Company Filing History:
Years Active: 2003
Title: Paul De Rocco: Innovator in RAM Data Memory Technology
Introduction
Paul De Rocco is a notable inventor based in Pacific Palisades, California. He has made significant contributions to the field of memory technology, particularly in the development of RAM data arrays. His innovative approach has led to advancements that enhance the performance and efficiency of data memory systems.
Latest Patents
De Rocco holds a patent for a "RAM data array configured to provide data-independent, write cycle coherent current drain." This invention describes an apparatus and method for forming a RAM data memory that generates predictable noise and interference components that are coherent with each write cycle. The design is essentially independent of the data content of the RAM data memory. The RAM data memory consists of multiple cells, each representing a data bit, which can be selectively addressed as memory bytes. Each cell is constructed from two sets of cross-coupled transistors. By setting these transistors to a common voltage level at the start of a write cycle, the associated noise and interference components of the power drain become data independent. This data-independent noise occurs at frequencies at or above the write cycle rate.
Career Highlights
Paul De Rocco is affiliated with the Alfred E. Mann Foundation for Scientific Research, where he continues to work on innovative projects in the field of scientific research and technology. His work has been instrumental in advancing the understanding and capabilities of RAM data memory systems.
Collaborations
De Rocco has collaborated with notable colleagues, including Gregory Jay DelMain and John Charles Gord. These partnerships have contributed to the development of cutting-edge technologies in the field.
Conclusion
Paul De Rocco's contributions to RAM data memory technology exemplify the impact of innovation in the field of electronics. His patent reflects a significant advancement that enhances the efficiency and performance of memory systems. His work continues to influence the landscape of data memory technology.