Power Estimation of an ECDSA Core Applied in V2X Scenarios Using Heterogeneous Distributed Simulation

2015 IEEE/ACM 19th International Symposium on Distributed Simulation and Real Time Applications (DS-RT) Pub Date : 2015-10-14 DOI:10.1109/DS-RT.2015.35

Harald Bucher, Alexander Klimm, O. Sander, J. Becker

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引用次数: 2

Abstract

Embedded systems are steadily growing in complexity and nowadays power consumption additionally plays an important role. Designing and exploring such systems embedded in its environment demand for holistic and efficient simulations. In this work we use a simulation framework based on the HLA (High-Level Architecture) and the modeling tool Ptolemy II to enable complex heterogeneous distributed simulations of embedded systems. In this context, we introduce a co-simulation based power estimation approach by integrating domain-specific simulators as well as off-the-shelf HDL simulator and synthesis tools. This enables cross-domain interaction and generation of realistic on-the-fly stimuli data for Register Transfer Level and Gate Level models as well as the gathering of power estimation data. We apply the framework to a Vehicle-2-X scenario evaluating an ECDSA signature processing core which ensures trustworthiness in vehicular wireless networks. To evaluate dynamic power reduction possibilities on application level we additionally introduce a V2X Message Evaluation technique to reduce signature verification efforts. It shows how realistic on-the-fly stimuli data obtained by the framework can improve the exploration and estimation of dynamic power consumption.

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基于异构分布式仿真的V2X场景ECDSA核心功率估算

嵌入式系统的复杂性在不断增长，功耗也在不断增加。设计和探索这样的系统嵌入其环境需要整体和有效的模拟。在这项工作中，我们使用基于HLA(高级体系结构)的仿真框架和建模工具托勒密II来实现嵌入式系统的复杂异构分布式仿真。在这种情况下，我们通过集成特定领域的模拟器以及现成的HDL模拟器和合成工具，引入了一种基于联合仿真的功率估计方法。这使得跨域交互和生成现实的动态刺激数据，用于注册传输水平和门电平模型，以及收集功率估计数据。我们将该框架应用于车辆-2- x场景，评估ECDSA签名处理核心，以确保车辆无线网络的可信度。为了评估应用级别的动态功耗降低可能性，我们还引入了V2X消息评估技术来减少签名验证工作。这表明，该框架获得的真实的动态刺激数据可以改善动态功耗的探索和估计。

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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2015 IEEE/ACM 19th International Symposium on Distributed Simulation and Real Time Applications (DS-RT)

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