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Techniques for Power and Process Variation Minimization
| Content Provider | Scilit |
|---|---|
| Author | Clark, Lawrence T. De, Vivek |
| Copyright Year | 2018 |
| Description | For more than a decade, integrated circuit (IC) power has been steadily increasing due to higher integration and performance enabled by process scaling. As shrinking transistor dimensions are fabricated, and as the absolute value of the dimensions diminish, greater device variations must be addressed. Until recently, increased power was driven primarily by active switching power. Threshold voltages must be decreased to maintain performance at the lower supply voltages required by thinner oxides, however, raising drain to source leakage exponentially. Steeper doping gradients and higher electric fields increase other leakage components, giving rise in sub-0.25-μm generations to DC leakage currents that may limit overall power and performance in future chips. This comes on top of still increasing active power dissipation, driven by architectural changes such as greater parallelism and deeper pipelining. The latter 1-2implies fewer gates per stage and, in turn, requires more aggressive circuit techniques such as domino, which can also increase active power. Having fewer logic stages increases the susceptibility to process variations. Finally, as scaling requires lower voltages, in-die and system-level voltage variations are also increasingly problematic. Book Name: Low-Power Processors and Systems on Chips |
| Related Links | https://content.taylorfrancis.com/books/download?dac=C2006-0-10883-8&isbn=9781315220581&doi=10.1201/9781315220581-1&format=pdf |
| DOI | 10.1201/9781315220581-1 |
| Language | English |
| Publisher | Informa UK Limited |
| Publisher Date | 2018-10-03 |
| Access Restriction | Open |
| Subject Keyword | Book Name: Low-power Processors and Systems On Chips Hardware and Architecturee Circuit Fewer Leakage Voltages Process Variations Greater Increase Active Power |
| Content Type | Text |
| Resource Type | Chapter |
