Thomas Hugh Shippey

Title: Thomas Hugh Shippey: Innovator in Non-Volatile Memory Technologies

Introduction

Thomas Hugh Shippey is a notable inventor based in Edinburgh, GB. He has made significant contributions to the field of non-volatile memory technologies, holding a total of three patents. His work focuses on improving data storage methods and enhancing the efficiency of memory systems.

Latest Patents

One of Shippey's latest patents is the "QLC programming method with staging of fine data." This method and system aim to improve foggy-fine programming by allowing data to be written to SLC memory. The data can then be decoded and written to MLC memory in both foggy and finely written formats. After decoding, the data can be stored in DRAM or SRAM before being written to MLC, enhancing the overall efficiency of data storage.

Another significant patent is "Techniques for performing a non-blocking control sync operation." This apparatus includes a non-volatile memory and a controller that manages data storage. The controller is designed to send first data to the non-volatile memory while concurrently sending second data and updated control information. This non-blocking approach allows for improved data management and storage efficiency.

Career Highlights

Throughout his career, Thomas Hugh Shippey has worked with prominent companies in the technology sector, including Western Digital Technologies, Inc. and SanDisk Technologies Inc. His experience in these organizations has contributed to his expertise in memory technologies and data storage solutions.

Collaborations

Shippey has collaborated with notable professionals in the field, including Sergey Anatolievich Gorobets and Alan David Bennett. These collaborations have likely enriched his work and contributed to the development of innovative solutions in memory technology.

Conclusion

Thomas Hugh Shippey is a distinguished inventor whose work in non-volatile memory technologies has led to significant advancements in data storage methods. His patents reflect a commitment to improving efficiency and functionality in memory systems.