A cellular neural network for peak finding in high-energy physics

Author

Baldanza, C. ; Bisi, F. ; Bruschi, M. ; D´Antone, L. ; Meneghini, S. ; Rizzi, M. ; Zuffa, M.

Author_Institution

Ist. Nazionale di Fisica Nucl., Bologna, Italy

fYear

2000

fDate

2000

Firstpage

443

Lastpage

448

Abstract

Describes the hardware implementation of a 2D cellular neural network (CNN) performing an online clustering algorithm. After a general introduction to CNNs, we consider a 2D CNN that performs a cluster peak-finding algorithm in a matrix of cells mapping a sub-region of a calorimeter, a detector largely used in high-energy physics. The peaks of the energy clusters are found in one collision time of the particle bunches (96 ns). Some quantitative parameters are given to optimize the architecture of the CNN, which was implemented in a commercial field programmable gate array (FPGA)

Keywords

calorimeters; cellular neural nets; field programmable gate arrays; high energy physics instrumentation computing; neural chips; neural net architecture; online operation; particle calorimetry; pattern clustering; 2D cellular neural network; 96 ns; FPGA; calorimeter sub-region mapping; cell matrix; energy cluster peak-finding algorithm; field programmable gate array; hardware implementation; high-energy physics; neural net architecture optimization; online clustering algorithm; particle bunch collision time; particle detector; Cellular neural networks; Clustering algorithms; Detectors; Differential equations; Dynamic programming; Field programmable gate arrays; Intelligent networks; Physics; Programmable logic arrays; Signal analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Cellular Neural Networks and Their Applications, 2000. (CNNA 2000). Proceedings of the 2000 6th IEEE International Workshop on

Conference_Location

Catania

Print_ISBN

0-7803-6344-2

Type

conf

DOI

10.1109/CNNA.2000.877369

Filename

877369