Radar

Today's most advanced radar technologies include space-time adaptive processing (STAP) solutions that filter interference and jamming to reveal targets, and synthetic aperture radar (SAR) systems that create images of the ground from moving aerial or space-borne platforms.

These solutions provide rich information, but require exceptional computational power to execute their sophisticated processing algorithms. SAR is critical for many tactical operations such as weapon targeting, and formation of a SAR image can require billions of arithmetic operations.

Epsilon Embedded Computing is a pioneer and the worldwide leader in producing real-time multicomputing systems that satisfy the most demanding radar signal processing challenges, including SAR.

Sonar

Sonar systems use acoustic energy to detect objects of interest in water, such as submarines, surface ships, torpedoes, mines, or features of ocean topography.

The broad array of sonar missions and platforms results in a wide range of computational requirements, from high-frequency beamforming to low-frequency adaptive processing and automated detection.

Epsilon Embedded Computing has provided the sonar-processing computers for sonar platforms in submarines, ships, airplanes, and shore installations over many generations of computer technologies.

We remain on the cutting edge today with high-performance, cost-effective solutions that anticipate your needs well into the future.