PHENIX on-line systems
(2003) In Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment 499(2-3). p.560-592- Abstract
- The PHENIX On-Line system takes signals from the Front End Modules (FEM) on each detector subsystem for the purpose of generating events for physics analysis. Processing of event data begins when the Data Collection Modules (DCM) receive data via fiber-optic links from the FEMs. The DCMs format and zero suppress the data and generate data packets. These packets go to the Event Builders (EvB) that assemble the events in final form. The Level-1 trigger (LVL1) generates a decision for each beam crossing and eliminates uninteresting events. The FEMs carry out all detector processing of the data so that it is delivered to the DCMs using a standard format. The FEMs also provide buffering for LVL1 trigger processing and DCM data collection. This... (More)
- The PHENIX On-Line system takes signals from the Front End Modules (FEM) on each detector subsystem for the purpose of generating events for physics analysis. Processing of event data begins when the Data Collection Modules (DCM) receive data via fiber-optic links from the FEMs. The DCMs format and zero suppress the data and generate data packets. These packets go to the Event Builders (EvB) that assemble the events in final form. The Level-1 trigger (LVL1) generates a decision for each beam crossing and eliminates uninteresting events. The FEMs carry out all detector processing of the data so that it is delivered to the DCMs using a standard format. The FEMs also provide buffering for LVL1 trigger processing and DCM data collection. This is carried out using an architecture that is pipelined and deadtimeless. All of this is controlled by the Master Timing System (MTS) that distributes the RHIC clocks. A Level-2 trigger (LVL2) gives additional discrimination. A description of the components and operation of the PHENIX On-Line system is given and the solution to a number of electronic infrastructure problems are discussed. (C) 2002 Elsevier Science B.V. All rights reserved. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/314704
- author
- organization
- publishing date
- 2003
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- electronics, trigger, data acquisition, RHIC, PHENIX
- in
- Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment
- volume
- 499
- issue
- 2-3
- pages
- 560 - 592
- publisher
- Elsevier
- external identifiers
-
- wos:000182055500022
- scopus:1842622921
- ISSN
- 0167-5087
- DOI
- 10.1016/S0168-9002(02)01957-5
- language
- English
- LU publication?
- yes
- id
- 4b11d06d-e770-4c83-9d0b-2f311f6a111b (old id 314704)
- date added to LUP
- 2016-04-01 16:13:22
- date last changed
- 2023-03-28 22:08:16
@article{4b11d06d-e770-4c83-9d0b-2f311f6a111b, abstract = {{The PHENIX On-Line system takes signals from the Front End Modules (FEM) on each detector subsystem for the purpose of generating events for physics analysis. Processing of event data begins when the Data Collection Modules (DCM) receive data via fiber-optic links from the FEMs. The DCMs format and zero suppress the data and generate data packets. These packets go to the Event Builders (EvB) that assemble the events in final form. The Level-1 trigger (LVL1) generates a decision for each beam crossing and eliminates uninteresting events. The FEMs carry out all detector processing of the data so that it is delivered to the DCMs using a standard format. The FEMs also provide buffering for LVL1 trigger processing and DCM data collection. This is carried out using an architecture that is pipelined and deadtimeless. All of this is controlled by the Master Timing System (MTS) that distributes the RHIC clocks. A Level-2 trigger (LVL2) gives additional discrimination. A description of the components and operation of the PHENIX On-Line system is given and the solution to a number of electronic infrastructure problems are discussed. (C) 2002 Elsevier Science B.V. All rights reserved.}}, author = {{Adler, SS and Allen, M and Alley, G and Amirikas, R and Arai, Y and Awes, TC and Barish, KN and Barta, F and Batsouli, S and Belikov, S and Bennett, MJ and Bobrek, M and Boissevain, JG and Boose, S and Britton, C and Britton, L and Bryan, WL and Cafferty, MM and Carey, TA and Chang, WC and Chi, CY and Chi, M and Cianciolo, V and Cole, BA and Constantin, P and Cook, KC and Cunitz, H and Desmond, EJ and Ebisu, K and Efremenko, YV and El Chenawi, K and Emery, MS and Engo, D and Ericson, N and Fields, DE and Frank, S and Frantz, JE and Franz, A and Frawley, AD and Fried, J and Gannon, J and Gee, TF and Gentry, R and Giannotti, P and Gustafsson, Hans-Åke and Haggerty, JS and Hahn, S and Halliwell, J and Hamagaki, H and Hansen, AG and Hara, H and Harder, J and He, X and Heistermann, F and Hemmick, TK and Hibino, M and Hill, JC and Homma, K and Jacak, BV and Jagadish, U and Jia, J and Kajihara, F and Kametani, S and Kamyshkov, Y and Kandasamy, A and Kang, JH and Kapustinsky, J and Katou, K and Kelley, MA and Kelly, S and Kikuchi, J and Kim, SY and Kim, YG and Kistenev, E and Kotchetkov, D and Kurita, K and Lajoie, JG and Lenz, M and Lenz, W and Li, XH and Lin, S and Liu, MX and Markacs, S and Matathias, F and Matsumoto, T and Mead, J and Mischke, RE and Mishra, GC and Moore, A and Muniruzzamann, M and Musrock, M and Nagle, JL and Nandi, BK and Newby, J and Nystrand, Joakim and O'Brien, E and O'Connor, P and Ohnishi, H and Oskarsson, Anders and Österman, Lennart and Oyama, K and Paffrath, L and Pancake, CE and Pantuev, VS and Petridis, AN and Pisani, RP and Plagge, T and Plasil, F and Purschke, ML and Rankowitz, S and Rao, R and Rau, M and Read, KF and Ryu, SS and Sakaguchi, T and Sato, HD and Seto, R and Shiina, T and Silvermyr, David and Simon-Gillo, J and Simpson, M and Sippach, W and Skank, HD and Skutnik, S and Sleege, GA and Smith, GD and Smith, M and Stankus, PW and Steinberg, P and Sugitate, T and Sullivan, JP and Taketani, A and Tamai, M and Tanaka, Y and Thomas, WD and Todd, R and Toldo, F and Turner, G and Ushiroda, T and Velkovska, J and van Hecke, HW and Van Lith, M and Villatte, L and Von Achen, W and Walker, JW and Wang, HQ and White, SN and Wintenberg, AL and Witzig, C and Wood, L and Xie, W and Young, GR and Zajc, WA and Zhang, C and Zhang, L}}, issn = {{0167-5087}}, keywords = {{electronics; trigger; data acquisition; RHIC; PHENIX}}, language = {{eng}}, number = {{2-3}}, pages = {{560--592}}, publisher = {{Elsevier}}, series = {{Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment}}, title = {{PHENIX on-line systems}}, url = {{http://dx.doi.org/10.1016/S0168-9002(02)01957-5}}, doi = {{10.1016/S0168-9002(02)01957-5}}, volume = {{499}}, year = {{2003}}, }