Robust and energy-efficient DSP systems via output probability processing

机译：通过输出概率处理鲁棒和节能DSP系统

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This paper proposes to employ error statistics of nanoscale circuit fabrics to design robust energy-efficient digital signal processing (DSP) systems. Architectural level error statistics are exploited to generate probability or the reliability of each output bit of a DSP kernel. The proposed technique is referred to here as bit-level a posteriori probability processing (BLAPP). Energy efficiency and robustness of a 2D discrete cosine transform (2D-DCT) image codec employing BLAPP is studied. Simulations in a commercial 45nm CMOS process show that BLAPP provides up to 14X improvement in robustness, and 25% power savings over conventional 2D-DCT codec design.

机译：本文建议采用纳米级电路织物的误差统计来设计稳健的节能数字信号处理（DSP）系统。利用架构级别错误统计信息以生成DSP内核的每个输出位的概率或可靠性。该提出的技术在这里称为位电平A后验概率处理（BLAPP）。研究了2D离散余弦变换（2D-DCT）图像编解码器的能效和鲁棒性。商业45nm CMOS过程中的模拟表明，BLAPP提供了高达14倍的鲁棒性，以及超过2D-DCT编解码器设计的25％的功率节省。

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《IEEE International Conference on Computer Design》|2010年||共7页
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Abdallah Rami A.; Shanbhag Naresh R.;
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Robust and energy-efficient DSP systems via output probability processing

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