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引用次数: 59
摘要
本文提出了一种FPGA功耗最小化的同步资源分配和绑定算法。为了充分验证我们的方法和结果,我们的工作目标是一个真正的FPGA架构- Altera Stratix FPGA,其中包括通用逻辑元件,DSP内核和存储器等。我们为该架构设计了一个高级功率估计器,并针对商用门级功率估计器Quartus II PowerPlay Analyzer评估了其估计精度。在合成阶段,我们特别关注互连和多路复用器。我们主要讨论资源分配和绑定任务,因为它们是确定互连的关键步骤。我们用一种新颖的方法来探索设计空间。实验结果表明,我们的高阶功率估计器与PowerPlay分析仪相差8.7%。同时,与传统的资源分配和绑定算法相比,我们能够实现显着的功耗降低(32%)和更好的电路速度(16%)。
High-Level Power Estimation and Low-Power Design Space Exploration for FPGAs
In this paper, we present a simultaneous resource allocation and binding algorithm for FPGA power minimization. To fully validate our methodology and result, our work targets a real FPGA architecture - Altera Stratix FPGA, which includes generic logic elements, DSP cores, and memories, etc. We design a high-level power estimator for this architecture and evaluate its estimation accuracy against a commercial gate-level power estimator - Quartus II PowerPlay Analyzer. During the synthesis stage, we pay special attention to interconnections and multiplexers. We concentrate on resource allocation and binding tasks because they are the key steps to determine the interconnections. We use a novel approach to explore the design space. Experimental results show that our high-level power estimator is 8.7% away from PowerPlay Analyzer. Meanwhile, we are able to achieve a significant amount of power reduction (32%) with better circuit speed (16%) compared to a traditional resource allocation and binding algorithm.
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