Control Cards

Control card entities create solver control cards such as results file I/O options, CPU and memory limits, and others.

A solver interface template must be loaded which defines control cards in order to create and edit control cards.

Abaqus

Control cards define model information, which needs to be specified only once in the input file.

Card	Description
*CONSTRAINT CONTROLS	Reset overconstraint checking controls.
*DEPVAR	Specify solution-dependent state variables.
*HEADING	Print a heading on the output.
*PREPRINT	Select printout for the analysis input file processor.
*RESTART	Save and reuse data and analysis results.

ANSYS

The input translator recognizes ANSYS cards. If an unsupported field is found in a card, a message is displayed on the status bar. The messages are also printed to the file ansys.msg. General slash commands, SOLUTION commands, POST1 commands, and POST26 commands are referred to as control cards. Unrecognized cards are written to a *.hmx file.

Card	Description
ACEL	Specifies the linear acceleration of the structure.
ALPHAD	Defines the mass matrix multiplier for damping.
ANTYPE	Specifies the analysis type and restart status.
ARCLEN	Activates the arc length method.
ARCTRM	Controls termination of the arc-length solution
/ASSIGN	Reassigns a file name to an ANSYS file identifier.
AUTOTS	Specifies whether to use automatic time stepping or load stepping.
/BATCH	Sets the program mode to "batch"
BETAD	Defines the stiffness matrix multiplier for damping.
BFUNIF	Assigns a uniform body force load to all nodes.
BUCOPT	Specifies buckling analysis options
CGLOC	Specifies the origin location of the acceleration coordinate system.
CGOMGA	Specifies the rotational velocity of the global origin.
CMDOMEGA	Specifies the rotational acceleration of an element component about a user-defined rotational axis.
CMOMEGA	Specifies the rotational velocity of an element component about a user-defined rotational axis.
CNVTOL	Sets convergence values for nonlinear analyses.
/COM	Places a comment in the output.
/COPY	Copies a file.
CRPLIM	Specifies the creep criterion for automatic time stepping.
DCGOMG	Specifies the rotational acceleration of the global origin.
/DELETE	Deletes a file.
DELTIM	Specifies the time step sizes to be used for this load step.
DMPRAT	Sets a constant damping ratio.
DOF	Adds degrees of freedom to the current DOF set.
DOMEGA	Specifies the rotational acceleration of the structure.
EMUNIT	Specifies the system of units for magnetic field problems.
EQSLV	Specifies the type of equation solver.
ERESX	Specifies extrapolation of integration point results.
EORIENT	Reorient SOLID elements' axes
ETABLE	Fills a table of element values for further processing.
EXPASS	Specifies an expansion pass of an analysis.
HARFRQ	Defines the frequency range in the harmonic response analysis.
HREXP	Specifies the phase angle for the harmonic analysis expansion pass.
HROPT	Specifies harmonic analysis options.
HROUT	Specifies the harmonic analysis output options.
IRLF	Specifies that inertia relief calculations are to be performed.
KBC	Specifies stepped or ramped loading within a load step.
KUSE	Specifies whether or not to reuse the triangularized matrix.
LNSRCH	Activates a line search to be used with Newton-Raphson.
LSSOLVE	Reads and solves multiple load steps.
LVSCALE	Scales the load vector for mode superposition analyses.
MDAMP	Defines the damping ratios as a function of mode.
MODE	Specifies the harmonic loading term for this load step.
MODOPT	Specifies modal analysis options.
MXPAND	Specifies the number of modes to expand and write for a modal or buckling analysis.
NCNV	Sets the key to terminate an analysis.
NEQIT	Specifies the maximum number of equilibrium iterations for nonlinear analyses.
NLGEOM	Includes large-deflection effects in a static or full transient analysis.
NROPT	Specifies the Newton-Raphson options in a static or full transient analysis.
NSUBST	Specifies the number of substeps to be taken this load step.
NUMOFF
OMEGA	Specifies the rotational velocity of the structure.
OUTRES	Controls the solution data written to the database.
/POST1	Enters the database results post-processor.
PRED	Activates a predictor in a nonlinear analysis.
PRESOL	Prints the solution results for elements.
PSTRES	Specifies whether prestress effects are calculated or included.
RSYS	Activates a coordinate system for printout or display of results.
SLOAD	Loads a pretension section.
/SOLU	Enters the solution processor.
SOLU	Specifies solution summary data per substep to be stored.
SOLVE	Starts a solution.
SSTIF	Activates stress stiffness effects in a nonlinear analysis.
/STITLE	Defines subtitles.
SUBOPT	Specifies options for subspace iteration eigenvalue extraction.
/SYS	Passes a command string to the operating system.
TIME	Sets the time for a load step.
TIMINT	Turns on transient effects.
TINTP	Defines transient integration parameters.
/TITLE	Defines a main title.
TOFFST	Specifies the temperature offset from absolute zero to zero.
TOTAL	Specifies automatic MDOF generation.
TREF	Defines the reference temperature for the thermal strain calculations.
TRNOPT	Specifies transient analysis options.
TUNIF	Assigns a uniform temperature to all nodes.
/UNITS	Annotates the database with the system of units used.
UNSU_END
UNSU_PREP7

EXODUS

Card	Description
OUTPUTS	Determines which data will be written to the output file.
PARAMETERS	Input parameters that are independent of the solution method or solver.
SOLUTION	Solution method and options to be selected in the solution.

