Company Filing History:
Years Active: 1994
Title: The Innovations of Robert R. Spiwak
Introduction
Robert R. Spiwak is a notable inventor based in Basking Ridge, NJ (US). He has made significant contributions to the field of microprocessors, particularly with his innovative designs that enhance processing capabilities. His work at AT&T Bell Laboratories has led to advancements that are crucial in the realm of computing.
Latest Patents
Robert R. Spiwak holds a patent for a "Three-state driver with feedback-controlled switching." This invention involves a processor specially adapted for use as a coprocessor. The microprocessor is designed with a master-slave pin that determines its operation as either a bus master or a bus slave. The output pins feature three-state bus drivers that utilize feedback to ensure that signals are inactive before the driver is turned off. The microprocessor's instructions allow for the specification of internal registers as sources and destinations, accommodating data sizes from bytes to 24-bit pointers. Additionally, the design includes an instruction pipeline that minimizes stalls through a unique MOVE instruction.
Career Highlights
Throughout his career, Robert R. Spiwak has been associated with AT&T Bell Laboratories, where he has contributed to various projects that push the boundaries of microprocessor technology. His innovative approach has led to the development of efficient processing systems that are widely recognized in the industry.
Collaborations
Robert has worked alongside esteemed colleagues such as Robert C. Fairfield and Akkas T. Sufi. Their collaborative efforts have further advanced the research and development of microprocessor technologies.
Conclusion
Robert R. Spiwak's contributions to the field of microprocessors exemplify the spirit of innovation and creativity. His patent for the three-state driver with feedback-controlled switching showcases his ability to enhance processing capabilities in computing. His work continues to influence the industry and inspire future advancements.