Company Filing History:
Years Active: 2018-2019
Title: **Innovative Contributions of Andrew White in Network-on-Chip Architectures**
Introduction
Andrew White, based in Austin, TX, is an accomplished inventor known for his significant contributions to the field of network-on-chip architectures. With a total of four patents to his name, White’s work focuses on enhancing data communication efficiencies within multi-processor systems.
Latest Patents
White’s most recent patents emphasize novel techniques for distributed data handling. One of his notable patents, titled "Distributed contiguous reads in a network on a chip architecture," describes systems and techniques for efficient data distribution that eliminates the need for shared pointers. This innovative approach allows computing resources to fetch data packets from a specially maintained memory region, streamlining the read operations and enhancing overall system performance.
Additionally, his patent for a "DMA engine for transferring data in a network-on-chip processor" introduces a multiprocessor architecture that utilizes direct memory access (DMA) processors. These DMA processors preemptively deliver data to processor cores, minimizing stalls and improving processing speed by ensuring that the necessary data is readily available.
Career Highlights
Throughout his career, Andrew White has made impactful strides in technology through his work with companies such as Knuedge, Inc. and Friday Harbor LLC. His innovative mindset and commitment to addressing complex problems in computer architecture have positioned him as a thought leader in the industry.
Collaborations
White has collaborated with talented individuals throughout his career, including notable coworkers such as Douglas B Meyer and Jerome Vincent Coffin. These partnerships have likely contributed to the success of his innovative projects and have fostered a collaborative environment that encourages creativity and technical advancements.
Conclusion
Andrew White's inventions represent a significant advancement in network-on-chip technologies, addressing both efficiency and performance challenges in modern computing. His ongoing contributions continue to shape the future of multi-processor architectures, demonstrating the vital role of innovation in the tech industry.