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Automatic differentiation and the adjoint state method
Published in Automatic Differentiation of Algorithms, 2001
Recommended citation: Gockenbach, M.S., Reynolds, D.R., and Symes, W.W. (2001). "Automatic differentiation and the adjoint state method." In: Corliss, G., Faure, C., Griewank, A., Hascoet, L., Naumann, U. (eds) Automatic Differentiation of Algorithms. Springer, New York, NY.
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Second order solution of Fritz John’s ultrahyperbolic PDE for volumetric computed tomography
Published in IMA Preprints Series, 2001
Recommended citation: Hu, J., Ingrassia, C., Lowitzsch, S., Park, J., Pineda, A., Reynolds, D.R., and Valdivia, N. (S.K. Patch, mentor). (2001). "Second order solution of Fritz John's ultrahyperbolic PDE for volumetric computed tomography." IMA Preprints Series, 1752-4.
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Efficient and automatic implementation of the adjoint state method
Published in ACM Transactions on Mathematical Software, 2002
Recommended citation: Gockenbach, M.S., Reynolds, D.R., Shen, P., and Symes, W.W. (2009). "Efficient and automatic implementation of the adjoint state method." ACM Transactions on Mathematical Software. 28(1):22-44
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A subgrid projection method for relaxation of non-attainable differential inclusions
Published in Numerical Mathematics and Advanced Applications, 2002
Recommended citation: Cox, D., Kloucek, P., and Reynolds, D.R. (2002). "A subgrid projection method for relaxation of non-attainable differential inclusions." In: Brezzi, F., Buffa, A., Corsaro, S., Murli, A. (eds) Numerical Mathematics and Advanced Applications. Springer, Milano
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The computational modeling of crystalline materials using a stochastic variational principle
Published in Lecture Notes in Computer Science, 2002
Recommended citation: Cox, D., Kloucek, P., and Reynolds, D.R. (2002). "The computational modeling of crystalline materials using a stochastic variational principle." In: Sloot, P.M.A., Hoekstra, A.G., Tan, C.J.K., Dongarra, J.J. (eds) Computational Science -- ICCS 2002. ICCS 2002. Lecture Notes in Computer Science, vol 2330. Springer, Berlin, Heidelberg.
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On thermodynamic active control of shape memory alloy wires
Published in Systems and Control Letters, 2003
Recommended citation: Kloucek, P., Reynolds, D.R., and Seidman, T.I. (2003). "On thermodynamic active control of shape memory alloy wires." Systems and Control Letters, 48(3-4):211-219.
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Thermal stabilization of shape memory alloy wires
Published in Proc. SPIE 5049, Smart Structures and Materials 2003: Modeling, Signal Processing, and Control, 2003
Recommended citation: Kloucek, P., Reynolds, D.R., and Seidman, T.I. (2003). "Thermal stabilization of shape memory alloy wires." in Proc. SPIE 5049, Smart Structures and Materials 2003: Modeling, Signal Processing, and Control
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A nonlinear thermodynamic model for phase transitions in shape memory alloy wires
Published in Ph.D. Thesis, Rice University Department of Computational and Applied Mathematics, 2003
Recommended citation: Reynolds, D.R. (2003). "A nonlinear thermodynamic model for phase transitions in shape memory alloy wires." Ph.D. Thesis, Rice University Department of Computational and Applied Mathematics.
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Stochastic relaxation of variational integrals with non-attainable infima
Published in Proc.: ENUMATH 2003 European Conference on Numerical Mathematics, 2004
Recommended citation: Cox, D.D., Kloucek, P., Reynolds, D.R., and Solin, P. (2004). "Stochastic relaxation of variational integrals with non-attainable infima." In: Feistauer, M., Dolejsi, V., Knobloch, P., Najzar, K. (eds) Numerical Mathematics and Advanced Applications, Springer, Berlin, Heidelberg, 239-249.
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On the asymptotically stochastic computational modeling of microstructures
Published in Future Generation Computer Systems, 2004
Recommended citation: Cox, D., Kloucek, P., and Reynolds, D.R.. (2004). "On the asymptotically stochastic computational modeling of microstructures." Future Generation Computer Systems, 20(3):409-424.
