CarpetLib...Success -> active implementation CarpetLib Activating thorn CarpetReduce...Success -> active implementation reduce Activating thorn CarpetSlab...Success -> active implementation Hyperslab Activation requested for --->NaNChecker<--- Activating thorn NaNChecker...Success -> active implementation NaNChecker Activation requested for --->Boundary CartGrid3D CoordBase SymBase <--- Activating thorn Boundary...Success -> active implementation boundary Activating thorn CartGrid3D...Success -> active implementation grid Activating thorn CoordBase...Success -> active implementation CoordBase Activating thorn SymBase...Success -> active implementation SymBase Activation requested for --->CarpetRegrid2 SphericalSurface<--- Activating thorn CarpetRegrid2...Success -> active implementation CarpetRegrid2 Activating thorn SphericalSurface...Success -> active implementation SphericalSurface Activation requested for --->ADMBase ADMCoupling ADMMacros CoordGauge SpaceMask StaticConformal<--- Activating thorn ADMBase...Success -> active implementation ADMBase Activating thorn ADMCoupling...Success -> active implementation ADMCoupling Activating thorn ADMMacros...Success -> active implementation ADMMacros Activating thorn CoordGauge...Success -> active implementation CoordGauge Activating thorn SpaceMask...Success -> active implementation SpaceMask Activating thorn StaticConformal...Success -> active implementation StaticConformal Activation requested for --->Time<--- Activating thorn Time...Success -> active implementation time Activation requested for --->MoL<--- Activating thorn MoL...Success -> active implementation MethodOfLines Activation requested for --->BSSN_MoL<--- Activating thorn BSSN_MoL...Success -> active implementation adm_bssn Activation requested for --->WaveExtract<--- Activating thorn WaveExtract...Success -> active implementation WaveExtract Activation requested for --->PsiKadelia SphericalHarmonics SummationByParts<--- Activating thorn PsiKadelia...Success -> active implementation GRscalars Activating thorn SphericalHarmonics...Success -> active implementation SphericalHarmonics Activating thorn SummationByParts...Success -> active implementation SummationByParts Activation requested for --->ADMConstraints<--- Activating thorn ADMConstraints...Success -> active implementation admconstraints Activation requested for --->CarpetIOScalar CarpetIOASCII CarpetIOBasic CarpetIOHDF5<--- Activating thorn CarpetIOASCII...Success -> active implementation IOASCII Activating thorn CarpetIOBasic...Success -> active implementation IOBasic Activating thorn CarpetIOHDF5...Success -> active implementation IOHDF5 Activating thorn CarpetIOScalar...Success -> active implementation IOScalar Activation requested for --->Dissipation<--- Activating thorn Dissipation...Success -> active implementation Dissipation Activation requested for --->TimerReport<--- Activating thorn TimerReport...Success -> active implementation timerreport Activation requested for --->Formaline<--- Activating thorn Formaline...Success -> active implementation Formaline Activation requested for --->ReflectionSymmetry RotatingSymmetry180<--- Activating thorn ReflectionSymmetry...Success -> active implementation ReflectionSymmetry Activating thorn RotatingSymmetry180...Success -> active implementation RotatingSymmetry180 Activation requested for --->ManualTermination<--- Activating thorn ManualTermination...Success -> active implementation ManualTermination Activation requested for --->eos_base eos_polytrope<--- Activating thorn eos_base...Success -> active implementation EOS_Base Activating thorn eos_polytrope...Success -> active implementation EOS_2d_Polytrope Activation requested for --->whisky Whisky_MeudonData whisky_analysis<--- Activating thorn whisky...Success -> active implementation Whisky Activating thorn whisky_analysis...Success -> active implementation Whisky_Analysis Activating thorn Whisky_MeudonData...Success -> active implementation whisky_MeudonData Activation requested for --->Whisky_MoveCarpetGrids<--- Activating thorn Whisky_MoveCarpetGrids...Success -> active implementation Whisky_MoveCarpetGrids Activation requested for --->Socket HTTPS Visualisation Publish<--- Activating thorn HTTPS...Success -> active implementation HTTPS Activating thorn Publish...Success -> active implementation Publish Activating thorn Socket...Success -> active implementation Socket Activating thorn Visualisation...Success -> active implementation Visualisation -------------------------------------------------------------------------------- if (recover initial data) Recover parameters endif Startup routines [CCTK_STARTUP] Carpet: Multi-model Startup routine BSSN_MoL: Register provided slicings Carpet: Startup routine AEILocalInterp: register CCTK_InterpLocalUniform() interpolation operators IOUtil: Startup routine CarpetIOBasic: Startup routine CarpetIOHDF5: Startup routine CarpetIOScalar: Startup routine CarpetInterp: Startup routine CarpetReduce: Startup routine CartGrid3D: Register GH Extension for GridSymmetry CoordBase: Register a GH extension to store the coordinate system handles EOS_Polytrope: Setup the polytropic EOS Formaline: Print the build and simulation ids GROUP RegisterPublishCallbacks: Group in which to register Publish API callbacks Formaline: Register RDF callbacks for the Publish API CarpetIOASCII: Startup routine LocalInterp: register LocalInterp's interpolation operators MoL: Startup banner GROUP HTTPS_Startup: HTTPS server startup group HTTPS: Start HTTPS server GROUP HTTPS_SetupPages: Group to setup stuff which needs to be done between starting the server and the first time it serves pages Visualisation: Register online visualisation webpages HTTPS: Serve first pages at startup Slab: Create MPI datatypes for complex variables in C Slab: Initialise timers SymBase: Register GH Extension for SymBase WaveExtract: Register WaveExtract as an IO Method Whisky: Register the hydro masks Startup routines which need an existing GH [CCTK_WRAGH] ADMBase: Set up GF symmetries ADMConstraints: Register GF symmetries for ADM Constraints BSSN_MoL: Set symmetries for ADM_BSSN grid functions CoordGauge: Initialize slicing, setup priorities for mixed slicings CoordGauge: Identify the slicing for the next iteration Boundary: Register boundary conditions that this thorn provides CarpetLib: Set operating system memory limit CarpetRegrid2: Initialise locations of refined regions CartGrid3D: Register coordinates for the Cartesian grid GROUP ADM_BSSN_separator: Enforce the order of Einstein_ActivateSlicing and MoL_Register MoL: Set up the MoL bookkeeping index arrays Formaline: Output Cactus source tree Formaline: Register to receive warnings and info messages from the flesh Formaline: Put some meta information about the current run into permanent storage ManualTermination: Start timer ManualTermination: Initialise manual termination BSSN_MoL: Update slicing condition MoL: Set the flag so it is ok to register with MoL GROUP MoL_Register: The group where physics thorns register variables with MoL BSSN_MoL: Register evolution variables for BSSN Whisky: Register variables for MoL MoL: Report how many of each type of variable there are PsiKadelia: Set symmetries SpaceMask: Set grid symmetries for mask SpaceMask: Set grid symmetries for emask (compatibility mode) GROUP SymBase_Wrapper: Wrapper group for SymBase GROUP SymmetryRegister: Register your symmetries here CartGrid3D: Register symmetry boundaries ReflectionSymmetry: Register reflection symmetry boundaries RotatingSymmetry180: Register symmetry boundaries SymBase: Print symmetry boundary face descriptions Whisky: Startup banner Parameter checking routines [CCTK_PARAMCHECK] ADMBase: Check consistency of parameters ADMConstraints: Check that we can deal with this metric_type and have enough conformal derivatives BSSN_MoL: Check the metric type and conformal state Boundary: Check dimension of grid variables CarpetRegrid2: Check parameters CartGrid3D: Check coordinates for CartGrid3D Dissipation: Check dissipation parameters for consistency Fortran: Test whether Fortran parameters work correctly MoL: Basic parameter checking PsiKadelia: Check parameters RotatingSymmetry180: Check tensor type definitions for consistency WaveExtract: Check Parameters for WaveExtract Whisky: Check parameters Initialisation [CCTK_BASEGRID] ADMBase: Set the shift_state variable to 1 ADMMacros: Initialize the local_spatial_order CarpetIOASCII: Initialisation routine CarpetIOBasic: Initialisation routine CarpetIOHDF5: Initialisation routine CarpetIOScalar: Initialisation routine CartGrid3D: Set up ranges for spatial 3D Cartesian coordinates CartGrid3D: Set up spatial 3D Cartesian coordinates on the GH SphericalSurface: Set surface resolution automatically Dissipation: Ensure that there are enough ghost zones SpaceMask: Initialise mask to zero SpaceMask: Set old style mask to one SphericalSurface: Calculate surface coordinate descriptors GROUP MaskBase_SetupMask: Set up the weight function CarpetReduce: Initialise the weight function GROUP SetupMask: Set up the weight function (schedule other routines in here) CarpetReduce: Set up the outer boundaries of the weight function CarpetReduce: Set up the weight function for the restriction regions SphericalSurface: Set surface radii to be used for initial setup in other thorns GROUP SphericalSurface_HasBeenSet: Set the spherical surfaces before this group, and use it afterwards SphericalSurface: Test the state of the spherical surfaces SummationByParts: Setup the mask for the calulcation of the norm SymBase: Check whether the driver set up the grid consistently Time: Initialise Time variables Time: Set timestep based on Courant condition (courant_static) Whisky: Schedule symmetries if (NOT (recover initial data AND recovery_mode is 'strict')) [CCTK_INITIAL] StaticConformal: Set the conformal_state variable to 0 GROUP