A virtual prototyping platform for real-time systems with a case study for a two-wheeled robot

Daniel Mueller-Gritschneder, Kun Lu, Erik Wallander, Marc Greim, Ulf Schlichtmann
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引用次数: 5

Abstract

In today's real-time system design, a virtual prototype can help to increase both the design speed and quality. Developing a virtual prototyping platform requires realistic modeling of the HW system, accurate simulation of the real-time SW, and integration with a reactive real-time environment. Such a VP simulation platform is often difficult to develop. In this paper, we propose a case-study of autonomous two-wheeled robot to show how to develop a virtual prototyping platform rapidly in SystemC/TLM to adequately aid in the design of this instable system with hard real-time constraints. Our approach is an integration of four major model components. Firstly, an accurate physical model of the robot is provided. Secondly, a virtual world is modeled in Java that offers a 3D environment for the robot to move in. Thirdly, the embedded control SW is developed. Finally, the overall HW system is modeled in SystemC at transaction level. This HW model wraps the physical model, interacts with the virtual world, and simulates the real-time SW by integrating an Instruction Set Simulator of the embedded CPU. By integrating these components into a platform, designers can efficiently optimize the embedded SW architecture, explore the design space and check real-time conditions for different system parameters such as buffer sizes, CPU frequency or cache configurations.
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实时系统的虚拟样机平台,并以两轮机器人为例进行了研究
在当今的实时系统设计中,虚拟样机可以帮助提高设计速度和质量。开发虚拟样机平台需要对硬件系统进行逼真的建模,对实时软件进行精确的仿真,并与响应式实时环境集成。这样的副总裁仿真平台通常很难开发。本文以自主两轮机器人为例,展示了如何在SystemC/TLM中快速开发虚拟样机平台,以充分帮助设计这种具有硬实时约束的不稳定系统。我们的方法是四个主要模型组件的集成。首先,给出了机器人的精确物理模型。其次,用Java语言构建虚拟世界,为机器人的活动提供三维环境。第三,开发了嵌入式控制软件。最后,在SystemC中对整个硬件系统进行事务级建模。该硬件模型封装物理模型,与虚拟世界进行交互,并通过集成嵌入式CPU的指令集模拟器对实时软件进行仿真。通过将这些组件集成到一个平台中,设计人员可以有效地优化嵌入式软件架构,探索设计空间,并检查不同系统参数(如缓冲区大小、CPU频率或缓存配置)的实时情况。
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