Company Filing History:
Years Active: 2014-2023
Title: The Innovations of Betty Y. Lau
Introduction
Betty Y. Lau, an accomplished inventor based in Fremont, California, has made significant contributions to the field of integrated circuit design. Known for her forward-thinking approach and innovative inventions, she holds two notable patents that represent her expertise and dedication to advancing technology.
Latest Patents
Among her latest patents is one focused on "Designing Single Event Upset Latches." This patent details an integrated circuit (IC) that comprises an inverter with an input and an output, a clock transmission gate coupled to the inverter's output, and several storage cells. Each storage cell is designed with a configuration that ensures efficient spacing among nodes.
Another significant patent is related to "IR (Voltage) Drop Analysis in Integrated Circuit Timing." This inventive methodology characterizes standard cells while deliberately excluding power parasitic impedances. It extracts these impedances and allows for characterizing the standard cells with these factors included. The methodology generates a set of timing parameters and facilitates the comparison necessary to identify which cells require additional design efforts to enhance the power supply grid.
Career Highlights
Betty has worked with prestigious companies such as Apple Inc. and Xilinx, Inc., where she honed her skills in integrated circuit design and innovation. Her experiences in these organizations have contributed to her depth of knowledge and understanding in the field.
Collaborations
Throughout her career, Betty has collaborated with talented professionals, including Edgardo F. Klass and Anup S. Mehta. These collaborations have fostered creativity and led to groundbreaking developments in the technology sector.
Conclusion
Betty Y. Lau is a prominent figure in the realm of integrated circuits, with her patents underscoring her innovative mindset and technical capabilities. As technology continues to evolve, her contributions will undoubtedly play a crucial role in shaping the future of electronic design.