Modeling & Simulation


Modeling & Simulation

Computational Modeling — optimizing designs and predicting performance ahead of physical development


Multi-Physics Modeling and Simulation

Using COMSOL Finite Element Method (FEM) modeling tools and highly parallel multi-core Xeon workstations, Enterprise Sciences is equipped to model, simulate, and evaluate complex problems and design issues with respect to multiple physical disciplines. These may include:


  • Mechanical stresses and deformations
  • Heat transfer and thermal effects
  • Fluid and gas flow dynamics
  • Electric, magnetic, and electromagnetic effects
  • Vacuum and plasma processes

These analyses are coupled so as to effectively capture the complicated interactions between different physical processes and produce the most accurate representation of the studied systems’ integrated performance. We stand ready to work with you to simulate whole systems or specific sub-systems with the expert physics analysis and the physical models that are most appropriate to your problem.

Optical System Modeling

Using ZEMAX ™ ray tracing and physical optics modeling tools, Enterprise Sciences can design, model, and characterize optical systems with respect to:


  • Image quality
  • Optical throughput
  • Focusing
  • Abberation analysis
  • Illumination performance
  • Diffraction properties
  • Beam propagation
  • Thermal performance

Systems can be optimized for the use of COTS optical components or designed with custom optics, depending on your needs. Whether your project requires design and optimization of complete optical systems or evaluation of specific optical componenets or sub-systems, our vast experience in optics can speed your progress along the path to a successful implementation.

Custom Scientific and Technical Modeling

Some problems such as signal processing, image processing, and other data processing tasks require the use of more customized analysis with general purpose tools. Enterprise Sciences is experienced in building custom analysis code employing modern technical numerical and symbolic computing languages such as MATLAB, IDL, and MAXIMA. We also work with a broader numerical simulation community to provide advanced hydrodynamic, plasma, and Particle in Cell (PIC) simulation capability for advanced scientific and defense related problems.

Discover the advantages of having our seasoned staff handle your next modeling task by applying our array of tools, so that you do not have to invest in the necessary resources to address each problem you wish to tackle.