By Wenbin Yu

Purdue University

SwiftComp with a GUI developed based on Gmsh and structural solver provided by Calculix. Please download ABAQUS-SwiftComp GUI and ANSYS-SwiftComp GUI.

Launch Tool

This tool version is unpublished and cannot be run. If you would like to have this version staged, you can put a request through HUB Support.

Archive Version 1.2.4
Published on 10 Jun 2016
Latest version: 2.0.0. All versions

This tool is closed source.



Published on


SwiftComp™ provides an efficient and accurate computational tool for modeling composite materials and structures. It can be used either independently as a tool for virtual testing of composites or as a plugin to power conventional FEA codes with high-fidelity multiscale modeling for composites. Based on the Mechanics of Structure Genome, SwiftComp enables engineers to model composites as black aluminum, capturing details as needed and affordable. This saves orders of magnitude in computing time and resources without sacrificing accuracy, while enabling engineers to tackle complex problems impossible with other tools. 

The user manuals and various tutorials can be found in the supporting documents. If you want a quick start, you can follow a short YouTube video

If you feel the gmsh interface is not convenient for you to use, feel free to download the ABAQUS-SwiftComp GUI, and ANSYS-SwiftComp GUI. 

If you feel the cloud version is not convenient for you, you can download the gmsh/calculix  source codes and executables in the supporting document. 


  • Virtual testing of composites
    • Mechanical properties: elastic constants, static strength
    • Conductivities, dielectric, magnetic, and diffusive properties
    • Coefficients of thermal expansion and specific heat
    • Electromagnetic properties
  • Multiscale modeling of composites  
    • 3D composite structures: binary composites, fiber reinforced composites, particle reinforced composites, textile composites, short fiber composites, porous materials, foams, and other heterogeneous materials
    • Composite plates/shells: laminates, stiffened panels, corrugated structures, perforated structures, sandwich structures, unitized structures, and more
    • Composite beams: helicopter rotor blades, wind turbine blades, high-aspect wings, golf clubs, fishing rod, and other slender composites structures

Cite this work

Researchers should cite this work as follows:

  • Wenbin Yu (2020), "SwiftComp," https://cdmhub.org/resources/scstandard.

    BibTex | EndNote