Fast exploration of bus-based on-chip communication architectures

International Conference on Hardware/Software Codesign and System Synthesis, 2004. CODES + ISSS 2004. Pub Date : 2004-09-08 DOI:10.1145/1016720.1016778

S. Pasricha, N. Dutt, M. Ben-Romdhane

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引用次数: 69

Abstract

As a result of improvements in process technology, more and more components are being integrated into a single system-on-chip (SoC) design. Communication between these components is increasingly dominating critical system paths and frequently becomes the source of performance bottlenecks. It therefore becomes extremely important for designers to explore the communication space early in the design flow. Traditionally, pin-accurate bus cycle accurate (PA-BCA) models were used for exploring the communication space. To speed up simulation, transaction based bus cycle accurate (T-BCA) models have been proposed, which borrow concepts found in the transaction level modeling (TLM) domain. The cycle count accurate at transaction boundaries (CCATB) modeling abstraction was introduced for fast communication space exploration. In This work, we describe the mechanisms that produce the speedup in CCATB models and demonstrate the effectiveness of the CCATB exploration approach with the aid of a case study involving an AMBA 2.0 based SoC subsystem used in the multimedia application domain. We also analyze how the achieved simulation speedup scales with design complexity and show that SoC designs modeled at the CCATB level simulate 120% faster than PA-BCA and 67% faster than T-BCA models on average.

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快速探索基于总线的片上通信架构

由于工艺技术的改进，越来越多的组件被集成到单个片上系统(SoC)设计中。这些组件之间的通信越来越多地支配着关键的系统路径，并经常成为性能瓶颈的来源。因此，设计师在设计流程的早期探索交流空间变得极其重要。传统上，采用引脚精确总线周期精确(PA-BCA)模型来探索通信空间。为了加快仿真速度，提出了基于事务的总线周期精确(T-BCA)模型，该模型借鉴了事务级建模(TLM)领域的概念。为了快速探索通信空间，引入了事务边界精确循环计数(CCATB)建模抽象。在这项工作中，我们描述了在CCATB模型中产生加速的机制，并通过一个涉及多媒体应用领域中基于AMBA 2.0的SoC子系统的案例研究来证明CCATB探索方法的有效性。我们还分析了所实现的仿真加速是如何随着设计复杂性的增加而增加的，并表明在CCATB级别建模的SoC设计的仿真速度比PA-BCA平均快120%，比T-BCA模型平均快67%。

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International Conference on Hardware/Software Codesign and System Synthesis, 2004. CODES + ISSS 2004.

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