基于随机Petri网的超大马尔可夫链的高效顺序和分布式生成

Proceedings 8th International Workshop on Petri Nets and Performance Models (Cat. No.PR00331) Pub Date : 1999-09-08 DOI:10.1109/PNPM.1999.796528

B. Haverkort, Alexander Bell, H. Bohnenkamp

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引用次数: 61

摘要

在本文中，我们提出了一种有效的技术来生成超大连续时间马尔可夫链(ctmc)，即随机Petri网(spn)。特别是，我们研究了如何通过使用良好的状态编码技术和使用哈希表而不是基于树的数据结构来提高可达性图生成的存储效率。这些技术使我们能够在单个工作站上分析具有近5500万个状态的spn。然后，可以处理的spn的大小通过使用工作站集群进一步扩大。通过100 Mbps以太网连接的16个工作站，我们可以在合理的时间内生成超过4亿个状态的可达性图。所提出的技术已经在使用STL和MPICH库的c++实现的原型工具(PARSECS)中实现。要输入到PARSECS的spn是使用CSPL指定的，从工具SPNP可知。在本文中，我们介绍了我们的技术，并研究了它们在一些案例研究中的表现。我们还提出了与SPNP的比较。

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On the efficient sequential and distributed generation of very large Markov chains from stochastic Petri nets

In this paper we present efficient techniques for the generation of very large continuous-time Markov chains (CTMCs) specified as stochastic Petri nets (SPNs). In particular, we investigate how the storage efficiency of the reachability graph generation can be improved by using good state coding techniques and by using hashing tables instead of tree-based data structures. These techniques allow us to analyse SPNs with almost 55 million states on a single workstation. The size of the SPNs that can be handled is then further enlarged by using a cluster of workstations. With 16 workstations, connected via a 100 Mbps Ethernet, we can generate reachability graphs with over 400 million states in reasonable time. The presented techniques have been realised in a prototype tool (PARSECS) implemented in C++ using the libraries STL and MPICH. The SPNs to be input to PARSECS are specified using CSPL, known from the tool SPNP. In the paper we present our techniques and study their performance for a number of case studies. We also present comparisons with SPNP.

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Proceedings 8th International Workshop on Petri Nets and Performance Models (Cat. No.PR00331)

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