Published October 5, 2023
| Version 23.10
Software
Open
ECP-WarpX/WarpX: 23.10
Authors/Creators
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Vay, Jean-Luc1
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Almgren, Ann1
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Amorim, Lígia Diana1
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Andriyash, Igor2
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Belkin, Daniel1
- Bizzozero, David1
- Blelly, Aurore1
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Clark, Stephen Eric3
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Fedeli, Luca4
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Formenti, Arianna1
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Garten, Marco1
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Ge, Lixin5
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Gott, Kevin1
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Harrison, Cyrus3
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Huebl, Axel1
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Giacomel, Lorenzo6
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Groenewald, Roelof E.7
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Grote, David3
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Gu, Junmin1
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Jambunathan, Revathi1
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Klion, Hannah1
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Kumar, Prabhat1
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Thévenet, Maxence8
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Richardson, Glenn1
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Shapoval, Olga1
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Lehe, Remi1
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Loring, Burlen1
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Miller, Phil9
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Myers, Andrew1
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Rheaume, Elisa1
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Rowan, Michael E.1
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Sandberg, Ryan T.1
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Scherpelz, Peter10
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Yang, Eloise1
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Zhang, Weiqun1
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Zhao, Yinjian1
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Zhu, Kevin Z.10
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Zoni, Edoardo1
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Zaim, Neïl4
- 1. Lawrence Berkeley National Laboratory
- 2. Laboratoire d'Optique Appliquée
- 3. Lawrence Livermore National Laboratory
- 4. LIDYL, CEA-Université Paris-Saclay, CEA Saclay
- 5. SLAC National Accelerator Laboratory
- 6. CERN
- 7. TAE Technologies Inc.
- 8. Lawrence Berkeley National Laboratory, now DESY
- 9. Intense Computing
- 10. Modern Electron
Contributors
- 1. Lawrence Berkeley National Laboratory
- 2. Intel
- 3. Modern Electron
- 4. Bloomberg LP
- 5. Helmholtz Institute Jena
- 6. SLAC National Accelerator Laboratory
Description
Dependencies
- AMReX:
23.10 - PICSAR (
development, incl. QED):23.10 - picmistandard: release
0.26.0 - openPMD-api: release
0.15.1 - Python: 3.8 - 3.11
This list was generated with
git log 23.09.. --format='- %s'
- Release 23.10 (#4344)
- ensure that mass is specified (#4337)
- Badge: Minor RTD Link Cleanup
- Momentum-conserving gather for MR ratio higher than 2 (#1650)
- Close #4331 segfault when activating nuclearfusion collisions (#4338)
- CI: Unbreak macOS (libomp) (#4341)
- Add SymPy notebook to derive PSATD equations in PML (#4316)
- Merge nodal synchronization with
FillBoundarycalls in PML (#3534) - Bump up HDF5 version on PM to 1.12.2.7 (#4333)
