Location History:
- Union City, CA (US) (2004 - 2013)
- San Jose, CA (US) (2014)
Company Filing History:
Years Active: 2004-2014
Title: Earle F. Philhower, III: Innovator in Distributed Direct Memory Access Systems
Introduction
Earle F. Philhower, III, based in Union City, California, is a prominent inventor recognized for his contributions to the field of technology, specifically in memory access systems. With a total of 13 patents to his name, Philhower exemplifies innovation and technical expertise, particularly in the domain of systems on chip (SoC).
Latest Patents
Among his notable inventions, Philhower's latest patent focuses on a "Method and Apparatus for Distributed Direct Memory Access for Systems on Chip." This patent introduces a distributed Direct Memory Access (DMA) approach where DMA controller units are strategically allocated to various functional modules that require direct memory access. These functional modules are connected to a systems bus that facilitates direct memory access to a global buffer memory. The invention utilizes bus arbitrators, which determine which functional modules can access the system bus to perform DMA operations. This method enhances the efficiency and performance of data handling within SoC architectures.
Career Highlights
Earle F. Philhower, III is currently employed by Intel Corporation, a leading technology company renowned for its advancements in semiconductor manufacturing and computing. His career at Intel has been marked by significant contributions to research and development, especially relating to memory access technologies vital for modern computing systems.
Collaborations
Throughout his career, Philhower has collaborated with esteemed colleagues such as Ruban Kanapathippillai and Kumar Ganapathy. Together, they contribute to the innovative projects at Intel Corporation, pushing the boundaries of technology and advancing the capabilities of hardware systems.
Conclusion
Earle F. Philhower, III continues to be a pivotal figure in technology innovation, particularly in the realm of systems on chip designs. His accomplishments are not only a testament to his individual talent but also illustrate the importance of collaboration within the technological field. As he pursues further innovations, his work remains crucial for the future of high-performance computing.