Luis Eduardo Ardila Perez
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InformationInstitute: IPEBuilding: 9602 (Campus Nord) Room: 104 Phone: +49 721 608 29142 Email: Luis.Ardila#kit.edu |
PhD Topic
Tittle: Real-Time High-Performance Readout System (100 Tb/s) for the CMS Track Trigger High Energy Physics DetectorsSupervisor: Prof. Dr. Marc Weber
Publications
Peer-reviewed journals
| [1] |
L.E. Ardila-Perez.
Level-1 track finding with an all-FPGA system at CMS for the
HL-LHC.
Nuclear Instruments and Methods in Physics Research Section A:
Accelerators, Spectrometers, Detectors and Associated Equipment, 2018.
[ bib |
DOI |
http ]
Keywords: Tracking detectors, Level-1 trigger, CMS, High-energy physics |
| [2] | R. Aggleton, L.E. Ardila-Perez, F.A. Ball, M.N. Balzer, G. Boudoul, J. Brooke, M. Caselle, L. Calligaris, D. Cieri, E. Clement, S. Dutta, G. Hall, K. Harder, P.R. Hobson, G.M. Iles, T.O. James, K. Manolopoulos, T. Matsushita, A.D. Morton, D. Newbold, S. Paramesvaran, M. Pesaresi, N. Pozzobon, I.D. Reid, A.W. Rose, O. Sander, C. Shepherd-Themistocleous, A. Shtipliyski, T. Schuh, L. Skinnari, S.P. Summers, A. Tapper, A. Thea, I. Tomalin, K. Uchida, P. Vichoudis, S. Viret, and M. Weber. An FPGA based track finder for the L1 trigger of the CMS experiment at the High Luminosity LHC. Journal of Instrumentation, 12(12):P12019, 2017. [ bib | http ] |
| [3] | H. Mohr, T. Dritschler, L.E. Ardila, M. Balzer, M. Caselle, S. Chilingaryan, A. Kopmann, L. Rota, T. Schuh, M. Vogelgesang, and M. Weber. Evaluation of GPUs as a level-1 track trigger for the High-Luminosity LHC. Journal of Instrumentation, 12(04):C04019, 2017. [ bib | http ] |
| [4] | M. Caselle, L.E. Ardila-Perez, M. Balzer, T. Dritschler, A. Kopmann, H. Mohr, L. Rota, M. Vogelgesang, and M. Weber. A high-speed DAQ framework for future high-level trigger and event building clusters. Journal of Instrumentation, 12(03):C03015, 2017. [ bib | http ] |
| [5] | M. Caselle, L.E. Ardila-Perez, M. Balzer, A. Kopmann, L. Rota, M. Weber, M.Brosi, J. Steinmann, E. Bründermann, and A.-S. Müller. KAPTURE-2. A picosecond sampling system for individual THz pulses with high repetition rate. Journal of Instrumentation, 12(01):C01040, 2017. [ bib | http ] |
| [6] | L. Rota, M. Vogelgesang, L.E. Ardila-Perez, M. Caselle, S. Chilingaryan, T. Dritschler, N. Zilio, A. Kopmann, M. Balzer, and M. Weber. A high-throughput readout architecture based on PCI-Express Gen3 and DirectGMA technology. Journal of Instrumentation, 11(02):P02007, 2016. [ bib | http ] |
Conference Proceedings
| [1] | Andrew Rose, Duncan Parker, Gregory Iles, Ozgur Sahin, Pierre-Anne Bausson, Andromachi Tsirou, Giacomo Fedi, Pierro-Giorgio Verdini, Luis Ardila, Matthias Balzer, Thomas Schuh, Tom Williams, Alessandro Thea, Kristian Harder, Shashi Dugad, Raghunandan Shukla, and Irfan Mirza. Serenity: An atca prototyping platform for cms phase-2. page 115, 05 2019. [ bib | DOI ] |
| [2] | L.E. Ardila-Perez, O. Sander, M. Balzer. CMS R&D for Phase-2 Tracker Back-end Electronics. In System-on-Chip Workshop - CERN, 2019. [ bib | .pdf ] |
| [3] | L.E. Ardila-Perez, O. Sander, T. Schuh, D. Tcherniakhovski, D. Bormann, M. Balzer, M. Weber. EureKA-Maru: an ATCA board for the CMS Phase 2 Tracker Upgrade with centralized slow control and board management solution based on a Zynq Ultrascale+ System-on-Chip. In Topical Workshop on Electronics for Particle Physics TWEEP2019, 2019. [ bib | http ] |
