The ATLAS physics program relies on very large samples of GEANT4 simulated events, which provide a highly detailed and accurate simulation of the ATLAS detector. However, this accuracy comes with a high price in CPU, and the sensitivity of many physics analyses is already limited by the available Monte Carlo statistics and will be even more so in the future. Therefore, sophisticated fast simulation tools are developed. In Run-3 we aim to replace the calorimeter shower simulation for most samples with a new parametrized description of longitudinal and lateral energy deposits, including machine learning approaches, to achieve a fast and accurate description. Looking further ahead, prototypes are being developed using cutting edge machine lear...
ATLAS relies on very large samples of simulated events for delivering high-quality and competitive p...
ATLAS relies on very large samples of simulated events for delivering high-quality and competitive p...
The ATLAS experiment at the Large Hadron Collider has a broad physics programme ranging from precisi...
The ATLAS physics program relies on very large samples of GEANT4 simulated events, which provide a h...
The ATLAS physics program relies on very large samples of GEANT4 simulated events, which provide a h...
The ATLAS physics program relies on very large samples of simulated events. Most of these samples ar...
Modeling the physics of a detector's response to particle collisions is one of the most CPU intensiv...
Modeling the physics of the detector response to particle collisions is one of the most CPU intensiv...
Modeling the detector response to collisions is one of the most CPU expensive and time-consuming asp...
The need for large scale and high fidelity simulated samples for the extensive physics program of th...
International audienceDetectors of High Energy Physics experiments, such as the ATLAS dectector [1] ...
The ATLAS physics program at the LHC relies on very large samples of simulated events. Most of these...
The simulation of the passage of particles through the detectors of the Large Hadron Collider (LHC) ...
The need for large-scale production of highly accurate simulated event samples for the extensive phy...
The extensive physics program of the ATLAS experiment at the Large Hadron Collider (LHC) relies on l...
ATLAS relies on very large samples of simulated events for delivering high-quality and competitive p...
ATLAS relies on very large samples of simulated events for delivering high-quality and competitive p...
The ATLAS experiment at the Large Hadron Collider has a broad physics programme ranging from precisi...
The ATLAS physics program relies on very large samples of GEANT4 simulated events, which provide a h...
The ATLAS physics program relies on very large samples of GEANT4 simulated events, which provide a h...
The ATLAS physics program relies on very large samples of simulated events. Most of these samples ar...
Modeling the physics of a detector's response to particle collisions is one of the most CPU intensiv...
Modeling the physics of the detector response to particle collisions is one of the most CPU intensiv...
Modeling the detector response to collisions is one of the most CPU expensive and time-consuming asp...
The need for large scale and high fidelity simulated samples for the extensive physics program of th...
International audienceDetectors of High Energy Physics experiments, such as the ATLAS dectector [1] ...
The ATLAS physics program at the LHC relies on very large samples of simulated events. Most of these...
The simulation of the passage of particles through the detectors of the Large Hadron Collider (LHC) ...
The need for large-scale production of highly accurate simulated event samples for the extensive phy...
The extensive physics program of the ATLAS experiment at the Large Hadron Collider (LHC) relies on l...
ATLAS relies on very large samples of simulated events for delivering high-quality and competitive p...
ATLAS relies on very large samples of simulated events for delivering high-quality and competitive p...
The ATLAS experiment at the Large Hadron Collider has a broad physics programme ranging from precisi...