TY - JOUR
T1 - Partially Reversible Pipelined QCA Circuits: Combining Low Power With High Throughput
T2 - Ieee Transactions on Nanotechnology
AU - Ottavi, Marco
AU - Pontarelli, Salvatore
AU - DeBenedictis, Erik
AU - Salsano, A.
AU - Frost-Murphy, Sarah
AU - Kogge, Peter
AU - Lombardi, Fabrizio
PY - 2011
Y1 - 2011
N2 - This paper introduces an architecture for quantum-dot cellular automata circuits with the potential for high throughput and low power dissipation. The combination of regions with Bennett clocking and memory storage combines the low power advantage of reversible computing with the high throughput advantage of pipelining. Two case studies are initially presented to evaluate the proposed pipelined architecture in terms of throughput and power consumption due to information dissipation. A general model for assessing power consumption is also proposed. This paper shows that the advantages possible by using a Bennett clocking scheme also depend on circuit topology, thus also confirming the validity of the proposed analysis and model.
AB - This paper introduces an architecture for quantum-dot cellular automata circuits with the potential for high throughput and low power dissipation. The combination of regions with Bennett clocking and memory storage combines the low power advantage of reversible computing with the high throughput advantage of pipelining. Two case studies are initially presented to evaluate the proposed pipelined architecture in terms of throughput and power consumption due to information dissipation. A general model for assessing power consumption is also proposed. This paper shows that the advantages possible by using a Bennett clocking scheme also depend on circuit topology, thus also confirming the validity of the proposed analysis and model.
U2 - 10.1109/TNANO.2011.2147796
DO - 10.1109/TNANO.2011.2147796
M3 - Article
SN - 1536-125X
VL - 10
SP - 1383
EP - 1393
JO - IEEE transactions on nanotechnology
JF - IEEE transactions on nanotechnology
IS - 6
ER -