As we have received many contributions, the posters will be presented in two bulks;
Poster session 1: Monday + Tuesday
Poster Session 2: Wednesday + Thursday
Presenters of posters are kindly required to hang their posters at the dedicated poster board at the first day of their allocated poster session, and to remove it by the end of the second day.
Please be sure to upload your poster also to your poster entry in Indico (under contributions).
| Id | Poster Board nr | Title | Presenters | Track |
| Poster session 1: Monday and Tuesday | ||||
| 403 | 1 | Method for results comparison of various versions of simulation program by the use of experimental data | Serguei Bityukov | Track 2: Data Analysis - Algorithms and Tools |
| 435 | 2 | CernVM-FS Container Image Integration | Simone Mosciatti | Track 1: Computing Technology for Physics Research |
| 419 | 3 | Geant4 Parameter Tuning Using Professor | Soon Yung Jun | Track 2: Data Analysis - Algorithms and Tools |
| 443 | 4 | Making RooFit Ready for Run 3 | Stephan Hageboeck | Track 2: Data Analysis - Algorithms and Tools |
| 477 | 5 | Setting up technical requirements for an astroparticle data life cycle | Victoria Tokareva | Track 1: Computing Technology for Physics Research |
| 489 | 6 | Application on LHC High Energy Physic data analysis with IBM Quantum Computing | Wen Guan | Track 2: Data Analysis - Algorithms and Tools |
| 289 | 7 | An Ensemble of Neural Networks for Online Electron Filtering at the ATLAS Experiment. | Werner Spolidoro Freund | Track 2: Data Analysis - Algorithms and Tools |
| 314 | 8 | Boosted decision trees in the classification tasks with the Telescope Array surface detector data | Yana Zhezher | Track 2: Data Analysis - Algorithms and Tools |
| 442 | 9 | A fast and parametric digitization for triple-GEM detectors | Riccardo Farinelli | Track 2: Data Analysis - Algorithms and Tools |
| 456 | 10 | GRAAL: Gem Reconstruction And Analysis Library | Riccardo Farinelli | Track 2: Data Analysis - Algorithms and Tools |
| 475 | 11 | Exploring Hybrid Deep Learning Architecture for Experimental HEP Data Analysis | Yavar Taheri Yeganeh | Track 2: Data Analysis - Algorithms and Tools |
| 485 | 12 | Explore cloud solutions for ATLAS with $250,000 AWS cloud credits | Yongsheng Gao | Track 1: Computing Technology for Physics Research |
| 364 | 13 | In-Memory Parallel Computing for Partial Wave Analysis | Zhanchen Wei | Track 1: Computing Technology for Physics Research |
| 323 | 14 | TAG based data analysis in BESIII offline sofware | ZIYAN DENG | Track 2: Data Analysis - Algorithms and Tools |
| 398 | 15 | Monitoring of time evolution of the trigger rates exploiting deep representation learning at the CMS experiment | Adrian Alan Pol | Track 1: Computing Technology for Physics Research |
| 295 | 16 | Deep generative models for fast shower simulation in ATLAS | Aishik Ghosh | Track 2: Data Analysis - Algorithms and Tools |
| 437 | 17 | Hardware Accelerated ATLAS Workloads on the WLCG | Alessandra Forti | Track 1: Computing Technology for Physics Research |
| 391 | 18 | Scaling the training of semantic segmentation on MicroBooNE events to multiple GPUs | Alexander Hagen | Track 2: Data Analysis - Algorithms and Tools |
| 282 | 19 | Kotlin - new language for scientific programming | Alexander Nozik | Track 1: Computing Technology for Physics Research |
| 291 | 20 | ELisA: the ATLAS logbook facility extensions | Alina Corso Radu | Track 1: Computing Technology for Physics Research |
| 329 | 21 | Controls and Configuration software for the ATLAS DAQ system in LHC Run 2 | Alina Corso Radu | Track 1: Computing Technology for Physics Research |
| 365 | 22 | DD4hep: an integrated detector description tool for HEP | Andre Sailer, Frank-Dieter Gaede, Marko Petric, Markus Frank | Track 1: Computing Technology for Physics Research |
| 455 | 23 | JupyterLab at the Saint Petersburg State University | Andrey Zarochentsev | Track 1: Computing Technology for Physics Research |
| 406 | 24 | Deep learning for Directional Dark Matter search | Artem Golovatiuk | Track 2: Data Analysis - Algorithms and Tools |
| 316 | 25 | Data Sampling challenges in the ALICE O2 distributed processing system | Barthelemy Von Haller | Track 1: Computing Technology for Physics Research |
