Location History:
- Hadano, JP (1996)
- Hatano, JP (1999)
Company Filing History:
Years Active: 1996-1999
Title: Hidenori Kosugi: Innovator in Data Processing Systems
Introduction
Hidenori Kosugi is a notable inventor based in Hadano, Japan. He has made significant contributions to the field of data processing systems, holding a total of 2 patents. His work focuses on enhancing communication and processing efficiency within parallel processing systems.
Latest Patents
Kosugi's latest patents include innovative technologies that improve message transferring in parallel processing systems. One patent describes a method for transferring messages in a parallel processor system, where multiple nodes, each with a processor and main storage unit, are interconnected through a network. This system allows user processes to execute under the control of an operating system, facilitating inter-process communications through the network. Reception buffers are strategically managed in the main storage unit, ensuring efficient message storage and retrieval.
Another patent outlines a data processing system that comprises several subsystems connected by buses. Each subsystem includes instruction processors, input/output devices, and main storage devices. The system is designed to optimize access to main storage devices based on address space limits, allowing for seamless communication between subsystems.
Career Highlights
Hidenori Kosugi is currently employed at Hitachi, Ltd., where he continues to develop innovative solutions in data processing. His expertise in parallel processing systems has positioned him as a key contributor to advancements in this technology.
Collaborations
Kosugi has collaborated with notable colleagues, including Takeshi Aimoto and Akira Ishiyama. Their combined efforts have led to significant advancements in the field of data processing.
Conclusion
Hidenori Kosugi's contributions to data processing systems through his patents demonstrate his innovative spirit and technical expertise. His work continues to influence the efficiency of communication in complex processing environments.