高速树形决策电路的最佳负载色散

J. H. Jiang, I. Jiang
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引用次数: 0

摘要

随着密度和容量的增加,数据的增加(特别是在半导体存储器中)使选择电路的电容负载呈指数级增长。这种趋势违反了严格的时间要求。这项工作改善了k阶段树型决策电路的情况。我们证明了对于k阶段二叉决策树,总存在一个最优解,使得在选择信号排列之后,所选择信号的最坏情况负荷等于一个下界。我们提出的程序不仅提供了一个最佳的解决方案,而且最大限度地减少了负载变化。在最坏的情况下,负载可以减少近k/2倍,因此对于负载最重的选择信号,加速和节省功率高达W2倍左右。相比之下,除去一个单位负荷选择信号,其余(k-1)个信号的经验方差始终小于1,不会发散。因此,我们的时序驱动布局综合方法能够设计出具有更精确时序和功率预测的高性能树型决策电路。此外,通过本文提出的方法,我们可以选择对k阶段或(k-1)阶段进行优化,同时可能最小化另一个阶段。我们的算法也可以很容易地扩展到一般的k阶段决策树,每个节点有r个后代,而不局限于二叉树;由此产生的最坏情况载荷可能非常接近下限,并减少到近k(r-1)/r倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimum loading dispersion for high-speed tree-type decision circuitry
With increasing density and capacity due to technology scaling, augmenting data (especially in semiconductor memories) burden selection circuitry with exponentially growing capacitive loads. This tendency violates stringent timing requirements. This work ameliorates the situation for k-stage tree-type decision circuitry. We show that for a k-stage binary decision tree, there always exists an optimum solution such that, after the select-signal arrangement, the worst case loading among select signals equals a lower bound. Our proposed procedure not only provides an optimum solution but also minimizes the loading variance. The worst case loading can be reduced up to nearly k/2 times, thus speeding up and saving power up to W2 times or so for the select signal with the heaviest loading. In contrast, excluding one unit-loading select signal, the empirical variance of the remaining (k-1) signals is always less than 1 instead of diverging. Hence, our approach, for timing-driven layout synthesis, is competent to design high-performance tree-type decision circuitry with more accurate timing and power prediction. In addition, by the presented approach, we can have the alternative of optimizing either for k-stage or for (k-1)-stage, meanwhile possibly minimizing the other. Our algorithm, also, can easily be extended for a general k-stage decision tree with r descendants per node, not restricted to a binary tree; the resultant worst case loading could be quite close to the lower bound and reduced up to nearly k(r-1)/r times.
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