A Bit-Serial Pipelined Architecture for High-Performance DHT Computation in Quantum-Dot Cellular Automata

Pudi Vikramkumar; Sridharan K.

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A Bit-Serial Pipelined Architecture for High-Performance DHT Computation in Quantum-Dot Cellular Automata

机译：量子点元胞自动机中高性能DHT计算的位串行流水线架构

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In this brief, we consider quantum-dot cellular automata (QCA) realization of the discrete Hadamard transform (DHT). An analysis of a full-parallel solution based on efficient multibit addition in QCA is first presented. We show that this leads to large area as well as delay. We then propose a bit-serial pipelined architecture for QCA-based DHT. The proposed architecture is based on a new one-bit adder–subtractor requiring only six majority gates and a feedback latch that requires only one majority gate and limited wiring. The approach leads to a reduction in area-delay-cycle product of 74% and 91% (over a full-parallel solution) for wordlengths of 4 and 8, respectively. Results of simulations in QCADesigner are also presented.

机译：在本文中，我们考虑了离散Hadamard变换（DHT）的量子点细胞自动机（QCA）实现。首先介绍了基于QCA中高效多位加法的全并行解决方案的分析。我们证明这会导致大面积以及延迟。然后，我们为基于QCA的DHT提出了位串行流水线架构。提议的体系结构基于一种新的一位加法器-减法器，它仅需要六个多数门，而反馈锁存器仅需要一个多数门和有限的布线。该方法导致字长分别为4和8的面积延迟周期乘积分别减少了74％和91％（通过完全并行解决方案）。还介绍了QCADesigner中的仿真结果。

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来源
《Very Large Scale Integration (VLSI) Systems, IEEE Transactions on》 |2015年第10期|2352-2356|共5页
作者
Pudi Vikramkumar; Sridharan K.;
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作者单位

Department of Electrical Engineering, IIT Madras, Chennai, India;

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正文语种 eng
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关键词
Discrete Hadamard transform (DHT); feedback latch; low area-delay-cycle (ADC) product; one-bit adder–subtractor; one-bit adder???subtractor; pipelined architecture; quantum-dot cellular automata (QCA); quantum-dot cellular automata (QCA).;

机译：离散Hadamard变换（DHT）;反馈锁存器;低面积延迟周期（ADC）乘积;一位加法器-减法器;一位加法器-减法器;流水线架构;量子点元自动机（QCA）;量子点细胞自动机（QCA）。;

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A Bit-Serial Pipelined Architecture for High-Performance DHT Computation in Quantum-Dot Cellular Automata

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