A Formal Model For Real-Time Parallel Computation
Abstract
The imposition of real-time constraints on a parallel computing environment- specifically high-performance, cluster-computing systems- introduces a variety of challenges with respect to the formal verification of the system's timing properties. In this paper, we briefly motivate the need for such a system, and we introduce an automaton-based method for performing such formal verification. We define the concept of a consistent parallel timing system: a hybrid system consisting of a set of timed automata (specifically, timed Buchi automata as well as a timed variant of standard finite automata), intended to model the timing properties of a well-behaved real-time parallel system. Finally, we give a brief case study to demonstrate the concepts in the paper: a parallel matrix multiplication kernel which operates within provable upper time bounds. We give the algorithm used, a corresponding consistent parallel timing system, and empirical results showing that the system operates under the specified timing constraints.
Cite
@article{arxiv.1301.0040,
title = {A Formal Model For Real-Time Parallel Computation},
author = {Peter Hui and Satish Chikkagoudar},
journal= {arXiv preprint arXiv:1301.0040},
year = {2013}
}
Comments
In Proceedings FTSCS 2012, arXiv:1212.6574