This note describes a new algorithm for the VELO Pixel track reconstruction for the LHCb upgrade. Our tracking algorithm implementation was designed with parallelism in mind for an easy adoption in many-core architectures, like GPGPUs. First, CPU vectorization units are explored as an attempts to speedup a critical section of the current implementation. Then, studies on parallel processing technique are presented, with a draft design for many-core architectures
On-line processing of large data volumes produced in modern HEP experiments requires using maximum c...
We present the results of an R&D study of a specialized processor capable of precisely reconstructin...
The LHCb detector at the LHC is a general purpose detector in the forward region with a focus on rec...
International audienceThe upgraded CERN LHCb detector, due to start data taking in 2021, will have t...
The LHCb Upgrade in Run 3 has changed its trigger scheme for a full software selection in two steps....
The LHCb experiment is entering in its upgrading phase, with its detector and read-out system re-des...
We present a fast, data-oriented GPU tracking algorithm, CompassUT, as a potential option to cope wi...
The reconstruction of particle trajectories, tracking, is a central process in the reconstruction of...
The LHCb detector will be upgraded in 2021, where the hardware-level trigger will be replaced by a H...
The following text describes the rst try in implementing a track-detection algorithm, based on the H...
The LHCb detector will be upgraded in 2021, where the hardware-level trigger will be replaced by a H...
Millions of particles are collided every second at the LHCb detector placed inside the Large Hadron ...
The reconstruction of particle trajectories, tracking, is a central process in the reconstruction o...
The major challenge posed by the high instantaneous luminosity in the High Luminosity LHC (HL-LHC) m...
Power density constraints are limiting the performance improvements of modern CPUs. To address this ...
On-line processing of large data volumes produced in modern HEP experiments requires using maximum c...
We present the results of an R&D study of a specialized processor capable of precisely reconstructin...
The LHCb detector at the LHC is a general purpose detector in the forward region with a focus on rec...
International audienceThe upgraded CERN LHCb detector, due to start data taking in 2021, will have t...
The LHCb Upgrade in Run 3 has changed its trigger scheme for a full software selection in two steps....
The LHCb experiment is entering in its upgrading phase, with its detector and read-out system re-des...
We present a fast, data-oriented GPU tracking algorithm, CompassUT, as a potential option to cope wi...
The reconstruction of particle trajectories, tracking, is a central process in the reconstruction of...
The LHCb detector will be upgraded in 2021, where the hardware-level trigger will be replaced by a H...
The following text describes the rst try in implementing a track-detection algorithm, based on the H...
The LHCb detector will be upgraded in 2021, where the hardware-level trigger will be replaced by a H...
Millions of particles are collided every second at the LHCb detector placed inside the Large Hadron ...
The reconstruction of particle trajectories, tracking, is a central process in the reconstruction o...
The major challenge posed by the high instantaneous luminosity in the High Luminosity LHC (HL-LHC) m...
Power density constraints are limiting the performance improvements of modern CPUs. To address this ...
On-line processing of large data volumes produced in modern HEP experiments requires using maximum c...
We present the results of an R&D study of a specialized processor capable of precisely reconstructin...
The LHCb detector at the LHC is a general purpose detector in the forward region with a focus on rec...