AbstractI present a very personalized journey through more than three decades of computing for experimental high-energy physics, pointing out the enduring lessons that I learned. This is followed by a vision of how the computing environment will evolve in the coming ten years and the technical challenges that this will bring. I then address the scale and cost of high-energy physics software and examine the many current and future challenges, particularly those of management, funding and software-lifecycle management. Finally, I describe recent developments aimed at improving the overall coherence of high-energy physics software
Preserving data from past experiments and preserving the ability to perform analysis with old data i...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
At the Large Hadron Collider of CERN in Geneva particles such as protons are smashed onto each othe...
The needs of experimental high-energy physics for large-scale computing and data handling are explai...
Abstract High Energy Physics Experiments (HEP experiments in the following) have been at least in th...
We describe the modern trends in computing technologies in the context of Experimental High Energy P...
The paper reviews the evolution of the software in High Energy Physics from the time of expensive ma...
This paper is based on a transcript of my EPAC'08 presentation on advanced computing tools for accel...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
For all the time and frustration that high energy physicists expend interacting with computers, it i...
Abstract With the commissioning of the upgraded LHC-HL machine, High Energy Physics will face a lar...
Software parallelization allows an efficient use of available computing power to in- crease the perf...
An analysis of publications related to high energy physics computing in refereed journals is present...
An analysis of publications related to high energy physics computing in refereed journals is present...
The long-term sustainability of the high-energy physics (HEP) research software ecosystem is essenti...
Preserving data from past experiments and preserving the ability to perform analysis with old data i...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
At the Large Hadron Collider of CERN in Geneva particles such as protons are smashed onto each othe...
The needs of experimental high-energy physics for large-scale computing and data handling are explai...
Abstract High Energy Physics Experiments (HEP experiments in the following) have been at least in th...
We describe the modern trends in computing technologies in the context of Experimental High Energy P...
The paper reviews the evolution of the software in High Energy Physics from the time of expensive ma...
This paper is based on a transcript of my EPAC'08 presentation on advanced computing tools for accel...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
For all the time and frustration that high energy physicists expend interacting with computers, it i...
Abstract With the commissioning of the upgraded LHC-HL machine, High Energy Physics will face a lar...
Software parallelization allows an efficient use of available computing power to in- crease the perf...
An analysis of publications related to high energy physics computing in refereed journals is present...
An analysis of publications related to high energy physics computing in refereed journals is present...
The long-term sustainability of the high-energy physics (HEP) research software ecosystem is essenti...
Preserving data from past experiments and preserving the ability to perform analysis with old data i...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
At the Large Hadron Collider of CERN in Geneva particles such as protons are smashed onto each othe...