Self-Sleep Circuits for Low Power VLSI Design - 7 Angebote vergleichen
Bester Preis: € 52,45 (vom 03.12.2019)1
Self-Sleep Circuits for Low Power VLSI Design - With an Emphasis on MTCMOS
DE PB NW
ISBN: 9783330001947 bzw. 3330001941, in Deutsch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Self-Sleep Circuits for Low Power VLSI Design: The present-day market has high demand for high functionality portable electronic devices whereas high performance chips are exceeding power dissipation limits. The feature size of the transistor came down drastically that power per unit area is more and demanding heat removal and cooling cost. Leakage Power is the prime factor in deep sub-micron designs. As the technology advances, leakage power dominates the switching power. This book emphasises the reduction of leakage power in standby mode using self-sleep circuits in distributed MTCMOS. The sizing and routing overheads in MTCMOS with sleep devices are reduced by using the self-sleep circuit. The effort is to target the challenges and design complexities related to sleep signal routing in distributed MTCMOS designs. The self-sleep circuit maintains good sleep signal integrity as it takes the well-defined clock signal of the chip as its only input. Self-sleep circuits are discussed which are incorporated in the designs of simple General Purpose Microprocessor and Fast Fourier Transform (FFT) Processor. Englisch, Taschenbuch.
Self-Sleep Circuits for Low Power VLSI Design: The present-day market has high demand for high functionality portable electronic devices whereas high performance chips are exceeding power dissipation limits. The feature size of the transistor came down drastically that power per unit area is more and demanding heat removal and cooling cost. Leakage Power is the prime factor in deep sub-micron designs. As the technology advances, leakage power dominates the switching power. This book emphasises the reduction of leakage power in standby mode using self-sleep circuits in distributed MTCMOS. The sizing and routing overheads in MTCMOS with sleep devices are reduced by using the self-sleep circuit. The effort is to target the challenges and design complexities related to sleep signal routing in distributed MTCMOS designs. The self-sleep circuit maintains good sleep signal integrity as it takes the well-defined clock signal of the chip as its only input. Self-sleep circuits are discussed which are incorporated in the designs of simple General Purpose Microprocessor and Fast Fourier Transform (FFT) Processor. Englisch, Taschenbuch.
2
Self-Sleep Circuits for Low Power VLSI Design
DE NW
ISBN: 9783330001947 bzw. 3330001941, in Deutsch, neu.
Lieferung aus: Deutschland, Lieferzeit: 6 Tage.
The present-day market has high demand for high functionality portable electronic devices whereas high performance chips are exceeding power dissipation limits. The feature size of the transistor came down drastically that power per unit area is more and demanding heat removal and cooling cost. Leakage Power is the prime factor in deep sub-micron designs. As the technology advances, leakage power dominates the switching power. This book emphasises the reduction of leakage power in standby mode using self-sleep circuits in distributed MTCMOS. The sizing and routing overheads in MTCMOS with sleep devices are reduced by using the self-sleep circuit. The effort is to target the challenges and design complexities related to sleep signal routing in distributed MTCMOS designs. The self-sleep circuit maintains good sleep signal integrity as it takes the well-defined clock signal of the chip as its only input. Self-sleep circuits are discussed which are incorporated in the designs of simple General Purpose Microprocessor and Fast Fourier Transform (FFT) Processor.
The present-day market has high demand for high functionality portable electronic devices whereas high performance chips are exceeding power dissipation limits. The feature size of the transistor came down drastically that power per unit area is more and demanding heat removal and cooling cost. Leakage Power is the prime factor in deep sub-micron designs. As the technology advances, leakage power dominates the switching power. This book emphasises the reduction of leakage power in standby mode using self-sleep circuits in distributed MTCMOS. The sizing and routing overheads in MTCMOS with sleep devices are reduced by using the self-sleep circuit. The effort is to target the challenges and design complexities related to sleep signal routing in distributed MTCMOS designs. The self-sleep circuit maintains good sleep signal integrity as it takes the well-defined clock signal of the chip as its only input. Self-sleep circuits are discussed which are incorporated in the designs of simple General Purpose Microprocessor and Fast Fourier Transform (FFT) Processor.
3
Self-Sleep Circuits for Low Power VLSI Design
~EN NW AB
ISBN: 9783330001947 bzw. 3330001941, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Deutschland, Lieferzeit: 5 Tage.
The present-day market has high demand for high functionality portable electronic devices whereas high performance chips are exceeding power dissipation limits. The feature size of the transistor came down drastically that power per unit area is more and demanding heat removal and cooling cost. Leakage Power is the prime factor in deep sub-micron designs. As the technology advances, leakage power dominates the switching power. This book emphasises the reduction of leakage power in standby mode using self-sleep circuits in distributed MTCMOS. The sizing and routing overheads in MTCMOS with sleep devices are reduced by using the self-sleep circuit. The effort is to target the challenges and design complexities related to sleep signal routing in distributed MTCMOS designs. The self-sleep circuit maintains good sleep signal integrity as it takes the well-defined clock signal of the chip as its only input. Self-sleep circuits are discussed which are incorporated in the designs of simple General Purpose Microprocessor and Fast Fourier Transform (FFT) Processor.
The present-day market has high demand for high functionality portable electronic devices whereas high performance chips are exceeding power dissipation limits. The feature size of the transistor came down drastically that power per unit area is more and demanding heat removal and cooling cost. Leakage Power is the prime factor in deep sub-micron designs. As the technology advances, leakage power dominates the switching power. This book emphasises the reduction of leakage power in standby mode using self-sleep circuits in distributed MTCMOS. The sizing and routing overheads in MTCMOS with sleep devices are reduced by using the self-sleep circuit. The effort is to target the challenges and design complexities related to sleep signal routing in distributed MTCMOS designs. The self-sleep circuit maintains good sleep signal integrity as it takes the well-defined clock signal of the chip as its only input. Self-sleep circuits are discussed which are incorporated in the designs of simple General Purpose Microprocessor and Fast Fourier Transform (FFT) Processor.
4
Self-Sleep Circuits for Low Power VLSI Design als von Esther Rani Thuraka
DE HC NW
ISBN: 9783330001947 bzw. 3330001941, in Deutsch, gebundenes Buch, neu.
Lieferung aus: Deutschland, zzgl. Versandkosten.
Self-Sleep Circuits for Low Power VLSI Design ab 69.9 EURO With an Emphasis on MTCMOS, Self-Sleep Circuits for Low Power VLSI Design ab 69.9 EURO With an Emphasis on MTCMOS.
Self-Sleep Circuits for Low Power VLSI Design ab 69.9 EURO With an Emphasis on MTCMOS, Self-Sleep Circuits for Low Power VLSI Design ab 69.9 EURO With an Emphasis on MTCMOS.
6
Self-Sleep Circuits for Low Power VLSI Design
~EN PB NW
ISBN: 3330001941 bzw. 9783330001947, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Self-Sleep Circuits for Low Power VLSI Design ab 69.9 € als Taschenbuch: With an Emphasis on MTCMOS. Aus dem Bereich: Bücher, Wissenschaft, Technik,.
7
Self-Sleep Circuits for Low Power VLSI Design als von
DE HC NW
ISBN: 9783330001947 bzw. 3330001941, in Deutsch, LAP Lambert Academic Publishing, gebundenes Buch, neu.
Self-Sleep Circuits for Low Power VLSI Design:With an Emphasis on MTCMOS Esther Rani Thuraka Self-Sleep Circuits for Low Power VLSI Design:With an Emphasis on MTCMOS Esther Rani Thuraka.
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