Location History:
- Apalachin, NY (US) (1995)
- Rochester, MN (US) (2002 - 2016)
Company Filing History:
Years Active: 1995-2016
Title: David Lee Dosch: Innovator in Network Technology
Introduction
David Lee Dosch is a prominent inventor based in Rochester, MN (US). He has made significant contributions to the field of network technology, holding a total of 6 patents. His work focuses on improving network session establishment and memory access mapping, showcasing his expertise in complex systems.
Latest Patents
One of his latest patents is titled "Automatic multipath iSCSI session establishment over an arbitrary network topology." This invention provides a method and apparatus for establishing multiple network sessions by receiving network configuration information that describes both the initiator system and the target controller. The system identifies a set of pre-defined rules that govern the establishment of network sessions between initiator ports and target nodes through target ports. This innovation enhances the efficiency of network communications.
Another notable patent is the "Method of mapping multiple address spaces into a single PCI bus." This invention outlines a method for mapping various address spaces into a single bus, facilitating communication between different processor complexes. The process involves shifting original addresses to unique address spaces for each operation, ensuring seamless data transfer across the bus.
Career Highlights
David Lee Dosch is currently employed at International Business Machines Corporation (IBM), where he continues to develop innovative solutions in network technology. His work at IBM has allowed him to collaborate with other talented professionals in the field.
Collaborations
Some of his coworkers include Ellen Marie Bauman and Brian Gerard Holthaus. Their collective expertise contributes to the advancement of technology within the company.
Conclusion
David Lee Dosch is a distinguished inventor whose work in network technology has led to several impactful patents. His contributions continue to shape the future of network communications and memory access systems.