Company Filing History:
Years Active: 2017
Title: Seung-Geun Lee: Innovator in Dynamic Voltage and Frequency Scaling
Introduction
Seung-Geun Lee is a notable inventor based in Hwaseong-si, South Korea. He has made significant contributions to the field of dynamic voltage and frequency scaling, particularly in the context of mobile devices and system on-chip technologies. His innovative approach has the potential to enhance the performance and efficiency of central processing units.
Latest Patents
One of Seung-Geun Lee's key patents is titled "Method of changing an operating frequency for performing a dynamic voltage and frequency scaling, system on-chip, and mobile device having the same." This patent describes a method for adjusting the operating frequency of a central processing unit within a system on-chip. The method involves detecting the previous maximum peak workload of the CPU during a history period of dynamic voltage and frequency scaling. When an increase in operating frequency is determined, the new frequency is calculated based on this previous workload, ensuring optimal performance.
Career Highlights
Seung-Geun Lee is currently employed at Samsung Electronics Co., Ltd., a leading global technology company. His work at Samsung has allowed him to be at the forefront of technological advancements in mobile devices and integrated systems. His expertise in dynamic voltage and frequency scaling is instrumental in developing more efficient and powerful computing solutions.
Collaborations
Throughout his career, Seung-Geun Lee has collaborated with talented colleagues, including Jong-Lae Park and Hwang-Sub Lee. These collaborations have fostered an environment of innovation and creativity, leading to advancements in their respective fields.
Conclusion
Seung-Geun Lee's contributions to the field of dynamic voltage and frequency scaling exemplify the impact of innovative thinking in technology. His patent and work at Samsung Electronics Co., Ltd. highlight his role as a key player in enhancing the efficiency of modern computing systems.