Towards Modeling Interconnection Networks of Exascale Systems with OMNet++

2013 21st Euromicro International Conference on Parallel, Distributed, and Network-Based Processing Pub Date : 2013-02-27 DOI:10.1109/PDP.2013.36

P. Yébenes, J. Escudero-Sahuquillo, P. García, F. Quiles

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引用次数: 32

Abstract

One of the objectives of the decade for High-Performance Computing systems is to reach the exascale level of computing power before 2018, hence this will require strong efforts in their design. In that sense, High-speed low-latency interconnection networks are essential elements for exascale HPC systems. Indeed, the performance of the whole system depends on that of the interconnection network. In order to develop and test new techniques, suited to exascale HPC systems, software-based networks simulators are commonly used. As developing a network simulator from scratch is a difficult task, several platforms help the developers, OMNeT++ being one of the most popular. In this paper, we propose a new generic network simulator, exploiting the features of the OMNeT++ framework. The proposed tool is the first step to model HPC high-performance interconnection networks of exascale HPC systems: the message switching layer, routing and arbitration algorithms and buffer organizations have been modeled according to the current and expected characteristics of these systems. In addition, the tool has been designed so that it is possible to simulate networks of large size. Simulation results, validated against real systems, show the accuracy of the model.

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基于omnet++的百亿亿级系统互连网络建模

高性能计算系统的十年目标之一是在2018年之前达到百亿亿级的计算能力，因此这将需要在设计上付出巨大的努力。从这个意义上说，高速低延迟互连网络是百亿亿级HPC系统的基本要素。事实上，整个系统的性能取决于互连网络的性能。为了开发和测试适用于百亿亿次高性能计算系统的新技术，通常使用基于软件的网络模拟器。由于从头开始开发网络模拟器是一项艰巨的任务，有几个平台可以帮助开发人员，omnet++是最流行的平台之一。在本文中，我们提出了一个新的通用网络模拟器，利用omnet++框架的特点。提出的工具是建模百亿亿级HPC系统高性能互连网络的第一步:消息交换层、路由和仲裁算法以及缓冲组织已经根据这些系统的当前和预期特征进行了建模。此外，该工具的设计使其能够模拟大型网络。通过对实际系统的仿真，验证了该模型的正确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 21st Euromicro International Conference on Parallel, Distributed, and Network-Based Processing

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