Modeling the physics of a detector's response to particle collisions is one of the most CPU intensive and time consuming aspects of LHC computing. With the upcoming high-luminosity upgrade and the need to have even larger simulated datasets to support physics analysis, the development of new faster simulation techniques but with sufficiently accurate physics performance is required. The current ATLAS fast calorimeter simulation technique, based on parametrizations of the calorimeter response in the longitudinal and transverse direction given a single particle’s eta and energy, is being updated to higher accuracy including machine learning approaches. Here we report on a prototype using cutting edge machine learning approaches to learn the a...
While simulation is a crucial cornerstone of modern high energy physics, it places a heavy burden on...
Generative machine learning models offer a promising way to efficiently amplify classical Monte Carl...
Fast calorimeter simulation in LHCb In HEP experiments CPU resources required by MC simulations are...
Modeling the physics of the detector response to particle collisions is one of the most CPU intensiv...
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 need for large scale and high fidelity simulated samples for the extensive physics program of th...
The ATLAS physics program relies on very large samples of GEANT4 simulated events, which provide a h...
Modeling the detector response to collisions is one of the most CPU expensive and time-consuming asp...
The need for large-scale production of highly accurate simulated event samples for the extensive phy...
International audienceDetectors of High Energy Physics experiments, such as the ATLAS dectector [1] ...
The simulation of the passage of particles through the detectors of the Large Hadron Collider (LHC) ...
The extensive physics program of the ATLAS experiment at the Large Hadron Collider (LHC) relies on l...
The future need of simulated events by the LHC experiments and their High Luminosity upgrades, is ex...
Physicists at the Large Hadron Collider (LHC) rely on detailed simulations of particle collisions to...
While simulation is a crucial cornerstone of modern high energy physics, it places a heavy burden on...
Generative machine learning models offer a promising way to efficiently amplify classical Monte Carl...
Fast calorimeter simulation in LHCb In HEP experiments CPU resources required by MC simulations are...
Modeling the physics of the detector response to particle collisions is one of the most CPU intensiv...
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 need for large scale and high fidelity simulated samples for the extensive physics program of th...
The ATLAS physics program relies on very large samples of GEANT4 simulated events, which provide a h...
Modeling the detector response to collisions is one of the most CPU expensive and time-consuming asp...
The need for large-scale production of highly accurate simulated event samples for the extensive phy...
International audienceDetectors of High Energy Physics experiments, such as the ATLAS dectector [1] ...
The simulation of the passage of particles through the detectors of the Large Hadron Collider (LHC) ...
The extensive physics program of the ATLAS experiment at the Large Hadron Collider (LHC) relies on l...
The future need of simulated events by the LHC experiments and their High Luminosity upgrades, is ex...
Physicists at the Large Hadron Collider (LHC) rely on detailed simulations of particle collisions to...
While simulation is a crucial cornerstone of modern high energy physics, it places a heavy burden on...
Generative machine learning models offer a promising way to efficiently amplify classical Monte Carl...
Fast calorimeter simulation in LHCb In HEP experiments CPU resources required by MC simulations are...