VPIphotonics Design Suite™
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VPIphotonics Design Suite™ empowers you to define cutting-edge technologies by embedding expert knowledge from component and transmission design tools in an integrated software environment. This environment is uniquely interoperable, allowing co-simulation with many 3rd party software tools such as Python, Matlab, and Keysight Technologies' PathWave Advanced Design System (ADS).
VPIphotonics Design Suite™ includes the following industry-leading software solutions to design, analyze and optimize your ideas to efficiently bring them one step closer to reality:
VPItransmissionMaker™ Optical Systems accelerates the design of new photonic systems and subsystems for short-reach, access, metro and long-haul optical transmission systems and allows technology strategies to be developed.
VPIcomponentMaker™ Photonic Circuits is a simulation and design environment for photonic integrated circuits (PICs). It provides advanced device libraries integrated with a scalable time-and-frequency-domain simulation framework for fast and accurate modeling of large-scale PICs with a mix of photonic, electrical, and optoelectronic devices.
VPIcomponentMaker™ Fiber Optics provides professional means for modeling, optimizing, and designing fiber-based optical devices. Applications include doped-, Raman and parametric amplifiers, continuous-wave and pulsed optical fiber sources, optical signal processing for telecommunication, high-power and ultrafast applications.
VPItoolkit™ PDK is a pluggable toolkit that extends VPIcomponentMaker Photonic Circuits by adding support of the Process Design Kit (PDK) building blocks for various PIC foundries.
VPIlabExpert™ provides excellent potential for reducing efforts in the lab by applying
ready-to-use advanced functionalities and virtualizing lab equipment through the emulation of optical and electrical components.
Supplementing VPIphotonics Design Suite, VPIdeviceDesigner™ is a versatile simulation framework for analyzing and optimizing integrated photonic waveguides and optical fibers. This powerful design tool offers a set of full-vectorial finite-difference mode solvers. They support widely customizable non-uniform meshing and perfectly matched layer absorbing boundaries, allowing the accurate and efficient calculation of guided and leaky modes and their properties.
https://www.vpiphotonics.com/Tools/ComponentDesign/
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