Sungpack Hong, S. Yoo, Sheayun Lee, Sangwoo Lee, Hye Jeong Nam, Bum-Seok Yoo, Jaehyung Hwang, D. Song, Jang-Han Kim, Jeong-Yeol Kim, HoonSang Jin, Kyu-Myung Choi, J. Kong, Soo-Kwan Eo
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引用次数: 22
Abstract
Virtual platform (ViP), or ESL (electronic system level) simulation model, is one of the most widely renowned system level design techniques. In this paper, we present a case study of creating and applying the ViP in the development of a new hard disk system called hybrid-HDD that is one of the main features in the Windows VISTA (R). First, we summarize how we developed the ViP including the levels of timing accuracy of models, automatic generation of models from RTL code, external subsystem models, etc. Then, we explain how we exploited the ViP in software optimization. Compared with the conventional flow of software development, e. g. based on the real board, the ViP gives a better profiling capability thereby allowing designers to find more chances of code optimization. Based on the simulation and analysis with the ViP, the software optimization could improve system performance by more than 50%. However, in our case study, we found that the current ViP technique needs further improvements to become a true ESL design technique.
虚拟平台(ViP),又称电子系统级仿真模型,是一种应用最为广泛的系统级设计技术。本文以Windows VISTA (R)的主要特性之一——混合硬盘系统为例,介绍了ViP的创建和应用。首先,我们总结了ViP的开发过程,包括模型的时序精度、RTL代码模型的自动生成、外部子系统模型等。然后,我们解释了如何在软件优化中利用ViP。与传统的软件开发流程(如基于实际电路板)相比,ViP提供了更好的分析能力,从而使设计人员能够找到更多的代码优化机会。通过仿真分析,软件优化后的系统性能可提高50%以上。然而,在我们的案例研究中,我们发现当前的ViP技术需要进一步改进才能成为真正的ESL设计技术。
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