ADMBase_InitialData: Schedule group for calculating ADM initial data GROUP ADMBase_InitialGauge: Schedule group for the ADM initial gauge condition Whisky: Sets up the excision mask Whisky: Set the EOS number MoL: Initialise the step size control MoL: Ensure the correct time and timestep are used - initial SphericalHarmonics: set mode dimensions correctly SphericalHarmonics: Initialize SBP mask, vars, & set up interpolation if necessary SphericalHarmonics: Initialize SBP mask, vars, & set up interpolation if necessary Whisky: Set up minimum for rho in the atmosphere (before intial data) WaveExtract: Setup weights for integration WaveExtract: Initial setup of all detectors Whisky: Initialize the atmosphere mask Whisky: Get and store the mask descriptors Whisky: Calculate current refinement level GROUP Whisky_Initial: Startup routine Whisky_MeudonData: Meudon initial data: call Lorene Whisky_MeudonData: Meudon initial data: set the atmosphere and the previous time levels GROUP ADMBase_PostInitial: Schedule group for modifying the ADM initial data, such as e.g. adding noise GROUP ADM_BSSN_InitGroup: Initialise ADM_BSSN system BSSN_MoL: Initialize ADM_BSSN system BSSN_MoL: Select boundary conditions for Gamma^i GROUP ADM_BSSN_InitBCApply: Apply boundary conditions to Gamma^i GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions BSSN_MoL: Initialize ADM_BSSN system GROUP ADM_BSSN_PostStep: Everything after a MoL step for BSSN BSSN_MoL: Trace A removal BSSN_MoL: Boundary enforcement for BSSN GROUP BSSN_MoL_ApplyBCs: Apply boundary conditions controlled by thorn Boundary GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions BSSN_MoL: Updates the standard ADM variables BSSN_MoL: Updates the time derivative of the lapse. Whisky: Initialize the scalars for the routine that locates the maxima Whisky_Analysis: Obtain Mask descriptors Whisky_Analysis: Initialization for the computation of normalized rest mass Whisky_Analysis: Initialization for the computation of normalised angular momentum [CCTK_POSTINITIAL] ADMConstraints: Set conformal_state to 0 for physical, or check that it is at least 3 MoL: A bad routine. Fills all previous timelevels with data copied from the current. CarpetIOHDF5: Close all filereader input files Whisky: Set the value of the rest-mass density of the atmosphere which will be used during the evolution GROUP MoL_PostStep: Ensure that everything is correct after the initial data have been set up GROUP ADM_BSSN_PostStep: Everything after a MoL step for BSSN BSSN_MoL: Trace A removal BSSN_MoL: Boundary enforcement for BSSN GROUP BSSN_MoL_ApplyBCs: Apply boundary conditions controlled by thorn Boundary GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions BSSN_MoL: Updates the standard ADM variables BSSN_MoL: Updates the time derivative of the lapse. GROUP MoL_OldBdry_Wrap: Wrapper group, do not schedule directly into this group MoL: Store and change dt GROUP MoL_OldStyleBoundaries: Place old style boundary routines here MoL: Reset dt Whisky: Calculate current refinement level GROUP Whisky_PostStep: Post step tasks for Whisky GROUP Do_Whisky_Boundaries: Whisky Boundary conditions group Whisky: Do the boundary conditions GROUP Whisky_ApplyBCs: Apply the boundary conditions GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions Whisky: Convert back to primitive variables (polytype) SummationByParts: Check grid sizes and ghost zones GROUP ADMConstraintsGroup: Evaluate ADM constraints, and perform symmetry boundary conditions ADMConstraints: Evaluate ADM constraints GROUP ADMConstraintsBoundariesGroup: Set ADM constraints on the boundary ADMConstraints: Select boundary conditions for the ADM constraints GROUP ADMConstraints_ApplyBCs: Apply boundary conditions to the ADM constraints GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions [CCTK_POSTSTEP] SphericalSurface: Set surface radii HTTPS: Working routine NaNChecker: Reset the NaNChecker::NaNsFound counter NaNChecker: Check for NaNs and count them in NaNChecker::NaNsFound NaNChecker: Output NaNChecker::NaNmask and take action according to NaNChecker::action_if_found SpaceMask: Ensure that all mask values are legal GROUP SphericalSurface_HasBeenSet: Set the spherical surfaces before this group, and use it afterwards SphericalSurface: Test the state of the spherical surfaces Dissipation: Setup spatially varying dissipation GROUP Whisky_DCAndMaxima: Find the maximum of the density and the star separation Whisky: Use the maximum of the density to set the position of the center of the star Whisky: Find the separation of a binary NS from the maxima GROUP Whisky_Masses: Computation of rest masses contained within given radii Whisky_Analysis: Rest masses within given radii, local calculations Whisky_Analysis: Rest masses within given radii, reduction operation Whisky_Analysis: The ratio of the rest mass to its initial value GROUP Whisky_Angular_Momentum: Compute angular momentum Whisky_Analysis: Angular momentum, local calculations Whisky_Analysis: Angular momentum, global calculations Whisky_Analysis: The ratio of the angular momentum to its initial value endif if (recover initial data) [CCTK_RECOVER_VARIABLES] IOUtil: Checkpoint recovery routine [CCTK_POST_RECOVER_VARIABLES] BSSN_MoL: Initialize logical scalars for ADM_BSSN CarpetIOHDF5: Close all initial data checkpoint files after recovery GROUP MaskBase_SetupMask: Set up the weight function CarpetReduce: Initialise the weight function GROUP SetupMask: Set up the weight function (schedule other routines in here) CarpetReduce: Set up the outer boundaries of the weight function CarpetReduce: Set up the weight function for the restriction regions ManualTermination: Reset Watchtime WaveExtract: Setup weights for integration WaveExtract: Initial setup of all detectors Whisky: Set the EOS number Whisky: Initialize the scalars for the routine that locates the maxima endif if (checkpoint initial data) [CCTK_CPINITIAL] endif if (analysis) [CCTK_ANALYSIS] GROUP MoL_AllRHS: Calculate the update terms GROUP MoL_PreStep: Prepare the update terms BSSN_MoL: Update slicing condition Whisky: Set up and check scalars for efficiency GROUP MoL_CalcRHS: Calculate the update terms GROUP ADM_BSSN_CalcRHS: Calculate the update terms for BSSN BSSN_MoL: Calculate the update term for BSSN BSSN_MoL: The new radiative boundary condition is part of the MoL step GROUP WhiskyRHS: Calculate the update terms Whisky: Source term calculation Whisky: Set the flux_direction variable while (Whisky::flux_direction) GROUP FluxTerms: Calculation of intercell fluxes Whisky: Reconstruct the functions at the cell boundaries Whisky: Solve the local Riemann problems Whisky: Calculate the update term from the fluxes Whisky: Decrement the flux_direction variable end while Whisky: Alter the update terms if inside the excision region Whisky: Alter the update terms if inside the atmosphere region GROUP MoL_PostRHS: Modify the update terms Dissipation: Add Kreiss-Oliger dissipation to the right hand sides GROUP ADM_BSSN_Analysis: Analyse BSSN quantities BSSN_MoL: Calculate the BSSN constraints GROUP BSSN_MoL_ApplyBCs: Apply boundary conditions controlled by thorn Boundary GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions CarpetLib: Print timing statistics if desired CarpetLib: Print memory statistics if desired Formaline: Put some meta information about the current run into permanent storage GROUP SH_Extract_Modes: Extract spherical harmonic mode(s) SphericalHarmonics: initialize global array SphericalHarmonics: interpolate relevant function(s) to sphere(s) SphericalHarmonics: do local sum SphericalHarmonics: put sums from each patch together TimerReport: Print the timer report WaveExtract: Reset the value of the current_detector, needed for the while loop next while (WaveExtract::current_detector) GROUP WavExtr_CalcsAtDetector: Calculations done for each detector, we loop over the detectors WaveExtract: Setup sintheta, sinphi arrays WaveExtract: Interpolate 3D quantities into 2D grid arrays (on the sphere), project onto sphere WaveExtract: Calculate Schwarzschild Radius and Mass and spherical background WaveExtract: Substract spherical background part of metric from metric WaveExtract: Compute Moncrief Qeven, Qodd from Regge Wheeler quantities WaveExtract: Write out results to disk and stdout - one file for each detector and (l,m) mode WaveExtract: Decrease current_detector, go the the next detector WaveExtract: Output Timer Info if requested end while endif Do periodic output of grid variables do loop over timesteps Rotate timelevels iteration = iteration + 1 t = t+dt [CCTK_PRESTEP] CoordGauge: Identify the slicing for the next iteration Visualisation: Rescan output directories for potential datafiles to be visualised [CCTK_EVOL] MoL: Initialise the step size control ManualTermination: Check elapsed job walltime ManualTermination: Check termination file while (MoL::MoL_Stepsize_Bad) GROUP MoL_Evolution: A single Cactus evolution step using MoL GROUP MoL_StartStep: MoL internal setup for the evolution step MoL: Set the counter for the ODE method to loop over MoL: Ensure the correct time and timestep are used GROUP MoL_PreStep: Physics thorns can schedule preloop setup routines in here BSSN_MoL: Update slicing condition Whisky: Set up and check scalars for efficiency MoL: Ensure the data is in the correct timelevel while (MoL::MoL_Intermediate_Step) GROUP MoL_Step: The loop over the intermediate steps for the ODE integrator MoL: Initialise the RHS functions GROUP MoL_CalcRHS: Physics thorns schedule the calculation of the discrete spatial operator in here GROUP ADM_BSSN_CalcRHS: Calculate the update terms for BSSN BSSN_MoL: Calculate the update term for BSSN BSSN_MoL: The new radiative boundary condition is part of the MoL step GROUP WhiskyRHS: Calculate the update terms Whisky: Source term calculation Whisky: Set the flux_direction variable while (Whisky::flux_direction) GROUP FluxTerms: Calculation of intercell fluxes Whisky: Reconstruct the functions at the cell boundaries Whisky: Solve the local Riemann problems Whisky: Calculate the update term from the fluxes Whisky: Decrement the flux_direction variable end while Whisky: Alter the update terms if inside the excision region Whisky: Alter the update terms if inside the atmosphere region GROUP MoL_PostRHS: Modify RHS functions Dissipation: Add Kreiss-Oliger dissipation to the right hand sides GROUP MoL_RHSBoundaries: Any 'final' modifications to the RHS functions (boundaries etc.) MoL: Updates calculated with the efficient Runge-Kutta 3 method MoL: Alter the counter number MoL: If necessary, change the time GROUP MoL_PostStep: The group for physics thorns to schedule boundary calls etc. GROUP ADM_BSSN_PostStep: Everything after a MoL step for BSSN BSSN_MoL: Trace A removal BSSN_MoL: Boundary enforcement for BSSN GROUP BSSN_MoL_ApplyBCs: Apply boundary conditions controlled by thorn Boundary GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions BSSN_MoL: Updates the standard ADM variables BSSN_MoL: Updates the time derivative of the lapse. GROUP MoL_OldBdry_Wrap: Wrapper group, do not schedule directly into this group MoL: Store and change dt GROUP MoL_OldStyleBoundaries: Place old style boundary routines here MoL: Reset dt Whisky: Calculate current refinement level GROUP Whisky_PostStep: Post step tasks for Whisky GROUP Do_Whisky_Boundaries: Whisky Boundary conditions group Whisky: Do the boundary conditions GROUP Whisky_ApplyBCs: Apply the boundary conditions GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions Whisky: Convert back to primitive variables (polytype) MoL: If necessary, change the timestep end while MoL: Control the step size MoL: Restoring the Save and Restore variables to the original state Whisky: Reset the atmosphere Whisky: Do the boundary conditions GROUP Whisky_ApplyBCs: Apply the boundary conditions GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions end while GROUP ADMConstraintsGroup: Evaluate ADM constraints, and perform symmetry boundary conditions ADMConstraints: Evaluate ADM constraints GROUP ADMConstraintsBoundariesGroup: Set ADM constraints on the boundary ADMConstraints: Select boundary conditions for the ADM constraints GROUP ADMConstraints_ApplyBCs: Apply boundary conditions to the ADM constraints GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions GROUP PsiKadeliaGroup: PsiKadelia scalars and invariants PsiKadelia: PsiKadelia scalars and invariants PsiKadelia: Select PsiKadelia boundary conditions GROUP PsiKadelia_ApplyBCs: Apply PsiKadelia boundary conditions GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions [CCTK_POSTSTEP] SphericalSurface: Set surface radii HTTPS: Working routine NaNChecker: Reset the NaNChecker::NaNsFound counter NaNChecker: Check for NaNs and count them in NaNChecker::NaNsFound NaNChecker: Output NaNChecker::NaNmask and take action according to NaNChecker::action_if_found SpaceMask: Ensure that all mask values are legal GROUP SphericalSurface_HasBeenSet: Set the spherical surfaces before this group, and use it afterwards SphericalSurface: Test the state of the spherical surfaces Dissipation: Setup spatially varying dissipation GROUP Whisky_DCAndMaxima: Find the maximum of the density and the star separation Whisky: Use the maximum of the density to set the position of the center of the star Whisky: Find the separation of a binary NS from the maxima GROUP Whisky_Masses: Computation of rest masses contained within given radii Whisky_Analysis: Rest masses within given radii, local calculations Whisky_Analysis: Rest masses within given radii, reduction operation Whisky_Analysis: The ratio of the rest mass to its initial value GROUP Whisky_Angular_Momentum: Compute angular momentum Whisky_Analysis: Angular momentum, local calculations Whisky_Analysis: Angular momentum, global calculations Whisky_Analysis: The ratio of the angular momentum to its initial value if (checkpoint) [CCTK_CHECKPOINT] CarpetIOHDF5: Evolution checkpoint routine TimerReport: Print the timer report endif if (analysis) [CCTK_ANALYSIS] GROUP MoL_AllRHS: Calculate the update terms GROUP MoL_PreStep: Prepare the update terms BSSN_MoL: Update slicing condition Whisky: Set up and check scalars for efficiency GROUP MoL_CalcRHS: Calculate the update terms GROUP ADM_BSSN_CalcRHS: Calculate the update terms for BSSN BSSN_MoL: Calculate the update term for BSSN BSSN_MoL: The new radiative boundary condition is part of the MoL step GROUP WhiskyRHS: Calculate the update terms Whisky: Source term calculation Whisky: Set the flux_direction variable while (Whisky::flux_direction) GROUP FluxTerms: Calculation of intercell fluxes Whisky: Reconstruct the functions at the cell boundaries Whisky: Solve the local Riemann problems Whisky: Calculate the update term from the fluxes Whisky: Decrement the flux_direction variable end while Whisky: Alter the update terms if inside the excision region Whisky: Alter the update terms if inside the atmosphere region GROUP MoL_PostRHS: Modify the update terms Dissipation: Add Kreiss-Oliger dissipation to the right hand sides GROUP ADM_BSSN_Analysis: Analyse BSSN quantities BSSN_MoL: Calculate the BSSN constraints GROUP BSSN_MoL_ApplyBCs: Apply boundary conditions controlled by thorn Boundary GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions CarpetLib: Print timing statistics if desired CarpetLib: Print memory statistics if desired Formaline: Put some meta information about the current run into permanent storage GROUP SH_Extract_Modes: Extract spherical harmonic mode(s) SphericalHarmonics: initialize global array SphericalHarmonics: interpolate relevant function(s) to sphere(s) SphericalHarmonics: do local sum SphericalHarmonics: put sums from each patch together TimerReport: Print the timer report WaveExtract: Reset the value of the current_detector, needed for the while loop next while (WaveExtract::current_detector) GROUP WavExtr_CalcsAtDetector: Calculations done for each detector, we loop over the detectors WaveExtract: Setup sintheta, sinphi arrays WaveExtract: Interpolate 3D quantities into 2D grid arrays (on the sphere), project onto sphere WaveExtract: Calculate Schwarzschild Radius and Mass and spherical background WaveExtract: Substract spherical background part of metric from metric WaveExtract: Compute Moncrief Qeven, Qodd from Regge Wheeler quantities WaveExtract: Write out results to disk and stdout - one file for each detector and (l,m) mode WaveExtract: Decrease current_detector, go the the next detector WaveExtract: Output Timer Info if requested end while endif Do periodic output of grid variables enddo Termination routines [CCTK_TERMINATE] CarpetIOHDF5: Termination checkpoint routine Formaline: Put some meta information about the current run into permanent storage MoL: Free the MoL bookkeeping index arrays GROUP UnregisterPublishCallbacks: Group in which to unregister Publish API callbacks Formaline: Unregister RDF callbacks for the Publish API TimerReport: Print the timer report Shutdown routines [CCTK_SHUTDOWN] HTTPS: HTTPS server shutdown ManualTermination: Clean up termination file Routines run after restricting: [CCTK_POSTRESTRICT] GROUP MoL_PostStep: Ensure that everything is correct after restriction GROUP ADM_BSSN_PostStep: Everything after a MoL step for BSSN BSSN_MoL: Trace A removal BSSN_MoL: Boundary enforcement for BSSN GROUP BSSN_MoL_ApplyBCs: Apply boundary conditions controlled by thorn Boundary GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions BSSN_MoL: Updates the standard ADM variables BSSN_MoL: Updates the time derivative of the lapse. GROUP MoL_OldBdry_Wrap: Wrapper group, do not schedule directly into this group MoL: Store and change dt GROUP MoL_OldStyleBoundaries: Place old style boundary routines here MoL: Reset dt Whisky: Calculate current refinement level GROUP Whisky_PostStep: Post step tasks for Whisky GROUP Do_Whisky_Boundaries: Whisky Boundary conditions group Whisky: Do the boundary conditions GROUP Whisky_ApplyBCs: Apply the boundary conditions GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions Whisky: Convert back to primitive variables (polytype) GROUP ADMConstraintsBoundariesGroup: Set ADM constraints on the boundary ADMConstraints: Select boundary conditions for the ADM constraints GROUP ADMConstraints_ApplyBCs: Apply boundary conditions to the ADM constraints GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions PsiKadelia: Select PsiKadelia boundary conditions GROUP PsiKadelia_ApplyBCs: Apply PsiKadelia boundary conditions GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions Routines run after changing the grid hierarchy: [CCTK_POSTREGRID] SpaceMask: Initialise mask to zero CartGrid3D: Set Coordinates after regridding GROUP MaskBase_SetupMask: Set up the weight function CarpetReduce: Initialise the weight function GROUP SetupMask: Set up the weight function (schedule other routines in here) CarpetReduce: Set up the outer boundaries of the weight function CarpetReduce: Set up the weight function for the restriction regions Dissipation: Setup spatially varying dissipation SpaceMask: Set mask to one PsiKadelia: Select PsiKadelia boundary conditions GROUP PsiKadelia_ApplyBCs: Apply PsiKadelia boundary conditions GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions Whisky: Initialize the atmosphere mask Whisky: Sets up the excision mask GROUP MoL_PostStep: Ensure that everything is correct after regridding GROUP ADM_BSSN_PostStep: Everything after a MoL step for BSSN BSSN_MoL: Trace A removal BSSN_MoL: Boundary enforcement for BSSN GROUP BSSN_MoL_ApplyBCs: Apply boundary conditions controlled by thorn Boundary GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions BSSN_MoL: Updates the standard ADM variables BSSN_MoL: Updates the time derivative of the