Company Filing History:
Years Active: 1995
Title: Ferris T Price: Innovator in Memory Access Control
Introduction
Ferris T Price was a notable inventor known for his contributions to the field of computer architecture and memory management. He resided in Mayer, Minnesota, and held a patent that significantly advanced the way processors access memory in multiprocessor systems. His work has had a lasting impact on the efficiency and performance of computing systems.
Latest Patents
Ferris T Price was granted a patent for an "Apparatus and method for controlling exclusive access to portions of addressable memory." This invention provides a method and apparatus for granting exclusive access to a selected portion of addressable memory to a requesting processor in a large-scale multiprocessor system. The patent outlines a process where an instruction processor, equipped with a store-through operand cache, executes instructions requiring exclusive access to shared memory addresses. The system ensures that if a requested address is not in the local cache, a lock and read request is sent to the storage controller. The process includes mechanisms for handling lock contention among multiple processors, utilizing a round-robin priority scheme.
Career Highlights
Ferris T Price worked at Unisys Corporation, where he applied his expertise in computer systems and memory management. His innovative approach to memory access control has been instrumental in enhancing the performance of multiprocessor systems. His contributions have been recognized within the industry, showcasing his commitment to advancing technology.
Collaborations
Throughout his career, Ferris collaborated with notable colleagues, including Kenichi Tsuchiva and Glen R Kregness. These collaborations contributed to the development of innovative solutions in the field of computer architecture.
Conclusion
Ferris T Price's legacy as an inventor is marked by his significant contributions to memory access control in computing systems. His patent continues to influence the design and functionality of modern multiprocessor architectures.