David A Gagne

Title: David A Gagne: Innovator in Network Adapter Technology

Introduction

David A Gagne is a notable inventor based in Goffstown, NH (US). He has made significant contributions to the field of network technology, holding 2 patents that showcase his innovative approach to improving network adapters.

Latest Patents

Gagne's latest patents include a "System for using three different methods to report buffer memory" and "Attribute based multiple data structures in host for network received." The first patent focuses on monitoring the data occupancy level of a buffer memory used to store network packets. It describes how a memory controller tracks the number of pages available for incoming data packets and reports this information to the host computer. The system ensures that when the buffer memory lacks sufficient space, incoming packets are discarded, and the count of discarded packets is reported to the host.

The second patent presents a method for transferring packets of information with different attributes from a device interface to dedicated buffers in host memory. This invention utilizes multiple shared data structures in the form of receive rings, which are associated with memory buffers dedicated to specific attribute values. The device interface determines the appropriate receive ring based on the attribute value of the received packet, ensuring efficient data retrieval by the host CPU.

Career Highlights

David A Gagne has worked at Digital Equipment Corporation, where he has applied his expertise in network technology to develop innovative solutions. His work has significantly impacted the efficiency and performance of network adapters.

Collaborations

Some of Gagne's notable coworkers include Satish L Rege and Kadangode K Ramakrishnan, who have collaborated with him on various projects within the field of network technology.

Conclusion

David A Gagne's contributions to network adapter technology through his patents demonstrate his commitment to innovation and improvement in the field. His work continues to influence the development of efficient network systems.