LS-DYNA

Card	Description
*CONTROL_ACCURACY	Define control parameters that can improve the accuracy of the calculation.
*CONTROL_ADAPSTEP	Define control parameters for contact interface force update during each adaptive cycle.
*CONTROL_ADAPTIVE	Activate adaptive meshing.
*CONTROL_ADAPTIVE_CURVE	To refine the element mesh along a curve.
*CONTROL_ALE	Set global control parameters for the Arbitrary Lagrange-Eulerian and Eulerian calculations.
*CONTROL_BULK_VISCOSITY	Reset the default values of the bulk viscosity coefficients globally.
*CONTROL_CHECK	Check for various problems in the mesh.
*CONTROL_COARSEN	Adaptively de-refine (coarsen) a shell mesh by selectively merging four adjacent elements into one.
*CONTROL_CONTACT	Change defaults for computation with contact surfaces.
*CONTROL_COUPLING	Change defaults for MADYMO3D/CAL3D coupling.
*CONTROL_CPM	Global control parameters for CPM (Corpuscular Particle Method).
*CONTROL_CPU	Control CPU time.
*CONTROL_DYNAMIC_RELAXATION	Initialize stresses and deformation in a model to simulate a preload.
*CONTROL_EFG	Define controls for the mesh-free computation.
*CONTROL_ENERGY	Provide controls for energy dissipation options
*CONTROL_EXPLOSIVE_SHADOW	Compute detonation times in explosive elements for which there is no direct line of sight.
*CONTROL_HOURGLASS	Set the default values of the hourglass control to override the default values.
*CONTROL_IMPLICIT_AUTO	Define parameters for automatic time step control during implicit analysis.
*CONTROL_IMPLICIT_BUCKLE	Activate implicit buckling analysis when termination time is reached.
*CONTROL_IMPLICIT_DYNAMICS	Activate implicit dynamic analysis and define time integration constants.
*CONTROL_IMPLICIT_EIGENVALUE	Activate implicit eigenvalue analysis and define associated input parameters.
*CONTROL_IMPLICIT_FORMING	Activate implicit static analysis, primarily for metal forming processes.
*CONTROL_IMPLICIT_GENERAL	Activate implicit analysis and define associated control parameters.
*CONTROL_IMPLICIT_INERTIA_RELIEF	Allows analysis of linear static problems that have rigid body modes.
*CONTROL_IMPLICIT_MODES	Request calculation of constraint and/or attachment modes for later use in modal analysis using *PART_MODES.
*CONTROL_IMPLICIT_SOLUTION	Optional card that applies to implicit calculations.Used to specify whether a linear or nonlinear solution is desired.
*CONTROL_IMPLICIT_SOLVER	Optional card that applies to implicit calculations. The linear equation solver performs the CPU-intensive stiffness matrix inversion.
*CONTROL_IMPLICIT_STABILIZATION	Optional card that applies to implicit calculations. Artificial stabilization is required for multi-step unloading in implicit springback analysis.
*CONTROL_IMPLICIT_TERMINATION	Specify termination criteria for implicit transient simulations.
*CONTROL_MPP_DECOMPOSITION_AUTOMATIC	Instructs the program to apply a simple heuristic to try to determine the proper decomposition for the simulation.
*CONTROL_MPP_DECOMPOSITION_CHECK_SPEED	Modifies the decomposition depending on the relative speed of the processors involved.
*CONTROL_MPP_DECOMPOSITION_CONTACT_DISTRIBUTE	Ensures that the indicated contact interfaces are distributed across all processors, which can lead to better load balance for large contact interfaces.
*CONTROL_MPP_DECOMPOSITION_CONTACT_ISOLATE	Ensures that the indicated contact interferences are isolated on a single processor, which can lead to decreased communication.
*CONTROL_MPP_DECOMPOSITION_FILE	Allow for pre-decomposition and a subsequent run or runs without having to do the decomposition.
*CONTROL_MPP_DECOMPOSITION_METHOD	Specify the decomposition method to use.
*CONTROL_MPP_DECOMPOSITION_NUMPROC	Specify the number of processors for decomposition.
*CONTROL_MPP_DECOMPOSITION_SHOW	Allows display of the final decomposition.
*CONTROL_MPP_DECOMPOSITION_TRANSFORMATION	Specifies transformations to apply to modify the decomposition.
*CONTROL_MPP_IO_LSTC_REDUCE	Controls the decomposition of the model for solving in multiple CPU's.
*CONTROL_MPP_IO_NOD3DUMP	Suppress the output of all dump files.
*CONTROL_MPP_IO_NODUMP	Suppresses the output of all dump files and full deck restart files.
*CONTROL_MPP_IO_NOFULL	Suppresses the output of the full deck restart files.
*CONTROL_MPP_IO_SWAPBYTES	Swap bytes on some of the output files.
*CONTROL_OUTPUT	Set miscellaneous output parameters.
*CONTROL_PARALLEL	Control parallel processing usage for shared memory computers by defining the number of processors invoking the optional consistency of the global vector assembly.
*CONTROL_REMESHING	Provide control over the remeshing of solids which are meshed with the solid tetrahedron element type 13.
*CONTROL_RIGID	Special control options related to rigid bodies and the rigid-flexible bodies.
*CONTROL_SHELL	Provide controls for computing shell response.
*CONTROL_SOLID	Provide controls for solid element response.
*CONTROL_SOLUTION	Specify the analysis solution procedure if thermal only or coupled thermal analysis is performed.
*CONTROL_SPH	Provide controls for computing SPH particles.
*CONTROL_SPOTWELD_BEAM	Provides factors for scaling the failure force resultants of beam spot welds as a function of their parametric location on the contact segment and the size of the segment.
*CONTROL_STRUCTURED	Write out a LS-DYNA structured input deck for version 970.
*CONTROL_STRUCTURED_TERM	Write out a LS-DYNA structured input deck for version 970. Termination will occur after the structured input file is written.
*CONTROL_SUBCYCLE	Control time step subcycling.
*CONTROL_TERMINATION	Stop the job.
*CONTROL_THERMAL_NONLINEAR	Set parameters for a nonlinear thermal or coupled structural/thermal analysis.
*CONTROL_THERMAL_SOLVER	Set options for the thermal solution in a thermal only or coupled structural-thermal analysis.
*CONTROL_THERMAL_TIMESTEP	Set time step controls for the thermal solution in a thermal only or a coupled structural/thermal analysis.
*CONTROL_TIMESTEP	Set structural time step size control using different options.
*DAMPING_FREQUENCY_RANGE	Provides approximately constant damping over a range of frequencies.
*DAMPING_GLOBAL	Define mass weighted nodal damping that applies globally to the nodes of deformable bodies and to the mass center of rigid bodies.
*DATABASE_ABSTAT	Specify time interval and file type for Airbag statistics time history file output.
*DATABASE_AVSFLT	Specify time interval for AVS database output.
*DATABASE_BINARY_D3PART	Dt for partial output states.
*DATABASE_BINARY_D3PLOT	Dt for complete output states.
*DATABASE_BINARY_D3DRLF	Dynamic relaxation database.
*DATABASE_BINARY_D3THDT	Dt for time history data of element subsets.
*DATABASE_BINARY_D3DUMP	Binary output restart files. Define output frequency in cycles.
*DATABASE_BINARY_FSIFOR	ALE interface force database
*DATABASE_BINARY_INTFOR	Dt for output of contact interface data.
*DATABASE_BINARY_RUNRSF	Binary output restart file. Define output frequency in cycles.
*DATABASE_BINARY_XTFILE	Flag to specify output of extra time history data to XTFILE at same time as D3THDT file.
*DATABASE_BNDOUT	Specify time interval and file type for Boundary condition forces and energy time history file output.
*DATABASE_DEFGEO	Specify time interval deformed geometry file output.
*DATABASE_DEFORC	Specify time interval and file type for discrete element forces time history file output.
*DATABASE_ELOUT	Specify time interval and file type for element data time history file output.
*DATABASE_EXTENT_AVS	Specify output database to be written.
*DATABASE_EXTENT_BINARY	Specify output database to be written.
*DATABASE_EXTENT_D3PART	Controls, to some extent, the content of specific output databases.
*DATABASE_EXTENT_MOVIE	Specify output database to be written.
*DATABASE_EXTENT_MPGS
*DATABASE_EXTENT_SSSTAT
*DATABASE_FORMAT
*DATABASE_GCEOUT	Specify time interval and file type for Geometric contact entities force time history file output
*DATABASE_GLSTAT	Specify time interval and file type for global model data time history file output.
*DATABASE_JNTFORC	Specify time interval and file type for joint force time history file output
*DATABASE_MASSOUT	Export nodal masses into ASCII file MASSOUT.
*DATABASE_MATSUM	Specify time interval and file type for material energies time history file output
*DATABASE_MOVIE	Specify time interval for movie output
*DATABASE_MPGS	Specify time interval for MPGS
*DATABASE_NCFORC	Specify time interval and file type for nodal interface forces time history file output
*DATABASE_NODFOR	Specify time interval and file type for nodal force groups time history file output
*DATABASE_NODOUT	Specify time interval and file type for nodal point data time history file output
*DATABASE_OPTION	Control cards for all ASCII output
*DATABASE_RBDOUT	Specify time interval and file type for rigid body data time history file output.
*DATABASE_RCFORC	Specify time interval and file type for resultant interface forces time history file output.
*DATABASE_RWFORC	Specify time interval and file type for rigid wall forces time history file output.
*DATABASE_SBTOUT	Specify time interval and file type for Seat belt time history file output.
*DATABASE_SECFORC	Specify time interval and file type for cross section forces time history file output
*DATABASE_SLEOUT	Specify time interval and file type for sliding interface energy time history file output
*DATABASE_SPCFORC	Specify time interval and file type for SPC reaction forces time history file output
*DATABASE_SPHOUT	Specify time interval and file type for SPH element data time history file output
*DATABASE_SPRING_FORWARD	Create spring forward nodal force file.
*DATABASE_SSSTAT	Specify time interval and file type for Subsystem data time history file output
*DATABASE_SUPERPLASTIC_FORMING	Specify the output intervals to the superelastic forming output files.
*DATABASE_SWFORC	Specify time interval and file type for nodal constraint reaction forces time history file output
*DATABASE_TPRINT	Specify time interval and file type for thermal time history file output. Thermal output from a coupled structural/thermal or thermal only analysis.
*DATABASE_TRACER	Tracer particles will save a history of either a material point or a spatial point into an ASCII file, TRHIST.
*DATABASE_TRHIST	Tracer particle history information
*INTERFACE_COMPENSATION_NEW	Calculate the deviation of the part from its intended design of the stamped part and automatically compensate the tool to minimize the deviation, modify the trimming curve after the die modification, and automatically detect the undercut problem
*STRESS_INITIALIZATION	Allows all or selected parts to be initialized on restart, using data from the d3dump or runrsf database.
*STRESS_INITIALIZATION_DISCRETE	Initializes all discrete parts from the old parts.
*STRESS_INITIALIZATION_SEATBELT	Initializes all seatbelt parts from the old parts.

