Hans Sahm, Matthias Sauppe, Erik Markert, Thomas Horn, Ulrich Heinkel, Klaus-Holger Otto
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Abstract
This paper describes the ENERSAVE research project, which is funded by the German ministry of research. The project target is a 30 percent power reduction for network nodes via introduction of a holistic, energy-aware design flow for application-specific integrated circuit (ASIC) and field programmable gate array (FPGA) design. Using today's state of the art design methods, advanced calculation of system power budgets is a major challenge since current methods do not offer sufficient means for supporting energy awareness and efficiency throughout the complete component design process. The ENERSAVE project is developing a methodology to support power awareness and provides the ability to target power constraints from the system level all the way down to the silicon. It introduces formal tools for power optimizations and demonstrates, on an optical transmission system card, how using this new design methodology enables the envisioned power target to be achieved. The paper presents methodology improvement results to date and offers a preview of expected demonstrable results by project completion in 2014. © 2013 Alcatel-Lucent.
面向节能网络节点的优化ASIC/FPGA设计流程
本文介绍了ENERSAVE研究项目,该项目由德国研究部资助。该项目的目标是通过引入针对特定应用集成电路(ASIC)和现场可编程门阵列(FPGA)设计的整体节能设计流程,将网络节点的功耗降低30%。使用当今最先进的设计方法,系统功率预算的高级计算是一个主要挑战,因为当前的方法不能在整个组件设计过程中提供足够的手段来支持能源意识和效率。ENERSAVE项目正在开发一种方法来支持功率感知,并提供从系统级一直到硅片的目标功率限制的能力。它介绍了用于功率优化的正式工具,并在光传输系统卡上演示了如何使用这种新的设计方法来实现预期的功率目标。本文介绍了迄今为止的方法改进结果,并提供了2014年项目完成时预期可证明结果的预览。©2013阿尔卡特朗讯
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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