Aaij, R.Akar, S.Albrecht, JohannesAlexander, M.Alfonso Albero, AlejandroAmerio, S.Anderlini, L.D'Argent, P.Baranov, A.Barter, W.Benson, S.Bobulska, D.Boettcher, T.Borghi, S.Bowen, E.E.Brarda, L.Burr, C.Cachemiche, J.-P.Calvo Gómez, MíriamCattaneo, M.Chanal, H.Chapman, M.Chebbi, M.Chefdeville, M.Ciambrone, P.Cogan, J.Chitic, S.-G.Clemencic, M.Closier, J.Couturier, B.Daoudi, M.Bruyn, K.D.Cian, M.D.Deschamps, O.Dettori, F.Dordei, F.Douglas, L.Dreimanis, K.Dufour, L.Dujany, G.Durante, P.Duval, P.-Y.Dziurda, A.Esen, S.Fitzpatrick, C.Fontanna, M.Frank, M.Veghel, M.V.Gaspar, C.Gerstel, D.Ghez, P.Gizdov, K.Gligorov, V.V.Govorkova, E.Cardoso, L.A.G.Grillo, L.Guz, I.Hachon, F.He, J.Hill, D.Hu, WenwenHulsbergen, W.Ilten, P.Li, Y.Linn, C.P.Lupton, O.Johnson, D.Jones, C.R.Jost, B.Kenzie, M.Kopecna, R.Koppenburg, P.Kreps, M.Gac, R.L.Lefèvre, R.Leroy, O.MacHefert, F.Mancinelli, G.Maddrell-Mander, S.Marchand, J.F.Marconi, U.Marin Benito, CarlaMartinelli, M.Santos, D.M.Matev, R.Michielin, E.Monteil, S.Morris, A.Minard, M.-N.Mohamed, H.Morello, M.J.Naik, P.Neubert, S.Neufeld, N.Niel, E.Pearce, A.Perret, P.Polci, F.Prisciandaro, J.Prouve, C.Navarro, A.P.Pernas, M.R.Raven, G.Rethore, F.Molina, V.R.Robbe, P.Sarpis, G.Sborzacchi, F.Schiller, M.Schwemmer, R.Sciascia, B.Serrano, J.Seyfert, P.Schune, M.-H.Smith, M.Solomin, A.Sokoloff, M.Spradlin, P.Stahl, M.Stahl, S.Storaci, B.Stracka, S.Szymanski, M.Traill, M.Usachov, A.Valat, S.Gomez, R.V.Vesterinen, M.Voneki, B.Wang, M.Weisser, C.Whitehead, M.Williams, M.Winn, M.Witek, M.Xiang, Z.Xu, A.Xu, Z.Yin, H.Zhang, YupingZhou, Y.2025-04-242025-04-2420191748-0221https://hdl.handle.net/2445/220590The LHCb collaboration has redesigned its trigger to enable the full offline detector reconstruction to be performed in real time. Together with the real-time alignment and calibration of the detector, and a software infrastructure to make persistent the high-level physics objects produced during real-time processing, this redesign enabled the widespread deployment of real-time analysis during Run 2. We describe the design of the Run 2 trigger and real-time reconstruction, and present data-driven performance measurements for a representative sample of LHCb’s physics programme.1 p.application/pdfengcc-by (c) Aaij, R. et al., 2019http://creativecommons.org/licenses/by/4.0/ExperimentsFísica de partículesHadronsExperimentsParticle physicsHadronsinfo:eu-repo/semantics/article7579082025-04-24info:eu-repo/semantics/openAccess