Scientific and Professional Conferences:
16. (IX 2025) Qubes OS Summit 2025, Berlin, Germany, remote:
(talk) Recent Advances in Device Management in Qubes OS
15. (VII 2025) 26th International Conference on Computer Methods in Mechanics (CMM 2025), Lodz University of Technology, Lodz, Poland
(keynote lecture) Dynamic Membrane Obstacle Problems with the Damped
Normal Compliance Condition
14. (VI 2025) The 3rd Workshop on Recent Advances in Nonlinear Problems: Theory, Computation, and Applications, Southwest Petroleum University, Chengdu, China
(talk) Hybrid Subgradient and Simulated Annealing Method for solving Hemivariational Inequalities
13. (VI 2025) International Conference of China-Poland-Malaysia on Differential Equations, Guangxi Minzu University, Nanning, China
(talk) Modeling and Simulation of Dynamic Contact with Damped Normal Compliance
12. (V 2025) Nonsmooth Problems with Applications in Mechanics, Olomouc, Czechia
(talk) Global Subgradient Method for Hemivariational Inequalities
11. (X 2023) Qubes OS Summit 2024, Berlin, Germany
(talk) Qubes & Devices
10. (V 2024) 3rd international conference Emerging Trends in Applied Mathematics and Mechanics 2024 (ETAMM 2024), A Coruña, Spain
(talk) Aggregate Subgradient Method for Hemivariational Inequalities
9. (X 2023) Qubes OS Summit 2023, Berlin, Germany
(talk) Universal Second Factor and Qubes OS 4.2: can we still use our old U2F keys?
8. (VI 2023) Nonsmooth Problems with Applications in Mechanics, Będlewo, Poland
(talk) A Nonsmooth Optimization Approach for Time-Dependent Hemivariational Inequalities
7. (I 2023) The 103rd American Meteorological Society Annual Meeting 2023, Session: Probabilistic Particle-Based Methods in Aerosol-Cloud Microphysics Modeling, Denver, CO, USA
(talk) Adaptive Time-Stepping for Particle-Based Cloud Microphysics: Super-Droplet Transport, Collisions and Condensational Growth
6. (IX 2022) 24th International Conference on Computer Methods in Mechanics & 42nd Solid Mechanics Conference 2022, Track: Advanced discretization methods, Świnoujście, Poland
(talk) Numerical analysis of a non-clamped dynamic thermoviscoelastic contact problem
5. (VI 2021) International Conferences on Computational Science 2021,
Track: Advances in High-Performance Computational Earth Sciences: Applications and Frameworks, Kraków, Poland, remote
(talk with paper) On the design of Monte-Carlo particle coagulation solver interface: a CPU/GPU Super-Droplet Method case study with PySDM
4. (IV 2021) SEA’s Improving Scientific Software Conference 2021, USA, remote
(talk) Bridging Pythonicity with performance: Monte-Carlo on GPU case study using ThrustRTC and CURandRTC
3. (V 2020) 6th ENES Workshop on High Performance Computing for Climate and Weather, Hamburg, Germany, remote:
(talk) Bridging performance and pythonicity with Numba, Pythran and ThrustRTC
2. (V 2020) European Geosciences Union General Assembly 2020, Vienna, Austria, remote
(talk) PySDM: Pythonic particle-based cloud microphysics package
1. (IV 2019) Eulerian vs. Lagrangian Methods for Cloud Microphysics, Jagiellonian University, Kraków, Poland
(poster) Super droplets in OpenFOAM
External Seminars:
6. (2025) School of Mathematics and Statistics, Yulin Normal University, Yulin, Guangxi, China
Modeling and Simulation of Dynamic Contact with Damped Normal Compliance
5. (2023) Department of Mathematics, Austral University, Rosario, Argentina
5.1. Analysis of a convergence of a class of elliptic boundary hemivariational inequalities with application to steady-state heat transfer problems
5.2 Numerical Methods for Variational Problems (co-author)
4. (2023) School of Mathematical Sciences, University of Electronic Science and Technology of China, Chengdu, Sichuan, China, remote
Nonsmooth Optimization Approach for Time-Dependent Hemivariational Inequalities with Application to Contact Mechanics (co-author)
3. (2023) Centre for Smart Analytics, Federation University Australia, Ballarat, Australia
Numba accelerated scientific software engineering
2. (2020) Institute of Geophysics, University of Warsaw, Warsaw, Poland
PySDM: Pythonic particle-based cloud microphysics package
1. (2019) Department of Physics, Michigan Technological University, Houghton, MI, USA
PySDM: exploring novel tools from the Python ecosystem for super-droplet simulation studies