| [4] | O. Sander, L. Ardila-Perez, D. Tcherniakhovski, M. Balzer, M. Weber. A novel centralized slow control and board management solution for ATCA blades based on the Zynq Ultrascale System-on-Chip. In 24th International Conference on Computing in High Energy & Nuclear Physics CHEP2019, 2019. [ bib | .pdf ] |
| [5] | A. Akira Shinoda and L.E. Ardila-Perez and L. Arruda Ramalho and M. Balzer and D. Bormann and L. Calligaris and A. Cascadan and V. Finotti and A. França Queiroz da Costa and O. Sander and M. Schleicher and T. Schuh and D. Tcherniakhovski and S. de Souza and M. Weber. Ultraflex: An ATCA prototype board for the CMS Phase 2 Tracker Upgrade. In TWEEP2018, 2018. [ bib | .pdf ] |
| [6] | L.E. Ardila-Perez. The HL-LHC CMS Level-1 Track Trigger. In 4th Matter and Technology Helmholtz Student Retreat, 2018. [ bib | .pdf ] |
| [7] | L.E. Ardila-Perez. Level-1 track fining with an all-FPGA system at CMS for the HL-LHC. In 4th Matter and Technology Helmholtz Meeting, 2018. [ bib | .pdf ] |
| [8] | L.E. Ardila-Perez. Duplicate Removal Algorithm of the Time-Multipled Track Trigger of CMS. In CMS Phase II Tracker Backend SysDev Workshop, 2018. [ bib | .pdf ] |
| [9] | R. Aggleton, L. Ardila-Perez, F. A. Ball, M. N. Balzer, J. Brooke, L. Calligaris, M. Caselle, D. Cieri, E. J. Clement, G. Hall, K. Harder, P. R. Hobson, G. M. Iles, T. James, K. Manolopoulos, T. Matsushita, A. D. Morton, D. Newbold, S. Paramesvaran, M. Pesaresi, I. D. Reid, A. W. Rose, O. Sander, T. Schuh, C. Shepherd-Themistocleous, A. Shtipliyski, S. P. Summers, A. Tapper, I. Tomalin, K. Uchida, P. Vichoudis, and M. Weber. A novel FPGA-based track reconstruction approach for the level-1 trigger of the CMS experiment at CERN. In 2017 27th International Conference on Field Programmable Logic and Applications (FPL), pages 1--4, Sept 2017. [ bib | DOI ] |
| [10] | L. Ardila-Perez, F. Ball, M. Balzer, M. Caselle, L. Calligaris, D. Cieri, E. Clement, K. Harder, G. Iles, T. James, K. Manolopoulos, A. Morton, D. Newbold, M. Pesaresi, I. Reid, A. Rose, O. Sander, C. Shepherd-Themistocleous, T. Schuh, S. Summers, I. Tomalin, and M. Weber. Scalability of the Time Multiplexed CMS Level1 Track Trigger System. In 4th Summer School on INtelligent signal processing for FrontIEr Research and Industry (INFIERI), January 2017. [ bib | .pdf ] |
| [11] | M. Vogelgesang, L. Rota, L.E. Ardila-Perez, M. Caselle, S. Chilingaryan, and A. Kopmann. High-throughput data acquisition and processing for real-time x-ray imaging. volume 9967, 2016. [ bib | DOI | www: ] |
| [12] | M. Caselle, L. Ardila-Perez, S. Chilingaryan, T. Dritschler, A. Kopmann, H. Mohr, L. Rota, M. Vogelgesang, M. Balzer, and M. Weber. High-speed low-latency readout system with realtime trigger based on GPUs. In Real Time Conference, June 2016. [ bib | .pdf ] |
| [13] | H. Mohr, L. Ardila-Perez, M. Balzer, M. Caselle, L. Rota, A. Kopmann, S. Chilingaryan, T. Dritschler, M. Vogelgesang, and M. Weber. Evaluation of GPUs for High-Level Triggers in High Energy Physics. In TWEEP2016, 2016. [ bib | http ] |
| [14] | L. Ardila-Perez. TMTT Duplicate Tracks Removal. In 8th INFIERI Workshop at Fermilab, October 2016. [ bib | .pdf ] |