Deep Neural Networks for Physics Analysis on low-level whole-detector data at the LHC

Add code
Nov 29, 2017
Wahid Bhimji, Steven Andrew Farrell, Thorsten Kurth, Michela Paganini, Prabhat, Evan Racah
Figure 1 for Deep Neural Networks for Physics Analysis on low-level whole-detector data at the LHC
Figure 2 for Deep Neural Networks for Physics Analysis on low-level whole-detector data at the LHC
Figure 3 for Deep Neural Networks for Physics Analysis on low-level whole-detector data at the LHC
Figure 4 for Deep Neural Networks for Physics Analysis on low-level whole-detector data at the LHC

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

There has been considerable recent activity applying deep convolutional neural nets (CNNs) to data from particle physics experiments. Current approaches on ATLAS/CMS have largely focussed on a subset of the calorimeter, and for identifying objects or particular particle types. We explore approaches that use the entire calorimeter, combined with track information, for directly conducting physics analyses: i.e. classifying events as known-physics background or new-physics signals. We use an existing RPV-Supersymmetry analysis as a case study and explore CNNs on multi-channel, high-resolution sparse images: applied on GPU and multi-node CPU architectures (including Knights Landing (KNL) Xeon Phi nodes) on the Cori supercomputer at NERSC.

* Presented at ACAT 2017 Conference, Submitted to J. Phys. Conf. Ser  
View paper onarxiv icon

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon