The Evolution of FTK, a Real-Time Tracker for Hadron Collider
  Experiments

Annovi, A.; Beretta, M.; Bossini, E.; Boveia, A.; Brubaker, E.; Canelli, F.; Cavasinni, V.; Crescioli, F.; DeBerg, H.; Dell'Orso, M.; Dunford, M.; Franklin, M.; Giannetti, P.; Kapliy, A.; Kim, Y. K.; Kimura, N.; Laurelli, P.; McCarn, A.; Melachrinos, C.; Mills, C.; Neubauer, M.; Piendibene, M.; Proudfoot, J.; Punzi, G.; Sarri, F.; Sartori, L.; Shochet, M.; Tripiccione, R.; Tuggle, J.; Vivarelli, I.; Volpi, G.; Yorita, K.; Zhang, J.

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The Evolution of FTK, a Real-Time Tracker for Hadron Collider Experiments

Authors: A. Annovi
M. Beretta
E. Bossini
A. Boveia
E. Brubaker
F. Canelli
V. Cavasinni
F. Crescioli
H. DeBerg
M. Dell'Orso
M. Dunford
M. Franklin
P. Giannetti
A. Kapliy
Y. K. Kim
N. Kimura
P. Laurelli
A. McCarn
C. Melachrinos
C. Mills
M. Neubauer
M. Piendibene
J. Proudfoot
G. Punzi
F. Sarri
L. Sartori
M. Shochet
R. Tripiccione
J. Tuggle
I. Vivarelli
G. Volpi
K. Yorita
J. Zhang
Publication date: 20 November 2009
Publisher: 'World Scientific Pub Co Pte Lt'
Doi

Abstract

We describe the architecture evolution of the highly-parallel dedicated processor FTK, which is driven by the simulation of LHC events at high luminosity (1034 cm-2 s-1). FTK is able to provide precise on-line track reconstruction for future hadronic collider experiments. The processor, organized in a two-tiered pipelined architecture, execute very fast algorithms based on the use of a large bank of pre-stored patterns of trajectory points (first tier) in combination with full resolution track fitting to refine pattern recognition and to determine off-line quality track parameters. We describe here how the high luminosity simulation results have produced a new organization of the hardware inside the FTK processor core.Comment: 11th ICATPP conferenc

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