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Computational modeling of vibration damping in SMA wires
Published in Continuum Mechanics and Thermodynamics, 2004
Recommended citation: Kloucek, P., Reynolds, D.R., and Seidman, T.I. (2004). "Computational modeling of vibration damping in SMA wires." Continuum Mechanics and Thermodynamics, 16:495-514.
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On the modeling of nonlinear thermodynamics in SMA wires
Published in Computer Methods in Applied Mechanics and Engineering, 2006
Recommended citation: Kloucek, P. and Reynolds, D.R. (2006). "On the modeling of nonlinear thermodynamics in SMA wires." Computer Methods in Applied Mechanics and Engineering, 196(1):180-191.
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A fully implicit numerical method for single-fluid resistive magnetohydrodynamics
Published in Journal of Computational Physics, 2006
Recommended citation: Reynolds, D.R., Samtaney, R. and Woodward, C.S. (2006). "Paper Title Number 1." Journal of Computational Physics, 219(1):144-162.
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Implicit solvers for large-scale nonlinear problems
Published in Journal of Physics: Conference Series, 2006
Recommended citation: Keyes, D.E., Reynolds, D.R., and Woodward, C.S. (2006). "Implicit solvers for large-scale nonlinear problems." Journal of Physics: Conference Series, 46:433.
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Simulating cosmological evolution with Enzo
Published in Petascale Computing: Algorithms and Applications, 2007
Recommended citation: Norman, M.L., Bryan, G.L., Harkness, R., Bordner, J., Reynolds, D.R., O'Shea, B. and Wagner, R. (2007). "Simulating cosmological evolution with Enzo." in Petascale Computing: Algorithms and Applications, D. Bader (ed.), CRC Press.
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Panel discusses research directions and enabling technologies for the future
Published in SIAM News, 2007
Recommended citation: Reynolds, D.R. and Szypowski, R. (2007). "Panel discusses research directions and enabling technologies for the future." SIAM News, 40(4).
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A Newton-Krylov solver for implicit solution of hydrodynamics in core collapse supernovae
Published in Journal of Physics: Conference Series, 2008
Recommended citation: Reynolds, D.R., Swesty, F.D., and Woodward, C.S. (2008). "A Newton-Krylov solver for implicit solution of hydrodynamics in core collapse supernovae." Journal of Physics: Conference Series, 125:012085.
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Vibration damping and heat transfer using material phase changes
Published in U.S. Patent Office, 2009
Recommended citation: Kloucek, P. and Reynolds, D.R. (2009). "Vibration damping and heat transfer using material phase changes." U.S. Patent Number 7.506.735.
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Self-consistent solution of cosmological radiation-hydrodynamics and chemical ionization
Published in Journal of Computational Physics, 2009
Recommended citation: Reynolds, D.R., Hayes, J.C., Paschos, P. and Norman, M.L. (2009). "Self-consistent solution of cosmological radiation-hydrodynamics and chemical ionization." Journal of Computational Physics, 228(18):6833-6854.
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Cosmological radiative transfer codes comparison project II: the radiation-hydrodynamic tests
Published in Monthly Notices of the Royal Astronomical Society, 2009
Recommended citation: Iliev, I.T., Whalen, D., Ahn, K., Baek, S., Gnedin, N.Y., Kravtsov, A.V., Mellema, G., Norman, M., Raicevic, M., Reynolds, D.R., Sato, D., Shapiro, P.R., Semelin, B., Smidt, J., Susa, H., Theuns, T., and Umemura, M. (2009). "Cosmological radiative transfer codes comparison project II: the radiation-hydrodynamic tests." Monthly Notices of the Royal Astronomical Society, 400(3):1283-1316.
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Cosmological radiation hydrodynamics with Enzo
Published in Recent Directions in Astrophysical Quantitative Spectroscopy and Radiation Hydrodynamics, 2009
Recommended citation: Norman, M.L., Reynolds, D.R., and So, G.C. (2009). "Cosmological radiation hydrodynamics with Enzo." Recent Directions in Astrophysical Quantitative Spectroscopy and Radiation Hydrodynamics, AIP.
