Title :
Cellular Neural Networks for high energy physics
Author :
Vilasis-Cardona, Xavier
Author_Institution :
LIFAELS, Univ. Ramon Lllull, Barcelona, Spain
Abstract :
Cellular Neural Networks (CNN) [1] main assets are quoted to be their capacity for parallel hardware implementation and their universality. On top, the possibility to add the information of a local sensor on every cell, provides a unique system for massive parallel signal processing responding in hardware time. Image processing has been, for a long time, the main field where the community has focussed its efforts to prove the excellence of CNNs. And, still, they are not used at large scale for image applications, probably because few cases are so demanding in terms of computation complexity and short response time not to be afforded by a standard sequential CPU
Keywords :
Cherenkov counters; biomedical imaging; cellular neural nets; high energy physics instrumentation computing; particle calorimetry; CALICE; ILC; cellular neural networks; cellular paradigms; medical imaging; medipix chips; particle flow algorithm; pixel calorimeters; ring imaging cherenkov detector; Cellular neural networks; Detectors; Hardware; High energy physics instrumentation computing; Image reconstruction; Large Hadron Collider; Particle measurements; Particle tracking; Space technology; Trajectory;
Conference_Titel :
Cellular Nanoscale Networks and Their Applications (CNNA), 2010 12th International Workshop on
Conference_Location :
Berkeley, CA
Print_ISBN :
978-1-4244-6679-5
DOI :
10.1109/CNNA.2010.5430343
