Company Filing History:
Years Active: 2007-2008
Title: Walt G Jones - Innovator in Power Management Technologies
Introduction
Walt G Jones is a notable inventor based in Redmond, WA (US). He has made significant contributions to the field of power management through his innovative inventions. With a total of 2 patents, Jones has focused on developing systems and methods that enhance the efficiency of state machines.
Latest Patents
Jones's latest patents include "Systems and methods that facilitate state machine power and wake state management." This invention relates to managing a state machine's wake state to facilitate power management. The system comprises a state manager that receives signals transmitted to a state machine in a lower power state. The state manager interprets the signal and determines if a low power coprocessor can respond, allowing the state machine to remain in a lower power state while still maintaining timely responses.
Another significant patent is "Waking a link layer based on data contained in a network packet." This invention extends to methods and systems for waking a link layer based on data included in a network packet. The receiving computer system parses packet data and compares it to rule data in a physical layer rule register. Based on this comparison, it determines whether to assert a link on signal that wakes the corresponding link layer.
Career Highlights
Walt G Jones is currently employed at Microsoft Technology Licensing, LLC, where he continues to innovate in the field of technology. His work focuses on enhancing power management systems, which are crucial for improving energy efficiency in various applications.
Collaborations
Jones collaborates with Stephen B Powers, contributing to advancements in their shared field of expertise. Their partnership exemplifies the importance of teamwork in driving innovation.
Conclusion
Walt G Jones is a distinguished inventor whose work in power management technologies has made a significant impact. His patents reflect a commitment to improving energy efficiency and responsiveness in state machines.