设计重用:生产力从何而来?

Proceedings of the ASP-DAC '99 Asia and South Pacific Design Automation Conference 1999 (Cat. No.99EX198) Pub Date : 1999-01-18 DOI:10.1109/ASPDAC.1999.760048

J. Ahuja

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引用次数: 0

摘要

半导体工艺的几何形状正在缩小，可用的硅容量正在以惊人的速度增长。消费化和融合应用带来了巨大的上市时间压力，导致产品复杂性的增加和设计周期的缩短。可建造的(硅容量)和可设计的之间的差距正在扩大。这种“设计生产力差距”正在导致整个行业转向系统级芯片(SOC)设计方法。SOC方法成功的基石是设计重用。设计重用的方法将继续发展。为了创建可重用的设计并将其集成到未来的产品中，将进行大量的投资来建立基础设施和方法。但是，它们会带来预期的生产率提高吗?本演讲介绍了可选的重用方法的进展，以及每种方法的关键特征和对生产力的影响。

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Design re-use: where is the productivity going to come from?

Semiconductor process geometries are shrinking and the available silicon capacity is growing at an amazing pace. Consumerization and convergence applications are causing tremendous time to market pressures, resulting in increased product complexity and reduced design cycle times. The gap between what can be built (silicon capacity) and what can be designed is widening. This 'design productivity gap' is causing an industry-wide shift to system-on-a-chip (SOC) design methodology. The corner-stone for success of the SOC methodology is design re-use. The methodology for design re-use will evolve going forward. Huge investments will be made to setup infrastructure and methodologies for creation of re-usable designs and their integration into future products. But, will they deliver the expected productivity gains? This talk presents a progression of re-use methodology alternatives and the key characteristics and productivity impact of each approach.

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Proceedings of the ASP-DAC '99 Asia and South Pacific Design Automation Conference 1999 (Cat. No.99EX198)

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