Nastran

Card	Description
ACMODL	Defines modeling parameters for the interface between the fluid and the structure.
AERO	Gives basic aerodynamic parameters for unsteady aerodynamics.
AEROS	Defines basic parameters for static aeroelasticity.
AUTOSPC	Constrains stiffness singularities via m-sets or s-sets.
B2GG	Selects direct input damping matrix or matrices.
B2PP	Selects direct input damping matrix or matrices.
BEGIN BULK	Designates the end of the Case Control Section and/or the beginning of a Bulk Data Section. Note: When the model is created from HyperMesh, this card is on by default.
BULK-UNSUPPORTED_CARD	Note: On import, all unsupported bulk data will be written into this card. You can edit the card.
CASE-UNSUPPORTED_CARD	Note: If CEND and SUBCASE exist, on import, all unsupported cards between CEND and the first SUBCASE will be written into this card. You can edit the card. If SUBCASE does not exist and BEGIN BULK exists, all unsupported cards between CEND and BEGIN BULK will be written into this card.
CEND	Note: When the model is created from HyperMesh, this card is on by default.
DIAG	Requests diagnostic output or special options.
ECHO	Bulk Data Echo Request
ENDDATA	Designates the end of the Bulk Data Section. Note: When the model is created from HyperMesh, this card is on by default.
EXEC_UNSUPPORTED_CARDS	Note: If CEND exists in the imported deck, on import, all unsupported cards before CEND will be written into this card. You can edit the card. If CEND does not exist, on import, all unsupported cards before BEGIN BULK will be written into this card.
ERP	Equivalent Radiated Power Panel Participation Factor Output Request
FLSPOUT	Control for fluid-structure mode participation output.
FLUX	Request gradient and flux output for all heat transfer analysis subcases or individual heat transfer analysis subcases respectively.
GLOBAL
GLOBAL CASE CONTROL
GLOBAL OUTPUT REQUEST
GRDSET	Defines default options for fields 3, 7, 8, and 9 of all GRID entries
IC
ID	Specifies a comment.
INCLUDE_BULK	Inserts an external file into the input file
INCLUDE_CTRL	Inserts an external file into the input file
INCLUDE_EXEC	Inserts an external file into the input file
K2GG
K2PP	Selects direct input stiffness matrices, which are not included in normal modes
M2GG	Selects direct input mass matrix or matrices.
MAXLINES	Sets the maximum number of output lines. Note: The maximum number of lines is 999999999 (Nastran default).
MONITOR_POINTS	Defines an integrated load monitor point.
NLMOPTS	Specifies nonlinear material optional schemes in SOL 400. Extends to material options, property options including property mapping, boundary condition options.
OMIT_BEGIN_BULK	Note: By selecting this control card, you are forcing HyperMesh to not write BEGIN BULK CARD.
OMIT_CEND	Note: By selecting this control card, you are forcing HyperMesh to not write the CEND card.
OMIT_END_BULK	Note: By selecting this card, you are forcing HyperMesh to not write the END_BULK card.
P2G	Selects direct input load matrices.
PARAM	Specifies values for parameters. Note: On import, all unsupported PARAM cards are written into the UNSUPPORTED PARAMS block within PARAM CARD in the Control Cards panel. You can edit this data block.
PRESSURE	Pressure output request
RADSET	Specifies which radiation cavities are to be included for radiation enclosure analysis.
RESTART	Requests that data stored in a previous run be used in the current run.
RESVEC	Controls residual vectors
RIGID	Rigid Element Method
SET CARD	Defines a set of element or grid point numbers to be plotted. Note: Only real number sets can be created using control cards.
SOL	Specifies the solution sequence or main subDMAP to be executed.
SUBTITLE	Defines a subtitle that will appear on the second heading line of each page of printer output.
SWLDPRM	Overrides default values of parameters for CFAST, CWELD, and CSEAM connectivity search.
TIME	Sets the maximum CPU and I/O time.
TITLE	Defines a character string that will appear on the first heading line of each page of NX Nastran printer output.
TSTEPNL	Defines parameters for geometric nonlinear implicit dynamic analysis strategy.

OptiStruct

I/O Option Entries are supported as control cards when appearing before the first SUBCASE statement. In many cases, information supplied on these entries is overridden by repeated definitions within subcases.

