Exercising Symbolic Discrete Control for Designing Low-power Hardware Circuits: an Application to Clock-gating <ce:cross-ref refid='fn1'> <ce:sup loc='post'>?</ce:sup> </ce:cross-ref>

Mete ?zbaltan; Nicolas Berthier

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Exercising Symbolic Discrete Control for Designing Low-power Hardware Circuits: an Application to Clock-gating ?

机译：行使符号离散控制设计低功耗硬件电路：时钟门控应用？

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We devise a tool-supported framework for achieving power-efficiency of hardware chips from high-level designs described using the popular hardware description language Verilog. We consider digital circuits as hierarchical compositions of sub-circuits, and achieve power-efficiency by switching-off the clock of each sub-circuit according to some clock-gating logic. We encode the computation of the latter as several small symbolic discrete controller synthesis problems, and use the resulting controllers to derive power-efficient versions from original circuit designs. We detail and illustrate our approach using a running example, and validate it experimentally by deriving a low-power version of an actual Reed-Solomon decoder.

机译：我们设计了一个工具支持的框架，以通过使用流行的硬件描述语言Verilog描述的高级设计来实现硬件芯片的电源效率。我们将数字电路视为子电路的分层结构，并通过根据某些时钟门控逻辑关闭每个子电路的时钟来实现电源效率。我们将后者的计算编码为几个小的符号离散控制器综合问题，并使用所得的控制器从原始电路设计中得出节能型。我们使用一个正在运行的示例详细介绍和说明我们的方法，并通过推导实际Reed-Solomon解码器的低功耗版本进行实验验证。

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《IFAC PapersOnLine》 |2018年第7期|共7页
作者
Mete ?zbaltan; Nicolas Berthier;
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中图分类自动化技术、计算机技术;
关键词
Symbolic discrete controller synthesissynchronous digital circuitspower-efficiency;

机译：符号离散控制器合成同步数字电路功率效率;

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Exercising Symbolic Discrete Control for Designing Low-power Hardware Circuits: an Application to Clock-gating ?

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