Company Filing History:
Years Active: 2012
Title: Michael Stephen Floys: Innovator in Cache-Inhibited Memory Technology
Introduction
Michael Stephen Floys is a notable inventor based in Austin, TX, who has made significant contributions to the field of memory technology. He holds a patent that addresses the challenges of operating cache-inhibited memory mapped commands in multiprocessor environments. His innovative approach has the potential to enhance the efficiency of data access in complex computing systems.
Latest Patents
Floys is the inventor of a patent titled "Apparatus for operating cache-inhibited memory mapped commands to access registers." This invention allows for the execution of cache-inhibited reads or writes to registers, facilitating rapid access to registers both inside and outside the chip that originates the command. By avoiding cumbersome locking of memory locations, his invention streamlines the process and minimizes the risk of collisions. The setting of busy latches at the outset ensures that the requesting core processor is informed when a command is completed and free of errors.
Career Highlights
Michael Stephen Floys is currently employed at International Business Machines Corporation, commonly known as IBM. His work at IBM has allowed him to be at the forefront of technological advancements in memory management and processing efficiency. His contributions have been instrumental in developing solutions that address the complexities of modern computing.
Collaborations
Floys has collaborated with several talented individuals in his field, including James Stephen Fields, Jr. and Paul Frank Lecocq. These collaborations have fostered an environment of innovation and have led to the development of cutting-edge technologies.
Conclusion
Michael Stephen Floys is a distinguished inventor whose work in cache-inhibited memory technology has made a significant impact on the field of computing. His innovative patent and contributions at IBM highlight his commitment to advancing technology and improving data access efficiency.