Search Results - "Chaves, Jeferson F."

Designing Partially Reversible Field-Coupled Nanocomputing Circuits by Chaves, Jeferson F., Ribeiro, Marco A., Torres, Frank Sill, Neto, Omar P. Vilela

“…Energy scalability of future digital systems is bounded by fundamental thermodynamic limits. Even worse, emerging technologies and process improvements,…”
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On the impact of the synchronization constraint and interconnections in quantum-dot cellular automata by Sill Torres, Frank, Silva, Pedro A., Fontes, Geraldo, Walter, Marcel, Nacif, José Augusto M., Ferreira, Ricardo Santos, Vilela Neto, Omar Paranaiba, Chaves, Jeferson F., Wille, Robert, Niemann, Philipp, Große, Daniel, Drechsler, Rolf

“…Quantum-dot Cellular Automata (QCA) is an emerging nanotechnology with remarkable performance and energy efficiency. Computation and information transfer in…”
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Energy efficient QCA circuits design: simulating and analyzing partially reversible pipelines by Chaves, Jeferson F., Ribeiro, Marco A., Silva, Leandro M., de Assis, Leonardo M. B. C., Torres, Marzo S., Vilela Neto, Omar P.

“…Energy efficiency is an important issue to consider when it comes to digital systems development. Despite all the accomplishments in CMOS evolution, there has…”
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Exploring Nanomagnetic Logic with Bennett Clocking by Rodrigues Lopes Silva, Pedro Arthur, Chaves, Jeferson F., Nacif, Jose Augusto M., Ferreira, Ricardo, Vilela Neto, Omar Paranaiba

“…Improving power consumption in integrated circuits can have significant benefits such as increased efficiency, longer battery life for mobile devices, and…”
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Energy reduction opportunities in Field-Coupled Nanocomputing Adders by Fiche, Joao N. C., Sousa, Marco T. D., Chaves, Jeferson F., Ribeiro, Marco A., Silva, Leandro M., Vieira, Luiz F. M., Vilela Neto, Omar P.

“…According to the International Roadmap for Devices and Systems, Field-Coupled Nanocomputing devices and reversible computing techniques are promising topics in…”
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Towards reversible QCA computers: Reversible gates and ALU by Chaves, Jeferson F., Silva, Douglas S., Camargos, Victor V., Vilela Neto, Omar P.

“…This work presents a novel implementation of reversible gates and reversible ALU, all based in quantum-dot cellular automata (QCA). QCA has been considered as…”
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Enhancing Fundamental Energy Limits of Field-Coupled Nanocomputing Circuits by Chaves, Jeferson F., Ribeiro, Marco A., Sill Torres, Frank, Vilela Neto, Omar P.

“…Energy dissipation of future integrated systems, consisting of a myriad of devices, is a challenge that cannot be solved solely by emerging technologies and…”
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An evolutionary search for energy recovery opportunities in partially reversible FCN circuits by Gomes, Bernardo N., Sousa, Marco T. D., Chaves, Jeferson F., Vilela Neto, Omar P.

“…Power dissipation is more important than ever when designing digital systems. Moreover, evaluating emerging technologies' boundaries is essential as…”
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Improving Energy Efficiency on Partially Reversible Pipelined QCA Circuits by Ribeiro, Marco A., Carvalho, Iago A., Chaves, Jeferson F., Vilela Neto, Omar P.

“…Recent studies show that Field-Coupled Nanocomputing devices, such as Quantum-dot Cellular Automata (QCA), can reach ultra-low power consumption, notably when…”
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Improving Energy Efficiency of Field-Coupled Nanocomputing Circuits by Evolutionary Synthesis by Ribeiro, Marco A., Carvalho, Iago A., Chaves, Jeferson F., Pappa, Gisele L., Vilela Neto, Omar P.

“…Moore's law provoked decades of advances in computer's performance due to transistor's evolution. Despite all success in its improvement, current technology is…”
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Exploration of the Synchronization Constraint in Quantum-dot Cellular Automata by Sill Torres, Frank, Silva, Pedro Arthur, Fontes, Geraldo, Nacif, Jose Augusto, Santos Ferreira, Ricardo, Paranaiba Vilela Neto, Omar, Chaves, Jeferson, Drechsler, Rolf

“…Quantum-dot Cellular Automata (QCA) is a field-coupled nanotechnology which might enable design with high performance and extraordinary low energy dissipation…”
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Optimal Energy Efficiency and Throughput on Partially Reversible Pipelined QCA Circuits by Ribeiro, Marco A., Carvalho, Iago A., Neto, Omar P. Vilela, Chaves, Jeferson F.

“…The low-power aspects for Quantum-dot Cellular Automata (QCA) devices are evaluated and discussed. The optimal power and throughput tradeoff is presented in…”
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