Right Results.
Right Away.

Unifying both composite micromechanical and structural modeling.

Efficient. Accurate. Versatile.

Model composites as easily as metals through a revolutionary approach to the early stage simulation of 1D, 2D, and 3D composites. SwiftComp enables an unprecedented combination of efficiency and accuracy in multiphysics modeling. Users are able to design earlier, get to market more quickly, and handle more complex problems than ever before. Analysis time is typically reduced from several hours to just seconds with 3D FEA-level accuracy (on minimal computing power).

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Unifying composite micromechanical and structural modeling

SwiftComp is a general-purpose multiscale constitutive modeling code for unified modeling of composites beam, plates/shells, or 3D structures. It can quickly and easily calculate all the effective properties for a wide variety of composites, computing the best structural model for use in macroscopic structural analysis, as well as dehomogenization.



VABS is a popular general-purpose cross-sectional analysis tool for quickly and easily computing beam properties and recovering 3D fields of composite beams, including helicopter and wind turbine blades. It is the only tool capable of rigorously decoupling an original 3D slender solid with complex microstructure into a simple engineering beam model.

Right Results. Right Away.

Even for complex composites, AnalySwift’s uniquely powerful approach delivers the accuracy of detailed 3D FEA at the efficiency of simple engineering models, reducing early stage analysis time from hours to seconds.




300x Faster

than 3D FEA for realistic rotor blade

2,000x Faster

than 3D FEA for 4 layer cross-ply laminate


AnalySwift products for efficient, high-fidelity composite modeling enable solutions in an wide variety of industries. In addition to traditionally composite-heavy industries, applications are also found in life sciences and other industries exploring complex heterogeneous materials and structures. Please contact us today for a free trial version of SwiftComp or VABS.


AnalySwift’s roots are in the aerospace industry, where its tools have been used for composite beams (helicopter rotor blades, propellers, high aspect ratio wings, wing section design), plates/shells, and 3D structures.

Wind Energy

Used for several years in the wind turbine industry, VABS delivers rapid, rigorous results when modeling wind turbine blades. SwiftComp provides additional solutions for plates/shells, and 3D structures manufactured from composites.


As the automobile industry adopts a higher use of composites, opportunities increase to leverage SwiftComp and VABS to model a wide variety of structures, including beams, plates, shells, and complex 3D structures.


Harness the full potential of composites in your design and analysis using SwiftComp and VABS for marine applications, while enabling design earlier in the process so you can get to market more quickly and with higher confidence.


AnalySwift’s tools enable virtual testing and multiscale modeling of composites materials and structures for numerous applications in the defense industry, facilitating reduced costs, shorter design cycle, and handling of complex problems.

Sporting Goods

Be it golf clubs, fishing rods, or complex 3D structures made from composites, SwiftComp and VABS deliver FEA-quality results orders of magnitude more quickly, increasing confidence in your design and analysis.


AnalySwift’s software handles a wide variety of 1D, 2D, and 3D composite structures, enabling the virtual testing of composites for mechanical and multifunctional properties.


3D composite structures

  • Binary composites
  • Fiber reinforced composites
  • Particle reinforced composites
  • Textile composites
  • Short fiber composites
  • Porous materials
  • Foams
  • Other heterogeneous materials

2D Composite plates/shells

  • Laminates
  • Stiffened panels
  • Corrugated structures
  • Perforated structures
  • Sandwich structures
  • Unitized structures
  • And more

1D Composite beams

  • Helicopter rotor blades
  • Wind turbine blades
  • Propellers
  • High-aspect wings
  • Golf clubs
  • Fishing rod
  • And other slender composites structures


Mechanical properties

  • Elastic constants
  • Static strength

Multiphysical properties

  • Conductivities
  • Dielectric
  • Magnetic
  • Diffusive properties
  • Coefficients of thermal expansion and specific heat
  • Electromagnetic properties


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