灵活性和低功耗;词语上的矛盾;可配置或可重新配置计算提供解决方案吗?

ISLPED'06 Proceedings of the 2006 International Symposium on Low Power Electronics and Design Pub Date : 2006-10-01 DOI:10.1145/1165573.1165665

Peter Wintermayr, R. Hartenstein, H. Meyr, S. Leibson

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引用次数: 0

摘要

可配置计算范式和可重新配置计算范式在过去几年中都获得了显著的影响。当功耗是一个主要的设计约束时，这两种范式都被证明是有效的，尽管其背后的原理完全不同:可配置方法旨在通过可扩展指令集和在设计时确定的其他参数，使嵌入式处理器适应应用程序。它们有两种基本风格:从一个由系统设计师扩展的固定核心开始;从头开始为特定应用程序设计指令集。另一方面，可重新配置方法通过运行时重新配置获得大部分好处。然而，需要高度的并行性来克服可重构结构(例如fpga)的物理缺陷。小组将讨论这些范例在低功耗方面的优点和缺点

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Flexibility and Low Power; A Contradiction in Terms; Can Configurable or Re-Configurable Computing Offer Solutions?

Both configurable computing paradigms as well as re-configurable computing paradigms have gained significant impact within the last few years. Both paradigms have shown to be effective when power consumption is a major design constraint even though the philosophies behind are quite different: configurable approaches aim to adapt an embedded processor to an application through, for example, an extensible instruction set plus other parameters that are determined during design time. They come in two basic flavors: starting with a fixed core that is extended by the system designer or; designing the instruction set from scratch for a specific application. Re-configurable approaches on the other side gain most of their benefits through run-time re-configuration. A high degree of parallelism is needed to overcome the physical deficiencies of re-configurable fabrics (e.g. FPGAs), though. The panel will discuss advantages and disadvantages of these paradigms with respect to low power

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ISLPED'06 Proceedings of the 2006 International Symposium on Low Power Electronics and Design

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