A gate array chip set as a fault-tolerant bus interface unit based on nubus protocols

Tsai, Kuo-yeang

09 May 2009

Even with the performance of microprocessors expected to double within the next three to five years, the processing power increase offered by parallel processing has made multiprocessor systems very cost-effective. Each module in the multiprocessor systems will typically include a processor, coprocessor, cache, and main memory. This kind of architecture has generated the system-on-aboard distributed-intelligence concept, and the 32-bit multimaster buses thus come into play since these high-performance systems need to communicate with each other. During communication, commands and large blocks of data are transmitted across the bus. Along with the multiprocessor system, the single-CPU system continues to need a fast bus and wide data path to serve as a common I/O interface for terminals, disk storage devices, communication, and memory boards. With the board size limited, the trend toward distributed intelligence increases the need to place more functions on a single board, and therefore bus interface unit (BIU) integrated circuits (ICs) play an important role in the design of new boards. Spaceborn systems must be fault-tolerant due to their high susceptibility to transient faults and the high costs of repair and maintenance. Hence, a gate array fault-tolerant bus-interface IC based on modified NuBus protocols is designed to meet these requirements. The gate array IC design system HIGHLAND from United Technologies Microelectronics Center is used, along with other CAD tools such as the Berkeley VLSI Tool Set and LOGEN to generate a layout for the BIU. Two programs are written to interface the necessary CAD tools. All the circuits are designed and simulated on a VAXstation 3200 (Ultrix-32) and VAX11/785 (VMS). / Master of Science

LD5655.V855 1990.T835

Microcomputers -- Buses -- Research