D. Panescu, T. Górski, Y. Hu, J. Lackey, P. Robl, W.H. Smith
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引用次数: 1
摘要
介绍了一种采用1.2 μ m n阱CMOS工艺制作的4位12位数字加法器。提出了一种用于超导超级对撞机(SSC)探测器管道能量和计算的方法。它由三个12位加法器组成,分为两级管道。为了计算最后的进位,使用了适用于五个4位加法器的进位选择技术。4位加法器使用超前进位法来计算它们的载波。为了减小电路面积和简化电路结构,采用了多输出多米诺逻辑设计方式。管道的第一阶段(两个加法器)并行执行两个12位加法,而第二阶段(一个加法器)完成先前开始的计算。通过处理单相外部时钟,采用两相时钟策略驱动管道。实现了18ns的最坏吞吐量。包括用于测试管道第一阶段的内置设施。电路面积为1425*5510 μ m/sup 2/;它有76个垫子;装在132pga里。晶体管数是6639。在18ns时钟下,耗散功率约为=0.75 W。该电路已通过MOSIS制造,并且发现50个芯片的产率约为80%
A four 12-bit numbers adder fabricated using a 1.2 mu m N-well CMOS process is presented. It is proposed for use in the computation of the pipelined energy sums in the detectors at the Superconducting Super Collider (SSC). It comprises three 12-bit adders organized as a two-stage pipeline. To compute the final carry bit, the carry-select technique applied to five 4-bit adders is used. The 4-bit adders use the carry-lookahead method to compute their carriers. In order to reduce the circuit area and to simplify its structure the multiple-output domino logic design style is used. The first stage of the pipeline (two adders) performs two 12-bit additions in parallel while the second stage (one adder) finishes up the previously started computation. The pipeline is driven using a two-phase clocking strategy by processing a single-phase external clock. A worst-case throughput of 18 ns is achieved. A built-in facility for testing the first stage of the pipeline is included. The area of the circuit is 1425*5510 mu m/sup 2/; it has 76 pads; and it was packed in a 132 PGA. The transistor count is 6639. The dissipated power, at 18-ns clock, is approximately=0.75 W. The circuit has been fabricated through MOSIS, and a yield of approximately=80% for a lot of 50 chips was found.<>
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