Card	Description
ACCELERATION	Requests acceleration vector output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
ACMODL	Defines model parameters for the fluid-structure interface. Note: Bulk Data Entry
ANALYSIS	Used in the I/O Options section to request that only a finite element analysis be performed (optimization input is ignored). It may also be used in the I/O Options or Subcase Information sections to identify the solution sequence for all subcases or for individual subcases, respectively. Note: Subcase Information Entry Supported as an output option on the subcase definition when it appears within a subcase.
ASSIGN	Used in the I/O Options section to identify external files and their contents. Note: I/O Options and Subcase Information Entry Supported as an output option on the subcase definition when it appears within a subcase.
AUTOSPC	Used to automatically constrain stiffness singularities and near singularities with single point constraints. Note: I/O Options and Subcase Information Entry Found under GLOBAL_CASE_CONTROL.
B2GG	Selects a direct input viscous damping matrix. Note: Subcase Information Entry Global matrix selectors.
BULK_UNSUPPORTED_CARDS	Note: If a line (not a continuation line) occurs after the BEGIN BULK statement in an input file and starts with a keyword that is not recognized or supported, then the entire card gets written to BULK_UNSUPPORTED_CARDS. It is also possible to manually define an unsupported OptiStruct card using the BULK_UNSUPPORTED_CARDS. BULK_UNSUPPORTED_CARDS are exported near the bottom of the exported OptiStruct input file, just before the ENDDATA statement.
CFAILURE	Requests failure index output for elements referencing PCOMP, PCOMPP or PCOMPG properties for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. CFAILURE is supported for static analysis only.
CHECK	Requests that only a model check be performed. Note: I/O Options and Subcase Information Entry
CMDE	Used above the first SUBCASE or within a SUBCASE definition to request component modal synthesis damping energy output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
CMKE	Used above the first SUBCASE or within a SUBCASE definition to request component modal synthesis kinetic energy output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
CMSE	Used above the first SUBCASE or within a SUBCASE definition to request component modal synthesis strain energy output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
CONTF	Requests contact results output for all Nonlinear Analysis subcases or individual nonlinear analysis subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
CONTPRM	Defines the default properties of all contacts and sets parameters that affect all contacts. The default values set here can be overridden by values explicitly specified on PCONT, PCONTX, and CONTACT cards. Note: Bulk Data Entry
CSTRAIN	Requests ply strain output for elements referencing PCOMP, PCOMPP or PCOMPG properties for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
CSTRESS	Requests ply stress output for elements referencing PCOMP, PCOMPP or PCOMPG properties for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
CTRL_UNSUPPORTED_CARDS	Note: If a line (not a continuation line) occurs before the BEGIN BULK statement and before the first SUBCASE statement and starts with a keyword that is not recognized or supported, then the entire card gets written to CTRL_UNSUPPORTED_CARDS. It is also possible to manually define data cards appearing above the first SUBCASE statement using the CTRL_UNSUPPORTED_CARDS. CTRL_UNSUPPORTED_CARDS are exported near the top of the exported OptiStruct input file, just before the first SUBCASE statement.
DAMAGE	Requests fatigue damage results output for all fatigue subcases or individual fatigue subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
DEBUG	Supports internal issues for debugging purposes in HyperMesh. Note: I/O Options and Subcase Information Entry Some special or custom features can be accessed through the use of 'debug, <string>, <real>' statements.
DENSITY	Requests density output for a topology optimization. Note: I/O Options and Subcase Information Entry
DENSRES	Controls the frequency of output of design results (density, shape, or thickness). Note: I/O Options Entry
DESHIS	Controls the creation of the optimization history file .hgdata. Note: I/O Options and Subcase Information Entry
DESVARG	Defines an override for design variable settings. Note: Bulk Data Entry
DGLOBAL	Defines input parameters required for the Global Search Option (GSO). Note: Bulk Data Entry
DISPLACEMENT	Requests displacement vector output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
DMIGNAME	Defines the name given to the reduced matrices written to an external data file. Note: I/O Options and Subcase Information Entry
DMIGROT	Controls rotation and other specifications for a matrix entered using DMIG entry
DSA	Requests Design Sensitivity Analysis results in a Frequency Response Analysis. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
DTI_UNITS	Defines units for multibody, component mode synthesis (flexible-body preparation), and geometric nonlinear solution sequences. Note: Bulk Data Entry
ECHO	Outputs the interpreted forms of Subcase Information and Bulk Data Entries to the .out file. Note: I/O Options and Subcase Information Entry
EDE	Requests element energy loss per cycle and element energy loss per cycle density output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
EIGVNAME	Defines the prefix to be used for external eigenvalue data files (.eigv). Note: I/O Options and Subcase Information Entry
EKE	Requests kinetic energy and kinetic energy density output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
ELFORCE	Requests structural element force output and elemental fluid particle velocity output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
ENERGY	Requests energy output for all geometric nonlinear analysis subcases or individual geometric nonlinear analysis subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
ERP	Requests equivalent radiated power output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
ESE	Requests strain energy and strain energy density output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
FLUX	Requests temperature gradient and flux output for all steady-state heat transfer analysis subcases, transient heat transfer analysis subcases or individual heat transfer analysis subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
FORMAT	Indicates the format in which results are to be output. Note: I/O Options Entry Formats are: H3D (default), HM, FLX, OPTI, OUTPUT2, PUNCH, PATRAN, APATRAN, NONE.
FOS	Requests fatigue factor of safety, hydrostatic pressure, and shear stress output for all fatigue subcases or individual fatigue subcases. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
GAPPRM	Defines parameters that control connectivity and configuration checks for gap elements (CGAP and CGAPG). Most of these parameters also affect contact elements that are automatically created on CONTACT interfaces. Note: Bulk Data Entry
GLOBAL_CASE_CONTROL	Handles the data selectors FREQ, METHOD, MPC, SDAMPING and SPC appearing above the first SUBCASE statement. It also handles the data selector DESVAR, used to select a set of design variables for use in an optimization run. It also handles the output control OMODES, used to define a set of modes for output requests. Note: This control card OMODES is also supported as an output option on the subcase definition when it appears within a subcase.
GPFORCE	Requests grid point force balance output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
GPSTRAIN	Requests grid point strain output for all or individual subcases. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST
GPSTRESS	Requests grid point stresses output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
GRDSET	Defines default options for fields 3, 7, and 8 of all GRID entries. Note: Bulk Data Entry
HISOUT	Controls the amount of data printed to the .hgdata file. Note: I/O Options and Subcase Information Entry
INCLUDE_BULK	Note: This control card is retained to support old database files.
INCLUDE_CTRL	Note: This control card is retained to support old database files.
INFILE	Identifies the file containing the Bulk Data Entries. Note: I/O Options Entry Its extension must be .fem.
K2GG	Selects a direct input stiffness matrix. Note: Subcase Information Entry Global matrix selectors
K2PP	Selects a direct input stiffness matrix, which is not included in normal modes. Note: Subcase Information Entry Global matrix selectors
K42GG	Selects a direct input stiffness matrix. Note: Subcase Information Entry Global matrix selectors
LIFE	Requests output of fatigue life results for all fatigue subcases or individual fatigue subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
LOADLIB	Defines the external libraries and external files to be loaded into OptiStruct. External functions can be implemented within dynamic libraries (.dll) under Windows, shared libraries (.so) under Linux, by using HyperMath (.hml) on Windows and Linux, and external files by using Microsoft Excel (.xls or .xlsx) on Windows. Note: I/O Options and Subcase Information Entry
M2GG	Selects a direct input mass matrix. Note: Subcase Information Entry Global matrix selectors
MBFORCE	Requests force output for a set of joints and/or force elements from multibody dynamics subcases. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
MODALDE	Used above the first SUBCASE or within a SUBCASE definition to request modal damping energy (the energy loss per cycle) output for all subcases or individual subcases, respectively. Note that this modal damping energy only includes the energy contribution from viscous dampers. Structural damping and modal damping are not included. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