lapse. GROUP MoL_OldBdry_Wrap: Wrapper group, do not schedule directly into this group MoL: Store and change dt GROUP MoL_OldStyleBoundaries: Place old style boundary routines here MoL: Reset dt Whisky: Calculate current refinement level GROUP Whisky_PostStep: Post step tasks for Whisky GROUP Do_Whisky_Boundaries: Whisky Boundary conditions group Whisky: Do the boundary conditions GROUP Whisky_ApplyBCs: Apply the boundary conditions GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions Whisky: Convert back to primitive variables (polytype) GROUP ADMConstraintsBoundariesGroup: Set ADM constraints on the boundary ADMConstraints: Select boundary conditions for the ADM constraints GROUP ADMConstraints_ApplyBCs: Apply boundary conditions to the ADM constraints GROUP BoundaryConditions: Execute all boundary conditions Boundary: Apply all requested local physical boundary conditions CartGrid3D: Apply symmetry boundary conditions ReflectionSymmetry: Apply reflection symmetries RotatingSymmetry180: Apply 180 degree rotational symmetry boundary condition Boundary: Unselect all grid variables for boundary conditions -------------------------------------------------------------------------------- INFO (Carpet): Multi-Model listing: model 0: "world" INFO (Carpet): Multi-Model processor distribution: processor 0: model 0 "world" processor 1: model 0 "world" processor 2: model 0 "world" processor 3: model 0 "world" processor 4: model 0 "world" processor 5: model 0 "world" processor 6: model 0 "world" processor 7: model 0 "world" processor 8: model 0 "world" processor 9: model 0 "world" processor 10: model 0 "world" processor 11: model 0 "world" processor 12: model 0 "world" processor 13: model 0 "world" processor 14: model 0 "world" processor 15: model 0 "world" processor 16: model 0 "world" processor 17: model 0 "world" processor 18: model 0 "world" processor 19: model 0 "world" processor 20: model 0 "world" processor 21: model 0 "world" processor 22: model 0 "world" processor 23: model 0 "world" processor 24: model 0 "world" processor 25: model 0 "world" processor 26: model 0 "world" processor 27: model 0 "world" processor 28: model 0 "world" processor 29: model 0 "world" processor 30: model 0 "world" processor 31: model 0 "world" processor 32: model 0 "world" processor 33: model 0 "world" processor 34: model 0 "world" processor 35: model 0 "world" processor 36: model 0 "world" processor 37: model 0 "world" processor 38: model 0 "world" processor 39: model 0 "world" processor 40: model 0 "world" processor 41: model 0 "world" processor 42: model 0 "world" processor 43: model 0 "world" processor 44: model 0 "world" processor 45: model 0 "world" processor 46: model 0 "world" processor 47: model 0 "world" processor 48: model 0 "world" processor 49: model 0 "world" processor 50: model 0 "world" processor 51: model 0 "world" processor 52: model 0 "world" processor 53: model 0 "world" processor 54: model 0 "world" processor 55: model 0 "world" processor 56: model 0 "world" processor 57: model 0 "world" processor 58: model 0 "world" processor 59: model 0 "world" processor 60: model 0 "world" processor 61: model 0 "world" processor 62: model 0 "world" processor 63: model 0 "world" processor 64: model 0 "world" processor 65: model 0 "world" processor 66: model 0 "world" processor 67: model 0 "world" processor 68: model 0 "world" processor 69: model 0 "world" processor 70: model 0 "world" processor 71: model 0 "world" processor 72: model 0 "world" processor 73: model 0 "world" processor 74: model 0 "world" processor 75: model 0 "world" processor 76: model 0 "world" processor 77: model 0 "world" processor 78: model 0 "world" processor 79: model 0 "world" INFO (Carpet): Multi-Model: This is processor 0, model 0 "world" INFO (Formaline): Build id: build-damiana_debug-damiana.damiana.admin-baiotti-2007.11.17-01.39.13-15496 INFO (Formaline): Simulation id: run-Meudon-45km-8lev-move4-dtfac-node133.damiana.admin-baiotti-2007.12.15-23.12.33-15468 INFO (Formaline): Run id: run-Meudon-45km-8lev-move4-dtfac-node133.damiana.admin-baiotti-2007.12.15-23.12.33-15468 WARNING level 1 in thorn Visualisation processor 71 host node050.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 70 host node050.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available INFO (HTTPS): HTTPS web server started on: https://node133.damiana.admin:5555 WARNING level 1 in thorn Visualisation processor 68 host node050.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 69 host node050.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 49 host node038.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 51 host node038.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 3 host node133.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 7 host node132.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 50 host node038.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 1 host node133.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 48 host node038.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 14 host node114.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 12 host node114.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 13 host node114.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): WARNING level 1 in thorn Visualisation processor 35 host node087.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 39 host node086.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 45 host node137.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 32 host node087.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 38 host node086.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 44 host node137.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): WARNING level 1 in thorn Visualisation processor 15 host node114.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 34 host node087.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 37 host node086.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 33 host node087.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 36 host node086.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): WARNING level 1 in thorn Visualisation processor 47 host node137.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 46 host node137.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 17 host node169.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 16 host node169.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available ERROR: ld.so: object 'libunlocked.so' from LD_PRELOAD cannot be preloaded: ignored. ERROR: ld.so: object 'libmemhooks.so' from LD_PRELOAD cannot be preloaded: ignored. WARNING level 1 in thorn Visualisation processor 19 host node169.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 18 host node169.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available ERROR: ld.so: object 'libunlocked.so' from LD_PRELOAD cannot be preloaded: ignored. ERROR: ld.so: object 'libmemhooks.so' from LD_PRELOAD cannot be preloaded: ignored. WARNING level 1 in thorn Visualisation processor 22 host node166.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 21 host node166.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 23 host node166.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 20 host node166.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 2 host node133.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 4 host node132.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 6 host node132.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 5 host node132.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 27 host node165.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 24 host node165.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 26 host node165.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 11 host node115.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 10 host node115.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 29 host node088.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 30 host node088.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 28 host node088.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available WARNING level 1 in thorn Visualisation processor 31 host node088.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available ERROR: ld.so: object 'libunlocked.so' from LD_PRELOAD cannot be preloaded: ignored. ERROR: ld.so: object 'libmemhooks.so' from LD_PRELOAD cannot be preloaded: ignored. ERROR: ld.so: object 'libunlocked.so' from LD_PRELOAD cannot be preloaded: ignored. ERROR: ld.so: object 'libmemhooks.so' from LD_PRELOAD cannot be preloaded: ignored. WARNING level 1 in thorn Visualisation processor 9 host node115.damiana.admin (line 180 of /data1/baiotti/Cactus/configs/damiana_debug/build/Visualisation/Startup.cc): -> The gnuplot command could not be found ! Online visualisation will not be available INFO (HTTPS): HTTPS proxy server started on: https://damiana.aei.mpg.de:24004 ERROR: ld.so: object 'libunlocked.so' from LD_PRELOAD cannot be preloaded: ignored. ERROR: ld.so: object 'libmemhooks.so' from LD_PRELOAD cannot be preloaded: ignored. ERROR: ld.so: object 'libunlocked.so' from LD_PRELOAD cannot be preloaded: ignored. ERROR: ld.so: object 'libmemhooks.so' from LD_PRELOAD cannot be preloaded: ignored. -------------------------------------------------------------------------------- AMR driver provided by Carpet -------------------------------------------------------------------------------- AMR info I/O provided by CarpetIOBasic -------------------------------------------------------------------------------- AMR HDF5 I/O provided by CarpetIOHDF5 -------------------------------------------------------------------------------- AMR scalar I/O provided by CarpetIOScalar -------------------------------------------------------------------------------- AMR 0D ASCII I/O provided by CarpetIOASCII -------------------------------------------------------------------------------- AMR 1D ASCII I/O provided by CarpetIOASCII -------------------------------------------------------------------------------- AMR 2D ASCII I/O provided by CarpetIOASCII -------------------------------------------------------------------------------- AMR 3D ASCII I/O provided by CarpetIOASCII -------------------------------------------------------------------------------- MoL: Generalized time integration. -------------------------------------------------------------------------------- INFO (Carpet): Carpet is running on 80 processes INFO (Carpet): This is process 0 INFO (Carpet): This process contains 1 threads INFO (Carpet): There are 80 threads in total INFO (Carpet): Boundary specification for map 0: nboundaryzones: [[3,1,3],[1,1,1]] is_internal : [[0,0,0],[0,0,0]] is_staggered : [[0,0,0],[0,0,0]] shiftout : [[1,0,1],[0,0,0]] INFO (Carpet): CoordBase domain specification for map 0: physical extent: [0,-257.28,0] : [257.28,257.28,257.28] ([257.28,514.56,257.28]) interior extent: [0,-253.44,0] : [253.44,253.44,253.44] ([253.44,506.88,253.44]) exterior extent: [-11.52,-257.28,-11.52] : [257.28,257.28,257.28] ([268.8,514.56,268.8]) base_spacing : [3.84,3.84,3.84] INFO (Carpet): Adapted domain specification for map 0: convergence factor: 2 convergence level : 0 physical extent : [0,-257.28,0] : [257.28,257.28,257.28] ([257.28,514.56,257.28]) interior extent : [0,-253.44,0] : [253.44,253.44,253.44] ([253.44,506.88,253.44]) exterior extent : [-11.52,-257.28,-11.52] : [257.28,257.28,257.28] ([268.8,514.56,268.8]) spacing : [3.84,3.84,3.84] INFO (Carpet): Base grid specification for map 0: number of grid points : [71,135,71] number of ghost points: [[3,3,3],[3,3,3]] INFO (Carpet): Grid structure (grid points): [0][0][0][0] exterior: proc 0 [0,0,0] : [23,19,17] ([24,20,18]) [0][0][0][1] exterior: proc 1 [0,0,18] : [23,19,35] ([24,20,18]) [0][0][0][2] exterior: proc 2 [0,0,36] : [23,19,53] ([24,20,18]) [0][0][0][3] exterior: proc 3 [0,0,54] : [23,19,70] ([24,20,17]) [0][0][0][4] exterior: proc 4 [24,0,0] : [47,19,17] ([24,20,18]) [0][0][0][5] exterior: proc 5 [24,0,18] : [47,19,35] ([24,20,18]) [0][0][0][6] exterior: proc 6 [24,0,36] : [47,19,53] ([24,20,18]) [0][0][0][7] exterior: proc 7 [24,0,54] : [47,19,70] ([24,20,17]) [0][0][0][8] exterior: proc 8 [48,0,0] : [70,19,17] ([23,20,18]) [0][0][0][9] exterior: proc 9 [48,0,18] : [70,19,35] ([23,20,18]) [0][0][0][10] exterior: proc 10 [48,0,36] : [70,19,53] ([23,20,18]) [0][0][0][11] exterior: proc 11 [48,0,54] : [70,19,70] ([23,20,17]) [0][0][0][12] exterior: proc 12 [0,20,0] : [23,39,17] ([24,20,18]) [0][0][0][13] exterior: proc 13 [0,20,18] : [23,39,35] ([24,20,18]) [0][0][0][14] exterior: proc 14 [0,20,36] : [23,39,53] ([24,20,18]) [0][0][0][15] exterior: proc 15 [0,20,54] : [23,39,70] ([24,20,17]) [0][0][0][16] exterior: proc 16 [24,20,0] : [47,39,17] ([24,20,18]) [0][0][0][17] exterior: proc 17 [24,20,18] : [47,39,35] ([24,20,18]) [0][0][0][18] exterior: proc 18 [24,20,36] : [47,39,53] ([24,20,18]) [0][0][0][19] exterior: proc 19 [24,20,54] : [47,39,70] ([24,20,17]) [0][0][0][20] exterior: proc 20 [48,20,0] : [70,39,17] ([23,20,18]) [0][0][0][21] exterior: proc 21 [48,20,18] : [70,39,35] ([23,20,18]) [0][0][0][22] exterior: proc 22 [48,20,36] : [70,39,53] ([23,20,18]) [0][0][0][23] exterior: proc 23 [48,20,54] : [70,39,70] ([23,20,17]) [0][0][0][24] exterior: proc 24 [0,40,0] : [23,59,17] ([24,20,18]) [0][0][0][25] exterior: proc 25 [0,40,18] : [23,59,35] ([24,20,18]) [0][0][0][26] exterior: proc 26 [0,40,36] : [23,59,53] ([24,20,18]) [0][0][0][27] exterior: proc 27 [0,40,54] : [23,59,70] ([24,20,17]) [0][0][0][28] exterior: proc 28 [24,40,0] : [47,59,17] ([24,20,18]) [0][0][0][29] exterior: proc 29 [24,40,18] : [47,59,35] ([24,20,18]) [0][0][0][30] exterior: proc 30 [24,40,36] : [47,59,53] ([24,20,18]) [0][0][0][31] exterior: proc 31 [24,40,54] : [47,59,70] ([24,20,17]) [0][0][0][32] exterior: proc 32 [48,40,0] : [70,59,17] ([23,20,18]) [0][0][0][33] exterior: proc 33 [48,40,18] : [70,59,35] ([23,20,18]) [0][0][0][34] exterior: proc 34 [48,40,36] : [70,59,53] ([23,20,18]) [0][0][0][35] exterior: proc 35 [48,40,54] : [70,59,70] ([23,20,17]) [0][0][0][36] exterior: proc 36 [0,60,0] : [25,78,17] ([26,19,18]) [0][0][0][37] exterior: proc 37 [0,60,18] : [25,78,35] ([26,19,18]) [0][0][0][38] exterior: proc 38 [0,60,36] : [25,78,53] ([26,19,18]) [0][0][0][39] exterior: proc 39 [0,60,54] : [25,78,70] ([26,19,17]) [0][0][0][40] exterior: proc 40 [26,60,0] : [51,78,17] ([26,19,18]) [0][0][0][41] exterior: proc 41 [26,60,18] : [51,78,35] ([26,19,18]) [0][0][0][42] exterior: proc 42 [26,60,36] : [51,78,53] ([26,19,18]) [0][0][0][43] exterior: proc 43 [26,60,54] : [51,78,70] ([26,19,17]) [0][0][0][44] exterior: proc 44 [52,60,0] : [70,78,23] ([19,19,24]) [0][0][0][45] exterior: proc 45 [52,60,24] : [70,78,47] ([19,19,24]) [0][0][0][46] exterior: proc 46 [52,60,48] : [70,78,70] ([19,19,23]) [0][0][0][47] exterior: proc 47 [0,79,0] : [25,97,17] ([26,19,18]) [0][0][0][48] exterior: proc 48 [0,79,18] : [25,97,35] ([26,19,18]) [0][0][0][49] exterior: proc 49 [0,79,36] : [25,97,53] ([26,19,18]) [0][0][0][50] exterior: proc 50 [0,79,54] : [25,97,70] ([26,19,17]) [0][0][0][51] exterior: proc 51 [26,79,0] : [51,97,17] ([26,19,18]) [0][0][0][52] exterior: proc 52 [26,79,18] : [51,97,35] ([26,19,18]) [0][0][0][53] exterior: proc 53 [26,79,36] : [51,97,53] ([26,19,18]) [0][0][0][54] exterior: proc 54 [26,79,54] : [51,97,70] ([26,19,17]) [0][0][0][55] exterior: proc 55 [52,79,0] : [70,97,23] ([19,19,24]) [0][0][0][56] exterior: proc 56 [52,79,24] : [70,97,47] ([19,19,24]) [0][0][0][57] exterior: proc 57 [52,79,48] : [70,97,70] ([19,19,23]) [0][0][0][58] exterior: proc 58 [0,98,0] : [25,116,17] ([26,19,18]) [0][0][0][59] exterior: proc 59 [0,98,18] : [25,116,35] ([26,19,18]) [0][0][0][60] exterior: proc 60 [0,98,36] : [25,116,53] ([26,19,18]) [0][0][0][61] exterior: proc 61 [0,98,54] : [25,116,70] ([26,19,17]) [0][0][0][62] exterior: proc 62 [26,98,0] : [51,116,17] ([26,19,18]) [0][0][0][63] exterior: proc 63 [26,98,18] : [51,116,35] ([26,19,18]) [0][0][0][64] exterior: proc 64 [26,98,36] : [51,116,53] ([26,19,18]) [0][0][0][65] exterior: proc 65 [26,98,54] : [51,116,70] ([26,19,17]) [0][0][0][66] exterior: proc 66 [52,98,0] : [70,116,23] ([19,19,24]) [0][0][0][67] exterior: proc 67 [52,98,24] : [70,116,47] ([19,19,24]) [0][0][0][68] exterior: proc 68 [52,98,48] : [70,116,70] ([19,19,23]) [0][0][0][69] exterior: proc 69 [0,117,0] : [25,134,17] ([26,18,18]) [0][0][0][70] exterior: proc 70 [0,117,18] : [25,134,35] ([26,18,18]) [0][0][0][71] exterior: proc 71 [0,117,36] : [25,134,53] ([26,18,18]) [0][0][0][72] exterior: proc 72 [0,117,54] : [25,134,70] ([26,18,17]) [0][0][0][73] exterior: proc 73 [26,117,0] : [51,134,17] ([26,18,18]) [0][0][0][74] exterior: proc 74 [26,117,18] : [51,134,35] ([26,18,18]) [0][0][0][75] exterior: proc 75 [26,117,36] : [51,134,53] ([26,18,18]) [0][0][0][76] exterior: proc 76 [26,117,54] : [51,134,70] ([26,18,17]) [0][0][0][77] exterior: proc 77 [52,117,0] : [70,134,23] ([19,18,24]) [0][0][0][78] exterior: proc 78 [52,117,24] : [70,134,47] ([19,18,24]) [0][0][0][79] exterior: proc 79 [52,117,48] : [70,134,70] ([19,18,23]) INFO (Carpet): Group and variable statistics: INFO (Carpet): There are 541 grid functions in 79 groups INFO (Carpet): There are 253 grid scalars in 78 groups INFO (Carpet): There are 51 1-dimensional grid arrays in 12 groups INFO (Carpet): There are 158 2-dimensional grid arrays in 13 groups INFO (Carpet): There are 8 3-dimensional grid arrays in 2 groups INFO (Carpet): (The number of variables counts all time levels) INFO (CarpetIOHDF5): I/O Method 'IOHDF5' registered: AMR output of grid variables to HDF5 files INFO (CarpetIOHDF5): Periodic HDF5 output requested for 'WHISKY::velz', 'WHISKY::vely', 'WHISKY::velx', 'WHISKY::rho', 'ADMCONSTRAINTS::ham', 'ADMBASE::alp' INFO (CarpetIOScalar): Periodic scalar output requested for 'WHISKY::rho', 'ADMCONSTRAINTS::ham', 'ADMBASE::alp' INFO (CarpetIOASCII): I/O Method 'IOASCII_0D' registered: 0D AMR output of grid variables to ASCII files INFO (CarpetIOASCII): Periodic 0D AMR output requested for 'WHISKY_ANALYSIS::total_angular_momentum_z_normalised', 'WHISKY_ANALYSIS::total_angular_momentum_z', 'WHISKY_ANALYSIS::total_rest_mass_normalised', 'WHISKY_ANALYSIS::total_rest_mass', 'CARPETREGRID2::position_z[9]', 'CARPETREGRID2::position_z[8]', 'CARPETREGRID2::position_z[7]', 'CARPETREGRID2::position_z[6]', 'CARPETREGRID2::position_z[5]', 'CARPETREGRID2::position_z[4]', 'CARPETREGRID2::position_z[3]', 'CARPETREGRID2::position_z[2]', 'CARPETREGRID2::position_z[1]', 'CARPETREGRID2::position_z[0]', 'CARPETREGRID2::position_y[9]', 'CARPETREGRID2::position_y[8]', 'CARPETREGRID2::position_y[7]', 'CARPETREGRID2::position_y[6]', 'CARPETREGRID2::position_y[5]', 'CARPETREGRID2::position_y[4]', 'CARPETREGRID2::position_y[3]', 'CARPETREGRID2::position_y[2]', 'CARPETREGRID2::position_y[1]', 'CARPETREGRID2::position_y[0]', 'CARPETREGRID2::position_x[9]', 'CARPETREGRID2::position_x[8]', 'CARPETREGRID2::position_x[7]', 'CARPETREGRID2::position_x[6]', 'CARPETREGRID2::position_x[5]', 'CARPETREGRID2::position_x[4]', 'CARPETREGRID2::position_x[3]', 'CARPETREGRID2::position_x[2]', 'CARPETREGRID2::position_x[1]', 'CARPETREGRID2::position_x[0]', 'CARPET::grid_point_updates_count', 'CARPET::grid_points_per_second', 'CARPET::comm_bytes_count', 'CARPET::comm_count', 'CARPET::comm_bytes_per_second', 'CARPET::comm_per_second', 'CARPET::io_bytes_binary_count', 'CARPET::io_bytes_ascii_count', 'CARPET::io_bytes_count', 'CARPET::io_count', 'CARPET::io_bytes_binary_per_second', 'CARPET::io_bytes_ascii_per_second', 'CARPET::io_bytes_per_second', 'CARPET::io_per_second', 'CARPET::total_grid_point_updates_count', 'CARPET::local_grid_point_updates_count', 'CARPET::total_grid_points_per_second', 