Company Filing History:
Years Active: 2017-2019
Title: The Innovations of Jeffrey W. Ryden
Introduction
Jeffrey W. Ryden is a notable inventor based in Tustin, California. He has made significant contributions to the field of technology, particularly in memory controller systems. With a total of 3 patents to his name, Ryden continues to push the boundaries of innovation.
Latest Patents
One of his latest patents is titled "Time tracking with patrol scrub." This invention provides a memory controller that includes a memory controller memory, timestamp circuitry, and demarcation voltage (VDM) selection circuitry. The timestamp circuitry captures a current timer index from a timer circuitry in response to a periodic patrol scrub initiation and compares it to a stored timestamp. The VDM selection circuitry updates the state of a sub-block of a memory array if certain conditions are met. Additionally, the timestamp circuitry stores the current timer index as a new timestamp.
Another significant patent is "Determining demarcation voltage via timestamps." In this invention, a count from a global counter is stored to indicate the time of a write operation on a storage element in a non-volatile memory device. When a read operation is requested, a determination is made regarding the demarcation voltage to apply for the read operation based on the progress of the global counter since the write operation.
Career Highlights
Jeffrey W. Ryden is currently employed at Intel Corporation, where he applies his expertise in memory technology. His work has contributed to advancements in non-volatile memory devices, enhancing their efficiency and performance.
Collaborations
Ryden has collaborated with notable colleagues, including Zion S. Kwok and Philip Hillier. Their combined efforts have led to innovative solutions in the field of memory technology.
Conclusion
Jeffrey W. Ryden's contributions to technology through his patents and work at Intel Corporation highlight his role as a significant inventor in the industry. His innovative approaches continue to shape the future of memory systems.