Company Filing History:
Years Active: 2002-2008
Title: Rajesh Kota: Innovator in Multithreaded Processor Technology
Introduction
Rajesh Kota is a prominent inventor based in Aloha, Oregon, known for his significant contributions to multithreaded processor technology. With a total of 5 patents to his name, Kota has made strides in enhancing the efficiency and functionality of multithreaded processors.
Latest Patents
Kota's latest patents include innovative methods and apparatuses that improve the operation of multithreaded processors. One of his notable inventions is the "Alteration of functional unit partitioning scheme in multithreaded processor based upon thread statuses." This patent describes a method for managing multiple threads within a processor by maintaining a state machine that indicates the status of each thread. The invention allows for dynamic adjustments in the functional unit's partitioning scheme based on the activity status of the threads, optimizing processing efficiency.
Another significant patent is the "Method and apparatus for processing an event occurrence within a multithreaded processor." This system includes a multithreaded processor and a memory that stores multiple threads. It features an event detector that monitors thread activity and clears functional units based on event occurrences, ensuring that processing is streamlined and effective.
Career Highlights
Rajesh Kota is currently employed at Intel Corporation, where he continues to innovate and develop advanced technologies in the field of multithreaded processing. His work has been instrumental in pushing the boundaries of what is possible in processor design and functionality.
Collaborations
Kota has collaborated with notable colleagues, including Dion Rodgers and Darrell D Boggs, who have contributed to his projects and innovations in the field.
Conclusion
Rajesh Kota's contributions to multithreaded processor technology exemplify his dedication to innovation and excellence. His patents reflect a deep understanding of processor dynamics and a commitment to enhancing computational efficiency.