- Clean-up docs for PR3991, fluids (#4330)
- Fix clang-tidy error [readability-simplify-boolean-expr] (#4328)
- RZ m=0 mode support for particle field diagnostics (#4291)
- Add fluids in WarpX (#3991)
- Glossary: CEX, SEE (#4325)
- Add particle sorting parameters to pywarpx (#4323)
- Particle fields diagnostic support for PICMI (#4262)
- AMReX: Weekly Update (#4322)
- Add
get_charge_densityto pythonWarpXParticleContainer(#4300) - Doc: Perlmutter (NERSC) E4S 23.05 Boost & CCache (#4302)
- fix distribution map initialization for particle buffers in BTD (#4318)
- Use cupy when available with the particle container wrapper (#4203)
- Clang tidy CI test: add almost all misc-* checks (#4268)
- Implement Galilean PML (#733)
- Lassen (LLNL): Sources & Builds Off-Home (#4311)
- Fix check of PML + Silver-Mueller compatibility (#4297)
- Prevent NaNs in Coulomb collision module (#4304)
- AMReX: Weekly Update (#4309)
- Doc: Conda CUDA Development (#4290)
- Conda:
make(#4292) - Clang tidy CI test: add misc-definitions-in-headers check (#4253)
- Add flag to set GPU-aware MPI from PICMI (#4298)
- Revert PR4266 - lower and uppers bounds (#4294)
- Doc: cupy on Perlmutter (NERSC) (#4289)
- AMReX/PICSAR: Weekly Update (#4293)
- PICMI: Add
warpx_intervalsoption to BTD (#4288) - add collider-relevant reduced diags (#4024)
- Quartz (LLNL): PICMI Support (#4284)
Files
ECP-WarpX/WarpX-23.10.zip
Files
(6.7 MB)
| Name | Size | Download all |
|---|---|---|
|
md5:b25c753c4d75a992d2c098d01eb1498e
|
6.7 MB | Preview Download |
Additional details
Related works
- Is supplement to
- https://github.com/ECP-WarpX/WarpX/tree/23.10 (URL)
References
- Myers A, Almgren A, Amorim LD, Bell J, Fedeli L, Ge L, Gott K, Grote DP, Hogan M, Huebl A, Jambunathan R, Lehe R, Ng C, Rowan M, Shapoval O, Thevenet M, Vay JL, Vincenti H, Yang E, Zaim N, Zhang W, Zhao Y, Zoni E. Porting WarpX to GPU-accelerated platforms. Parallel Computing. 2021 Sep, 108:102833. https://doi.org/10.1016/j.parco.2021.102833
- Fedeli L, Zaim N, Sainte-Marie A, Thevenet M, Huebl A, Myers A, Vay J-L, Vincenti H. PICSAR-QED: a Monte Carlo module to simulate Strong-Field Quantum Electrodynamics in Particle-In-Cell codes for exascale architectures. New Journal of Physics. in-press, 2022. https://arxiv.org/abs/2110.00256
- Zoni E, Lehe R, Shapoval O, Belkin D, Zaim N, Fedeli L, Vincenti H, Vay J-L. A Hybrid Nodal-Staggered Pseudo-Spectral Electromagnetic Particle-In-Cell Method with Finite-Order Centering. under review, 2022. https://arxiv.org/abs/2106.12919
- Shapoval O, Lehe R, Thevenet M, Zoni E, Zhao Y, Vay J-L. Overcoming timestep limitations in boosted-frame Particle-In-Cell simulations of plasma-based acceleration. Phys. Rev. E. Nov 2021, 104:055311. https://doi.org/10.1103/PhysRevE.104.055311
- Vay JL, Huebl A, Almgren A, Amorim LD, Bell J, Fedeli L, Ge L, Gott K, Grote DP, Hogan M, Jambunathan R, Lehe R, Myers A, Ng C, Rowan M, Shapoval O, Thevenet M, Vincenti H, Yang E, Zaim N, Zhang W, Zhao Y, Zoni E. Modeling of a chain of three plasma accelerator stages with the WarpX electromagnetic PIC code on GPUs. Physics of Plasmas. 2021 Feb 9, 28(2):023105. https://doi.org/10.1063/5.0028512
- Rowan ME, Gott KN, Deslippe J, Huebl A, Thevenet M, Lehe R, Vay JL. In-situ assessment of device-side compute work for dynamic load balancing in a GPU-accelerated PIC code. PASC '21: Proceedings of the Platform for Advanced Scientific Computing Conference. 2021 July, 10, pages 1-11. https://doi.org/10.1145/3468267.3470614
- Vay JL, Almgren A, Bell J, Ge L, Grote DPHogan M, Kononenko O, Lehe R, Myers A, Ng C, Park J, Ryne R, Shapovala O, Thevene M, Zhang W. Warp-X: A new exascale computing platform for beam–plasma simulations. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2018 Nov, 909(12) Pages 476-479. https://doi.org/10.1016/j.nima.2018.01.035