A binary link tracker for the BABAR level 1 trigger system

A binary link tracker for the BABAR level 1 trigger system

The BABAR detector at PEP-II will operate in a high-luminosity e/sup +/e/sup -/ collider environment near the /spl Upsi/(4S) resonance with the primary goal of studying CP violation in the B meson system. In this environment, typical physics events of interest involve multiple charged particles. The...

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Veröffentlicht in:IEEE Transactions on Nuclear Science 1999-08, Vol.46 (4), p.928-932
Hauptverfasser: Berenyi, A., Chen, H.K., Dao, K., Dow, S.F., Gehrig, S.K., Gill, M.S., Grace, C., Jared, R.C., Johnson, J.K., Karcher, A., Kasen, D., Kirsten, F.A., Kral, J.F., LeClerc, C.M., Levi, M.E., von der Lippe, H., Liu, T.H., Marks, K.M., Meyer, A.B., Minor, R., Montgomery, A.H., Romosan, A.
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Sprache:eng
Schlagworte:
ALGORITHMS
DATA ACQUISITION SYSTEMS
DESIGN
Detectors
DRIFT CHAMBERS
Field programmable gate arrays
GATING CIRCUITS
Hardware design languages
INSTRUMENTATION, INCLUDING NUCLEAR AND PARTICLE DETECTORS
Joining processes
LOGIC CIRCUITS
Mesons
PARTICLE ACCELERATORS
PEP STORAGE RINGS
Physics
Programmable control
Programmable logic arrays
Resonance
Robustness
TRIGGER CIRCUITS
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container_end_page 932
container_issue 4
container_start_page 928
container_title IEEE Transactions on Nuclear Science
container_volume 46
creator Berenyi, A.
Chen, H.K.
Dao, K.
Dow, S.F.
Gehrig, S.K.
Gill, M.S.
Grace, C.
Jared, R.C.
Johnson, J.K.
Karcher, A.
Kasen, D.
Kirsten, F.A.
Kral, J.F.
LeClerc, C.M.
Levi, M.E.
von der Lippe, H.
Liu, T.H.
Marks, K.M.
Meyer, A.B.
Minor, R.
Montgomery, A.H.
Romosan, A.
description The BABAR detector at PEP-II will operate in a high-luminosity e/sup +/e/sup -/ collider environment near the /spl Upsi/(4S) resonance with the primary goal of studying CP violation in the B meson system. In this environment, typical physics events of interest involve multiple charged particles. These events are identified by counting these tracks in a fast first level (Level 1) trigger system, by reconstructing the tracks in "real time". For this purpose, a Binary Link Tracker Module (BLTM) was designed and fabricated for the BABAR Level 1 Drift Chamber trigger system. The BLTM is responsible for linking track segments, constructed by the Track Segment Finder Modules (TSFM), into complete tracks. A single BLTM module processes a 360 MBytes/s stream of segment hit data, corresponding to information from the entire Drift Chamber, and implements a fast and robust algorithm that tolerates high hit occupancies as well as local inefficiencies of the Drift Chamber. The algorithms and the necessary control logic of the BLTM were implemented in Field Programmable Gate Arrays (FPGAs), using the VHDL hardware description language. The finished 9U/spl times/400 mm Euro-format board contains roughly 75,000 gates of programmable logic or about 10,000 lines of VHDL code synthesized into five FPGAs.
doi_str_mv 10.1109/23.790706
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In this environment, typical physics events of interest involve multiple charged particles. These events are identified by counting these tracks in a fast first level (Level 1) trigger system, by reconstructing the tracks in "real time". For this purpose, a Binary Link Tracker Module (BLTM) was designed and fabricated for the BABAR Level 1 Drift Chamber trigger system. The BLTM is responsible for linking track segments, constructed by the Track Segment Finder Modules (TSFM), into complete tracks. A single BLTM module processes a 360 MBytes/s stream of segment hit data, corresponding to information from the entire Drift Chamber, and implements a fast and robust algorithm that tolerates high hit occupancies as well as local inefficiencies of the Drift Chamber. The algorithms and the necessary control logic of the BLTM were implemented in Field Programmable Gate Arrays (FPGAs), using the VHDL hardware description language. The finished 9U/spl times/400 mm Euro-format board contains roughly 75,000 gates of programmable logic or about 10,000 lines of VHDL code synthesized into five FPGAs.</abstract><cop>United States</cop><pub>IEEE</pub><doi>10.1109/23.790706</doi><tpages>5</tpages></addata></record>
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source IEEE Xplore
subjects ALGORITHMS
DATA ACQUISITION SYSTEMS
DESIGN
Detectors
DRIFT CHAMBERS
Field programmable gate arrays
GATING CIRCUITS
Hardware design languages
INSTRUMENTATION, INCLUDING NUCLEAR AND PARTICLE DETECTORS
Joining processes
LOGIC CIRCUITS
Mesons
PARTICLE ACCELERATORS
PEP STORAGE RINGS
Physics
Programmable control
Programmable logic arrays
Resonance
Robustness
TRIGGER CIRCUITS
title A binary link tracker for the BABAR level 1 trigger system
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