As the mainstream computing world has shifted from multi-core to many-core platforms, the situation for software developers has changed as well. With the numerous hardware and software options available, choices balancing programmability and performance are becoming a significant challenge. The expanding multiplicative dimensions of performance offer a growing number of possibilities that need to be assessed and addressed on several levels of abstraction. This paper reviews the major tradeoffs forced upon the software domain by the changing landscape of parallel technologies – hardware and software alike. Recent developments, paradigms and techniques are considered with respect to their impact on the rather traditional HEP programming model...
In the coming years, HEP data processing will need to exploit parallelism on present and future hard...
The paper reviews the evolution of the software in High Energy Physics from the time of expensive ma...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...
As the mainstream computing world has shifted from multi-core to many-core platforms, the situation ...
As researchers have reached the practical limits of processor performance improvements by frequency ...
As Moore's Law continues to deliver more and more transistors, the mainstream processor industry is ...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
We describe the modern trends in computing technologies in the context of Experimental High Energy P...
Software parallelization allows an efficient use of available computing power to in- crease the perf...
The future High Energy Physics experiments, based on upgraded or next generation particle accelerato...
Publications in scholarly journals establish the body of knowledge deriving from scientific research...
CHEP Conferences are dedicated to a quite specific scientific computing domain, and deal with rather...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
The long-term sustainability of the high-energy physics (HEP) research software ecosystem is essenti...
In the coming years, HEP data processing will need to exploit parallelism on present and future hard...
The paper reviews the evolution of the software in High Energy Physics from the time of expensive ma...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...
As the mainstream computing world has shifted from multi-core to many-core platforms, the situation ...
As researchers have reached the practical limits of processor performance improvements by frequency ...
As Moore's Law continues to deliver more and more transistors, the mainstream processor industry is ...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
We describe the modern trends in computing technologies in the context of Experimental High Energy P...
Software parallelization allows an efficient use of available computing power to in- crease the perf...
The future High Energy Physics experiments, based on upgraded or next generation particle accelerato...
Publications in scholarly journals establish the body of knowledge deriving from scientific research...
CHEP Conferences are dedicated to a quite specific scientific computing domain, and deal with rather...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
The long-term sustainability of the high-energy physics (HEP) research software ecosystem is essenti...
In the coming years, HEP data processing will need to exploit parallelism on present and future hard...
The paper reviews the evolution of the software in High Energy Physics from the time of expensive ma...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...