This section describes using the abaqus command to run Abaqus.
Obtaining information Abaqus/Standard and Abaqus/Explicit execution SIMULIA Co-Simulation Engine director execution Abaqus/Standard, Abaqus/Explicit, and FMU co-simulation execution Dymola model execution SIMULIA Co-Simulation Engine FMU execution Abaqus/CAE execution Abaqus/Viewer execution Topology optimization execution Python execution Parametric studies Abaqus documentation Licensing utilities ASCII translation of results (.fil) files Joining results (.fil) files Querying the keyword/problem database Fetching sample input files Making user-defined executables and subroutines Output database upgrade utility SIM database utilities Translating ODB output database files to SIM format Generating output database reports Joining output database (.odb) files from restarted analyses Combining output from substructures Recovering results from a substructure Combining data from multiple output databases Network output database file connector Mapping thermal and magnetic loads Element matrix assembly utility Translating Nastran bulk data files to Abaqus input files Translating Abaqus files to Nastran bulk data files Translating ANSYS input files to partial Abaqus input files Translating PAM-CRASH input files to partial Abaqus input files Translating RADIOSS input files to partial Abaqus input files Translating Abaqus output database files to Nastran Output2 results files Translating LS-DYNA data files to Abaqus input files Exchanging Abaqus data with ZAERO Translating an Abaqus substructure to an MSC.Adams flexible body Translating an Abaqus substructure to a Simpack flexible body Translating an Abaqus substructure to an EXCITE flexible body Translating Moldflow data to Abaqus input files Encrypting and decrypting Abaqus input data Job execution control Hardware system verification process