| A new Training Center Website |
| Add support for differentiating with respect to multidimensional arrays (or pointers) in Clad |
| Belle II Event Display with Phoenix |
| CernVM-FS - Improve integration test isolation |
| Deep autoencoders for scientific data compression |
| Enable cross-talk between Python and C++ kernels in xeus-clang-REPL by using Cppyy |
| Enable reverse-mode automatic differentiation of (CUDA) GPU kernels using Clad |
| Estimating the energy cost of scientific software |
| Explore advanced activity-analysis and optimizations in reverse-mode automatic differentiation. |
| Extend and improve the CERNBox Notifications platform |
| Extend the Cppyy support in Numba |
| Geant4-FastSim - Transformer-based architecture for fast shower simulation |
| Graph Neural Networks for Charged Particle Tracking |
| Implement vector mode in forward mode automatic differentiation in Clad |
| Improve automatic differentiation of object-oriented paradigms using Clad |
| Improving the sense of scale and navigation in high energy physics event visualisation |
| Interfacing Ganga with the Snakemake system |
| Julia interoperating with HEP C++ libraries |
| Leverage Spark Connect for interactive data analysis in Jupyter Notebooks |
| MCnet/LHAPDF - Test suite and coverage for parton density calculations |
| MadAnalysis5 - Implementing 2D Histogram Generator |
| MadAnalysis5 - Improving the validation environment |
| Multithreaded simulations in DD4hep with DDSim |
| PyCLUE - Include Alpaka backend |
| ROOT - TMVA SOFIE Developments - Inference Code Generation for Deep Learning models |
| Real-time lossless data compression for the FASER experiment |
| RooFit - Pythonic interaction with the RooWorkspace |
| Rucio - Namespace synchronisation for shared OpenData |