Quantitative system performance: computer system analysis using queueing network models
Quantitative system performance: computer system analysis using queueing network models
Analysis of multiple-bus interconnection networks
Journal of Parallel and Distributed Computing
Communication Performance in Multiple-Bus Systems
IEEE Transactions on Computers
Approximate Analysis of Single and Multiple Ring Networks
IEEE Transactions on Computers
Analysis and simulation of multiplexed single-bus networks with and without buffering
ISCA '85 Proceedings of the 12th annual international symposium on Computer architecture
A Memory Interference Model for Regularly Patterned Multiple Stream Vector Accesses
IEEE Transactions on Parallel and Distributed Systems
Exact Bounds on Running ASCEND/DESCEND and FAN-IN Algorithms on Synchronous Multiple Bus Networks
IEEE Transactions on Parallel and Distributed Systems
Performance Analysis of Multilevel Bus Networks for Hierarchical Multiprocessors
IEEE Transactions on Computers
Fault-Tolerant Multiple Bus Networks for Fan-In Algorithms
IPPS '96 Proceedings of the 10th International Parallel Processing Symposium
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Performance analyses of packet-switched multiple-bus multiprocessor systems are presented. Approximate queuing network models are developed for both synchronous and asynchronous control schemes, and the results are shown to be in good agreement with simulation results. The analysis of the synchronous system is based on a decomposition technique, with each of the shared resources in the system being represented as a single-server queue. For asynchronous systems, the analysis is based on the flow equivalence technique. Numerical results obtained from the analyses indicate that packet-switched multiple-bus multiprocessors with only a few buses perform almost as well as crossbar-based multiprocessors.