APDL

GPTKB entity

Predicate	Object
gptkbp:instance_of	gptkb:C_programming_language
gptkbp:allows	scripting of ANSYS commands
gptkbp:can_be_used_in	structural analysis thermal analysis electromagnetic analysis fluid dynamics analysis
gptkbp:developed_by	gptkb:ANSYS,_Inc.
gptkbp:enables	automation of simulation tasks customization of simulations
gptkbp:facilitates	post-processing of results
gptkbp:features	conditional statements custom functions array handling looping constructs
gptkbp:has_function	gptkb:C_programming_language gptkb:Fortran
gptkbp:has_version	gptkb:APDL_18.0 gptkb:APDL_19.0 gptkb:APDL_20.0 gptkb:APDL_21.0 gptkb:APDL_22.0 gptkb:APDL_23.0
https://www.w3.org/2000/01/rdf-schema#label	APDL
gptkbp:is_available_on	gptkb:Linux gptkb:mac_OS gptkb:Windows
gptkbp:is_compatible_with	gptkb:ANSYS_Fluent gptkb:ANSYS_Mechanical gptkb:ANSYS_Workbench
gptkbp:is_documented_in	ANSYS documentation
gptkbp:is_known_for	gptkb:power efficiency flexibility robustness
gptkbp:is_often_used_in	gptkb:engineers gptkb:civil_aviation gptkb:automotive_industry electrical engineering mechanical engineering
gptkbp:is_part_of	gptkb:ANSYS_software_suite
gptkbp:is_taught_in	engineering courses
gptkbp:is_used_by	gptkb:engineers gptkb:students gptkb:researchers
gptkbp:provides	control over mesh generation
gptkbp:supports	parametric modeling user-defined materials user-defined boundary conditions user-defined loads
gptkbp:used_for	finite element analysis