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Synopsis
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 techniques in nanometer technologies. This book provides an in-depth treatment of these issues for researchers and product designers.
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Synopsis
The goal of "Leakage in Nanometer CMOS Technologies" is to provide ample detail so that the reader can understand why leakage power components are becoming increasingly relevant in CMOS systems that use nanometer scale MOS devices. Leakage current sources at the MOS device level including sub-threshold and different types of tunneling are discussed in detail. The book covers promising solutions at the device, circuit, and architecture levels of abstraction. Manifestation of these MOS device leakage components at the full chip level depends considerably on several aspects including the nature of the circuit block, its state, its application workload, and Process/Voltage/Temperature conditions. The sensitivity of the various MOS leakage sources to these conditions are described from the first principles. The resulting manifestations are discussed at length to help the reader understand the effectiveness of leakage power reduction solutions under these different conditions. Case studies are presented to highlight real world examples that reap the benefits of leakage power reduction solutions.
Finally, the book highlights different device design choices that exist to mitigate increases in the leakage components as technology scales."About this title" may belong to another edition of this title.
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Gebunden. Condition: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Each chapter is written by a different combination of experts on the subjectsEach chapter is written by a different combination of experts on the subjectsIncludes supplementary material: sn.pub/extrasCovers in detail promising solut. Seller Inventory # 5909537
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Buch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Covers in detail promising solutions at the device, circuit, and architecture levels of abstraction after first explaining the sensitivity of the various MOS leakage sources to these conditions from the first principles. Also treated are the resulting effects so the reader understands the effectiveness of leakage power reduction solutions under these different conditions. Case studies supply real-world examples that reap the benefits of leakage power reduction solutions as the book highlights different device design choices that exist to mitigate increases in the leakage components as technology scales. 320 pp. Englisch. Seller Inventory # 9780387257372
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Leakage in Nanometer CMO Technologies
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Leakage in Nanometer CMOS Technologies
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Springer US, Springer New York, 2005
ISBN 10: 0387257373
ISBN 13: 9780387257372
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Buch. Condition: Neu. Druck auf Anfrage Neuware - Printed after ordering - 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 techniques in nanometer technologies. This book provides an in-depth treatment of these issues for researchers and product designers. Seller Inventory # 9780387257372
Quantity: 1 available