Use the Parameters Browser to parameterize the contents of a session file or report template and automate a variety of analysis processes with
the Parameters Browser.
Explore, organize and manage your personal data, collaborate in teams, and connect to other data sources, such as
corporate PLM systems to access CAD data or publish simulation data.
Overview of external readers and the Altair Binary Format, the generic ASCII reader, running HyperWorks in batch mode, using Tcl/Tk commands, translators, and result math.
Defines a single-input, single-output, transfer function as a ratio of two polynomials in the Laplace domain when used with
the associated ARRAY statements.
Begins a procedure definition block. *This statement has been deprecated and all functionality is now contained in the *DefineTemplate() - procedure statement.
Indicates the beginning of a record definition block. *This statement has been deprecated and all functionality is now
contained in the *DefineRecord() statement.
Sets the value for a translational, rotational, line of action, and single component rotational asymmetric force pair when
a user-defined subroutine is used to model the force expression.
Sets the values for a translational, rotational line of action and single component rotational force when a user-defined subroutine
is used to model the force expression.
MDL command set statements are used to create a solver command file when a solver input deck is exported from MotionView. A command set can contain MDL command set statements, Templex templates, or a combination of both. The commands in a command set are exported to the solver command file.
Custom wizards allow you to define data processing wizards for use in MotionView, HyperView and HyperGraph sessions. Custom wizards can access data from, and output data to, files and curves in a session using data sets, templates,
user-defined forms, curves, procedures and systems.
Overview of external readers and the Altair Binary Format, the generic ASCII reader, running HyperWorks in batch mode, using Tcl/Tk commands, translators, and result math.
*ColorMaterial()
Creates a color to be referenced by entities, such as graphics.
*ColumnLabel()
Sets the column(s) label in a form or a tableform.
*ColumnWidth()
Sets the width of a column(s) in a form or a tableform.
*Connector()
Creates a connector tag entity which will associate a specified entity with a symbol.
*ConstraintMate()
Creates a primitive geometry based general mating constraint.
*Contact()
Creates a 3D graphics based contact force between two bodies.
*ControlSISO()
Defines a single-input, single-output, transfer function as a ratio of two polynomials in the Laplace domain when used with the associated ARRAY statements.
*Coupler()
Creates a coupler for two or three joints.
*DefineAnalysis()
Indicates the beginning of an analysis definition block.
*DefineAssembly()
Indicates the beginning of an assembly definition block.
*DefineDataSet()
Indicates the beginning of a data set definition block.
*DefineForm()
Indicates the beginning of a user-defined form definition block.
*DefineGraphic()
Indicates the beginning of a user-defined graphic definition block.
*DefineProcedure()
Begins a procedure definition block. *This statement has been deprecated and all functionality is now contained in the *DefineTemplate() - procedure statement.
*DefineRecord()
Indicates the beginning of a record definition block that contains a set of data used in a table.
*DefineSystem()
Indicates the beginning of a System definition block.
*DefineTable()
Indicates the beginning of a record definition block. *This statement has been deprecated and all functionality is now contained in the *DefineRecord() statement.
*DefineTableForm()
Indicates the beginning of a table format definition block.
*PointToCurveJoint()
Creates a point-to-curve high-pair joint with three rotational degrees of freedom and one translational degree of freedom.
*PointToDeformableCurveJoint()
Creates a constraint between a point on one body and a curve, where the curve can deform and attach to one or multiple bodies.
*PointToDeformableSurfaceJoint()
Creates a constraint between a point on one body and a surface, where the surface can deform and attach to one or multiple bodies.
*PointToSurfaceJoint()
Creates a point-to-surface high-pair joint with three rotational degrees of freedom and two translational degrees of freedom.
*SetFlexbodyVmodes()
Sets the initial values of the velocity of the flexbody modal coordinates.
*SetForce() - asymmetric force pair with user subroutine
Sets the value for a translational, rotational, line of action, and single component rotational asymmetric force pair when a user-defined subroutine is used to model the force expression.
*SetForce() - single force with user subroutine
Sets the values for a translational, rotational line of action and single component rotational force when a user-defined subroutine is used to model the force expression.
*Surface()
Creates a surface entity for use in high-pair joints such as a curve-to-surface joint.
*SurfaceToSurfaceJoint()
Creates a surface-to-surface high-pair joint with three rotational degrees of freedom and two translational degrees of freedom.
*SysNumAvoidRange()
Specifies a range of numbers that may not be used by MotionView when assigning system numbers.