Company Filing History:
Years Active: 2021
Title: The Innovative Mind of Bruce L Jacob
Introduction
Bruce L Jacob is a prominent inventor based in Annapolis, MD (US). He is known for his groundbreaking work in the field of integrated circuit design and memory systems. With a focus on enhancing computing efficiency, Jacob has made significant contributions to the technology landscape.
Latest Patents
Jacob holds a patent for "Integrating a resistive memory system into a multicore CPU die to achieve massive memory parallelism." This innovative patent discloses a monolithic integrated circuit (IC) computing device that features multiple independent process cores and embedded, non-volatile resistive memory serving as system memory. The resistive system memory is fabricated above the substrate, while the logic circuits embodying the process cores are fabricated on the substrate. The design includes access circuitry for operating on the resistive system memory, as well as circuitry for memory controllers, routing devices, and other logic components. This integration allows for large main memory capacities of tens or hundreds of gigabytes (GB) to be operable with many process cores, all on a single die. The close physical proximity between the process cores and main memory facilitates significant memory parallelism, reduces power consumption, and eliminates off-chip main memory access requests.
Career Highlights
Jacob's career is marked by his role at Crossbar, Inc., where he continues to push the boundaries of memory technology. His work has been instrumental in advancing the capabilities of multicore processors and memory systems.
Collaborations
Jacob has collaborated with notable colleagues, including Donald Yeung and Mehdi Asnaashari, contributing to the development of innovative technologies in the field.
Conclusion
Bruce L Jacob's contributions to integrated circuit design and memory systems have made a lasting impact on the technology industry. His innovative patent showcases his commitment to enhancing computing efficiency and performance.