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Reliable Triggered Remote Serial I/O System for High Repetition Rate Accelerators with Pulse-to-Pulse Fast Feedback--NYCB Real-Time Computing, Inc., 18 Meudon Drive, , Lattingtown, NY 11560-1025; 516-759-0707
Dr. Eric J. Siskind, Principal Investigator
Dr. Eric J. Siskind, Business Official
DOE Grant No. DE-FG02-98ER82628
Amount: $600,000
In a high rate linear collider, it is difficult to maintain minimal real-time latency for the acquisition and distribution of the significant data volume required by pulse-to-pulse feedback loops. The problem is made more difficult when long distances complicate remote computer maintenance and increase signal propagation delays. This project will utilize intelligent I/O boards for personal computers in a central computing room communicating with highly reliable remote serial I/O ports containing embedded user code. Communications links will be provided by noise-tolerant protocols on single-mode, fiber optic cables. Phase I identified the link hardware and designed the noise-tolerant protocols. The processor environment in the remote I/O port was selected and a preliminary design of the link interface hardware was performed. A remote I/O port for possible use in a test bed at the Stanford Linear Collider was also designed. Phase II will develop a working prototype containing the remote I/O port, a ten kilometer noise-tolerant link to a central computer, and a noise-tolerant link to a prototype device controller. In addition, software will be written to help validate the remote I/O port concept.
Commercial Applications and other Benefits as described by the awardee: The system should increase reliability, improve maintainability, and increase software development efficiency for the next generation electron-positron linear collider.