Sid Murthy
About Sid Murthy
Sid Murthy is a Full Stack Principal Software Engineer at Redwire Space, specializing in applications for satellite constellation management. He has extensive experience in software development across various institutions, including Autodesk and the University of Wyoming.
Work at Redwire
Sid Murthy has been employed at Redwire Space as a Full-Stack Principal Software Engineer since 2022. In this role, he focuses on developing applications that facilitate aerospace experts in working with digital twins of satellite constellations. His current position is based in Littleton, Colorado, where he applies his extensive experience in software engineering to advance space technology.
Previous Employment History
Prior to joining Redwire Space, Sid Murthy held various positions in software engineering. He worked at Autodesk from 2013 to 2022, first as a Senior Software Engineer for seven years and then as a Principal Software Engineer for two years. Before Autodesk, he served as a Software Engineer at Firehole Composites for four months in 2012 and as a Web Application Developer at the University of Wyoming for five years from 2007 to 2012. His early career included a role as a Web Academic Applications Developer at George Washington University and as a Software Engineer at Micros Systems.
Education and Expertise
Sid Murthy studied Computer Science at the University of Maryland Baltimore County, where he achieved a Bachelor of Science degree. His educational background has equipped him with the skills necessary to configure, simulate, and visualize large satellite constellations, which are critical in his current role in aerospace technology.
Technical Skills and Contributions
Sid Murthy specializes in full-stack development, focusing on applications that support aerospace professionals in managing digital twins of satellite constellations. His expertise includes configuring and simulating complex satellite systems, which enhances the operational capabilities of aerospace projects. His contributions in this area are significant to the advancement of satellite technology.