A Design Methodology for a Low-Power, Temperature-Aware SoC Developed for Medical Image Processors

2006 IEEE International SOC Conference Pub Date : 2006-09-01 DOI:10.1109/SOCC.2006.283860
Zhenyu Qi, Wei Huang, A. C. Cabe, Wenqian Wu, Yan Zhang, G. Rose, M. Stan
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Abstract

Power and thermal considerations are becoming limiting factors for SoC designs as technology scales down. In this paper, a design methodology targeting a low-power and temperature-aware system is proposed. Dynamic voltage scaling (DVS) and dynamic thermal management (DTM) techniques are included. In order to demonstrate its effectiveness, we present an ongoing SoC design project of an ultrasound medical image processor incorporating a computationally intensive image enhancement algorithm. In particular, we show how DVS and DTM are adopted. A novel adaptive body-bias circuit that mitigates thermal sensitivity of circuits is also introduced.
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用于医学图像处理器的低功耗、温度感知SoC的设计方法
随着技术规模的缩小,功耗和热因素正在成为SoC设计的限制因素。本文提出了一种针对低功耗和温度感知系统的设计方法。包括动态电压缩放(DVS)和动态热管理(DTM)技术。为了证明其有效性,我们提出了一个正在进行的超声医学图像处理器SoC设计项目,其中包含计算密集型图像增强算法。特别是,我们展示了如何采用DVS和DTM。介绍了一种新型的自适应体偏电路,减轻了电路的热敏性。
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2006 IEEE International SOC Conference
2006 IEEE International SOC Conference
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