Title :
A Bit-Serial Pipelined Architecture for High-Performance DHT Computation in Quantum-Dot Cellular Automata
Author :
Pudi, Vikramkumar ; Sridharan, K.
Author_Institution :
Dept. of Electr. Eng., IIT Madras, Chennai, India
Abstract :
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.
Keywords :
cellular automata; digital arithmetic; discrete transforms; parallel architectures; pipeline processing; QCA; QCADesigner; area-delay-cycle product; bit-serial pipelined architecture; discrete Hadamard transform; feedback latch; high-performance DHT computation; limited wiring; majority gates; multibit addition; quantum-dot cellular automata; Automata; Computer architecture; DH-HEMTs; Delays; Logic gates; Quantum dots; Transforms; 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).;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2014.2363519