| 471 | 26 | DIRACOS: a cross platform solution for grid tools | Ben Couturier, Christophe Haen, Marko Petric | Track 1: Computing Technology for Physics Research |
| 474 | 27 | Distributed Computing Services in Belle II | Benedikt Hegner | Track 1: Computing Technology for Physics Research |
| 464 | 28 | Boosting Performance of Data-intensive Analysis Workflows with Distributed Coordinated Caching | Christoph Heidecker | Track 1: Computing Technology for Physics Research |
| 415 | 29 | Direct optimisation of the discovery significance when training neural networks to search for new physics in particle colliders | Dirk Krücker | Track 2: Data Analysis - Algorithms and Tools |
| 487 | 30 | Next Generation of HEP CPU Benchmarks | Domenico Giordano | Track 1: Computing Technology for Physics Research |
| 350 | 31 | The Belle II Simulation Library | Doris Yangsoo Kim | Track 2: Data Analysis - Algorithms and Tools |
| 367 | 32 | Physics and computing performance of reconstruction algorithms for the GPU High Level Trigger 1 of LHCb | Dorothea Vom Bruch | Track 1: Computing Technology for Physics Research |
| 326 | 33 | Probing Neural Networks for the Gamma/Hadron Separation of CTA | Etienne Lyard | Track 2: Data Analysis - Algorithms and Tools |
| 310 | 34 | Track propagation for different detector and magnetic field setups in Acts | Fabian Klimpel | Track 2: Data Analysis - Algorithms and Tools |
| 466 | 35 | Using Continuous Deployment techniques to manage software change at a WLCG Tier-2 | Gareth Douglas Roy | Track 1: Computing Technology for Physics Research |
| 287 | 36 | Multi-threaded checksum computation for the ATLAS high-performance storage software | Giuseppe Avolio | Track 1: Computing Technology for Physics Research |
| 290 | 37 | Performance evaluation of distributed file systems for the phase-II upgrade of the ATLAS experiment at CERN | Giuseppe Avolio | Track 1: Computing Technology for Physics Research |
| 286 | 38 | CutLang: a cut based HEP analysis description language and interpreter | Gokhan Unel | Track 1: Computing Technology for Physics Research |
| 470 | 39 | Aligning the MATHUSLA test stand detector: Using TensorFlow | Gordon Watts | Track 2: Data Analysis - Algorithms and Tools |
| Poster Session 2: Wednesday and Thursday | ||||
| 447 | 1 | A virtualized Tier-3g Facility Installiation in WLCG Network of CERN | Ilkay Turk Cakir | Track 1: Computing Technology for Physics Research |
| 408 | 2 | Generalization of Homogeneity Tests Used in High Energy Physics Experiments | Jakub Trusina | Track 2: Data Analysis - Algorithms and Tools |
| 320 | 3 | Tagging Higgs bosons at the LHC with Interaction Networks | Jean-Roch Vlimant | Track 2: Data Analysis - Algorithms and Tools |
| 427 | 4 | DIRAC: Putting together heterogeneous resources for scientific applications | Johan Bregeon | Track 1: Computing Technology for Physics Research |
| 374 | 5 | Machine Learning for Muon Identification at LHCb | Katharina Mueller, Nikita Kazeev | Track 2: Data Analysis - Algorithms and Tools |
| 382 | 6 | Fips: An OpenGL based FITS viewer | Konstantin Malanchev | Track 1: Computing Technology for Physics Research |
| 476 | 7 | The DQM system for the SND | Konstantin Pugachev | Track 1: Computing Technology for Physics Research |
| 436 | 8 | Track extrapolation and muon identification with GEANT4E in Belle II event reconstruction | Leo Piilonen | Track 2: Data Analysis - Algorithms and Tools |
| 341 | 9 | A Domain Specific IDE for Parallel Application Development | Li Liao | Track 1: Computing Technology for Physics Research |
| 352 | 10 | Digitization of Cylindrical GEM Detector | Linghui Wu | Track 2: Data Analysis - Algorithms and Tools |
| 351 | 11 | Parameter tuning of distributed storage system based on reinforcement learning | Lu Wang | Track 2: Data Analysis - Algorithms and Tools |
| 369 | 12 | Tracking performance for long living particles at LHCb | Luis Miguel Garcia Martin | Track 2: Data Analysis - Algorithms and Tools |
| 339 | 13 | pyhf: auto-differentiable binned statistical models | Lukas Alexander Heinrich | Track 2: Data Analysis - Algorithms and Tools |
