Company Filing History:
Years Active: 2013-2015
Title: Xupei Liang: Innovator in High-Availability Systems
Introduction
Xupei Liang is a notable inventor based in San Jose, CA. He has made significant contributions to the field of high-availability systems, holding a total of 3 patents. His work focuses on enhancing system reliability and efficiency through innovative techniques.
Latest Patents
One of Xupei Liang's latest patents is titled "Achieving ultra-high availability using a single CPU." This invention outlines techniques for achieving high availability using a single processor in a multi-core system. The system is designed to configure at least two partitions, with one operating in active mode while the other remains in standby mode. This configuration allows a single processor to provide active-standby functionality, thereby improving the overall availability of the system.
Another significant patent is "Creation and deletion of logical ports in a logical switch." This invention describes a Layer network switch that can be partitioned into multiple switch fabrics. The single-chassis switch can be divided into several logical switches, each associated with a virtual fabric. These logical switches function as complete and self-contained entities, enhancing the flexibility and efficiency of network management.
Career Highlights
Xupei Liang is currently employed at Brocade Communications Systems, Inc., where he continues to innovate in the field of networking and system architecture. His work has been instrumental in developing technologies that improve system performance and reliability.
Collaborations
Xupei Liang has collaborated with notable colleagues such as Vineet M Abraham and Bill Ying Chin. These partnerships have contributed to the advancement of their shared goals in technology and innovation.
Conclusion
Xupei Liang's contributions to high-availability systems and networking technologies demonstrate his commitment to innovation. His patents reflect a deep understanding of system architecture and a drive to enhance the reliability of modern computing systems.