An adaptive low-power transmission scheme for on-chip networks

15th International Symposium on System Synthesis, 2002. Pub Date : 2002-10-02 DOI:10.1145/581199.581221

P. Ienne, Patrick Thiran, G. Micheli, F. Worm

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引用次数: 100

Abstract

Systems-on- Chip (SoC) are evolving toward complex heterogeneous multiprocessors made of many predesigned macrocells or subsystems with application-specific interconnections. Intra-chip interconnects are thus becoming one of the central elements of SoC design and pose conflicting goals in terms of low energy per transmitted bit, guaranteed signal integrity, and ease of design. This work introduces and shows first results on a novel interconnect system which uses low-swing signalling, error detection codes, and a retransmission scheme; it minimises the interconnect voltage swing and frequency subject to workload requirements and S/N conditions. Simulation results show that tangible savings in energy can be attained while achieving at the same time more robustness to large variations in actual workload, noise, and technology quality (all quantities easily mispredicted in very complex systems and advanced technologies). It can be argued that traditional worst-case correct-by-design paradigm will be less and less applicable in future multibillion transistor SoC and deep sub-micron technologies; this work represents a first example towards robust adaptive designs.

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片上网络的自适应低功耗传输方案

片上系统(SoC)正在向复杂的异构多处理器发展，这些多处理器由许多预先设计的宏单元或子系统组成，具有特定的应用互连。因此，芯片内互连正成为SoC设计的核心要素之一，并在每个传输位的低能量、保证信号完整性和易于设计方面提出了相互冲突的目标。这项工作介绍并展示了一种新型互连系统的初步结果，该系统使用低摆幅信号，错误检测代码和重传方案;它最大限度地减少了受工作负载要求和信噪比条件影响的互连电压摆动和频率。仿真结果表明，在实现对实际工作负载、噪声和技术质量(在非常复杂的系统和先进的技术中，所有数量都很容易被错误预测)的大变化的同时，可以获得切实的能源节约。可以认为，传统的最坏情况设计正确性范式将越来越不适用于未来的数十亿晶体管SoC和深亚微米技术;这项工作代表了鲁棒自适应设计的第一个例子。

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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15th International Symposium on System Synthesis, 2002.

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