Design and analysis of multiple-bus arbiters with different priority schemes

The authors present four multiple-user and multiple-server arbiter designs of multiple-bus multiprocessors. All designs are based on decentralized control, which has the advantage of good reliability and potentially high throughput. The priority protocols considered are fixed priority, rotating priority, round-robin priority, and equal priority. For the first two priority protocols, lookahead techniques are used to speed up the arbitration process. The round-robin protocol is based on the decentralized daisy-chain idea and is operated in an asynchronous fashion. Analytical models are developed for the four different priority protocols to evaluate the performance of the different designs. The analyses are based on a probabilistic model for the synchronous case and simple queuing analysis for the asynchronous system. Numerical results obtained from the proposed model show that the equal priority protocol performs better than the others in the system with a few buses. The performance difference is not significant when the number of buses is relatively large