CMOS technology scaling improves the speed and functionality of microprocessors by reducing the size of transistors. Static power dissipation also increases as a result of scaling however, and has been identified as a limiting factor in technology scaling. As current technology approaches that limit, techniques are required both at the technology-level and in the architecture design to reduce sub-threshold leakage, which accounts for the majority of static power dissipation. This thesis presents an approach to predict the idle periods of execution units at runtime and power-gate them during these periods to eliminate their static power leakage. We exploit similar execution characteristics across loop iterations to build a prediction o...
Rapid device-miniaturization keeps on inducing challenges in building energy efficient microprocesso...
Thread imbalance is inevitable for multithreaded applications due to the necessity of synchronizatio...
The increasing transistor density due to Moore's law scaling continues to drive the improvement in p...
CMOS technology scaling improves the speed and functionality of microprocessors by reducing the size...
Green computing techniques aim to reduce the power foot print of modern embedded devices with partic...
Energy efficiency is of the utmost importance in modern high-performance embedded processor design. ...
Institute for Computing Systems ArchitectureSuperscalar processors contain large, complex structures...
Static timing analysis provides the basis for setting the clock period of a microprocessor core, bas...
Today's high performance processors operate in the GHz frequency range and dissipate approximat...
Over the past decade, low power, energy efficient VLSI design has been the focal point of active res...
With the constant advances in technology that lead to the increasing of the transistor count and pro...
Conventional front-end designs attempt to maximize the number of "in-flight" instructions in the pip...
As process technology shrinks, the transistor count on CPUs has increased. The breakdown of Dennard ...
Thesis (Ph.D.)--University of Washington, 2021System-on-Chips (SoC) are the engines of modern comput...
My thesis explores the effectiveness of software techniques that bend digital abstractions in order ...
Rapid device-miniaturization keeps on inducing challenges in building energy efficient microprocesso...
Thread imbalance is inevitable for multithreaded applications due to the necessity of synchronizatio...
The increasing transistor density due to Moore's law scaling continues to drive the improvement in p...
CMOS technology scaling improves the speed and functionality of microprocessors by reducing the size...
Green computing techniques aim to reduce the power foot print of modern embedded devices with partic...
Energy efficiency is of the utmost importance in modern high-performance embedded processor design. ...
Institute for Computing Systems ArchitectureSuperscalar processors contain large, complex structures...
Static timing analysis provides the basis for setting the clock period of a microprocessor core, bas...
Today's high performance processors operate in the GHz frequency range and dissipate approximat...
Over the past decade, low power, energy efficient VLSI design has been the focal point of active res...
With the constant advances in technology that lead to the increasing of the transistor count and pro...
Conventional front-end designs attempt to maximize the number of "in-flight" instructions in the pip...
As process technology shrinks, the transistor count on CPUs has increased. The breakdown of Dennard ...
Thesis (Ph.D.)--University of Washington, 2021System-on-Chips (SoC) are the engines of modern comput...
My thesis explores the effectiveness of software techniques that bend digital abstractions in order ...
Rapid device-miniaturization keeps on inducing challenges in building energy efficient microprocesso...
Thread imbalance is inevitable for multithreaded applications due to the necessity of synchronizatio...
The increasing transistor density due to Moore's law scaling continues to drive the improvement in p...