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Operator-based preconditioning of stiff hyperbolic systems
Published in SIAM Journal on Scientific Computing, 2010
Recommended citation: Reynolds, D.R., Samtaney, R. and Woodward, C.S. (2010). "Operator-based preconditioning of stiff hyperbolic systems." SIAM Journal on Scientific Computing, 32(1):150-170.
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Sparse Jacobian construction for mapped grid visco-resistive magnetohydrodynamics
Published in Lecture Notes in Computational Science and Engineering, 2012
Recommended citation: Reynolds, D.R. and Samtaney, R. (2012). "Sparse Jacobian construction for mapped grid visco-resistive magnetohydrodynamics." in Recent Advances in Algorithmic Differentiation, Lecture Notes in Computational Science and Engineering, vol. 87, Springer.
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A fully implicit Newton-Krylov-Schwarz method for tokamak MHD: Jacobian construction and preconditioner formulation
Published in Computational Science & Discovery, 2012
Recommended citation: Reynolds, D.R., Samtaney, R., and Tiedeman, H.C. (2012). "A fully implicit Newton-Krylov-Schwarz method for tokamak MHD: Jacobian construction and preconditioner formulation." Computational Science & Discovery, 5(1):014003.
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Multiphysics simulations: challenges and opportunities
Published in International Journal of High Performance Computing Applications, 2013
Recommended citation: Keyes, D.E., McInnes, L.C., Woodward, C.S., Gropp, W., Myra, E., Pernice, M., Bell, J., Brown, J., Clo, A., Connors, J., Constantinescu, E., Estep, D., Evans, K., Farhat, C., Hakim, A., Hammond, G., Hansen, G., Hill, J., Isaac, T., Jiao, X., Jordan, K., Kaushik, D., Kaxiras, E., Koniges, A., Lee, K., Lott, A., Lu, Q., Magerlein, J., Maxwell, R., McCourt, M., Mehl, M., Pawlowski, R., Randles, A.P., Reynolds, D.R., Riviere, B., Rude, U., Scheibe, T., Shadid, J., Sheehan, B., Shephard, M., Siegel, A., Smith, B., Tang, X., Wilson, C., and Wohlmuth, B. (2013). "Multiphysics simulations: challenges and opportunities." International Journal of High Performance Computing Applications, 27(1):4-83.
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Enzo: an adaptive mesh refinement code for astrophysics
Published in The Astrophysical Journal Supplement, 2014
Recommended citation: Bryan, G.L., Norman, M.L., O'Shea, B.W., Abel, T., Wise, J.H., Turk, M.J., Reynolds, D.R., Collins, D.C., Wang, P., Skillman, S.W., Smith, B., Harkness, R.P., Bordner, J., Kim, J.-H., Kuhlen, M., Xu, H., Goldbaum, N., Hummels, C., Kritsuk, A.G., Tasker, E., Skory, S., Simpson, C.M., Hahn, O., Oishi, J.S., So, G.C., Zhao, F., Cen, R., and Li, Y. (2014). "Enzo: an adaptive mesh refinement code for astrophysics." The Astrophysical Journal Supplement, 211(2):19.
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Fully-coupled simulation of cosmic reionization II: recombinations, clumping factors, and the photon budget for reionization
Published in The Astrophysical Journal, 2014
Recommended citation: So, G.C., Norman, M.L., Reynolds, D.R., and Wise, J.H. (2014). "Fully-coupled simulation of cosmic reionization II: recombinations, clumping factors, and the photon budget for reionization." The Astrophysical Journal, 789(2):149.
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Fully-coupled simulation of cosmic reionization I: numerical methods and tests
Published in The Astrophysical Journal Supplement, 2015
Recommended citation: Norman, M.L., Reynolds, D.R., So, G.C., Harkness, R.P., and Wise, J.H. (2015). "Fully-coupled simulation of cosmic reionization I: numerical methods and tests." The Astrophysical Journal Supplement, 216(1):16.
