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Titlebook: Leakage in Nanometer CMOS Technologies; Siva G. Narendra,Anantha Chandrakasan Book 2006 Springer-Verlag US 2006 CMOS.architecture.micropro

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書(shū)目名稱Leakage in Nanometer CMOS Technologies
編輯Siva G. Narendra,Anantha Chandrakasan
視頻videohttp://file.papertrans.cn/583/582468/582468.mp4
概述Each chapter is written by a different combination of experts on the subjects.Includes supplementary material:
叢書(shū)名稱Integrated Circuits and Systems
圖書(shū)封面Titlebook: Leakage in Nanometer CMOS Technologies; Siva G. Narendra,Anantha Chandrakasan Book 2006 Springer-Verlag US 2006 CMOS.architecture.micropro
描述Scaling transistors into the nanometer regime has resulted in a dramatic increase in MOS leakage (i.e., off-state) current. Threshold voltages of transistors have scaled to maintain performance at reduced power supply voltages. Leakage current has become a major portion of the total power consumption, and in many scaled technologies leakage contributes 30-50% of the overall power consumption under nominal operating conditions. Leakage is important in a variety of different contexts. For example, in desktop applications, active leakage power (i.e., leakage power when the processor is computing) is becoming significant compared to switching power. In battery operated systems, standby leakage (i.e., leakage when the processor clock is turned off) dominates as energy is drawn over long idle periods. Increased transistor leakages not only impact the overall power consumed by a CMOS system, but also reduce the margins available for design due to the strong relationship between process variation and leakage power. It is essential for circuit and system designers to understand the components of leakage, sensitivity of leakage to different design parameters, and leakage mitigation technique
出版日期Book 2006
關(guān)鍵詞CMOS; architecture; microprocessor; testing; transistor
版次1
doihttps://doi.org/10.1007/0-387-28133-9
isbn_softcover978-1-4419-3826-8
isbn_ebook978-0-387-28133-9Series ISSN 1558-9412 Series E-ISSN 1558-9420
issn_series 1558-9412
copyrightSpringer-Verlag US 2006
The information of publication is updating

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Siva Narendra,Yibin Ye,Shekar Borkar,Vivek De,Anantha Chandrakasan-resolution microscopy techniques can provide in vivo trajectories of . receptors, and serve as a direct source of quantitative information on molecular processes. Single particle tracking (SPT) has been used to extract reaction kinetic parameters such as dimer lifetimes and diffusion rates. However
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Kimiyoshi Usami,Takayasu Sakurai-resolution microscopy techniques can provide in vivo trajectories of . receptors, and serve as a direct source of quantitative information on molecular processes. Single particle tracking (SPT) has been used to extract reaction kinetic parameters such as dimer lifetimes and diffusion rates. However
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Ali Keshavarzi,Kaushik Roydata for process understanding. In the context of hybrid systems, the focus is upon the steps commonly lumped under the category of analog to digital conversion (ADC), which is the interface between the continuous time world of the industrial process and the discrete time world of digital processing
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