| 390 | 14 | Meta-Learning for Artificial Neural Network Hyper-Parameter Optimization for CERN CMS Offline Data Certification | Mantas Stankevicius | Track 2: Data Analysis - Algorithms and Tools |
| 331 | 15 | A New Visual Analytics toolkit for ATLAS metadata | Maria Grigoryeva | Track 2: Data Analysis - Algorithms and Tools |
| 357 | 16 | Jupyter Notebook Support of the Belle 2 Software | Martin Ritter | Track 1: Computing Technology for Physics Research |
| 288 | 17 | Evaluating InfluxDB and ClickHouse database technologies for improvements of the ATLAS operational monitoring data archiving | Matei Vasile | Track 1: Computing Technology for Physics Research |
| 348 | 18 | Pixel detector background simulation using generative adversarial networks at Belle II | Matej Srebre | Track 2: Data Analysis - Algorithms and Tools |
| 467 | 19 | HEP Analyses on Dynamically Allocated Opportunistic Computing Resources | Matthias Jochen Schnepf | Track 1: Computing Technology for Physics Research |
| 441 | 20 | Applying data access policy to CernVM-FS | Minh Duc Nguyen | Track 1: Computing Technology for Physics Research |
| 458 | 21 | Overall quality optimization for DQM stage in High Energy Physics experiments | Nectarios Benekos | Track 1: Computing Technology for Physics Research |
| 311 | 22 | The design and performance of the ATLAS Inner Detector trigger in high pile-up collisions at 13 TeV at the Large Hadron Collider | Nicola Louise Abraham | Track 1: Computing Technology for Physics Research |
| 383 | 23 | Speeding HEP Analysis with ROOT Bulk I/O | Oksana Shadura | Track 1: Computing Technology for Physics Research |
| 384 | 24 | ROOT I/O compression algorithms and their performance impact within Run 3 | Oksana Shadura | Track 1: Computing Technology for Physics Research |
| 385 | 25 | Evolution of ROOT package management | Oksana Shadura | Track 1: Computing Technology for Physics Research |
| 473 | 26 | Identifying hadronically decaying vector bosons and top quarks in ATLAS | Oliver Majersky | Track 2: Data Analysis - Algorithms and Tools |
| 321 | 27 | Pileup mitigation with graph neural networks | Olmo Cerri | Track 2: Data Analysis - Algorithms and Tools |
| 394 | 28 | Vectorization techniques for probability distribution function using VecCore | Oscar Roberto Chaparro Amaro | Track 2: Data Analysis - Algorithms and Tools |
| 399 | 29 | Prong Formation in NOvA Reconstruction Pipeline | Petr Bouř | Track 2: Data Analysis - Algorithms and Tools |
| 335 | 30 | An innovative monitoring and maintenance model for the INFN CNAF Tier-1 data center infrastructure. | Pier Paolo Ricci | Track 1: Computing Technology for Physics Research |
| 410 | 31 | CDF Long Term Data Preservation at the INFN CNAF Tier-1 data center: the Oracle database and software framework replica. | Pier Paolo Ricci | Track 1: Computing Technology for Physics Research |
| 298 | 32 | ATLAS High Level Trigger within the multi-threaded software framework AthenaMT | Rafal Bielski | Track 1: Computing Technology for Physics Research |
| 424 | 33 | Federation of compute resources available to the German CMS community | Ralf Florian Von Cube | Track 1: Computing Technology for Physics Research |
| 34 | Machine Learning approach to boosting neutral particles identification in the LHCb calorimeter | Artem Maevskiy | ||
| 363 | 35 | Deep Learning applied to hit classification for BESIII drift chamber | Yao Zhang , Ye Yuan | Track 2: Data Analysis - Algorithms and Tools |
| 362 | 36 | Production experience and performance study for HEP data production at HPC-TianheII | Yao Zhang, Ye Yuan | Track 1: Computing Technology for Physics Research |
Posters
Posters should have one of the two following sizes:
- A0 (841 x 1189 mm)
- US E (864 x 1118 mm)
The posters will be mounted on wooden frames with a width 1189mm and hence can be in landscape or portrait mode. We have a lot of posters for this ACAT!
Posters will be mounted on a wooden frame of 84 cm wide. Tumb-tacks will be supplied for mounting, along with a place to store your poster tubes for the duration of the workshop.
There are poster prizes!! Prizes will be selected by ballot and the ACAT International Advisory Committee members in attendance.
