Company Filing History:
Years Active: 2021-2025
Title: The Innovations of Matthew A Olson
Introduction
Matthew A Olson is a notable inventor based in Redmond, WA, who has made significant contributions to the field of technology. He holds a total of four patents, showcasing his innovative spirit and technical expertise. His work primarily focuses on enhancing communication systems, particularly through the development of scalable solutions.
Latest Patents
One of Olson's latest patents is titled "Scalable sockets for QUIC." This invention presents a system that utilizes scalable sockets to support User Datagram Protocol (UDP) connections. The system identifies multiple UDP connections, allowing several remote clients to connect to corresponding UDP connections. Each UDP socket is linked to a specific UDP connection, enabling efficient network stack lookups for UDP packets in network traffic. The invention buffers UDP packets with both send and receive buffers, enhancing communication efficiency across multiple UDP connections. This innovative approach significantly improves scalability and operational efficiency.
Career Highlights
Matthew A Olson is currently employed at Microsoft Technology Licensing, LLC, where he continues to push the boundaries of technology through his inventive work. His role at Microsoft allows him to collaborate with other talented professionals and contribute to cutting-edge projects that shape the future of communication technology.
Collaborations
Olson has worked alongside notable colleagues such as Praveen Balasubramanian and Nicholas A Banks. Their collaborative efforts have likely played a role in the successful development of innovative technologies within their field.
Conclusion
Matthew A Olson's contributions to technology through his patents and work at Microsoft Technology Licensing, LLC highlight his role as a significant inventor in the industry. His innovative solutions, particularly in scalable communication systems, demonstrate his commitment to advancing technology and improving efficiency.