Company Filing History:
Years Active: 1983-1984
Title: Horace H Tsiang: Innovator in Data Processing Technology
Introduction
Horace H Tsiang is a notable inventor based in North Andover, MA (US). He has made significant contributions to the field of data processing, holding a total of 2 patents. His work focuses on improving cache memory management and enhancing the efficiency of multitasking data processing machines.
Latest Patents
Tsiang's latest patents include a data processing machine with improved cache memory management. This invention divides the cache operating cycle into two subcycles dedicated to mutually exclusive operations. The first subcycle is for receiving a central processor memory read request, while the second subcycle handles other cache operations. This design allows the central processor to continue reading the cache uninterrupted, even while cache contents are being checked or updated.
Another significant patent is for a computer that features an indexed local RAM to store previously translated addresses. This multitasking data processing machine supports virtual memory and utilizes a T/RAM for efficient address translation. The T/RAM allows for rapid access to previously translated physical addresses, enhancing the overall performance of the machine.
Career Highlights
Horace H Tsiang has worked at Wang Laboratories, Inc., where he has contributed to various innovative projects in data processing technology. His expertise in cache memory management and virtual memory systems has positioned him as a key figure in the advancement of computer technology.
Collaborations
Tsiang has collaborated with Arthur B Barrow, further enhancing the innovative capabilities within his field. Their combined efforts have led to significant advancements in data processing technologies.
Conclusion
Horace H Tsiang's contributions to data processing technology through his patents and work at Wang Laboratories, Inc. highlight his role as an influential inventor. His innovations continue to impact the efficiency and performance of modern computing systems.