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2020 – today
- 2022
[j21]Lipeng Wan
, Axel Huebl, Junmin Gu, Franz Poeschel, Ana Gainaru, Ruonan Wang, Jieyang Chen, Xin Liang, Dmitry Ganyushin, Todd S. Munson, Ian T. Foster, Jean-Luc Vay, Norbert Podhorszki, Kesheng Wu, Scott Klasky:
Improving I/O Performance for Exascale Applications Through Online Data Layout Reorganization. IEEE Trans. Parallel Distributed Syst. 33(4): 878-890 (2022)- 2021
- [j20]Andrew Myers, Ann S. Almgren, Ligia Diana Amorim, John B. Bell, Luca Fedeli, Lixin Ge, Kevin Gott, David P. Grote, Mark J. Hogan, Axel Huebl, Revathi Jambunathan, Rémi Lehe, Cho-Kuen Ng, Michael E. Rowan, Olga Shapoval, Maxence Thévenet, Jean-Luc Vay, Henri Vincenti, Eloise Yang, Neïl Zaïm, Weiqun Zhang, Yinjian Zhao, Edoardo Zoni:
Porting WarpX to GPU-accelerated platforms. Parallel Comput. 108: 102833 (2021) - [c4]Michael E. Rowan, Kevin N. Gott, Jack Deslippe, Axel Huebl, Maxence Thévenet, Rémi Lehe, Jean-Luc Vay:
In-situ assessment of device-side compute work for dynamic load balancing in a GPU-accelerated PIC code. PASC 2021: 10:1-10:11 - [i5]Andrew Myers, Ann S. Almgren, Ligia Diana Amorim, John B. Bell, Luca Fedeli, Lixin Ge, Kevin Gott, David P. Grote, Mark J. Hogan, Axel Huebl, Revathi Jambunathan, Rémi Lehe, Cho-Kuen Ng, Michael E. Rowan, Olga Shapoval, Maxence Thévenet, Jean-Luc Vay, Henri Vincenti, Eloise Yang, Neïl Zaïm, Weiqun Zhang, Yinjian Zhao, Eduardo Zoni:
Porting WarpX to GPU-accelerated platforms. CoRR abs/2101.12149 (2021) - [i4]Michael E. Rowan, Axel Huebl, Kevin N. Gott, Jack Deslippe, Maxence Thévenet, Rémi Lehe, Jean-Luc Vay:
In-Situ Assessment of Device-Side Compute Work for Dynamic Load Balancing in a GPU-Accelerated PIC Code. CoRR abs/2104.11385 (2021) - [i3]Lipeng Wan, Axel Huebl, Junmin Gu, Franz Poeschel, Ana Gainaru, Ruonan Wang, Jieyang Chen, Xin Liang, Dmitry Ganyushin, Todd S. Munson, Ian T. Foster, Jean-Luc Vay, Norbert Podhorszki, Kesheng Wu, Scott Klasky:
Improving I/O Performance for Exascale Applications through Online Data Layout Reorganization. CoRR abs/2107.07108 (2021)
2010 – 2019
- 2019
- [j19]Olga Shapoval, Jean-Luc Vay, Henri Vincenti:
Two-step perfectly matched layer for arbitrary-order pseudo-spectral analytical time-domain methods. Comput. Phys. Commun. 235: 102-110 (2019) - [j18]Patrick Lee, Jean-Luc Vay:
Convergence in nonlinear laser wakefield accelerators modeling in a Lorentz-boosted frame. Comput. Phys. Commun. 238: 102-110 (2019) - [j17]Haithem Kallala, Jean-Luc Vay, Henri Vincenti:
A generalized massively parallel ultra-high order FFT-based Maxwell solver. Comput. Phys. Commun. 244: 25-34 (2019) - 2018
- [j16]Henri Vincenti, Jean-Luc Vay:
Ultrahigh-order Maxwell solver with extreme scalability for electromagnetic PIC simulations of plasmas. Comput. Phys. Commun. 228: 22-29 (2018) - 2017
- [j15]Henri Vincenti, Mathieu Lobet, Rémi Lehe, Ruchira Sasanka, Jean-Luc Vay:
An efficient and portable SIMD algorithm for charge/current deposition in Particle-In-Cell codes. Comput. Phys. Commun. 210: 145-154 (2017) - 2016
- [j14]Oliver Rübel, Burlen Loring, Jean-Luc Vay, David P. Grote, Rémi Lehe, Stepan Bulanov, Henri Vincenti, E. Wes Bethel:
WarpIV: In Situ Visualization and Analysis of Ion Accelerator Simulations. IEEE Computer Graphics and Applications 36(3): 22-35 (2016) - [j13]Henri Vincenti, Jean-Luc Vay:
Detailed analysis of the effects of stencil spatial variations with arbitrary high-order finite-difference Maxwell solver. Comput. Phys. Commun. 200: 147-167 (2016) - [j12]Rémi Lehe, Manuel Kirchen, Igor A. Andriyash, Brendan B. Godfrey, Jean-Luc Vay:
