COMSOL Multiphysics Finite Element Analysis FEMLAB MATLAB SIMULINK programming and training

	COMSOL Multiphysics™		COMSOL Script™
	A finite-element based program for the modeling and simulation of any physics-based system or component. A particular strength is its ability to account for multiphysics phenomena.		An interactive script environment to interface and simulate COMSOL Multiphysics models. Includes built-in computing and visualization tools.
	AC/DC Module		COMSOL Reaction Engineering Lab®
	Simulates electrical components and devices that depend on electrostatics, magnetostatics, and electromagnetic quasi-statics applications, particularly coupled to other physics. Consists of specific interfaces for rotating machinery applications and SPICE circuit co-simulation.		Optimizes reaction-kinetics modeling through direct simulations, comparison with experimental data and collaboration with COMSOL Script and its product line. With built-in material and thermodynamic libraries, it pre-processes mass and energy balances for export to the Chemical Engineering Module.
	Acoustics Module		Optimisation Lab
	Contains built-in application modes and boundary settings for the modeling of acoustic wave propagation in solids and stationary fluids. Also models aeroacoustic applications in moving fluids.		State-of-the-art techniques for optimising constrained linear, quadratic and nonlinear objective functions and least-squares problems. Fully integrated with the COMSOL Script product line, it also optimizes models from COMSOL Multiphysics and its modules.
	CAD Import Module		Signals & Systems Lab
	Facilitates the reading of most industry-standard CAD formats. Includes add-on packages that support the file formats for specific CAD program geometry kernels. Also features a live bi-directional interface to SolidWorks®.		Supports signal processing, system identification and simulation, and design and analysis of control systems. Incorporates specific interfaces for spectral analysis, estimation of probability density functions and simulation of linear time-invariant systems.
	Chemical Engineering Module
	Analyzes CFD, and mass and energy balances coupled to chemical reaction kinetics. Incorporates a plethora of application modes for the field of transport phenomena including ionic transport and multicomponent diffusion.
	Earth Science Module
	Models single and coupled processes for geologic and environmental phenomena particularly based around sub-surface flow. Ideal for porous media flow coupled to other physics such as poroelasticity applications.
	Heat Transfer Module
	Consists of application modes for the analysis of heat transfer by conduction, convection, and radiation. Specific for industrial applications such as electronics cooling and process engineering.
	Material Library
	Simplifies the accurate specification of properties for more than 2500 materials. For each, it supplies property functions for as many as 24 key material properties.
	MEMS Module
	Represents coupled processes in micro-electro-mechanical and microfluidic devices. Incorporates specific multiphysics couplings for applications such as electroosmotic flow, film damping, piezoelectricity and fluid-structure interaction.
	RF Module
	Characterizes electromagnetic fields, currents, and waves for RF, microwave, optical and other high frequency devices. Allows for extensive postprocessing such as S-parameter computations and far-field analyses.
	Structural Mechanics Module
	Performs classical stress-strain analyses with full multiphysics capabilities. Comprises nonlinear material models, large deformation and contact abilities; all able to be freely coupled to other physics.