混合CPU/FPGA系统的调试方法

2002 IEEE International Conference on Field-Programmable Technology, 2002. (FPT). Proceedings. Pub Date : 2002-12-16 DOI:10.1109/FPT.2002.1188688

Eric Roesler, B. Nelson

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引用次数: 16

摘要

在同一个芯片上结合一个或多个CPU和一个FPGA结构正变得越来越流行。这种可编程片上系统(PSOC)系统比传统技术具有性能和开发时间优势。在PSOC设计中，设计错误可能发生在许多不同的地方- CPU的设计，嵌入式软件，基于fpga的设计部分，或这些不同部分之间的接口。本文提出了一个灵活的工具，允许用户动态地调整CAD工具的行为，以跟踪PSOC设计中的设计错误所需的细节水平。它提供了软件源代码调试器和门级调试工具的创建和共存，所有这些都合并到同一个调试环境中。提出了一个基于JHDL CAD工具的原型PSOC调试系统，该系统说明了可以为PSOC调试提供仿真和硬件执行模式的调试支持范围。讨论了该工具的扩展，以支持更广泛的嵌入式处理器和GNU编译器工具，以及结论和未来的工作。

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Debug methods for hybrid CPU/FPGA systems

The combining of one or more CPU's and an FPGA fabric on the same die is growing in popularity. Such programmable system-on-chip (PSOC) systems promise performance and development time advantages over conventional technology. In a PSOC design, design errors may occur in many different places - the design of the CPU, the embedded software, the FPGA-based parts of the design, or the interfaces between these various parts. This paper presents a flexible tool that allows the user to dynamically adapt the CAD tool's behavior to the level of detail needed to track down design errors in PSOC designs. It provides for the creation of and coexistence of software source debuggers and gate level debug tools, all incorporated into the same debugging environment. A prototype PSOC debugging system based on a derivative of the JHDL CAD tool is presented which illustrates the range of debug support in both simulation and hardware execution modes that can be provided for PSOC debug. Extensions to the tool to support a wider range of embedded processors and GNU compiler tools are discussed along with conclusions and future work.

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来源期刊

2002 IEEE International Conference on Field-Programmable Technology, 2002. (FPT). Proceedings.

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