Company Filing History:
Years Active: 2017-2019
Title: Innovations of Ting-Yu Shyu
Introduction
Ting-Yu Shyu is a notable inventor based in Taipei, Taiwan. He has made significant contributions to the field of processing devices and methods, holding two patents that enhance system efficiency and performance.
Latest Patents
One of his latest patents is a "Speculative Lookahead Processing Device and Method." This invention discloses a method to enhance the statistical performance of datapaths. The method involves entering an input signal to multiple datapath units in a round-robin manner, outputting the correct value at the Nth cycle, and acquiring the speculation value at the Mth cycle beforehand to initiate subsequent computations. The invention compares the speculation value with the correct value to determine the success of the speculation, allowing for efficient computation management.
Another significant patent is a "Device for Detecting and Correcting Timing Error and Method for Designing Typical-Case Timing Using the Same." This device includes two datapath units connected with multiplexers and transition detectors. It generates speculation and correct values from input signals, determining the stability of the speculation value. If instability is detected, the device stalls the output for correction, ensuring that the correct value is used, thereby improving the overall efficiency and power of the circuit.
Career Highlights
Ting-Yu Shyu is affiliated with National Chung Cheng University, where he continues to contribute to research and innovation in his field. His work focuses on enhancing the performance of processing devices, which has implications for various technological applications.
Collaborations
Ting-Yu has collaborated with notable colleagues, including Tay-Jyi Lin and Jinn-Shyan Wang, who have contributed to his research endeavors.
Conclusion
Ting-Yu Shyu's innovative patents reflect his commitment to advancing technology in processing devices. His contributions are significant in improving system efficiency and performance in various applications.