Company Filing History:
Years Active: 2004
Title: Michael Fu - Innovator in Electronic Circuit Design
Introduction
Michael Fu is a notable inventor based in San Jose, California. He has made significant contributions to the field of electronic circuit design, particularly through his innovative patent. His work focuses on optimizing the automatic placement of integrated circuits, which is crucial for enhancing the efficiency of electronic devices.
Latest Patents
Michael Fu holds a patent titled "Multiple pass optimization for automatic electronic circuit placement." This patent describes a computer-implemented process for the automatic creation of integrated circuit (IC) geometry. The process involves a multiple pass flow that utilizes direct timing-driven placement after an initial non-direct timing-driven placement. The method begins with synthesizing a high-level description of the circuit design, followed by a non-direct timing-driven placement process. After the design is placed, it may be routed or its routability estimated. The design is then modified and resynthesized, with the final placement executed according to a direct timing-driven process. This sequence can be repeated several times to achieve optimal results. Michael Fu has 1 patent to his name.
Career Highlights
Michael Fu is currently employed at Synopsys, Inc., a leading company in electronic design automation. His role involves leveraging his expertise in circuit design to contribute to innovative solutions in the industry. His work has been instrumental in advancing the capabilities of electronic devices.
Collaborations
Michael has collaborated with notable colleagues, including Ross Alexander Donelly and William C Naylor. Their combined efforts in the field of electronic circuit design have led to significant advancements and innovations.
Conclusion
Michael Fu is a distinguished inventor whose work in electronic circuit design has made a lasting impact on the industry. His innovative patent demonstrates his commitment to enhancing the efficiency of integrated circuit placement. His contributions continue to shape the future of electronic design.