Future high energy physics experiments will require huge distributed computational infrastructures, called data grids, to satisfy their data processing and analysis needs. This paper records the current understanding of the demands that will be put on a data grid around 2006, by the hundreds of physicists working with data from the CMS experiment. The current understanding is recorded by defining a model of this CMS physics analysis application running on a `virtual data grid' as proposed by the GriPhyN project. The complete model consists of a hardware model, a data model, and an application workload model. The main utility of the HEPGRID2001 model is that it encodes high energy physics (HEP) application domain knowledge and makes it avail...
The CMS computing model has been distributed since early in the experiment preparation. In order for...
The computing infrastructures of the modern high energy physics experiments need to address an unpre...
Summary form only given, as follows. High Energy Physics computing has been confronted for a long ti...
Future high energy physics experiments will require huge distributed computational infrastructures, ...
This paper discusses the use of e-Science Grid in providing computational resources for modern inter...
The DO experiment at Fermilab's Tevatron will record several petabytes of data over the next five ye...
The CMS experiment is currently developing a computing system capable of serving, processing and arc...
on behalf of the CMS Computing and Core Software group The CMS collaboration has a long term need to...
This paper discusses the use of e-Science Grid in providing computational resources for modern inter...
A relevant part of the High Energy Physics research of the next 15 years will be performed at the CE...
The challenge of CERN experiments at the Large Hadron Collider (LHC), which will collect data at rat...
The demand for computing resources used for detector simulations and data analysis in HighEnergy Phy...
The demand for computing resources used for detector simulations and data analysis in HighEnergy Phy...
The goal of this project is the development of a novel environment to support globally distributed s...
The amount of data to be processed by experiments in high energy physics (HEP) will increase tremend...
The CMS computing model has been distributed since early in the experiment preparation. In order for...
The computing infrastructures of the modern high energy physics experiments need to address an unpre...
Summary form only given, as follows. High Energy Physics computing has been confronted for a long ti...
Future high energy physics experiments will require huge distributed computational infrastructures, ...
This paper discusses the use of e-Science Grid in providing computational resources for modern inter...
The DO experiment at Fermilab's Tevatron will record several petabytes of data over the next five ye...
The CMS experiment is currently developing a computing system capable of serving, processing and arc...
on behalf of the CMS Computing and Core Software group The CMS collaboration has a long term need to...
This paper discusses the use of e-Science Grid in providing computational resources for modern inter...
A relevant part of the High Energy Physics research of the next 15 years will be performed at the CE...
The challenge of CERN experiments at the Large Hadron Collider (LHC), which will collect data at rat...
The demand for computing resources used for detector simulations and data analysis in HighEnergy Phy...
The demand for computing resources used for detector simulations and data analysis in HighEnergy Phy...
The goal of this project is the development of a novel environment to support globally distributed s...
The amount of data to be processed by experiments in high energy physics (HEP) will increase tremend...
The CMS computing model has been distributed since early in the experiment preparation. In order for...
The computing infrastructures of the modern high energy physics experiments need to address an unpre...
Summary form only given, as follows. High Energy Physics computing has been confronted for a long ti...