MODALKE	Used above the first SUBCASE or within a SUBCASE definition to request modal kinetic energy output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
MODALSE	Used above the first SUBCASE or within a SUBCASE definition to request modal strain energy output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
MODEL	Requests output of only a subset of the model and related results for H3D and OUTPUT results files as well as for CMS superelements. Note: I/O Options and Subcase Information Entry This option is intended for multi-body dynamics and transient solution sequences with which users often require results for only a subsection of a model, but it is applied to all solution sequences.
Model Documentation	Note: $HMBEGINDOC and $HMENDDOC indicate a section of comment cards which are supported on import and export. The comments are stored on control card Model Documentation. This information is exported at the top of the exported OptiStruct input file.
MODOUT	Options for displacement and energy results, based on eigenvectors from `PFMODE` modal participation. Note: Bulk Data Entry
MPCFORCE	Requests multi-point force of constraint vector is output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
MSGLMT	Limits the number of ERROR, WARNING and INFORMATION messages output, or to elevate a WARNING or INFORMATION message to an ERROR. Note: I/O Options and Subcase Information Entry
NLLOAD	Used to request nonlinear load output for Transient Response Analysis for each time step for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
OFREQUENCY	Requests a set of frequencies for output requests for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
OLOAD	Requests the form of applied load vector output and temperature load output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
OSDIAG	Note: Some special diagnostic information can be processed through the use of 'osdiag, <integer>, <integer>, <real>, <real>' statements.
OTIME	Requests a set of times for output requests for Transient Analysis for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
OUTFILE	Defines the prefix for the results files output. Note: I/O Options and Subcase Information Entry
OUTPUT	Controls the format of results output and the creation of certain results files. Note: I/O Options Entry
P2G	Used before the first subcase to select a direct input load matrix. Note: Subcase Information Entry Global matrix selectors
PARAM	Defines values for parameters used during analysis and optimization. Note: Bulk Data Entry If an unsupported argument is encountered on importing a PARAM card, the data is stored as UNSUPPORTED_PARAMS on the PARAM card. It is also possible to create an unsupported PARAM card using the UNSUPPORTED_PARAMS option.
PEAKOUT	Defines criteria used for the automatic identification of loading frequencies at which result peaks occur. Other result output may then be requested at these "peak" loading frequencies. This feature is only supported for frequency response solution sequences. Note: Bulk Data Entry
PFGRID	Requests output of acoustic grid participation factors for all Modal Frequency Response subcases. The output will be in the .h3d file. Note: I/O Options and Subcase Information Entry
PFMODE	Requests output of modal participation factors for all modal frequency response subcases. Note: I/O Options and Subcase Information Entry
PFPANEL	Requests output of acoustic panel participation factors for all Modal Frequency Response subcases. Note: I/O Options and Subcase Information Entry
POWERFLOW	Requests output of the power flow field. Note: I/O Options Entry Found under GLOBAL_OUPUT_REQUEST.
PRESSURE	Requests the output of pressure results. Analogous to the DISPLACEMENT command. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
PRETBOLT	Requests output of pretension force/adjustment values in the pretension bolts for all pretensioning and pretensioned subcases. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
PROPERTY	Requests the output of the property definitions used in the final iteration of an optimization. Note: I/O Options and Subcase Information Entry
REQUEST	Selects a multibody request definition to be used in a multibody problem. Note: I/O Options and Subcase Information Entry
RESPRINT	Rorces all unretained responses of a certain type to be printed to the output file, provided they are referenced either as an objective or a constraint. This also applies to manufacturing constraints for composites. Note: I/O Options and Subcase Information Entry
RESTART	Indicates that the current optimization is to be restarted from the final iteration of a previous optimization. Note: I/O Options and Subcase Information Entry
RESULTANT	Enables the output of resultant forces and moments for internally generated sections. Note: I/O Options and Subcase Information Entry Note: Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
RESULTS	Determines the frequency of output of analysis results for all subcases or for individual subcases, respectively. Note: I/O Options Entry
SACCELERATION	Requests the form and type of modal participation accelerations output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
SCREEN	Controls the output of model, analysis, and optimization information to the UNIX or DOS shell. Note: I/O Options and Subcase Information Entry
SDISPLACEMENT	Requests the form and type of modal participation displacements output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
SENSITIVITY	Requests the output of the responses and sensitivities for size and shape design variables to a Microsoft Excel spreadsheet. Note: I/O Options and Subcase Information Entry
SENSOUT	Controls the frequency of output of responses and sensitivities for size and shape design variables to a Microsoft Excel spreadsheet. Note: I/O Options and Subcase Information Entry
SHAPE	Requests altered shape output for a shape optimization. Note: I/O Options and Subcase Information Entry
SHRES	Controls the frequency of output of the state files (.#.sh file and the .#.grid file). Note: I/O Options Entry
SINTENS	Used in the I/O Options section to request Sound Intensity output for all frequency response subcases. The SINTENS command can be used in the I/O Options or Subcase Information sections to request Sound Intensity output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
SPCFORCE	Requests single-point force of constraint vector output for all subcases or individual subcases, respectively. Note: SPCFORCE I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
SPL	Requests Sound Pressure output for all subcases or individual subcases, respectively. SPL can only be requested for frequency response subcases. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
SPOWER	Requests Sound Power output for all subcases or individual subcases, respectively. SPOWER can only be requested for frequency response subcases. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
STRAIN	Requests strain output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
STRESS	Requests stress output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
SUBTITLE	Defines the subtitle for all subcases or for individual subcases, respectively. Note: I/O Options and Subcase Information Entry Individual subcases may have their own SUBTITLE definitions which are supported on the subcase definition. These will override the default subtitle.
SVELOCITY	Requests the form and type of modal participation velocities output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
SWLDPRM	Defines values of parameters used during the CWELD and CSEAM connectivity search. Note: Bulk Data Entry
SYSSETTING	Alters system settings. Any setting defined here may be over-ridden by command line arguments (Run Options). Most of these options can also be specified in one of the config files (Configuration File). Note: I/O Options Entry
THERMAL	Requests temperature output for all heat transfer analysis subcases or individual heat transfer analysis subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
THICKNESS	Requests thickness output for elements referencing a PSHELL, PCOMP or PCOMPP properties in size/free-size optimization and analysis runs. Note: I/O Options and Subcase Information Entry
THIN	Requests thinning and thickness output for all geometric nonlinear analysis subcases or individual geometric nonlinear analysis subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST.
TITLE	Defines the title for the OptiStruct job. Note: I/O Options and Subcase Information Entry
TMPDIR	Chooses the directory in which the scratch files are to be written. Note: I/O Options and Subcase Information Entry OptiStruct allows multiple TMPDIR entries, but only one instance is currently supported.
TOTALFORCE	Used in the I/O Options or Subcase Information sections to request total force (a summation of single-point force and applied load) output for all subcases or individual subcases respectively. Note: I/O Options and Subcase Information Entry Note: Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
UNITS	Defines a system of units for the model. Note: I/O Options and Subcase Information Entry
VELOCITY	Requests velocity vector output for all subcases or individual subcases, respectively. Note: I/O Options and Subcase Information Entry Found under GLOBAL_OUPUT_REQUEST. Supported as an output option on the subcase definition when it appears within a subcase.
XSHLPRM	Defines default shell element parameters for geometric nonlinear analysis. Note: Bulk Data Entry
XSOLPRM	Defines default SOLID properties for geometric nonlinear analysis. Note: Bulk Data Entry

