WASP-NET – Fast, Accurate, Full-Wave EM Design
WASP-NET is a high-performance electromagnetic (EM) simulation and optimization software designed for microwave, RF, antenna, and waveguide applications. It uses a hybrid multi-solver approach combining mode-matching, finite-element, and method-of-moments techniques to deliver full-wave accuracy with exceptional computational speed. The software supports the modeling of complex 3D structures such as antennas, feed networks, filters, and couplers, enabling precise performance prediction and optimization.
With its large built-in designer database and automated optimization capabilities, WASP-NET allows engineers to explore wide design spaces efficiently and reduce prototyping time. It is widely used in aerospace, defense, communication, and satellite industries for the design of high-frequency systems requiring accuracy, reliability, and fast turnaround.
Accelerate microwave and RF design with hybrid multi-solver technology and pre-optimized templates.
Combines MM, FE, MoM, and DDM methods for high accuracy and flexibility.
Rapid iterations enable broad design space exploration in short times.
Supports antennas, arrays, feed networks, and complex waveguide components.
500+ pre-optimized templates for fast start-up and reduced design time.
Specialized tools for waveguides, antenna feed networks, and array optimization.
Deliver high-performance microwave and RF solutions across industries and defense systems.
Design and optimize filters, couplers, diplexers, OMTs, polarizers, and circulators.
Develop horn, lens, reflector, and array antennas with integrated feed networks.
Analyze infinite (periodic) and finite arrays using Floquet mode and domain-decomposition methods.
Accelerate full-wave optimization and reduce time-to-market.
Optimize complex passive and active EM components for demanding environments.