Achieving good performance on high-end computing systems is growing ever more challenging due to enormous scale, increasing architectural complexity, and increasing application complexity. To address these challenges in DOE's SciDAC-2 program, the Performance Engineering Research Institute (PERI) has embarked on an ambitious research plan encompassing performance modeling and prediction, automatic performance optimization and performance engineering of high profile applications. The principal new component is a research activity in automatic tuning software, which is spurred by the strong user preference for automatic tools
While parallel computing offers an attractive perspective for the future, developing efficient paral...
Developing and optimizing software applications for high performance and energy efficiency is a very...
The area of parallel and distributed computing has grown very fast in the past few decades with the ...
What are the ingredients of high-performing software? Software development, especially for large hi...
Modern computing platforms provide unprecedented amounts of raw computational power. But significant...
Tuning the performance of applications requires understanding the interactions between code and targ...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
System performance optimization has become an important and difficult field for large scientific com...
In the era of multicore and manycore processors, a system-atic engineering approach for software per...
The computational resources required in scientific research for key areas, such as medicine, physics...
Projecting performance of applications and hardware is important to several market segments—hardware...
Performance is the critical feature in the design and productivity of software systems. A key to imp...
High performance computing systems are characterized by a high level of complexity both on their har...
During two years of SciDAC PERC-2, our activities had centered largely on development of new perform...
This online course organised in cooperation with NHR@FAU covers performance engineering approaches o...
While parallel computing offers an attractive perspective for the future, developing efficient paral...
Developing and optimizing software applications for high performance and energy efficiency is a very...
The area of parallel and distributed computing has grown very fast in the past few decades with the ...
What are the ingredients of high-performing software? Software development, especially for large hi...
Modern computing platforms provide unprecedented amounts of raw computational power. But significant...
Tuning the performance of applications requires understanding the interactions between code and targ...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
System performance optimization has become an important and difficult field for large scientific com...
In the era of multicore and manycore processors, a system-atic engineering approach for software per...
The computational resources required in scientific research for key areas, such as medicine, physics...
Projecting performance of applications and hardware is important to several market segments—hardware...
Performance is the critical feature in the design and productivity of software systems. A key to imp...
High performance computing systems are characterized by a high level of complexity both on their har...
During two years of SciDAC PERC-2, our activities had centered largely on development of new perform...
This online course organised in cooperation with NHR@FAU covers performance engineering approaches o...
While parallel computing offers an attractive perspective for the future, developing efficient paral...
Developing and optimizing software applications for high performance and energy efficiency is a very...
The area of parallel and distributed computing has grown very fast in the past few decades with the ...