Company Filing History:
Years Active: 2021
Title: Jiangnan Xia: Innovator in Bit-Flipping Decoding Technology
Introduction
Jiangnan Xia is a notable inventor based in San Jose, CA, who has made significant contributions to the field of non-volatile memory devices. His innovative work focuses on improving the efficiency of bit-flipping decoders used in low-density parity-check codes. With a patent to his name, Xia is recognized for his advancements in this critical area of technology.
Latest Patents
Jiangnan Xia holds a patent titled "Fast-converging bit-flipping decoder for low-density parity-check codes." This patent discloses devices, systems, and methods that enhance the convergence of a bit-flipping decoder in non-volatile memory devices. The method involves receiving a noisy codeword generated based on a parity check matrix of a low-density parity-check code. It includes performing a single decoding iteration on the received noisy codeword, which spans multiple stages. The process entails computing a metric for a single column of the parity check matrix and flipping bits based on a determined threshold, ultimately updating the threshold based on the computed syndrome.
Career Highlights
Jiangnan Xia is currently employed at Skhynix Inc., where he continues to develop innovative solutions in memory technology. His work has positioned him as a key player in the advancement of decoding technologies, contributing to the efficiency and reliability of data transmission.
Collaborations
Throughout his career, Jiangnan Xia has collaborated with talented individuals such as Fan Zhang and Chenrong Xiong. These collaborations have fostered an environment of innovation and have led to significant advancements in their respective fields.
Conclusion
Jiangnan Xia's contributions to the field of bit-flipping decoding technology exemplify the impact of innovative thinking in the realm of non-volatile memory devices. His patent and ongoing work at Skhynix Inc. highlight his commitment to advancing technology and improving data communication methods.