Company Filing History:
Years Active: 2013-2015
Title: Mvv Anil Krishna: Innovator in Cache Memory Systems
Introduction
Mvv Anil Krishna is a notable inventor based in Cary, NC (US). He has made significant contributions to the field of computer systems, particularly in cache memory optimization. With a total of 2 patents, his work focuses on enhancing the performance of memory systems.
Latest Patents
One of Mvv Anil Krishna's latest patents is titled "Dynamic index selection in a hardware cache." This invention discloses systems and methods for improving cache memory performance by dynamically selecting an index for caching main memory while an application is running. The memory system includes a cache with a data array, a primary tag array, and at least one secondary tag array. The system evaluates the performance of candidate indices to determine the most effective one for caching data.
Another significant patent is "Dynamic adjustment of read/write ratio of a disk cache." This invention aims to optimize the performance of a split disk cache. It features a primary region with independently adjustable read and write portions, along with smaller sample regions. The system tracks performance metrics and selectively adjusts the read/write ratio based on the performance of the sample regions.
Career Highlights
Mvv Anil Krishna is currently employed at International Business Machines Corporation (IBM). His work at IBM has allowed him to explore innovative solutions in the realm of computer memory systems. His contributions have been instrumental in advancing technology in this area.
Collaborations
Mvv Anil Krishna has collaborated with notable colleagues such as Ganesh Balakrishnan and Gordon Bernard Bell. These collaborations have further enriched his work and contributed to the development of cutting-edge technologies.
Conclusion
Mvv Anil Krishna is a distinguished inventor whose work in cache memory systems has led to significant advancements in computer technology. His innovative patents reflect his commitment to improving system performance and efficiency.