Company Filing History:
Years Active: 2023-2024
Title: Innovations of Sandeep Miryala
Introduction
Sandeep Miryala is an accomplished inventor based in Sound Beach, NY (US). He has made significant contributions to the field of semiconductor design, particularly in developing systems that enhance data integrity in storage elements.
Latest Patents
Sandeep holds two patents, with his latest invention being a soft error-mitigating semiconductor design system and associated methods. This innovative system tailors circuit design steps to mitigate the corruption of data in storage elements, such as flip flops, due to Single Events Effects (SEEs). The design automatically maps required storage elements to triplicated redundant nodes controlled by a voting element that enforces majority-voting logic for fault-free output, known as Triple Modular Redundancy (TMR). Additionally, the system optimally positions storage elements to comply with SEE-tolerant spacing constraints. The inclusion of clock delay insertion, whether through a single global clock or clock triplication, introduces useful skew that protects against glitch propagation. The resultant layout generated from the TMR configuration alleviates constraints for register transfer level (RTL) engineers, as automation simplifies the introduction of TMR storage registers, memory element spacing, and clock delay/triplication with minimal designer input.
Career Highlights
Sandeep is currently employed at Fermi Research Alliance, LLC, where he continues to innovate in semiconductor design. His work focuses on creating robust systems that enhance the reliability of electronic devices in the face of potential data corruption.
Collaborations
Some of Sandeep's notable coworkers include James Richard Hoff and Grzegorz W Deptuch, who contribute to the collaborative environment that fosters innovation at Fermi Research Alliance.
Conclusion
Sandeep Miryala's contributions to semiconductor design exemplify the importance of innovation in enhancing data integrity and reliability in electronic systems. His work continues to influence the field significantly.