Company Filing History:
Years Active: 2002
Title: The Innovations of Scott McLoughlin
Introduction
Scott McLoughlin is an accomplished inventor based in Washington, DC. He holds a patent that demonstrates his expertise in the field of distributed computing, specifically focusing on utilizing idle computational power across networked systems. His innovative contributions pave the way for more efficient and powerful computing solutions.
Latest Patents
McLoughlin's notable patent is titled "System and method for the establishment and the utilization of networked idle computational processing power." This invention introduces a distributed computing platform that leverages the idle processing power of a multitude of provider computers. The system consists of a networked server that collects tasks from client computers, schedules these tasks, distributes them to the provider computers, and ultimately collects and returns the results to the clients. Additionally, a client API is utilized to form tasks and gather results, while a compute engine operates on the provider computers to facilitate communication with the server and execute tasks efficiently.
Career Highlights
Currently, Scott McLoughlin is a key player at Parabon Computation, Inc., where he continues to push the boundaries of technological innovation. His experience and insights contribute significantly to the company's focus on harnessing unused computational resources, leading to breakthroughs in various applications.
Collaborations
Throughout his career, McLoughlin has worked alongside talented individuals such as Steven Armentrout and James O'Connor. Their collaboration has fostered an environment of innovation, allowing them to tackle complex problems with creative solutions.
Conclusion
Scott McLoughlin's contributions to the field of computing exemplify the impact of innovative thought and systematic implementation. His patent reflects a commitment to enhancing technology through efficient use of resources, and his work at Parabon Computation, Inc. continues to shape the future of distributed computing.