'CARPET::local_grid_points_per_second', 'CARPET::time_io', 'CARPET::time_communicating', 'CARPET::time_computing', 'CARPET::time_total', 'CARPET::physical_time_per_hour' INFO (CarpetIOASCII): I/O Method 'IOASCII_1D' registered: 1D AMR output of grid variables to ASCII files INFO (CarpetIOASCII): Periodic 1D AMR output requested for 'WHISKY::velz', 'WHISKY::vely', 'WHISKY::velx', 'WHISKY::rho', 'WHISKY::dens', 'ADMCONSTRAINTS::ham', 'ADMBASE::betaz', 'ADMBASE::betay', 'ADMBASE::betax', 'ADMBASE::alp', 'ADMBASE::gzz', 'ADMBASE::gyz', 'ADMBASE::gyy', 'ADMBASE::gxz', 'ADMBASE::gxy', 'ADMBASE::gxx' INFO (CarpetIOASCII): I/O Method 'IOASCII_2D' registered: 2D AMR output of grid variables to ASCII files INFO (CarpetIOASCII): Periodic 2D AMR output requested for 'SPHERICALHARMONICS::decomp_vars[1]', 'SPHERICALHARMONICS::decomp_vars[0]' INFO (CarpetIOASCII): I/O Method 'IOASCII_3D' registered: 3D AMR output of grid variables to ASCII files INFO (WaveExtract): setup GH INFO (WaveExtract): Output directory is '/data35/baiotti/Meudon-45km-8lev-move5-dx.03_redo-for-data/' INFO (WaveExtract): Setting out_every to 128 INFO (CarpetLib): Old address space size limit: hard=-1, soft=-1 INFO (CarpetLib): Old address space size limit: hard=-1, soft=-1 INFO (CarpetLib): Unlimited address space size indicated by -1 INFO (CarpetRegrid2): Initialising position of centre 0 to [15,0,0] INFO (CarpetRegrid2): Initialising position of centre 1 to [-15,0,0] INFO (CarpetRegrid2): Initialising position of centre 2 to [0,0,0] INFO (MoL): Using Runge-Kutta 3 as the time integrator. -------------------------------------------------------------------------------- INFO (Formaline): Writing tarballs with the Cactus sources into the directory "/data35/baiotti/Meudon-45km-8lev-move5-dx.03_redo-for-data/cactus-source" INFO (ManualTermination): Started Timer INFO (ManualTermination): Reminding you every 20 minutes of remaining walltime. INFO (BSSN_MoL): 1+log slicing INFO (MoL): The maximum number of evolved variables is 30. 29 are registered. INFO (MoL): The maximum number of constrained variables is 23. 20 are registered. INFO (MoL): The maximum number of SandR variables is 17. 0 are registered. INFO (MoL): The maximum number of evolved complex variables is 0. 0 are registered. INFO (MoL): The maximum number of constrained complex variables is 0. 0 are registered. INFO (MoL): The maximum number of SandR complex variables is 0. 0 are registered. INFO (MoL): The maximum number of evolved array variables is 0. 0 are registered. INFO (MoL): The maximum number of constrained array variables is 0. 0 are registered. INFO (MoL): The maximum number of SandR array variables is 0. 0 are registered. INFO (MoL): The maximum number of evolved complex array variables is 0. 0 are registered. INFO (MoL): The maximum number of constrained complex array variables is 0. 0 are registered. INFO (MoL): The maximum number of SandR complex array variables is 0. 0 are registered. INFO (MoL): The maximum size of any array variables is 0. INFO (SymBase): Symmetry on lower x-face: rotating_symmetry_180 INFO (SymBase): Symmetry on lower z-face: reflection_symmetry INFO (Whisky): Whisky will use the physical metric and set conformal_state=0. INFO (CarpetRegrid2): Centre 0 is at position [15,0,0] INFO (CarpetRegrid2): Centre 1 is at position [-15,0,0] INFO (CarpetRegrid2): Centre 2 is at position [0,0,0] INFO (CarpetRegrid2): Regridding INFO (Carpet): Grid structure statistics: INFO (Carpet): GF: rhs: 4512k active, 5302k owned (+17%), 8028k total (+51%), 255 rhs/M INFO (Carpet): GF: vars: 84, pts: 1653M active, 1947M owned (+18%), 3126M total (+61%), 1.0 c/p INFO (Carpet): GA: vars: 422, pts: 10M active, 10M total (+0%) INFO (ADMMacros): Spatial finite differencing order: 4 INFO (CartGrid3D): Grid Spacings: INFO (CartGrid3D): dx=>3.8400000e+00 dy=>3.8400000e+00 dz=>3.8400000e+00 INFO (CartGrid3D): Computational Coordinates: INFO (CartGrid3D): x=>[-11.520,257.280] y=>[-257.280,257.280] z=>[-11.520,257.280] INFO (CartGrid3D): Indices of Physical Coordinates: INFO (CartGrid3D): x=>[0,70] y=>[0,134] z=>[0,70] INFO (Time): Timestep set to 1.344 (courant_static) INFO (Whisky): Whisky will use the 2D_Polytrope equation of state. INFO (WaveExtract): exiting Setup_Detectors... INFO (Whisky): Setting up the atmosphere mask: all points are not_atmosphere Reading Meudon data file: /data1/baiotti/Cactus/exe/meudon_ID/G2_I14vs14_D4R33_45km/resu.d Binary system read in file : ---------------------------- Binary system ============= Orbital angular velocity : 1850.63165309 rad/s Coordinate separation between the two stellar centers : 45 km Absolute coordinate X of the rotation axis : 0 km Star 1 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 1 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: -22.5 km Absolute abscidia of the barycenter of the baryon density : -22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 0 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : 2.014140173229e-15 -0.06880830673736 0 Central d_psi (X, Y, Z) [c] : 5.450032798883e-15 -0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : 7.238451456478e-15 -0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.6910139609371 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.2713131102582 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : 0.04839286271943 -0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : 3.392544084904e-15 -0.09451044806597 0 ... shift_auto part of it [c] : 3.392544084904e-15 -0.1223044430087 0 ... shift_comp part of it [c] : 0 0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : 5.25080874218e-15 0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : -0.0001564228032268 -6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : -0.001124566270745 1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : -8.528750162919e-05 -4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : -0.0001186065634255 -4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Star 2 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 2 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: 22.5 km Absolute abscidia of the barycenter of the baryon density : 22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 3.14159265359 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : -2.014140173229e-15 0.06880830673736 0 Central d_psi (X, Y, Z) [c] : -5.450032798883e-15 0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : -7.238451456478e-15 0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.2713131102582 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.6910139609371 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : -0.04839286271943 0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : -3.392544084904e-15 0.09451044806597 0 ... shift_auto part of it [c] : -3.392544084904e-15 0.1223044430087 0 ... shift_comp part of it [c] : 0 -0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : -5.25080874218e-15 -0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : 0.0001564228032268 6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : 0.001124566270745 -1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : 8.528750162919e-05 4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : 0.0001186065634255 4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Summary : ------- Separation d : 45 km Separation d_G : 44.97350909869 km Omega : 1850.63165309 rad/s Baryon mass of star 1 : 1.625005096397 M_sol Baryon mass of star 2 : 1.625005096397 M_sol ADM mass of the system : 2.998438274778 M_sol Total angular momentum : 8.835346616046 G M_sol^2 / c Radius of star 1 (x_comp) : 13.67577431857 km Radius of star 1 (y) : 12.62346700315 km Radius of star 1 (z) : 12.73115836832 km Radius of star 1 (x_opp) : 13.51178652136 km Radius of star 2 (x_comp) : 13.67577431857 km Radius of star 2 (y) : 12.62346700315 km Radius of star 2 (z) : 12.73115836832 km Radius of star 2 (x_opp) : 13.51178652136 km INFO (Whisky_MeudonData): Done reading data file INFO (Whisky_MeudonData): Done setting cactus variables INFO (Whisky_MeudonData): Done setting the initial atmosphere INFO (Whisky_MeudonData): Done setting past timelevels INFO (BSSN_MoL): Chosen options for BSSN: INFO (BSSN_MoL): Trace of Aij subtracted each timestep INFO (BSSN_MoL): Gammas are evolved INFO (BSSN_MoL): Replacing R using Hamiltonian constraint INFO (BSSN_MoL): No attenuation. INFO (BSSN_MoL): Gamma0 shift INFO (ADMMacros): Spatial finite differencing order: 4 INFO (Time): Timestep set to 0.672 (courant_static) INFO (Whisky): Whisky will use the 2D_Polytrope equation of state. INFO (Whisky): Setting up the atmosphere mask: all points are not_atmosphere Reading Meudon data file: /data1/baiotti/Cactus/exe/meudon_ID/G2_I14vs14_D4R33_45km/resu.d Binary system read in file : ---------------------------- Binary system ============= Orbital angular velocity : 1850.63165309 rad/s Coordinate separation between the two stellar centers : 45 km Absolute coordinate X of the rotation axis : 0 km Star 1 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 1 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: -22.5 km Absolute abscidia of the barycenter of the baryon density : -22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 0 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : 2.014140173229e-15 -0.06880830673736 0 Central d_psi (X, Y, Z) [c] : 5.450032798883e-15 -0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : 7.238451456478e-15 -0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.6910139609371 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.2713131102582 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : 0.04839286271943 -0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : 3.392544084904e-15 -0.09451044806597 0 ... shift_auto part of it [c] : 3.392544084904e-15 -0.1223044430087 0 ... shift_comp part of it [c] : 0 0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : 