DCG: deterministic clock-gating for low-power microprocessor design

Hai Li; Bhunia S.; Yiran Chen; Roy K.; Vijaykumar T.N.

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DCG: deterministic clock-gating for low-power microprocessor design

机译：DCG：低功耗微处理器设计的确定性时钟门控

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With the scaling of technology and the need for higher performance and more functionality, power dissipation is becoming a major bottleneck for microprocessor designs. Because clock power can be significant in high-performance processors, we propose a deterministic clock-gating (DCG) technique which effectively reduces clock power. DCG is based on the key observation that for many of the pipelined stages of a modern processor, the circuit block usage in the near future is known a few cycles ahead of time. Our experiments show an average of 19.9% reduction in processor power with virtually no performance loss for an eight-issue, out-of-order superscalar by applying DCG to execution units, pipeline latches, D-cache wordline decoders, and result bus drivers.

机译：随着技术的扩展以及对更高性能和更多功能的需求，功耗已成为微处理器设计的主要瓶颈。由于时钟功率在高性能处理器中可能非常重要，因此我们提出了一种确定性时钟门控（DCG）技术，该技术可有效降低时钟功率。 DCG的主要观察结果是，对于现代处理器的许多流水线级来说，在不远的将来会提前几个周期知道电路块的使用情况。我们的实验表明，通过将DCG应用于执行单元，流水线锁存器，D-cache字线解码器和结果总线驱动器，八次发出的无序超标量的处理器功率平均降低了19.9％，几乎没有性能损失。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2004年第3期|p.245-254|共10页
作者
Hai Li; Bhunia S.; Yiran Chen; Roy K.; Vijaykumar T.N.;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
cache storage; clocks; integrated circuit design; low-power electronics; microprocessor chips; pipeline processing; D-cache wordline decoders; DCG; bus drivers; clock power reduction; deterministic clock gating; execution units; high performance processors; low power;

机译：高速缓存存储;时钟;集成电路设计;低功耗电子设备;微处理器芯片;管道处理;D-cache字线解码器;DCG;总线驱动器;时钟降低功率;确定性时钟门控;执行单元;高性能处理器;低功耗;

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3. INTRA-APPLICATION ENERGY REDUCTION FOR MICROPROCESSOR LOW-POWER DESIGN [J] . XIAO XIN XIA, TENG TIOW TAY Journal of Circuits, Systems, and Computers . 2009,第1期

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5. Low-power operation of microprocessor systems in the presence of process variation. [D] . Ghosh, Amlan. 2010

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7. A clock-gating method for low-power LSI design [O] . Takeshi Kitahara, Fumihiro Minami, Toshiaki Ueda, 1998

机译：一种用于低功耗LsI设计的时钟门控方法
8. Low-Power Data Acquisition with CMOS Microprocessors [R] . Pleva, R. M. 1977

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DCG: deterministic clock-gating for low-power microprocessor design

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