Optiwave Optisystem

Historically, OptiSystem focused on system-level. For PIC design, Optiwave offers OptiSPICE, which integrates seamlessly. Users can design the electronic driver circuits in OptiSPICE and the optical system in OptiSystem, enabling true optoelectronic co-simulation.

The cost of tape-out in photonic foundries is high. Time in the lab is expensive. OptiSystem acts as a virtual lab bench. optiwave optisystem

By catching design flaws early—such as underestimating nonlinear penalties in a dispersive fiber or misjudging the bandwidth of a receiver—engineers can "fail fast" in software, saving months of development time and thousands of dollars in hardware costs. Historically, OptiSystem focused on system-level

Across industries, Optiwave OptiSystem is solving real-world problems. Here are four dominant use cases. The software uses a GUI-based layout canvas where

OptiSystem employs a frequency-domain and time-domain hybrid simulation approach:

The software uses a GUI-based layout canvas where users drag, drop, and connect over 400+ parameterized components from libraries covering transmitters, receivers, fibers, amplifiers, and electrical circuits.