实值FFT实现的能量感知架构

Proceedings of the 2003 International Symposium on Low Power Electronics and Design, 2003. ISLPED '03. Pub Date : 2003-08-25 DOI:10.1109/LPE.2003.1231919

Alice Wang, A. Chandrakasan

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引用次数: 65

摘要

对于遇到各种操作场景的系统来说，节能设计是非常可取的。这与传统的低功耗设计形成鲜明对比，在最坏的情况下，传统的低功耗设计可能不是全球节能的。能源意识设计的重点是使架构能够按比例缩小能耗，因为质量要求是放松的。提出了一种新的能量可扩展的实值FFT处理器设计方法，该处理器支持可变位精度(8位和16位精度)和可变FFT长度(128-512点)。描述并评价了两种能量感知体系结构，即点解决方案集成方法和点解决方案重用方法。模拟和测量结果表明，与不可扩展的方法相比，8位数据路径节省66%的能量，128点FFT长度节省52%的能量。

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Energy-aware architectures for a Real-Valued FFT implementation

Energy-aware design is highly desirable for systems that encounter a wide diversity of operating scenarios. This is in contrast to traditional low power design for the worst case scenario, which may not be globally energy efficient. Energy-aware design focuses on enabling architectures which scale down-energy as quality requirements are relaxed. A new energy-scalable system design methodology is proposed for a Real-Valued FFT processor which supports variable bit precision (8 and 16-bit precision) and variable FFT length (128-512 point). Two energy-aware architectures, Ensemble of Point Solutions method and Reuse of Point Solutions method, are described and evaluated. Simulated and measured results show a 66% energy savings for 8-bit datapath and 52% savings for 128-point FFT length over a non-scalable approach.

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Proceedings of the 2003 International Symposium on Low Power Electronics and Design, 2003. ISLPED '03.

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