In HEP experiments the CPU resources required by Monte Carlo simulations are taking up an ever larger fraction of the total computing power (greater than 75%). At the same time the pace of performance improvements given by technology is slowing down, so the only solution is a more efficient use of resources. In this context we present the ongoing development of a fast simulation of the LHCb calorimeter based on a point library, which has significant advantages in terms of library size and output accuracy compared to the cell hit library. Preliminary performance studies are presented
The usage of CPU resources by LHCb on the Grid id dominated by two different applications: Gauss and...
Many physics and performance studies with the ATLAS detector at the Large Hadron Collider require ve...
The tremendous need for simulated samples now and even more so in the future, encourage the developm...
In HEP experiments the CPU resources required by Monte Carlo simulations are taking up an ever large...
In HEP experiments CPU resources required by MC simulations are constantly growing and become a very...
Fast calorimeter simulation in LHCb In HEP experiments CPU resources required by MC simulations are...
LHCb is one of the experiments collecting data at the Large Hadron Collider (LHC), and it is the onl...
The High Energy Physics (HEP) experiments, such as those at the Large Hadron Collider (LHC), traditi...
The ATLAS physics program at the LHC relies on very large samples of simulated events. Most of these...
Simulation is one of the key components in high energy physics. Historically it relies on the Monte ...
Generating simulated data samples currently dominates the LHCb CPU usage and this fraction will grow...
ATLAS relies on very large samples of simulated events for delivering high-quality and competitive p...
Producing the large samples of simulated events required by many physics and performance studies wit...
Producing the very large samples of simulated events required by many physics and performance studie...
Simulation is one of the key components in high energy physics. Historically it relies on the Monte ...
The usage of CPU resources by LHCb on the Grid id dominated by two different applications: Gauss and...
Many physics and performance studies with the ATLAS detector at the Large Hadron Collider require ve...
The tremendous need for simulated samples now and even more so in the future, encourage the developm...
In HEP experiments the CPU resources required by Monte Carlo simulations are taking up an ever large...
In HEP experiments CPU resources required by MC simulations are constantly growing and become a very...
Fast calorimeter simulation in LHCb In HEP experiments CPU resources required by MC simulations are...
LHCb is one of the experiments collecting data at the Large Hadron Collider (LHC), and it is the onl...
The High Energy Physics (HEP) experiments, such as those at the Large Hadron Collider (LHC), traditi...
The ATLAS physics program at the LHC relies on very large samples of simulated events. Most of these...
Simulation is one of the key components in high energy physics. Historically it relies on the Monte ...
Generating simulated data samples currently dominates the LHCb CPU usage and this fraction will grow...
ATLAS relies on very large samples of simulated events for delivering high-quality and competitive p...
Producing the large samples of simulated events required by many physics and performance studies wit...
Producing the very large samples of simulated events required by many physics and performance studie...
Simulation is one of the key components in high energy physics. Historically it relies on the Monte ...
The usage of CPU resources by LHCb on the Grid id dominated by two different applications: Gauss and...
Many physics and performance studies with the ATLAS detector at the Large Hadron Collider require ve...
The tremendous need for simulated samples now and even more so in the future, encourage the developm...