Systematically exploring power, performance, and energy sheds new light on the clash of two trends that unfolded over the past decade: the rise of parallel processors in response to technology constraints on power, clock speed, and wire delay; and the rise of managed high-level, portable programming languages
Improving software performance by deploying parallel software on multiple processors often comes at ...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Embedded systems invade our daily life in a a generally invisible manner and represent the largest p...
The past 10 years have delivered two significant revolutions. (1) Microprocessor design has been tra...
Two significant revolutions are underway in computing. (1) On the hardware side, exponentially growi...
This paper reports and analyzes measured chip power and performance on five process technology gener...
High-performance computing has evolved remarkably over the past 20 years, and that progress is likel...
Rapidly increasing chip densities and processor speeds have made energy dissipation a leading concer...
The end of Dennard scaling, as well as the arrival of the post-Moore era, has meant a big change in ...
Motivation: Even though many studies examine the energy efficiency of hardware and embedded systems,...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
On the hardware side, asymmetric multicore processors present software with the challenge and opport...
To find out where software is headed, experts in academia and industry share their vision of softwar...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
A variety of computer systems from HPC to mobile systems are power limited and performance sensitive...
Improving software performance by deploying parallel software on multiple processors often comes at ...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Embedded systems invade our daily life in a a generally invisible manner and represent the largest p...
The past 10 years have delivered two significant revolutions. (1) Microprocessor design has been tra...
Two significant revolutions are underway in computing. (1) On the hardware side, exponentially growi...
This paper reports and analyzes measured chip power and performance on five process technology gener...
High-performance computing has evolved remarkably over the past 20 years, and that progress is likel...
Rapidly increasing chip densities and processor speeds have made energy dissipation a leading concer...
The end of Dennard scaling, as well as the arrival of the post-Moore era, has meant a big change in ...
Motivation: Even though many studies examine the energy efficiency of hardware and embedded systems,...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
On the hardware side, asymmetric multicore processors present software with the challenge and opport...
To find out where software is headed, experts in academia and industry share their vision of softwar...
Energy consumption is one of the top challenges for achieving the next generation of supercomputing....
A variety of computer systems from HPC to mobile systems are power limited and performance sensitive...
Improving software performance by deploying parallel software on multiple processors often comes at ...
As the field of supercomputing continues its relentless push towards greater speeds and higher level...
Embedded systems invade our daily life in a a generally invisible manner and represent the largest p...