Company Filing History:
Years Active: 1976
Title: John E. Guest: Innovator in Computer System Control Circuits
Introduction
John E. Guest, a notable inventor based in Rochester, MN, has made significant contributions to the field of computer systems. With one patent to his name, he has demonstrated expertise in designing control circuitry that enhances data transfer processes within computer systems.
Latest Patents
John E. Guest's patent, titled "Cycle interleaving during burst mode operation," addresses a crucial aspect of data management in computer systems. This innovative technology allows control circuitry to respond effectively to signals from I/O attachments operating in burst or dedicated data transfer modes. The patent describes a method where the next data storage cycle is assigned to an I/O device capable of operating in a cycle steal mode. This method optimizes data transfer by allowing the system to revert to burst mode after completing a cycle, thus ensuring efficient use of storage cycles based on demand.
Career Highlights
Throughout his career, John E. Guest has been associated with the International Business Machines Corporation (IBM), a company renowned for its pioneering work in technology and computer systems. His role at IBM has allowed him to apply his inventive ideas in practical settings, contributing to advancements in computing and data management.
Collaborations
John has collaborated with esteemed colleagues, including Ronald Eugene Bodner and Thomas L. Crooks. These partnerships highlight the collaborative effort in producing innovative solutions that address recurring challenges in computer system design and operational efficiency.
Conclusion
John E. Guest's work exemplifies the vital role inventors play in advancing technology. His patent on cycle interleaving during burst mode operation not only reflects his innovative thinking but also serves as a foundation for future developments in computer systems. As technology continues to evolve, the solutions devised by inventors like John will remain integral to shaping the way we interact with data and technology.