Company Filing History:
Years Active: 2002-2004
Title: Innovations of Timothy S. McCann
Introduction
Timothy S. McCann is a notable inventor based in Altoona, WI (US). He has made significant contributions to the field of computing, holding a total of 2 patents. His work focuses on modular computing architectures and systems that enhance the efficiency and functionality of computer modules.
Latest Patents
One of McCann's latest patents is titled "Modular computing architecture having common communication interface." This invention describes a distributed, shared memory computer architecture organized into functionally independent processing nodes operating in a global, shared address space. Each node is equipped with local processors and memory, along with a common communication interface that facilitates communication between modules via a message protocol. This innovative interface allows for the incremental addition and swapping of nodes without disrupting the overall computing resources of the system.
Another significant patent by McCann is the "Computer module mounting system and method." This patent outlines a rack designed to support a computer module, featuring a grounding element that ensures electrical contact with the module. The design includes a cabling channel and mechanisms for mechanically coupling adjacent racks, enhancing the organization and functionality of computer systems.
Career Highlights
Timothy McCann is currently employed at Silicon Graphics, Incorporated, where he continues to develop innovative computing solutions. His work has contributed to advancements in modular computing, making systems more adaptable and efficient.
Collaborations
McCann has collaborated with notable colleagues such as Steve Dean and Perry D. Franz, further enriching his contributions to the field of computing.
Conclusion
Timothy S. McCann's innovative patents and career at Silicon Graphics, Incorporated highlight his significant impact on the computing industry. His work continues to pave the way for advancements in modular computing architectures.