PAM-CRASH 2G

Card	Description
AIRBAGCHECK	Airbag check option (Prime Control keywords) AIRBAGCHECK is executed by default to check the airbag’s closed volume.
ANALYSIS	Analysis definition (Prime Control keywords) If AUTOSLEEP is not present inside the input file or AUTOSLEEP is not set to YES, the solver stops if the license tokens are not available at the beginning of the computation.
AUTOSLEEP	Autosleep option (Prime Control keywords)
CCTRL /	Contact Control Cards (Standard Control keywords)
CKCTRL/	Check Control Cards (Standard Control keywords)
COUPLING	Coupling (Optional Control keywords)
DATACHECK	Data Check option (Prime Control keywords)
DCOMP	DMP Domain Decomposition Method option (Prime Control keywords)
DEBUG	Debug option (Prime Control keywords)
DRAPP	Draping Database Path Name Definition (Standard Control keywords)
DRAPF /	Import Composite Layer Draping File Definition (Standard Control keywords)
ECTRL /	Element Control Cards (Standard Control keywords)
EIGEN /	Eigenmode Extraction and Damping Matrix Generation Analyses (Standard Control keywords)
EOCTRL/	ERF Control Cards (Standard Control keywords)
ENDDATA	End of Data option (General Model setup) Note: Cards after the ENDDATA card are ignored. This card is not created during FE input process, but it will be exported automatically.
FILE	File Root Name option (Prime Control keywords)
FPCTRL/	FPM Control Definition (Standard Control keywords)
HEAT /	Heat Analysis Control (Standard Control keywords)
ICTRL /	Implicit General Control Cards Definition (Standard Control keywords)
INPUTVERSION	Input Version Definition (Prime Control keywords)
MAXMEMORY	Maximum Memory Check option (Prime Control keywords)
MERGEGAP	Common Node Merge option (Prime Control keywords)
METRIC/	Metric Input Definition (Standard Control keywords)
METRICCHECK	Metric Check option (Prime Control keywords)
MSTRM /	Mass Trimming Definition (Standard Control keywords)
NVHFILES	This is a useful option for NVH-IA Frequency multistage analysis, allowing you to clean-up your hard disk from all NVH database files generated during the analysis. (Prime Control keywords) Note: NVHFILES and STAGEFILES cannot be used together. An error message is output by the solver when both are set.
OCTRL /	Output Parameters Control Cards (Standard Control keywords)
ORTHF /	Import Element Orientation Definition (Standard Control keywords)
ORTHP	Element Orientation File Path Name Definition (Standard Control keywords)
PFLOW /	Porous Flow Analysis Definition (Standard Control keywords)
PIPE	Process Independent Parallel Execution (PIPE) option (Optional Control keywords)
PRCTRL/	Print Control Definition (Standard Control keywords)
PROFILE_DMP	DMP Profile Guided Domain Decomposition option (Prime Control keywords)
LCTRL /	Load Control Definition (Standard Control keywords)
MCTRL /	Metric Control Definition (Standard Control keywords)
RESTARTFILES	Cyclic Restart File option (Prime Control keywords)
RUNEND/	End of Run Definition (Standard Control keywords)
SHELLCHECK	Shell Element Data Check option (Prime Control keywords)
SIGNAL	Job Signal option (Prime Control keywords)
SOLIDCHECK	Solid Element Data Check option (Prime Control keywords)
SOLVER	Solver Selection option (Prime Control keywords)
STAGEFILES	Clean the hard disk at the end of the last stage by removing all multistage files generated during the analysis. (Prime Control keywords)
SPCTRL/	Smoothed Particle Hydrodynamics (SPH) Control Cards (Standard Control keywords)
STOPRUN	Stop Run option (Prime Control keywords)
SUBRUN	Substructure Run option (Prime Control keywords)
TCTRL /	Time Step Definition (Standard Control keywords)
TITLE /	Title Card or Header on Output Listing Card (Standard Control keywords)
UNIT	Unit System Definition (Prime Control keywords)
SECURE_NODE_VISU	Secured Nodes Visualization option (PAMCOMFORT) (Optional Control keywords)
$HMUNSUPPORTED CARDS	Unsupported cards Note: All unsupported information found in the input deck is imported in this card. You can edit this card.
$HMBEGINDOC $HMENDDOC	Imported model documentation Note: The input deck can contain model documentation text that is imported and exported via the comment lines. For decks not written by HyperMesh, all comment lines before the first non-comment line are treated as model documentation. For decks written by HyperMesh, the documentation lines must be placed in a block that begins with the line $HMBEGINDOC and ends with the line $HMENDDOC. This card is always overwritten by the current model documentation.
$HMBEGINDOC $HMENDDOC	Model documentation Note: This card is not created during FE input process. You can create this card, but once this card is defined, only this will be exported. You can access macros from the PAM-CRASH solver interface to append or overwrite the information from Imported Model Documentation to this card.

