Using SystemC for an extended MATLAB/Simulink verification flow

2008 Forum on Specification, Verification and Design Languages Pub Date : 2008-10-10 DOI:10.1109/FDL.2008.4641449

Kai Hylla, Jan-Hendrik Oetjens, W. Nebel

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引用次数: 16

Abstract

Functional verification is a major part of todaypsilas system design task. Several approaches are available for verification on a high abstraction level, where designs are often modeled using MATLAB/Simulink, as well as for RT-level verification. Different approaches are a barrier to a unified verification flow. For simulation based RT-level verification, an extended test bench concept has been developed at Robert Bosch GmbH. This paper describes how this SystemC-based concept can be applied to Simulink models. The implementation of the resulting verification flow addresses the required synchronization of both simulation environments, as well as data type conversion. An example is used to evaluate the implementation and the whole verification flow. It is shown that using the extended verification flow saves a significant amount of time during development. Reusing test bench modules and test cases preserves consistency of the test bench. Verification is done automatically rather than by inspecting the waveform manually. The extended verification flow unifies system-level and RT-level verification, yielding a holistic verification flow.

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使用SystemC进行扩展的MATLAB/Simulink验证流程

功能验证是当今等离子体系统设计任务的重要组成部分。有几种方法可用于高抽象级别的验证，其中设计通常使用MATLAB/Simulink建模，以及rt级别的验证。不同的方法是统一验证流程的障碍。对于基于仿真的rt级验证，Robert Bosch GmbH开发了一个扩展测试台概念。本文描述了如何将这种基于systemc的概念应用到Simulink模型中。结果验证流的实现处理了两个模拟环境所需的同步，以及数据类型转换。通过实例对实现和整个验证流程进行了评估。结果表明，在开发过程中使用扩展的验证流可以节省大量的时间。重用测试台架模块和测试用例可以保持测试台架的一致性。验证是自动完成的，而不是手动检查波形。扩展的验证流统一了系统级和rt级的验证，产生了一个整体的验证流。

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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2008 Forum on Specification, Verification and Design Languages

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