Titlebook: Low-Power VLSI Circuits and Systems; Ajit Pal Textbook 2015 Springer India 2015 Adiabatic Switching Circuits.Battery Aware Synthesis.CMOS

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Sources of Power Dissipation,ime when we say low power, we actually mean low energy. Various sources of power dissipations, both static and dynamic, are introduced first. The expression for short-circuit power dissipation, which is one of the dynamic power dissipations, is derived. Switching power dissipation, which occurs due

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Supply Voltage Scaling for Low Power,oltage scaling for low power are highlighted. Then, the difference between constant-field and constant-voltage scaling are explained in the context of feature size scaling. The short-channel effects arising out of feature size scaling are also discussed. Architecture-level approaches for low power,

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Switched Capacitance Minimization,mize switched capacitance, a hardware–software codesign approach is presented. This is followed by the use of bus encoding to reduce switching activity. Both redundant and nonredundant approaches are available. A nonredundant bus-encoding technique such as Gray coding technique for address bus is ex

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Adiabatic Logic Circuits,erence between adiabatic charging and conventional charging of a capacitor is highlighted. As amplification is a fundamental operation performed by electronic circuits to increase the current or voltage drive, adiabatic amplification is considered. The steps of realization of adiabatic logic gates s

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Battery-Aware Systems,ity. Powering laptops, handhelds, cell phones, pagers, watches, medical devices, and many other modern gadgets, batteries play a crucial role in supporting today’s cutting-edge technologies. The widening gap between the increasing power consumption and power density of the popular battery technologi

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Low-Power Software Approaches,er-aware software will not require any additional hardware, but will perform suitable optimization of software. Software optimization techniques can be broadly classified into two categories: machine-independent and machine-dependent. Machine-independent optimization techniques do not require any kn

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