Permas

Card	Description
CONTLOCK	Lock contact regions according to the contact results of a reference situation.
EXTERNAL	The degrees of freedom given on the header line are declared as external degrees of freedom for all nodes listed within the data block.
PARAMETER	Deﬁnition of parameter values which are valid only within current system variant. Note: This option is available in the SYSTEM card as a separate checkbox.
SUBCOMP	Insertion of subcomponent name into current component and declaration of corresponding nodal points or node sets.
SUBVAR	Selection of system variants of direct subcomponents. Note: This option is available in the SYSTEM card as a separate checkbox.
$COMPONENT	Component input bracket header line.
$ECHO	Controls the echo print of Permas data input lines.
$MODDAMP	Definition of viscous or structural modal damping. Note: This option is available in the SYSTEM card as a separate checkbox.
$SYSTEM	Opens the bracket for input of system data.

Radioss

Card	Description
/@TFILE	The time at which the time history file begins. Note: Engine Keyword
/@TFILE/Keyword2	The time at which the time history file begins. Note: Engine Keyword
/ABF	Describes the output of .abf files. (.abf [binary] files are optimized for fast plotting of very large data sets and is intended for creating 2D and 3D plots using HyperGraph and HyperGraph 3D). Note: Engine Keyword
/ADMESH/GLOBAL	Defines the global parameters for adaptive meshing. This keyword is not available for SPMD computation. Note: Block Format Keyword
/ALE	Sets parameters for DONEA grid velocity formulation of ALE. Note: Engine Keyword
/ALE/2	Sets parameters for Radioss grid velocity formulation for ALE. Note: Engine Keyword
/ALE/3	When this keyword is used instead of /ALE or /ALE/2, no grid calculation is performed. Grid does not move, unless constrained otherwise. Note: Engine Keyword
/ALE/4	Sets the Radioss standard formulation. Note: Engine Keyword
/ALE/GRID/DISP	The displacement of a grid node depends on the displacements of the neighboring grid nodes. Note: Block Format Keyword
/ALE/GRID/DONEA	Velocity of a given grid node depends on velocity and displacements of neighboring grid nodes. Note: Block Format Keyword
/ALE/GRID/SPRING	Grid nodes are connected with nonlinear springs (those springs have no effect on the material, only on the movement of the grid). Note: Block Format Keyword
/ALE/GRID/STANDARD	Describes the standard formulation for ALE grid velocity computation. It is an improved /ALE/GRID/SPRING formulation based on edge springs and anti-shear springs. Note: Block Format Keyword
/ALE/GRID/ZERO	Describes the Euler formulation. Note: Block Format Keyword
/ALESUB	Subcycling on Lagrangian parts. Note: Engine Keyword
/AMS	Describes the part group on which the advanced mass scaling is applied. Note: Block Format Keyword
/ANALY	Defines the type of analysis and sets analysis flags. Note: Block Format Keyword
/ANIM	Generates animation files containing results according to the keywords specified. The keywords are specified in the topics within Animation and Post-processing Output Files. Note: Engine Keyword
/ANIM/BRICK/TENS	Generates animation files containing tensor data (mean value or value in specified integration point) for brick elements, in global coordinate system. Note: Engine Keyword
/ANIM/BRICK/TENS/STRAIN	Generates animation files containing strain tensor for a specified integration point of a solid, in global coordinate system. Note: Engine Keyword
/ANIM/BRICK/TENS/STRESS	Generates animation files containing stress tensor for a specified integration point of a solid, in global coordinate system. Note: Engine Keyword
/ANIM/CUT/1	Defines a section cut on a deformed geometry. Note: Engine Keyword
/ANIM/CUT/2	Defines a section cut on the initial geometry. Note: Engine Keyword
/ANIM/CUT/3	Defines a section cut on a deformed geometry using three nodes. Note: Engine Keyword
/ANIM/DT	Write animation files (A-files) at a time frequency equal to `T`_freq, the first file being written at time `T`. The animation file name will be RunnameAnnn, where Runname is the Run Name and nnn is the file number. Note: Engine Keyword
/ANIM/Eltyp/FORC	Generates animation files containing force and moment data for the specified element type. Note: Engine Keyword
/ANIM/Eltyp/Restype	Generates animation files containing element data for the specified result. Note: Engine Keyword
/ANIM/GPS1	Generates animation files containing simple average GPS data. The average value at node is calculated by the mean stress of all elements, which are connected to this node. Note: Engine Keyword
/ANIM/GPS2	Generates animation files containing volume based averaged GPS data, which is done by the relative element volumes (connected to same node use Vi/V_total). Note: Engine Keyword
/ANIM/GZIP	Generates animation files in GZIP format. Note: Engine Keyword
/ANIM/KEEPD	In animation files, keep deleted elements in their original part; otherwise group all deleted elements in an extra part (named "deleted elements"). Note: Engine Keyword
/ANIM/LSENSOR	Write additional animation files (Animation Output File (A-File)) at a time frequency equal to `T`_freq, the first file being written at sensor activation time. The sensor activation time is given by the sensor property set `sens_ID`_N. Note: Engine Keyword
/ANIM/MASS	Generates animation files containing nodal masses. Note: Engine Keyword
/ANIM/MAT	Generates animation files with one part for each material. Note: Engine Keyword
/ANIM/NODA	Generates animation files containing nodal scalar data. Note: Engine Keyword
/ANIM/SENSOR	Write additional animation files (Animation Output File (A-File)) with a time frequency equal to `T`_freq, the first file being written once sensor activated. (The activation of sensor will be defined in /SENSOR). Note: Engine Keyword
/ANIM/SHELL/EPSP	Generates animation files containing plastic strain as function of a shell element integration point. Note: Engine Keyword
/ANIM/SHELL/PHI/ALL	Animation output of the angle between the element skew and direction 1 orthotropy for all layers. Note: Engine Keyword
/ANIM/SHELL/PHI/N	Animation output of the angle between the element skew and direction 1 orthotropy for layer N. Note: Engine Keyword
/ANIM/SHELL/TENS	Generates animation files containing shell tensor data for a specified result. Note: Engine Keyword
/ANIM/SHELL/USRi	Generates animation files containing shell element data for variables of user law on each integration point. Note: Engine Keyword
/ANIM/VECT	Generates animation files containing vectorial data for the specified variable. Note: Engine Keyword
/ANIM/VECT/FREAC	Generates animation files containing vectorial data for reaction forces of imposed velocities, displacements, accelerations and boundary conditions. Note: Engine Keyword
/ANIM/VERS	Generates animation files in Radioss environment post-processing formats 41 and 44. Note: Engine Keyword
/ARCH	Describes the architecture flag. Note: Block Format Keyword
/ATFILE	Defines the frequency of writing additional time history file of T-file "RunnameTnnx". Note: Engine Keyword
/BCS/ALE	Given node numbers will be constrained in specified directions X, Y or Z for grid DOF: Ω = 0. Note: Engine Keyword
/BCS/LAG	Given node numbers will be lagrangian in specified directions X, Y or Z: V = W. Note: Engine Keyword
/BCS/ROT	Given node numbers will be constrained in specified directions X, Y or Z for rotational DOF: Ω = 0. Note: Engine Keyword
/BCS/TRA	Given node numbers will be constrained in specified directions X, Y or Z for material translational DOF: V = 0. Note: Engine Keyword
/BCSR/ALE	Given node numbers will be released in specified directions X, Y or Z for grid DOF. Note: Engine Keyword
/BCSR/LAG	Given node numbers will no longer be lagrangian in specified directions X, Y or Z. Note: Engine Keyword
/BCSR/ROT	Given node numbers will be released in specified directions X, Y or Z for material translational DOF. Note: Engine Keyword
/BCSR/TRA	Given node numbers will be released in specified directions X, Y or Z for material translational DOF. Note: Engine Keyword
/BEGIN	Sets the run name, the version of the input manual, the number of starter run and input and work unit systems. Note: Block Format Keyword
/CAA	Describes the computation Aero-Acoustic formulation for Eulerian or quasi-Eulerian simulations. Internal forces are computed with finite volume formulation. It improves results for under integrated elements. By default artificial viscosity is canceled, (qa,qb) default values are zero. Note: Block Format Keyword
/DAMP	Defines the Rayleigh mass and stiffness damping coefficients applied to a set of nodes. The damping can be applied to any nodal DOF either in local or global coordinate system. Note: Block Format Keyword
/DEF_SHELL	Sets default values for certain parameters in shell property (/PROP/SHELL). Note: Block Format Keyword
/DEF_SOLID	Sets default values for certain parameters in solid property (/PROP/TYPE14 (SOLID) and /PROP/TYPE20 (TSHELL)). Note: Block Format Keyword
/DEL	Delete element numbers N₁, N₂, . . ., N_N. Note: Engine Keyword
/DEL/Eltyp/1	Delete element numbers N¹_first to N¹_last, . . ., N^I_first to N^I_last. Note: Engine Keyword
/DEL/INTER	Delete interface numbers N₁, N₂, . . ., N_N. Note: Engine Keyword
/DELINT	If a slave node is only connected to 2D solid elements that are all deleted, the node is deactivated from the interface. Note: Engine Keyword
/DT	Time step defaults for all elements. Note: Engine Keyword
/DT/AMS	Elementary time step for Advanced Mass Scaling. Note: Engine Keyword
/DT/Eltyp/Iflag	Time step for select entities. Note: Engine Keyword
/DT/Eltyp/Keyword3/Iflag	Element time step control. Note: Engine Keyword
/DT/NODA/Keyword3	Nodal time step control. Note: Engine Keyword
/DT/SHELL	The time step for shell elements using /DT1 is lower but more accurate. Otherwise, this option is identical to /DT1/SHELL. Note: Engine Keyword
/DT/SHNOD or /DT/SHNOD/CST	Time step for shells. Note: Engine Keyword
/DT/SPHCEL	Generates the SPH cells time step. Note: Engine Keyword
/DT/SPHCEL/Keyword3	Generates the SPH cells time step control type. Note: Engine Keyword
/DT/THERM	Time step for thermal modeling. Note: Engine Keyword
/DT1/SHELL	The time step for shell elements using /DT1 is lower, but more accurate. Otherwise, this option is identical to /DT/SHELL. Note: Engine Keyword
/DTIX	Sets initial and maximum time step for this run. Note: Engine Keyword
/DTSDE	The time step for degenerated or PENTA6 solid elements using this option is higher (almost factor 2). Note: Engine Keyword
/DYREL	Dynamic relaxation. Note: Engine Keyword
/DYREL/1	Dynamic relaxation applied to node group identifier `grnd_ID`. Note: Engine Keyword
/END/ENGINE	This keyword has to be set at the end of the Engine input deck when using Single File Input. Note: Engine Keyword
/FVMBAG/MODIF	Activates FVM airbag merging parameter modifications in Engine file. Note: Engine Keyword
/FXINP	Generates input files for flexible bodies from eigenmodes and static modes computation. Note: Engine Keyword
/IMPL	Keywords used for implicit solution. Different implicit solver methods (linear, nonlinear, buckling or quasi-static), different options to control the implicit computation, different implicit time step method and implicit output messages are introduced. Note: Engine Keyword
