Company Filing History:
Years Active: 2011-2012
Title: Joseph Khatami: Innovator in Memory Device Technology
Introduction
Joseph Khatami is a notable inventor based in Austin, TX (US), recognized for his contributions to memory device technology. He holds 2 patents that showcase his innovative approach to enhancing data transfer and access in electronic memory systems.
Latest Patents
Khatami's latest patents include "Command queuing for next operations of memory devices." This patent presents systems and methods that facilitate transferring data between a processor component and memory components. A transfer controller component is designed to control data transfers by receiving respective subsets of data from memory components and arranging them based on a desired predefined data order. The processor generates a transfer map that aids in organizing data efficiently. Each memory component operates independently, servicing commands in its queue and transferring data to the transfer controller for organized processing.
Another significant patent is "Physical block addressing of electronic memory devices." This invention focuses on accessing data to and from memory with reduced access times. By employing physical block addressing instead of logical block addressing, the need for translation between logical and physical addresses is minimized. This method enhances efficiency, especially under asymmetric data access patterns, while still providing legacy support for backward compatibility.
Career Highlights
Joseph Khatami is currently employed at Spansion LLC, where he continues to develop innovative solutions in memory technology. His work has significantly impacted the efficiency of data handling in electronic devices.
Collaborations
Khatami has collaborated with notable colleagues, including Walter Allen and Sunil Atri, contributing to advancements in the field of memory devices.
Conclusion
Joseph Khatami's innovative patents and contributions to memory device technology highlight his role as a key inventor in this field. His work continues to influence the efficiency of data transfer and access in electronic systems.