A spectral, quasi-cylindrical and dispersion-free Particle-In-Cell algorithm. Comput. Phys. Commun. 203: 66-82 (2016) - [c3]Taylor Barnes, Brandon Cook, Jack Deslippe, Douglas Doerfler, Brian Friesen, Yun (Helen) He, Thorsten Kurth, Tuomas Koskela, Mathieu Lobet, Tareq M. Malas, Leonid Oliker, Andrey Ovsyannikov, Abhinav Sarje, Jean-Luc Vay, Henri Vincenti, Samuel Williams, Pierre Carrier, Nathan Wichmann, Marcus Wagner, Paul R. C. Kent, Christopher Kerr, John M. Dennis:
Evaluating and Optimizing the NERSC Workload on Knights Landing. PMBS@SC 2016: 43-53 - [c2]Douglas Doerfler, Jack Deslippe, Samuel Williams, Leonid Oliker, Brandon Cook, Thorsten Kurth, Mathieu Lobet, Tareq M. Malas, Jean-Luc Vay, Henri Vincenti:
Applying the Roofline Performance Model to the Intel Xeon Phi Knights Landing Processor. ISC Workshops 2016: 339-353 - 2015
- [j11]Patrick Lee, Jean-Luc Vay:
Efficiency of the Perfectly Matched Layer with high-order finite difference and pseudo-spectral Maxwell solvers. Comput. Phys. Commun. 194: 1-9 (2015) - [j10]Brendan B. Godfrey, Jean-Luc Vay:
Improved numerical Cherenkov instability suppression in the generalized PSTD PIC algorithm. Comput. Phys. Commun. 196: 221-225 (2015) - [i2]Salman Habib, Robert Roser, Tom LeCompte, Zach Marshall, Anders Borgland, Brett Viren, Peter Nugent, Makoto Asai, Lothar Bauerdick, Hal Finkel, Steven Gottlieb, Stefan Hoeche, Paul Sheldon, Jean-Luc Vay, Peter Elmer, Michael Kirby, Simon J. Patton, Maxim Potekhin, Brian Yanny, Paolo Calafiura, Eli Dart, Oliver Gutsche, Taku Izubuchi, Adam Lyon, Don Petravick:
High Energy Physics Forum for Computational Excellence: Working Group Reports (I. Applications Software II. Software Libraries and Tools III. Systems). CoRR abs/1510.08545 (2015) - 2014
- [j9]Brendan B. Godfrey, Jean-Luc Vay, Irving Haber:
Numerical stability analysis of the pseudo-spectral analytical time-domain PIC algorithm. J. Comput. Phys. 258: 689-704 (2014) - [j8]Brendan B. Godfrey, Jean-Luc Vay:
Suppressing the numerical Cherenkov instability in FDTD PIC codes. J. Comput. Phys. 267: 1-6 (2014) - 2013
- [j7]Jean-Luc Vay, Irving Haber, Brendan B. Godfrey:
A domain decomposition method for pseudo-spectral electromagnetic simulations of plasmas. J. Comput. Phys. 243: 260-268 (2013) - [j6]Brendan B. Godfrey, Jean-Luc Vay:
Numerical stability of relativistic beam multidimensional PIC simulations employing the Esirkepov algorithm. J. Comput. Phys. 248: 33-46 (2013) - [i1]Jean-Luc Vay, Cameron G. R. Geddes, Alice Koniges, Alex Friedman, David P. Grote, David L. Bruhwiler:
White Paper on DOE-HEP Accelerator Modeling Science Activities. CoRR abs/1309.3541 (2013) - 2011
- [j5]Jean-Luc Vay, Cameron G. R. Geddes, Estelle Cormier-Michel, David P. Grote:
Numerical methods for instability mitigation in the modeling of laser wakefield accelerators in a Lorentz-boosted frame. J. Comput. Phys. 230(15): 5908-5929 (2011)
2000 – 2009
- 2007
- [j4]Katia Gomberoff, Jonathan S. Wurtele, Alex Friedman, David P. Grote, Jean-Luc Vay:
A method for obtaining three-dimensional computational equilibrium of non-neutral plasmas using WARP. J. Comput. Phys. 225(2): 1736-1752 (2007) - 2005
- [c1]Christopher S. Co, Alex Friedman, David P. Grote, Jean-Luc Vay, E. Wes Bethel, Kenneth I. Joy:
Interactive Methods for Exploring Particle Simulation Data. EuroVis 2005: 279-286 - 2004
- [j3]Jean-Luc Vay, J.-C. Adam, A. Héron:
Asymmetric PML for the absorption of waves. Application to mesh refinement in electromagnetic Particle-In-Cell plasma simulations. Comput. Phys. Commun. 164(1-3): 171-177 (2004) - [j2]Jean-Luc Vay, Phillip Colella, Alex Friedman, David P. Grote, Peter McCorquodale, D. B. Serafini:
Implementations of mesh refinement schemes for Particle-In-Cell plasma simulations. Comput. Phys. Commun. 164(1-3): 297-305 (2004) - [j1]Eric Sonnendrücker, Francis Filbet, Alex Friedman, Édouard Oudet, Jean-Luc Vay:
Vlasov simulations of beams with a moving grid. Comput. Phys. Commun. 164(1-3): 390-395 (2004)
Coauthor Index
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