Company Filing History:
Years Active: 2002
Title: Innovations of Gottfried Andreas Goldiran
Introduction
Gottfried Andreas Goldiran is a notable inventor based in Böblingen, Germany. He has made significant contributions to the field of computer systems, particularly in the area of scalable shared-memory multi-processor architectures. His innovative ideas have paved the way for advancements in high-performance computing.
Latest Patents
Goldiran holds a patent for a "Scaleable shared-memory multi-processor computer system having repetitive chip structure with efficient busing and coherence controls." This novel structure is designed for a highly scalable high-performance shared-memory computer system that emphasizes simplified manufacturability. The system consists of a repetition of system cells, each containing a processor chip and a memory subset connected by a local memory bus. A unique intra-nodal busing connects each system cell within a node, allowing for flexible memory subset sizes and varying numbers of cells across nodes. The system's architecture ensures that data stored in any memory subset is accessible to processors across the system, with nodal directories managing data coherence automatically.
Career Highlights
Goldiran is currently associated with International Business Machines Corporation (IBM), where he continues to innovate and contribute to cutting-edge technology. His work has been instrumental in developing systems that enhance the efficiency and performance of shared-memory computing.
Collaborations
Throughout his career, Goldiran has collaborated with esteemed colleagues, including Michael Ignatowski and Thomas James Heller, Jr. These partnerships have fostered an environment of innovation and creativity, leading to groundbreaking advancements in computer architecture.
Conclusion
Gottfried Andreas Goldiran's contributions to scalable shared-memory multi-processor systems highlight his role as a leading inventor in the field of computing. His innovative patent and collaborative efforts continue to influence the future of high-performance computer systems.