Company Filing History:
Years Active: 2005-2006
Title: Michael A. Riepe: Innovator in Integrated Circuit Design
Introduction
Michael A. Riepe is a notable inventor based in San Jose, CA, who has made significant contributions to the field of integrated circuit design. With a total of 2 patents, Riepe has developed innovative methods that enhance the efficiency and accuracy of hierarchical design automation systems.
Latest Patents
Riepe's latest patents include a method for representing the design of a sub-module in a hierarchical integrated circuit design and analysis system. This method focuses on modeling integrated circuit designs using a block abstraction that encompasses all necessary database objects, such as cells, nets, wires, vias, and blockages. This innovation aims to achieve precise placement, routing, extraction, simulation, and verification of the block's ancestors within the hierarchy. Another significant patent is a method for generating design constraints for modules in a hierarchical integrated circuit design system. This method involves budgeting timing in a hierarchically decomposed integrated circuit design, optimizing paths through block pins, performing timing analysis, and deriving a timing budget based on generated arrival times at block pins.
Career Highlights
Michael A. Riepe is currently employed at Magma Design Automation, Inc., where he continues to push the boundaries of integrated circuit design. His work has been instrumental in advancing design automation technologies, making him a valuable asset to his company and the industry.
Collaborations
Riepe has collaborated with notable colleagues, including Robert Swanson and Timothy Michael Burks, contributing to a dynamic work environment that fosters innovation and creativity.
Conclusion
Michael A. Riepe's contributions to integrated circuit design through his patents and work at Magma Design Automation, Inc. highlight his role as a key innovator in the field. His methods for enhancing design automation systems are paving the way for future advancements in technology.