AbstractTwo decades of microprocessor architecture driven by quantitative 90/10 optimization has delivered an extraordinary 1000-fold improvement in microprocessor performance, enabled by transistor scaling which improved density, speed, and energy. Recent generations of technology have produced limited benefits in transistor speed and power, so as a result the industry has turned to multicore parallelism for performance scaling. Long-range studies [1,2] indicate that radical approaches are needed in the coming decade – extreme parallelism, near-threshold voltage scaling (and resulting poor single-thread performance), and tolerance of extreme variability – are required to maximize energy efficiency and compute density. These changes create ...
To enable a new generation of digital computing applications, the greatest challenge is to provide a...
Conventional compute and memory systems scaling to achieve higher performance and lower cost and pow...
The past 10 years have delivered two significant revolutions. (1) Microprocessor design has been tra...
AbstractTwo decades of microprocessor architecture driven by quantitative 90/10 optimization has del...
Journal ArticleThe ever increasing demand for high clock speeds and the desire to exploit abundant ...
Increased transistor integration will soon allow us to build processor chips with over 1,000 cores. ...
From the smartphone to the data center, the world today demands computers that are both responsive a...
In light of the end of Dennard scaling, significant design changes in the core microarchitecture are...
Nowadays, reducing energy consumption and improving the energy efficiency of computing systems becom...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
University of Minnesota Ph.D. dissertation. March 2019. Major: Electrical/Computer Engineering. Adv...
Coordinated Power Management in Heterogeneous Processors Indrani Paul 164 pages Directed by Dr. S...
The end of Dennardian scaling in advanced technologies brought about new architectural templates to ...
Energy efficiency has been a first order constraint in the design of micro processors for the last d...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
To enable a new generation of digital computing applications, the greatest challenge is to provide a...
Conventional compute and memory systems scaling to achieve higher performance and lower cost and pow...
The past 10 years have delivered two significant revolutions. (1) Microprocessor design has been tra...
AbstractTwo decades of microprocessor architecture driven by quantitative 90/10 optimization has del...
Journal ArticleThe ever increasing demand for high clock speeds and the desire to exploit abundant ...
Increased transistor integration will soon allow us to build processor chips with over 1,000 cores. ...
From the smartphone to the data center, the world today demands computers that are both responsive a...
In light of the end of Dennard scaling, significant design changes in the core microarchitecture are...
Nowadays, reducing energy consumption and improving the energy efficiency of computing systems becom...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
University of Minnesota Ph.D. dissertation. March 2019. Major: Electrical/Computer Engineering. Adv...
Coordinated Power Management in Heterogeneous Processors Indrani Paul 164 pages Directed by Dr. S...
The end of Dennardian scaling in advanced technologies brought about new architectural templates to ...
Energy efficiency has been a first order constraint in the design of micro processors for the last d...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
To enable a new generation of digital computing applications, the greatest challenge is to provide a...
Conventional compute and memory systems scaling to achieve higher performance and lower cost and pow...
The past 10 years have delivered two significant revolutions. (1) Microprocessor design has been tra...