Company Filing History:
Years Active: 2009-2010
Title: Emre Salman: Innovator in Sequential Cell Characterization
Introduction
Emre Salman is a prominent inventor based in Istanbul, Turkey. He has made significant contributions to the field of electronic design automation, particularly in the characterization of sequential cells. With a total of 2 patents, his work has advanced the understanding and application of timing analysis in synchronous circuits.
Latest Patents
Emre Salman's latest patents focus on the characterization of sequential cells using interdependent setup and hold times. This innovative approach produces associated clock-to-Q delay values and identifies setup/hold time pairs that yield a selected clock-to-Q delay value, such as 10% of failure. The identified pairs are stored in a cell library for use in static timing analysis (STA). During STA, the setup and hold skews for each synchronous circuit are compared with a selected setup/hold time pair from the library. If any skews violate the selected pair, the remaining identified pairs are utilized to determine if the synchronous circuit meets established constraints. This process is crucial for identifying the necessary setup and hold times to eliminate any violations.
Career Highlights
Emre Salman is currently employed at Synopsys, Inc., a leading company in electronic design automation. His expertise in sequential cell characterization has positioned him as a key player in the development of advanced timing analysis techniques. His contributions have been instrumental in enhancing the reliability and performance of synchronous circuits.
Collaborations
Emre has collaborated with notable colleagues, including Ali Dasdan and Feroze P Taraporevala. These collaborations have fostered a productive environment for innovation and have led to significant advancements in their field.
Conclusion
Emre Salman is a distinguished inventor whose work in sequential cell characterization has made a lasting impact on electronic design automation. His innovative patents and collaborations continue to shape the future of timing analysis in synchronous circuits.