/IMPL/AUTOSPC	A zero stiffness DOF will be constrained automatically. Note: Engine Keyword
/IMPL/BUCKL/1	Euler buckling modes will be computed. Note: Engine Keyword
/IMPL/BUCKL/2	Euler buckling modes will be computed based on actual pre-stress stat. Note: Engine Keyword
/IMPL/CHECK	Implicit model checking will be run. Note: Engine Keyword
/IMPL/DIVERG/n	Divergence criterion with successive increasing residual number for nonlinear analysis. Note: Engine Keyword
/IMPL/DT/1	Implicit time step control method 1. Note: Engine Keyword
/IMPL/DT/2	Implicit automatic time step control method 2. Note: Engine Keyword
/IMPL/DT/3	Implicit automatic time step control with Riks method. Note: Engine Keyword
/IMPL/DT/FIXPOINT	Users' input fix time points where implicit nonlinear computation will not miss with automatic time step control. Note: Engine Keyword
/IMPL/DT/STOP	The computation will be stopped, if `DT_min` is reached. If `DT_max` is reached, the computation will continue with constant time step set as `DT_max`. Note: Engine Keyword
/IMPL/DTINI	Initial time step for nonlinear implicit analysis. Note: Engine Keyword
/IMPL/DYNA/1	Describes the implicit dynamics with α-HHT method. Note: Engine Keyword
/IMPL/DYNA/2	Describes the implicit dynamics with a general Newmark method. Note: Engine Keyword
/IMPL/DYNA/DAMP	Rayleigh structure damping with dynamic implicit analysis. Note: Engine Keyword
/IMPL/DYNA/FSI	Defines the settings for Fluid Structure Interaction Analysis with AcuSolve. Note: Engine Keyword
/IMPL/GSTIF/OFF	Geometrical stiffness matrix will not be used for implicit nonlinear calculation. Note: Engine Keyword
/IMPL/INTER/KCOMP	Describes the stiffness matrix; due to contact interfaces will be assembled completely. Note: Engine Keyword
/IMPL/INTER/KNONL	Defines including some contact nonlinearities in PCG linear solver. Note: Engine Keyword
/IMPL/LBFGS/L	Change the maximum number of BFGS quasi-Newton method for implicit nonlinear. Note: Engine Keyword
/IMPL/LINEAR	Linear implicit solution will be computed. Note: Engine Keyword
/IMPL/LINEAR/INTER	Implicit linear analysis will take into account contact interfaces. Note: Engine Keyword
/IMPL/LRIGROT	Due to some linearization used in geometrical nonlinear analysis, small time step has to be chosen to avoid accumulated errors under large rotation. In this case, this option improves the accuracy using usual time step. Note: Engine Keyword
/IMPL/LSEARCH/n	Line search methods for nonlinear analysis. Note: Engine Keyword
/IMPL/LSEARCH/OFF	Deactivating line search for nonlinear analysis. Note: Engine Keyword
/IMPL/MONVOL/OFF	Describes the stiffness of gas in monitored volume type 3 (tire modeling). Note: Engine Keyword
/IMPL/NCYCLE/STOP	The computation will be stopped, if `Ncy_max` is reached. Note: Engine Keyword
/IMPL/NONLIN	Nonlinear implicit methods. Note: Engine Keyword
/IMPL/NONLIN/SMDISP	Only small displacement effects will be considered with this option. Note: Engine Keyword
/IMPL/PREPAT	Describes the implicit option for pre-conditioning. Note: Engine Keyword
/IMPL/PRINT/LINEAR	Printout frequency for linear solvers. Note: Engine Keyword
/IMPL/PRINT/NONLIN	Printout frequency for nonlinear implicit iterations. Note: Engine Keyword
/IMPL/PSTIF/OFF	Deactivating load (pressure) stiffness matrix. Note: Engine Keyword
/IMPL/QSTAT	Quasi-static implicit solution will be computed. Note: Engine Keyword
/IMPL/QSTAT/DTSCAL	Quasi-static implicit solution with a factor for inertia stiffness matrix. Note: Engine Keyword
/IMPL/RREF/INTERF/n	Different reference force residual computations used for stop criteria on nonlinear analysis with contact. Note: Engine Keyword
/IMPL/RREF/LIMIT	Define reference force residual limit values used in stop criteria for implicit nonlinear. Note: Engine Keyword
/IMPL/RREF/OFF	Deactivation reference residual option and using the previous one in stop criteria for implicit nonlinear analysis. Note: Engine Keyword
/IMPL/SBCS/MSGLV	Describes the message level for BCS (Boeing) solver. Note: Engine Keyword
/IMPL/SBCS/ORDER	Reordering method definition for BCS. Note: Engine Keyword
/IMPL/SBCS/OUTCORE	BCS solver will use minimum in-core memory. Note: Engine Keyword
/IMPL/SHPOFF	The full projection of QEPH shell element for warped elements will be deactivated to keep consistency between the stiffness matrix and the internal force computations. Note: Engine Keyword
/IMPL/SHPON	The full projection of QEPH shell element for warped elements will be activated for stiffness matrix to keep consistency with the internal force computations. Note: Engine Keyword
/IMPL/SINIT	Describes the initial stresses that will be imposed gradually. Note: Engine Keyword
/IMPL/SOLVER	Selects linear solver. Note: Engine Keyword
/IMPL/SPRBACK	Implicit spring-back will be run in this session. Note: Engine Keyword
/IMPL/SPRING	Describes the linear or nonlinear stiffness choices for nonlinear spring in implicit nonlinear analysis. Note: Engine Keyword
/IMPLICIT	Allows different default values which are suitable for implicit calculations. Note: Block Format Keyword
/INCMP	Quasi-incompressible formulation for fluid material (compatible with /MAT/LAW6 and /MAT/LAW11). Note: Engine Keyword
/INISTA	Describes the initial state file. Note: Block Format Keyword
/INIV/AXIS/Keyword3	Initialize rotational velocity about an axis and translational velocity. Note: Engine Keyword
/INIV/AXIS/Keyword3/1	Initialize rotational velocity about an axis and translational velocity. Note: Engine Keyword
/INIV/ROT	Initialize rotational velocity in the specified direction X, Y or Z. Note: Engine Keyword
/INIV/ROT/Keyword3/1	Initialize rotational velocity in the specified direction X, Y or Z. Note: Engine Keyword
/INIV/TRA	Initialize translational velocity in the specified direction X, Y or Z. Note: Engine Keyword
/INIV/TRA/Keyword3/1	Initialize translational velocity in the specified direction X, Y or Z. Note: Engine Keyword
/INTER	Describes an interface. Note: Engine Keyword
/IOFLAG	Describes the input-output flags. Note: Block Format Keyword
/KEREL	Kinetic energy relaxation. Note: Engine Keyword
/KEREL/1	Kinetic energy relaxation applied to node group `grnd_ID`. Note: Engine Keyword
/KILL	The Engine is stopped if one of the following criteria is exceeded. Note: Engine Keyword
/MADYMO	Activates MADYMO- Radioss coupling. Note: Engine Keyword
/MEMORY	Describes the memory request. Note: Engine Keyword
/MON	Provides an estimation of the CPU time spent for each processor. Note: Engine Keyword
/OUTP	Write ASCII formatted output files. Note: Engine Keyword
/OUTP/LSENSOR	An outp file is written each time a sensor in the defined list is activated. Note: Engine Keyword
/PARITH	Turns the parallel arithmetic ON/OFF. Note: Engine Keyword
/PRINT	Sets printout frequency for output file. Note: Engine Keyword
/RAD2RAD/ON	To activate Multi-Domain coupling, Radioss Engine Input file must contain the following directive. Note: Engine Keyword
/RANDOM	Describes the nodal random noise to check stability of model by introducing random noise on nodal coordinates. Note: Block Format Keyword
/RBODY	Listed rigid bodies will be activated or deactivated. Note: Engine Keyword
/RERUN	Permits to continue a previous Radioss run. Note: Engine Keyword
/RFILE	Writes a Restart R-File. Note: Engine Keyword
/RFILE/n	Rewrites a Restart R-File. Note: Engine Keyword
/RUN	Identifies the run number. Note: Engine Keyword
/RUN/Run Name/Run Number/Restart Letter	Identifies the run number. Note: Engine Keyword
/SHSUB	Enables you to activate new sub-cycling option, for which `I`_subcycle=2 in the /ANALY Radioss Starter option should be specified. Note: Engine Keyword
/SHVER/V51	The new large rotational body motion formulation for QEPH, QBAT and DKT18 will be deactivated. Note: Engine Keyword
/SPHGLO	Describes the SPH global parameters. Note: Block Format Keyword
/SPMD	Sets SPMD parameters for Hybrid Massively Parallel Program (HMPP) computation. Note: Block Format Keyword
/STAMPING	Allows adapting error messages to stamping applications. Note: Block Format Keyword
/STATE/BRICK/AUX/FULL	Describes the internal variable state for solid. Note: Engine Keyword
/STATE/BRICK/ORTHO	Describes orthotropy direction for orthotropic solid or thick shells. Note: Engine Keyword
/STATE/BRICK/STAIN/FULL	Describes the strain state for solid. Note: Engine Keyword
/STATE/BRICK/STRAIN/GLOBFULL	Describes the strain state for solid in global reference system. Note: Engine Keyword
/STATE/BRICK/STRES/FULL	Describes the stress state for solid. Note: Engine Keyword
/STATE/BRICK/STRESS/GLOBFULL	Describes the stress state for solid in global reference system. Note: Engine Keyword
/STATE/DT	Writes the state file. Note: Engine Keyword
/STATE/NODE/TEMP	Describes the temperature for nodes. Note: Engine Keyword
/STATE/LSENSOR	A state file is written each time a sensor in the defined list is activated. Note: Engine Keyword
/STATE/SHELL/AUX/FULL	Describes the internal variable state for solid. Note: Engine Keyword
/STATE/SHELL/EPSP/FULL	Describes the Epsilon plastic state for shell. Note: Engine Keyword
/STATE/SHELL/ORTHL	Describes the orthotropy direction for shell. Note: Engine Keyword
/STATE/SHELL/STRAIN/FULL	Describes the strain state for shell. Note: Engine Keyword
/STATE/SHELL/STRESS/FULL	Describes the stress state for shell. Note: Engine Keyword
/STATE/STR_FILE	When writing the state file, /INISHE, /INISH3 and /INIBRI will be written in a separate file which can be asked for being compressed (using GZIP) or not. The state file will then resume to the nodes coordinates and element connectivity. Note: Engine Keyword
/STOP	The Engine is stopped, due to reached energy error ratio criteria, total mass ratio criteria or nodal mass ratio criteria. Note: Engine Keyword
/TFILE	Defines the frequency of writing the time history file of T-file "RunnameTnn".
/TH/VERS	Generates the Time History files in Radioss environment post-processing format "Version Number". Note: Engine Keyword
/TITLE	Input a title. Note: Engine Keyword
/UNIT	Defines a local unit system for the keywords listed below. Note: Block Format Keyword
/UPWIND	Describes the upwind coefficient. Note: Block Format Keyword
/UPWM/SUPG	Streamline Upwind Petrov Galerkin formulation. Note: Engine Keyword
/UPWM/TG	Describes the Taylor Galerkin method for momentum advection. This method is not available with multi-material LAW51 (/MAT/MULTIMAT). Note: Engine Keyword
/VEL/ALE	With ALE links on grid velocities, given nodes are linked to the given master grid velocities. You can specify direction or a combination of directions. Note: Engine Keyword
/VEL/ROT	Given node numbers have the same rotational velocity in a specified direction X, Y or Z. Note: Engine Keyword
/VEL/TRA	Given node numbers have the same velocity in a specified direction X, Y or Z for material translational DOF. Note: Engine Keyword
/VERS	Identifies the input data version number. Note: Engine Keyword

Samcef

Card	Description
BOLT_OUTPUT	Defines the output code definitions for all .BOLT defined in the model.
UNIT	Defines the unit used to set up the model. Note: This control card is mandatory when beams are being defined in a model.
UNSUPPORTED_CARDS