The poster session is scheduled on the evening of Thursday, August 13. Here is the list of confirmed posters:
| Title ⇕ | Track ⇕ | Speakers ⇕ |
|---|---|---|
| PhoXonic.jl: Unified interface for calculating photonic and phononic bandgaps (Poster) | Computational Physics Minisymposium | Hiroharu Sugawara |
| StructuredIllumination Microscopy.jl | Computational Physics Minisymposium | Rainer Heintzmann |
| PhaseFields.jl + OpenCALPHAD.jl: Microstructure Simulation with CALPHAD Coupling (Poster) | Computational Physics Minisymposium | Hiroharu Sugawara |
| RayTraceHeatTransfer.jl: Thermal radiation visualized | Computational Physics Minisymposium | Nikolaj Maack Bielefeld |
| Testability-First Design for Few-Body Systems Physics (Poster) | Computational Physics Minisymposium | Shuhei Ohno |
| Flexible Sensitivity Analysis for Geoscientific PDE Models Using the Adjoint Method and Automatic Differentiation | Differentiable Computational Models and their Applications | jfrasunk, Boris Kaus, jfrasunk |
| Soil Hybrid Modelling in Julia: Is it really better out of distribution? | Earth system science in Julia | M. Ayoub Chettouh |
| Quantifying uncertainty in a hybrid parameter learning soil model | Earth system science in Julia | Thomas Wutzler |
| Differentiable Solvers for Geodynamic Modeling | Earth system science in Julia | Christian Ludovic Räss |
| MTGeophysics.jl: A software repository for magnetotelluric geophysics research and applications | Earth system science in Julia | Pankaj K Mishra |
| Optimal Sizing for Mobile Microgrids | Engineering with Julia | Sushrut Deshpande |
| Finding special entangled quantum states with HomotopyContinuation.jl | General | lan Tan |
| Plots.jl | General | Simon Christ |
| Using matrix-product states for time-series machine learning | General | Joshua |
| Optimal control with an electrophysiology experiment in the loop | General | Melvyn Tyloo |
| Bayesian nonparametric density estimation using BayesDensity.jl | General | Oskar Høgberg Simensen |
| District-scale energy system simulation with ReSiE | General | Etienne Ott |
| HyperdimensionalComputing.jl | General | Carlos Vigil-Vásquez, Michiel Stock |
| PhysicsGPT: Bridging the Gap Using LLMs and Neural Surrogates for Zero-Code Computational Physics | General | Mahima, Bramha Nimbalkar |
| FewBodyToolkit.jl: Solving 2- and 3-body quantum systems in 1D-3D with general potentials | General | Lucas Happ |
| What's new with Herb.jl: Teaching Programs how to Program with Program Synthesis | General | Tilman Hinnerichs, Reuben Gardos Reid |
| TrainingPhantoms.jl: Versatile generation of medical image phantoms | General | Paul Jürß |
| What's new with BiochemicalAlgorithms.jl? | General | Jenny Leclaire |
| Learning with SOLE | General | Riccardo Pasini, Alberto Paparella, Marco Perrotta |
| DoubleML.jl: High-Performance Double/Debiased Machine Learning in Julia | General | Mason Ross Hayes |
| Productive Parallel Programming with Dagger.jl | General | Julian P Samaroo, Felipe Tomé |
| Adaptive tests using the Julia Psychometrics Bazaar ecosystem | General | Frankie Robertson |
| Reducing Overall Computation Time with a Slower Nonlinear Least Squares Solver | General | Vitor Cantarella |
| GraphDynamicalSystems.jl: discrete, finite-state systems over graphs | General | Reuben Gardos Reid |
| DownstreamTester.jl | General | Jan Philipp Thiele |
| Structured Geometric Multigrid Methods in Julia | General | René Spoerer |
| TrendDecomposition.jl - A time series toolkit for trend and cycle analysis | General | Stefan Brinkmann |
| Scorio.jl: A Julia package for ranking stochastic responses | General | Mohsen |
| PrecisionCarriers.jl | General | Anton Reinhard |
| ConvolutionInterpolations.jl: Smooth interpolation, derivatives and antiderivatives visualized | General | Nikolaj Maack Bielefeld |
| CurveFit.jl - fast and robust curve fitting | General | James Wrigley |
| ParallelKDE.jl: A Julia Package for Parallel and Adaptive Kernel Density Estimation | General | Christian Sustay Martinez |
| GraphBLAS.jl | General | Raye Kimmerer |
| Spry.jl: Native High Performance Networking in Julia Poster | General | Raye Kimmerer |
| Clingo.jl: Bringing Answer Set Programming to Julia | General | Raye Kimmerer |
| InformationGeometry.jl -- Differential-Geometric Analyses of Parameter Inference Problems | General | Rafael Arutjunjan |
| Radiomics.jl: a Library for High-Performance Radiomic Features Extraction from Medical Images | Health Mini Symposium | ALDO GIULIANI |
| Using The HeartRateLab.jl for Normative Evaluation of Heart Rate Variability from open datasets. | Julia for Biology and Biology for Julia | Alberto |
| KEGGAPI.jl | Julia for Biology and Biology for Julia | Carlos Vigil-Vásquez |
| MITOS: New Features for Protein Sequence and Structure Analysis | Julia for Biology and Biology for Julia | Diego Javier Zea |
| ReproducibleJobs.jl - reproducible and practical workflows & SingleCellProjections.jl - single cell expression analysis | Julia for Biology and Biology for Julia | Rasmus Henningsson |
| Bridging the Gap between Dagger.jl and HPC Interconnects | Julia for HPC Minisymposium | Yan Guimarães, Felipe Tomé |
