能量感知寄存器文件的实现，通过指令的前身

Proceedings IEEE International Conference on Application-Specific Systems, Architectures, and Processors. ASAP 2003 Pub Date : 2003-06-24 DOI:10.1109/ASAP.2003.1212832

J. Ayala, M. López-Vallejo, A. Veidenbaum, Carlos A. Lopez

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引用次数: 21

摘要

在现代体系结构中，寄存器文件是一种耗电设备。当前对编译器技术和计算机体系结构的研究鼓励实现更大的设备来提供多个数据路径和存储全局变量。然而，低功耗技术无法在没有时间惩罚的情况下显著降低该设备的功耗。我们介绍了一种有效的硬件方法，通过将未使用的寄存器转换为低功耗状态来降低寄存器文件的能耗。绕过取指令的寄存器字段到解码阶段允许识别当前指令(指令前任)所需的寄存器，并允许控制逻辑将它们重新打开。它们在指令使用后进入低功耗状态。这种技术在没有性能损失的情况下实现了85%的能耗降低。该方法的简单性使其成为嵌入式处理器的有效低功耗技术。

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Energy aware register file implementation through instruction predecode

The register file is a power-hungry device in modern architectures. Current research on compiler technology and computer architectures encourages the implementation of larger devices to feed multiple data paths and to store global variables. However, low power techniques are not able to appreciably reduce power consumption in this device without a time penalty. We introduce an efficient hardware approach to reduce the register file energy consumption by turning unused registers into a low power state. Bypassing the register fields of the fetch instruction to the decode stage allows the identification of registers required by the current instruction (instruction predecode) and allows the control logic to turn them back on. They are put into the low-power state after the instruction use. This technique achieves an 85% energy reduction with no performance penalty. The simplicity of the approach makes it an effective low-power technique for embedded processors.

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Proceedings IEEE International Conference on Application-Specific Systems, Architectures, and Processors. ASAP 2003

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