Company Filing History:
Years Active: 2011-2015
Title: Innovations of Robert Alan Bignell
Introduction
Robert Alan Bignell is a notable inventor based in San Jose, CA. He has made significant contributions to the field of computer systems, particularly in power management and resource allocation. With a total of 2 patents, Bignell's work has had a substantial impact on enhancing the efficiency of multi-core processors.
Latest Patents
Bignell's latest patents include "Power-gating in a multi-core system without operating system intervention." This innovation aims to preserve power and increase the overall efficiency of the CPU by autonomously cutting power to idle cores without involving the operating system or other cores. The platform idle driver prepares the core and the power gate controller for power gating, ensuring that power is only restored when necessary.
Another significant patent is the "Cross bar multipath resource controller system and method." This system allows multiple processors in a computer to access various resources, such as memory or peripherals, without blocking access. Each processor operates on its own bus, enabling simultaneous independent access to different resources, which enhances overall system performance.
Career Highlights
Robert Alan Bignell is currently employed at Nvidia Corporation, a leading company in graphics processing and computing technology. His work at Nvidia has allowed him to focus on innovative solutions that improve the efficiency and performance of computing systems.
Collaborations
Bignell has collaborated with talented individuals such as Jason Seung-Min Kim and Matthew Raymond Longnecker. These collaborations have contributed to the development of cutting-edge technologies in the field of computer systems.
Conclusion
Robert Alan Bignell's contributions to the field of computer systems through his patents and work at Nvidia Corporation highlight his role as an influential inventor. His innovations continue to shape the future of technology and improve the efficiency of computing systems.