| GeothermalWells.jl: GPU-Accelerated 3D Simulation of Deep Borehole Heat Exchanger Arrays | Julia for Partial Differential Equations and its Applications | Collin Wittenstein, Marieke Osewold |
| Benchmarking Iterative vs. Direct Linear Solvers for PDES | Julia for Partial Differential Equations and its Applications | Jürgen Fuhrmann |
| First-order system least-squares methods for parabolic problems and applications | Julia for Partial Differential Equations and its Applications | Simon Boisserée |
| Efficient Parameter Estimation of CO2 Reduction Multiscale Models via Surrogate Modeling | Julia for Partial Differential Equations and its Applications | Byungmin Chun |
| FerriteDiffEq.jl - Utilizing Finite Element Structure for Efficient Time Integration | Julia for Partial Differential Equations and its Applications | Dennis Ogiermann |
| Solving nonlinear Stokes equations using PETSc.jl | Julia for Partial Differential Equations and its Applications | Filippo Ferrazzini, Boris Kaus |
| Mimetic Operators Library Enhanced in Julia: MOLE.jl | Julia for Partial Differential Equations and its Applications | Valeria Barra, Marc Loschen |
| UnifiedSparseGrids.jl: Sparse-grid operators for high-dimensional spectral methods | Julia for Partial Differential Equations and its Applications | Zhongshu Wu |
| juliaup for the enterprise | Julia in Industry | Neeladri Das |
| SeparableFunctions.jl | Julia, GPUs, and Accelerators | Rainer Heintzmann |
| BoltzTraP.jl: Thermoelectric transport for the Julia DFT ecosystem (Poster) | JuliaMolSim Minisymposium | Hiroharu Sugawara |
| ElemCo.jl: A Julia Package for Electron Correlation in Molecules and Materials | JuliaMolSim Minisymposium | Charlotte Rickert, Daniel Kats |
| NQCDynamics.jl - Simulating non-adiabatic dynamics in Julia | JuliaMolSim Minisymposium | Matt Larkin, Henry Snowden, Ash Baldwin, Alexander Spears |
| Julia Implementation of Nested Sampling for Materials Science | JuliaMolSim Minisymposium | Eyob Tewelde, Ray Yang |
| TransformerAutoencoding.jl: an open-source Flux-based implementation of transformer-based sequence-to-sequence autoencoding in Julia. | Methods and Applications of Scientific Machine Learning (SciML) | Sam L. Polk |
| Fourier Feature Preconditioning of PINNs for High-Frequency Nonlinear Reaction-Diffusion Dynamics | Methods and Applications of Scientific Machine Learning (SciML) | Bramha Nimbalkar |
| Efficient fractional differential equation solving in Julia | Methods and Applications of Scientific Machine Learning (SciML) | Qingyu Qu |
| What's new with ModelingToolkit.jl? | Methods and Applications of Scientific Machine Learning (SciML) | Aayush Sabharwal |
| Efficient Explicit and Implicit Taylor Integrators for ODE and SDE based on Symbolic-Numeric Computing | Methods and Applications of Scientific Machine Learning (SciML) | Songchen Tan |
| Structural Variability in Scientific Machine Learning by Context-Oriented Equation-based Modeling | Methods and Applications of Scientific Machine Learning (SciML) | Christian Gutsche |
| Differentiable Particle Dynamics: Integrating Graph Neural Networks and NeuralODEs in Julia | Methods and Applications of Scientific Machine Learning (SciML) | Josef Jouaux, Lars Mikelsons |
| SciMLLogging.jl: Fine-Grained Verbosity Control for the SciML Ecosystem | Methods and Applications of Scientific Machine Learning (SciML) | Jadon Clugston |
| Global Optimization techniques for Distributionally Robust Uncertainty Quantification | Methods and Applications of Scientific Machine Learning (SciML) | Avinash Subramanian |
| What's new with MeshGraphNets.jl | Methods and Applications of Scientific Machine Learning (SciML) | Julian Trommer, Lars Mikelsons |
| Probabilistic PDE Simulations at Scale with Gaussian Markov Random Fields | Methods and Applications of Scientific Machine Learning (SciML) | Tim Weiland |
| Highly efficient IRKGL16() ODE solver with reversible adaptive time-stepping in Julia | Methods and Applications of Scientific Machine Learning (SciML) | Mikel, Ander Murua |
| DyadCompilerPasses.jl for Faster Symbolic Array Code | Methods and Applications of Scientific Machine Learning (SciML) | Dhairya Gandhi |
| PhysicalLearning.jl - A Julia Framework for Exploring Local Learning Rules in Complex Physical Systems | Nonlinear and complex systems analysis with Julia | Henrik Wolf |
| Development of a Machine Learning Model for Virtual Screening of Phytochemical Aromatase Inhibitors and Contribution to juDock Open-Source Project | Pharmaceutical Research in Julia | Zavia Evangeline Kitherian |
| TNRKit.jl: A Julia Package for Tensor Network Renormalization | Quantum Mini Symposium | Victor Vanthilt |
| DisorderKit.jl: A julia package for simulating 1D disordered quantum systems | Quantum Mini Symposium | Kevin Vervoort |
| Pauli Propagation: A computational framework for simulating systems | Quantum Mini Symposium | Manuel Rudolph |
| Signature Tensors in OSCAR | Symbolic and Numerical Methods in (Nonlinear) Algebra | Gabriel Riffo |
| Giac.jl: Bringing the Giac Computer Algebra System to Julia, from FFI Bindings to Interactive Pluto Notebooks | Symbolic and Numerical Methods in (Nonlinear) Algebra | Sébastien Celles |