5.25080874218e-15 0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : -0.0001564228032268 -6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : -0.001124566270745 1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : -8.528750162919e-05 -4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : -0.0001186065634255 -4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Star 2 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 2 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: 22.5 km Absolute abscidia of the barycenter of the baryon density : 22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 3.14159265359 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : -2.014140173229e-15 0.06880830673736 0 Central d_psi (X, Y, Z) [c] : -5.450032798883e-15 0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : -7.238451456478e-15 0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.2713131102582 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.6910139609371 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : -0.04839286271943 0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : -3.392544084904e-15 0.09451044806597 0 ... shift_auto part of it [c] : -3.392544084904e-15 0.1223044430087 0 ... shift_comp part of it [c] : 0 -0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : -5.25080874218e-15 -0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : 0.0001564228032268 6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : 0.001124566270745 -1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : 8.528750162919e-05 4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : 0.0001186065634255 4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Summary : ------- Separation d : 45 km Separation d_G : 44.97350909869 km Omega : 1850.63165309 rad/s Baryon mass of star 1 : 1.625005096397 M_sol Baryon mass of star 2 : 1.625005096397 M_sol ADM mass of the system : 2.998438274778 M_sol Total angular momentum : 8.835346616046 G M_sol^2 / c Radius of star 1 (x_comp) : 13.67577431857 km Radius of star 1 (y) : 12.62346700315 km Radius of star 1 (z) : 12.73115836832 km Radius of star 1 (x_opp) : 13.51178652136 km Radius of star 2 (x_comp) : 13.67577431857 km Radius of star 2 (y) : 12.62346700315 km Radius of star 2 (z) : 12.73115836832 km Radius of star 2 (x_opp) : 13.51178652136 km INFO (Whisky_MeudonData): Done reading data file INFO (Whisky_MeudonData): Done setting cactus variables INFO (Whisky_MeudonData): Done setting the initial atmosphere INFO (Whisky_MeudonData): Done setting past timelevels INFO (BSSN_MoL): Chosen options for BSSN: INFO (BSSN_MoL): Trace of Aij subtracted each timestep INFO (BSSN_MoL): Gammas are evolved INFO (BSSN_MoL): Replacing R using Hamiltonian constraint INFO (BSSN_MoL): No attenuation. INFO (BSSN_MoL): Gamma0 shift INFO (ADMMacros): Spatial finite differencing order: 4 INFO (Time): Timestep set to 0.336 (courant_static) INFO (Whisky): Whisky will use the 2D_Polytrope equation of state. INFO (Whisky): Setting up the atmosphere mask: all points are not_atmosphere Reading Meudon data file: /data1/baiotti/Cactus/exe/meudon_ID/G2_I14vs14_D4R33_45km/resu.d Binary system read in file : ---------------------------- Binary system ============= Orbital angular velocity : 1850.63165309 rad/s Coordinate separation between the two stellar centers : 45 km Absolute coordinate X of the rotation axis : 0 km Star 1 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 1 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: -22.5 km Absolute abscidia of the barycenter of the baryon density : -22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 0 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : 2.014140173229e-15 -0.06880830673736 0 Central d_psi (X, Y, Z) [c] : 5.450032798883e-15 -0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : 7.238451456478e-15 -0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.6910139609371 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.2713131102582 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : 0.04839286271943 -0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : 3.392544084904e-15 -0.09451044806597 0 ... shift_auto part of it [c] : 3.392544084904e-15 -0.1223044430087 0 ... shift_comp part of it [c] : 0 0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : 5.25080874218e-15 0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : -0.0001564228032268 -6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : -0.001124566270745 1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : -8.528750162919e-05 -4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : -0.0001186065634255 -4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Star 2 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 2 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: 22.5 km Absolute abscidia of the barycenter of the baryon density : 22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 3.14159265359 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : -2.014140173229e-15 0.06880830673736 0 Central d_psi (X, Y, Z) [c] : -5.450032798883e-15 0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : -7.238451456478e-15 0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.2713131102582 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.6910139609371 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : -0.04839286271943 0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : -3.392544084904e-15 0.09451044806597 0 ... shift_auto part of it [c] : -3.392544084904e-15 0.1223044430087 0 ... shift_comp part of it [c] : 0 -0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : -5.25080874218e-15 -0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : 0.0001564228032268 6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : 0.001124566270745 -1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : 8.528750162919e-05 4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : 0.0001186065634255 4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Summary : ------- Separation d : 45 km Separation d_G : 44.97350909869 km Omega : 1850.63165309 rad/s Baryon mass of star 1 : 1.625005096397 M_sol Baryon mass of star 2 : 1.625005096397 M_sol ADM mass of the system : 2.998438274778 M_sol Total angular momentum : 8.835346616046 G M_sol^2 / c Radius of star 1 (x_comp) : 13.67577431857 km Radius of star 1 (y) : 12.62346700315 km Radius of star 1 (z) : 12.73115836832 km Radius of star 1 (x_opp) : 13.51178652136 km Radius of star 2 (x_comp) : 13.67577431857 km Radius of star 2 (y) : 12.62346700315 km Radius of star 2 (z) : 12.73115836832 km Radius of star 2 (x_opp) : 13.51178652136 km INFO (Whisky_MeudonData): Done reading data file INFO (Whisky_MeudonData): Done setting cactus variables INFO (Whisky_MeudonData): Done setting the initial atmosphere INFO (Whisky_MeudonData): Done setting past timelevels INFO (BSSN_MoL): Chosen options for BSSN: INFO (BSSN_MoL): Trace of Aij subtracted each timestep INFO (BSSN_MoL): Gammas are evolved INFO (BSSN_MoL): Replacing R using Hamiltonian constraint INFO (BSSN_MoL): No attenuation. INFO (BSSN_MoL): Gamma0 shift INFO (ADMMacros): Spatial finite differencing order: 4 INFO (Time): Timestep set to 0.168 (courant_static) INFO (Whisky): Whisky will use the 2D_Polytrope equation of state. INFO (Whisky): Setting up the atmosphere mask: all points are not_atmosphere Reading Meudon data file: /data1/baiotti/Cactus/exe/meudon_ID/G2_I14vs14_D4R33_45km/resu.d Binary system read in file : ---------------------------- Binary system ============= Orbital angular velocity : 1850.63165309 rad/s Coordinate separation between the two stellar centers : 45 km Absolute coordinate X of the rotation axis : 0 km Star 1 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 1 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: -22.5 km Absolute abscidia of the barycenter of the baryon density : -22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 0 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : 2.014140173229e-15 -0.06880830673736 0 Central d_psi (X, Y, Z) [c] : 5.450032798883e-15 -0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : 7.238451456478e-15 -0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.6910139609371 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.2713131102582 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : 0.04839286271943 -0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : 3.392544084904e-15 -0.09451044806597 0 ... shift_auto part of it [c] : 3.392544084904e-15 -0.1223044430087 0 ... shift_comp part of it [c] : 0 0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : 5.25080874218e-15 0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : -0.0001564228032268 -6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : -0.001124566270745 1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : -8.528750162919e-05 -4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : -0.0001186065634255 -4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Star 2 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 2 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: 22.5 km Absolute abscidia of the barycenter of the baryon density : 22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 3.14159265359 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : -2.014140173229e-15 0.06880830673736 0 Central d_psi (X, Y, Z) [c] : -5.450032798883e-15 0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : -7.238451456478e-15 0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.2713131102582 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.6910139609371 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : -0.04839286271943 0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : -3.392544084904e-15 0.09451044806597 0 ... shift_auto part of it [c] : -3.392544084904e-15 0.1223044430087 0 ... shift_comp part of it [c] : 