Company Filing History:
Years Active: 2025
Title: Karthik Bangalore Shamsunder: Innovator in Media Processing Technologies
Introduction
Karthik Bangalore Shamsunder is a notable inventor based in Portland, OR (US). He has made significant contributions to the field of media processing through his innovative patent. His work focuses on optimizing resource allocation for processing jobs, which is crucial in today's data-driven environment.
Latest Patents
Karthik holds a patent titled "Channel fitting for media processing." This patent outlines systems and methods that provide approaches for channel fitting to determine a particular number of resources, such as cores, that may be used for one or more processing jobs for a particular input channel. The patent emphasizes evaluating a given channel to determine performance-affecting parameters. These parameters can be assessed against previously known hardware configurations or a historical heuristic dataset. The invention allows for the selection of a configuration for the channel, where specific cores of a set of resources are assigned to perform operations, such as transcoding. This approach enables efficient resource allocation for different transcoding operations, ensuring predictable performance and high utilization.
Career Highlights
Karthik is currently employed at Amazon Technologies, Inc., where he applies his expertise in media processing technologies. His innovative work has contributed to the advancement of resource management in processing systems, making significant impacts in the industry.
Collaborations
Karthik has collaborated with talented individuals such as Ryan Paul Hegar and Eric Woodruff. These collaborations have fostered a creative environment that encourages innovation and the development of cutting-edge technologies.
Conclusion
Karthik Bangalore Shamsunder is a prominent inventor whose work in media processing has led to significant advancements in resource allocation strategies. His contributions are vital in enhancing the efficiency and performance of processing systems.