Company Filing History:
1 out of 832,880 Years Active: 2002
Title: The Innovative Work of Jason Tzu-Jung Su in Switch Level Simulation
Introduction
Jason Tzu-Jung Su is an accomplished inventor based in Cupertino, California, known for his innovation in the field of switch level simulation. With a focus on enhancing circuit design accuracy and efficiency, he has developed a patented technology that addresses the complexities of cross-coupled devices in circuit simulations.
Latest Patents
Jason holds a patent for a groundbreaking system titled "Switch Level Simulation with Cross-Coupled Devices." This innovative invention includes a netlister, a cross-coupled device detector, a transformer, and a switch level simulator. The system effectively generates a netlist of the circuit design while detecting and transforming cross-coupled devices, thereby emulating a high impedance state that accurately reflects the operation of these devices during simulations. This method minimizes the need for complex behavioral models, leading to significant reductions in both time and engineering resources.
Career Highlights
Throughout his career, Jason has demonstrated a strong commitment to advancing technology in the field of circuit design. His notable invention has made a substantial impact on how engineers approach switch level simulation, ensuring that intricate circuit behavior can be effectively modeled without compromising accuracy or requiring extensive resources.
Collaborations
Jason's work has been enhanced through collaboration with esteemed colleagues such as Howard C. Kirsch and Lidong Chen. These partnerships have fostered an innovative environment where ideas can flourish, leading to the development of solutions that address complex engineering challenges.
Conclusion
Jason Tzu-Jung Su's contributions to the field of switch level simulation represent a significant advancement in circuit design technology. Through his patented system, he has streamlined processes and provided engineers with the tools necessary to create more accurate and efficient simulations. As technology continues to evolve, Jason's work will undoubtedly inspire future innovations in the field.