Reversible Logic Based Ultra Low Power Arithmetic Logic Circuit Design - Chanda, Manash;Chakraborty, Ananda Sankar
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Modern Computers are faster, more compact and more complex than their predecessors at the cost of increased power consumption. Energy from the inputs not transferred to the outputs is dissipated as heat and in irreversible circuits, while erasing a single bit of information, according to Landauer's Principle the bit energy is dissipated as heat. So, some information about the inputs is erased every time a logic operation is performed in irreversible manner. Reversible logic is a scheme where this energy dissipation due to irreversibility is minimized or sometimes almost nullified by utilizing…mehr

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Produktbeschreibung
Modern Computers are faster, more compact and more complex than their predecessors at the cost of increased power consumption. Energy from the inputs not transferred to the outputs is dissipated as heat and in irreversible circuits, while erasing a single bit of information, according to Landauer's Principle the bit energy is dissipated as heat. So, some information about the inputs is erased every time a logic operation is performed in irreversible manner. Reversible logic is a scheme where this energy dissipation due to irreversibility is minimized or sometimes almost nullified by utilizing the bit energy of previous results. In this book the concept has been illustrated and applied to construct Ultra Low Power Arithmetic Logic Circuits.
Autorenporträt
Manash Chanda,working as Ass.Prof. at MSIT,Kolkata,India, graduated from Kalyani Govt. Engg. College in ECE in 2005 and post graduated from Jadavpur University in VLSI in 2008. He was the recipient of University GOLD medal for highest rank. He has published more than 15 papers in Int. referred journals and IEEE conferences in low power VLSI design.