0 -0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : -5.25080874218e-15 -0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : 0.0001564228032268 6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : 0.001124566270745 -1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : 8.528750162919e-05 4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : 0.0001186065634255 4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Summary : ------- Separation d : 45 km Separation d_G : 44.97350909869 km Omega : 1850.63165309 rad/s Baryon mass of star 1 : 1.625005096397 M_sol Baryon mass of star 2 : 1.625005096397 M_sol ADM mass of the system : 2.998438274778 M_sol Total angular momentum : 8.835346616046 G M_sol^2 / c Radius of star 1 (x_comp) : 13.67577431857 km Radius of star 1 (y) : 12.62346700315 km Radius of star 1 (z) : 12.73115836832 km Radius of star 1 (x_opp) : 13.51178652136 km Radius of star 2 (x_comp) : 13.67577431857 km Radius of star 2 (y) : 12.62346700315 km Radius of star 2 (z) : 12.73115836832 km Radius of star 2 (x_opp) : 13.51178652136 km INFO (Whisky_MeudonData): Done reading data file INFO (Whisky_MeudonData): Done setting cactus variables INFO (Whisky_MeudonData): Done setting the initial atmosphere INFO (Whisky_MeudonData): Done setting past timelevels INFO (BSSN_MoL): Chosen options for BSSN: INFO (BSSN_MoL): Trace of Aij subtracted each timestep INFO (BSSN_MoL): Gammas are evolved INFO (BSSN_MoL): Replacing R using Hamiltonian constraint INFO (BSSN_MoL): No attenuation. INFO (BSSN_MoL): Gamma0 shift INFO (ADMMacros): Spatial finite differencing order: 4 INFO (Time): Timestep set to 0.084 (courant_static) INFO (Whisky): Whisky will use the 2D_Polytrope equation of state. INFO (Whisky): Setting up the atmosphere mask: all points are not_atmosphere Reading Meudon data file: /data1/baiotti/Cactus/exe/meudon_ID/G2_I14vs14_D4R33_45km/resu.d Binary system read in file : ---------------------------- Binary system ============= Orbital angular velocity : 1850.63165309 rad/s Coordinate separation between the two stellar centers : 45 km Absolute coordinate X of the rotation axis : 0 km Star 1 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 1 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: -22.5 km Absolute abscidia of the barycenter of the baryon density : -22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 0 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : 2.014140173229e-15 -0.06880830673736 0 Central d_psi (X, Y, Z) [c] : 5.450032798883e-15 -0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : 7.238451456478e-15 -0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.6910139609371 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.2713131102582 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : 0.04839286271943 -0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : 3.392544084904e-15 -0.09451044806597 0 ... shift_auto part of it [c] : 3.392544084904e-15 -0.1223044430087 0 ... shift_comp part of it [c] : 0 0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : 5.25080874218e-15 0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : -0.0001564228032268 -6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : -0.001124566270745 1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : -8.528750162919e-05 -4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : -0.0001186065634255 -4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Star 2 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 2 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: 22.5 km Absolute abscidia of the barycenter of the baryon density : 22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 3.14159265359 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : -2.014140173229e-15 0.06880830673736 0 Central d_psi (X, Y, Z) [c] : -5.450032798883e-15 0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : -7.238451456478e-15 0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.2713131102582 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.6910139609371 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : -0.04839286271943 0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : -3.392544084904e-15 0.09451044806597 0 ... shift_auto part of it [c] : -3.392544084904e-15 0.1223044430087 0 ... shift_comp part of it [c] : 0 -0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : -5.25080874218e-15 -0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : 0.0001564228032268 6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : 0.001124566270745 -1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : 8.528750162919e-05 4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : 0.0001186065634255 4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Summary : ------- Separation d : 45 km Separation d_G : 44.97350909869 km Omega : 1850.63165309 rad/s Baryon mass of star 1 : 1.625005096397 M_sol Baryon mass of star 2 : 1.625005096397 M_sol ADM mass of the system : 2.998438274778 M_sol Total angular momentum : 8.835346616046 G M_sol^2 / c Radius of star 1 (x_comp) : 13.67577431857 km Radius of star 1 (y) : 12.62346700315 km Radius of star 1 (z) : 12.73115836832 km Radius of star 1 (x_opp) : 13.51178652136 km Radius of star 2 (x_comp) : 13.67577431857 km Radius of star 2 (y) : 12.62346700315 km Radius of star 2 (z) : 12.73115836832 km Radius of star 2 (x_opp) : 13.51178652136 km INFO (Whisky_MeudonData): Done reading data file INFO (Whisky_MeudonData): Done setting cactus variables INFO (Whisky_MeudonData): Done setting the initial atmosphere INFO (Whisky_MeudonData): Done setting past timelevels INFO (BSSN_MoL): Chosen options for BSSN: INFO (BSSN_MoL): Trace of Aij subtracted each timestep INFO (BSSN_MoL): Gammas are evolved INFO (BSSN_MoL): Replacing R using Hamiltonian constraint INFO (BSSN_MoL): No attenuation. INFO (BSSN_MoL): Gamma0 shift INFO (ADMMacros): Spatial finite differencing order: 4 INFO (Time): Timestep set to 0.042 (courant_static) INFO (Whisky): Whisky will use the 2D_Polytrope equation of state. INFO (Whisky): Setting up the atmosphere mask: all points are not_atmosphere Reading Meudon data file: /data1/baiotti/Cactus/exe/meudon_ID/G2_I14vs14_D4R33_45km/resu.d Binary system read in file : ---------------------------- Binary system ============= Orbital angular velocity : 1850.63165309 rad/s Coordinate separation between the two stellar centers : 45 km Absolute coordinate X of the rotation axis : 0 km Star 1 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 1 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ----------------------- irrotational configuration Absolute abscidia of the stellar center: -22.5 km Absolute abscidia of the barycenter of the baryon density : -22.48675454935 km d_tilde : 3.2982739766 Orientation with respect to the absolute frame : 0 rad Central value of gam_euler : 1.005193189429 Central u_euler (U^X, U^Y, U^Z) [c] : 2.014140173229e-15 -0.06880830673736 0 Central d_psi (X, Y, Z) [c] : 5.450032798883e-15 -0.1861874032099 0 Central vel. / co-orb. (W^X, W^Y, W^Z) [c] : 7.238451456478e-15 -0.0001163050604894 0 Max vel. / co-orb. (W^X, W^Y, W^Z) [c] : 0.4771743338662 0.6910139609371 0.003245157433743 Min vel. / co-orb. (W^X, W^Y, W^Z) [c] : -0.4771743338662 -0.2713131102582 -0.003245157433743 Velocity at (r_surf,pi/4,pi/4) / co-orb. [c] : 0.04839286271943 -0.0433707654988 0.0001017028473301 Central value of loggam : 1.457112087031e-08 Central value of log(N) auto, comp : -0.3875885320128 -0.04921347140061 Central value of beta=log(AN) auto, comp : -0.04671593432362 -0.001168430126156 Central value of shift (N^X, N^Y, N^Z) [c] : 3.392544084904e-15 -0.09451044806597 0 ... shift_auto part of it [c] : 3.392544084904e-15 -0.1223044430087 0 ... shift_comp part of it [c] : 0 0.02779399494269 0 ... w_shift (NB: components in the star Cartesian frame) [c] : 3.323733845174e-15 -0.1326454965428 0 Central value of khi_shift [km c] : -1.068180726638e-14 Central value of (B^X, B^Y, B^Z)/N [c] : 5.25080874218e-15 0.06869379103371 0 Central (d/dX,d/dY,d/dZ)(logn_auto) [km^{-1}] : -0.0001564228032268 -6.480773310942e-14 0 Central (d/dX,d/dY,d/dZ)(logn_comp) [km^{-1}] : -0.001124566270745 1.313735000415e-15 0 Central (d/dX,d/dY,d/dZ)(beta_auto) [km^{-1}] : -8.528750162919e-05 -4.9530782398e-15 0 Central (d/dX,d/dY,d/dZ)(beta_comp) [km^{-1}] : -0.0001186065634255 -4.476490069839e-17 0 Central A^2 K^{ij} [c/km] : A^2 K^{xx} auto, comp : -3.429334108194e-15 -3.012626666494e-16 A^2 K^{xy} auto, comp : -6.081679036286e-05 -0.0001551336554004 A^2 K^{xz} auto, comp : 0 0 A^2 K^{yy} auto, comp : 4.904557709761e-15 6.020834406157e-16 A^2 K^{yz} auto, comp : 0 0 A^2 K^{zz} auto, comp : -1.475223601568e-15 -3.008207739676e-16 Central A^2 K_{ij} K^{ij} [c^2/km^2] : A^2 K_{ij} K^{ij} auto, comp : 1.610224970666e-08 4.107419748475e-08 Star 2 : ====== Relativistic star ----------------- Number of domains occupied by the star : 1 Equation of state : Star 2 EOS EOS of class Eos_poly (relativistic polytrope) : Adiabatic index gamma : 2 Pressure coefficient kappa : 0.0332278 rho_nuc c^2 / n_nuc^gamma Mean particle mass : 1 m_B Relativistic chemical potential at zero pressure : 1 m_B c^2 Central enthalpy : 0.2124142062556 c^2 Central proper baryon density : 3.561174849388 x 0.1 fm^-3 Central proper energy density : 3.982568689474 rho_nuc c^2 Central pressure : 0.4213938400861 rho_nuc c^2 Regularization index of the gravitational potential : k_div = 0 Central lapse N : 0.6460993442118 Central value of A^2 : 2.176755091861 Coordinate equatorial radius (phi=0) a1 = 13.67577431857 km Coordinate equatorial radius (phi=pi/2) a2 = 12.62346700315 km Coordinate equatorial radius (phi=pi): 13.51178652136 km Coordinate polar radius a3 = 12.73115836832 km Axis ratio a2/a1 = 0.9230531821518 a3/a1 = 0.9309277903946 Baryon mass : 1.625005096397 M_sol Gravitational mass : 1.455684903316 M_sol Star in a binary system ---------