Insure all LyteLoop storage solution implementations can be presented to data center managers and technical leads in an industry standard format easing their understanding and acceptance.
The Error Correction Lead will use a combination of standard and custom signal processing techniques along with data encoding to create a system that rapidly and efficiently detects and corrects errors for our data-in-motion solution.
Primary goal will be to architect, design, simulate and test LyteLoop’s distributed automated constellation management software – call the SSOC (Space-based Self-Organizing Constellation).
The focus of the technology deployment engineering team will provide oversight and technical direction to support technology transition from breadboard/brassboard systems and subsystems to full scale deployable systems and subsystems that can be integrated to support various customer missions and use cases.
Primary Goal: To insure all LyteLoop storage solution implementations can be presented to data center managers and technical leads in an industry standard format easing their understanding and acceptance.
Research Scientist to focus primarily on Energy-Efficient Optical Solutions desiging and implementing transcievers, frequency combs nonlinear optics and modeling modulators
Research Scientist focusing primarily on Optical Regeneration Solutions working in nonlinear optics, optical amplification, optical transcievers and other optics.
Simulate, design, and plan the deployment of all LyteLoop constellations
To develop and execute a plan that will result in the implementation of functional LyteLoop sub-systems using photonic on chip technology.
Design and research Optical Processing Devices for high data rate telecommunications