Add to ORKGCharged particle reconstruction in dense environments, such as the detectors of the High Luminosity Large Hadron Collider (HL-LHC) is a challenging pattern recognition problem. Traditional tracking algorithms, such as the combinatorial Kalman Filter, have been used with great success in HEP experiments for years. However, these state-of-the-art techniques are inherently sequential and scale quadratically or worse with increased detector occupancy. The HEP.TrkX project is a pilot project with the aim to identify and develop cross-experiment solutions based on machine learning algorithms for track reconstruction. Machine learning algorithms bring a lot of potential to this problem thanks to their capability to model complex non-linear data de...
High Energy Physics experiments require fast and efficient methods toreconstruct the tracks of charg...
Theoretical and algorithmic advances, availability of data, and computing power are driving AI. Spec...
Particle tracking plays a pivotal role in almost all physics analyses at the Large Hadron Collider. ...
Particle track reconstruction in dense environments such as the detectors of the High Luminosity Lar...
Particle track reconstruction in dense environments such as the detectors of the High Luminosity Lar...
Particle track reconstruction in dense environments such as the detectors of the High Luminosity Lar...
Reconstruction of charged particle tracks is a central task in the processing of physics data at the...
The Exa.TrkX project has applied geometric learning concepts such as metric learning and graph neura...
The Exa.TrkX project has applied geometric learning concepts such as metric learning and graph neura...
Abstract The Exa.TrkX project has applied geometric learning concepts such as metric learning and gr...
The Exa.TrkX project has applied geometric learning concepts such as metric learning and graph neura...
For the past year, the HEP.TrkX project has been investigating machine learning solutions to LHC par...
Particle tracking is a challenging pattern recognition task at the Large Hadron Collider (LHC) and t...
High Energy Physics experiments require fast and efficient methods toreconstruct the tracks of charg...
The reconstruction of charged particle trajectories is one of the main requirement for being able...
High Energy Physics experiments require fast and efficient methods toreconstruct the tracks of charg...
Theoretical and algorithmic advances, availability of data, and computing power are driving AI. Spec...
Particle tracking plays a pivotal role in almost all physics analyses at the Large Hadron Collider. ...
Particle track reconstruction in dense environments such as the detectors of the High Luminosity Lar...
Particle track reconstruction in dense environments such as the detectors of the High Luminosity Lar...
Particle track reconstruction in dense environments such as the detectors of the High Luminosity Lar...
Reconstruction of charged particle tracks is a central task in the processing of physics data at the...
The Exa.TrkX project has applied geometric learning concepts such as metric learning and graph neura...
The Exa.TrkX project has applied geometric learning concepts such as metric learning and graph neura...
Abstract The Exa.TrkX project has applied geometric learning concepts such as metric learning and gr...
The Exa.TrkX project has applied geometric learning concepts such as metric learning and graph neura...
For the past year, the HEP.TrkX project has been investigating machine learning solutions to LHC par...
Particle tracking is a challenging pattern recognition task at the Large Hadron Collider (LHC) and t...
High Energy Physics experiments require fast and efficient methods toreconstruct the tracks of charg...
The reconstruction of charged particle trajectories is one of the main requirement for being able...
High Energy Physics experiments require fast and efficient methods toreconstruct the tracks of charg...
Theoretical and algorithmic advances, availability of data, and computing power are driving AI. Spec...
Particle tracking plays a pivotal role in almost all physics analyses at the Large Hadron Collider. ...