About Us
VPIphotonics™ sets the industry standard for end-to-end photonic design automation comprising design, analysis and optimization of components, systems and networks.
We provide professional simulation software supporting requirements of active/passive integrated photonics and fiber optics applications, optical transmission system and network applications, as well as cost-optimized equipment configuration.
Our team of experts provides professional consulting services addressing customer-specific design, analysis and optimization requirements, and delivers training courses on adequate modeling techniques and advanced software capabilities.
VPIphotonics' award-winning off-the-shelf and customized solutions are used extensively in research and development, and by product design and marketing teams at hundreds of corporations worldwide.
Product Showcase
VPIphotonics is offering an online training course on "Design of High Speed Transmission Systems" from 21st until 24th June 2021. This hands-on seminar is intended for beginners and experienced users of VPItransmissionMaker Optical Systems. Register now!
VPIcomponentMaker Photonic Circuits provides a focused modeling and simulation environment for experts in photonic integrated circuit (PIC) design. It provides advanced libraries for modeling PICs comprising a mixture of hundreds of photonic, optoelectronic, and electrical elements. Circuit-level abstracted models facilitate rapid prototyping of complex large-scale structures independently from the dispersed technology process (Indium Phosphide, Silicon, Silicon Nitride, Polymer).
VPIdeviceDesigner is a versatile simulation framework for the analysis and optimization of integrated photonic waveguides, devices, and optical fibers.
This powerful design tool offers a set of full-vectorial finitedifference mode solvers that support widely customizable nonuniform meshing with symmetric and perfectly matched layer absorbing boundaries for simulations of guided modes in straight and bent waveguides and fibers. For simulations of photonic devices, it offers 2D and 3D implementations of the finite-difference frequency-domain beam-propagation method (BPM). VPIdeviceDesigner supports flexible defining of 2D waveguide crosssections and 3D device layouts made of real (dispersive, temperature-dependent, doped, etc) optical materials.
VPItransmissionMaker Optical Systems accelerates the design of new optical transmission systems for shortreach, access, metro and long-haul applications, and allows technology upgrade and component substitution strategies to be developed for existing network plants. It can fully verify link designs to identify cost savings, investigate novel technologies or perform what-if analyses.
Videos