Company Filing History:
Years Active: 2018
Title: Innovator Spotlight: Bharath Krishnan
Introduction
Bharath Krishnan, a talented inventor based in Santa Clara, California, has made a significant contribution to the field of computer architecture. With one patent to his name, he showcases the innovative spirit and technical expertise that are hallmarks of leading engineers at cutting-edge technology companies.
Latest Patents
Bharath's notable patent is titled "Virtual address based memory reordering." This invention presents a method for detecting an instruction ordering violation in a CPU. The unique approach involves receiving a reordered stream of instructions and utilizing virtual addresses to detect potential ordering violations. The method also includes transferring results from a load store buffer into a cache while using physical addresses for further verification. Upon the detection of any ordering violation, a recovery process is initiated, which enhances the efficiency and reliability of CPU operations.
Career Highlights
Bharath is currently an engaged member of the team at Nvidia Corporation, a renowned leader in graphics processing unit (GPU) technologies. His work at Nvidia reflects his commitment to advancing computational technologies and improving the functionality of CPUs in modern computing environments.
Collaborations
During his career, Bharath has had the opportunity to work alongside talented coworkers such as Guillermo Juan Rozas and James Van Zoeren. This collaborative environment fosters innovation and drives the development of advanced solutions in the rapidly evolving tech space.
Conclusion
Bharath Krishnan exemplifies the innovative spirit that drives advancements in technology today. His patent for virtual address-based memory reordering highlights critical improvements in CPU operation, showcasing his ability to think creatively and solve complex problems. As he continues to collaborate with other skilled professionals at Nvidia Corporation, the potential for future inventions remains vast, promising further contributions to the field of computer architecture.