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Implicit integration methods for dislocation dynamics
Published in Modelling and Simulation in Materials Science and Engineering, 2015
Recommended citation: Gardner, D.J., Woodward, C.S., Reynolds, D.R., Hommes, G., Aubry, S., and Arsenlis, A.T. (2015). "Implicit integration methods for dislocation dynamics." Modelling and Simulation in Materials Science and Engineering, 23:025006.
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Filters for improvement of multiscale data from atomistic simulations
Published in SIAM Journal on Multiscale Modeling and Simulation, 2017
Recommended citation: Gardner, D.J. and Reynolds, D.R. (2017). "Filters for improvement of multiscale data from atomistic simulations." SIAM Journal on Multiscale Modeling and Simulation, 15(1):1-28.
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Implicit-explicit (IMEX) Runge-Kutta methods for non-hydrostatic atmospheric models
Published in Geoscientific Model Development, 2018
Recommended citation: Gardner, D.J., Guerra, J.E., Hamon, F.P., Reynolds, D.R., Ullrich, P.A., and Woodward, C.S. (2018). "Implicit-explicit (IMEX) Runge-Kutta methods for non-hydrostatic atmospheric models." Geoscientific Model Development, 11(4):1497-1515.
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Impacts and importance of diffusion on the spectral element method: a linear analysis
Published in Journal of Computational Physics, 2018
Recommended citation: Ullrich, P.A., Reynolds, D.R., Guerra, J.E., and Taylor, M.A. (2018). "Impacts and importance of diffusion on the spectral element method: a linear analysis." Journal of Computational Physics, 375:427-446.
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Further development of efficient and accurate time integration schemes for meteorological models
Published in Journal of Computational Physics, 2019
Recommended citation: Luan, V.T., Pudykiewicz, J.A., and Reynolds, D.R. (2019). "Further development of efficient and accurate time integration schemes for meteorological models." Journal of Computational Physics, 376:817-837.
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Relaxed multirate infinitesimal step methods
Published in arXiv, 2019
Recommended citation: Sexton, J.M. and Reynolds, D.R. (2019). "Relaxed multirate infinitesimal step methods." arXiv, 1808.03718.
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Evaluation of implicit-explicit additive Runge-Kutta integrators for the HOMME-NH dynamical core
Published in Journal of Advances in Modeling Earth Systems, 2019
Recommended citation: Vogl, C.J., Steyer, A., Reynolds, D.R., Ullrich, P.A., and Woodward, C.S. (2019). "Evaluation of implicit-explicit additive Runge-Kutta integrators for the HOMME-NH dynamical core." Journal of Advances in Modeling Earth Systems, 11(12):4228-4244.
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SUNDIALS multiphysics+MPIManyVector performance testing
Published in LLNL Technical Report, 2019
Recommended citation: Reynolds, D.R., Gardner, D.J., Balos, C.J., and Woodward, C.S.. (2019). "SUNDIALS multiphysics+MPIManyVector performance testing." LLNL Technical Report, LLNL-TR-791538.
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ENZO: An Adaptive Mesh Refinement Code for Astrophysics (Version 2.6)
Published in Journal of Open Source Software, 2019
Recommended citation: Brummel-Smith, C., Bryan, G., Butsky, I., Corlies, L., Emerick, A., Forbes, J., Fujimoto, Y., Goldbaum, N.J., Grete, P., Hummels, C.B., Kim, J.-H., Koh, D., Li, M., Li, Y., Li, X., O'Shea, B., Peeples, M.S., Regan, J.A., Salem, M., Schmidt, W., Simpson, C.M., Smith, B.D., Tumlinson, J., Turk, M.J., Wise, J.H., Abel, T., Bordner, J., Cen, R., Collins, D.C., Crosby, B., Edelmann, P., Hahn, O., Harkness, R., Harper-Clark, E., Kong, S., Kritsuk, A.G., Kuhlen, M., Larrue, J., Lee, E., Meece, G., Norman, M.L., Oishi, J.S., Paschos, P., Peruta, C., Razoumov, A., Reynolds, D.R., Silvia, D., Skillman, S.W., Skory, S., So, G.C., Tasker, E., Wagner, R., Wang, P., Xu, H., and Zhao, F. (2019). "ENZO: An Adaptive Mesh Refinement Code for Astrophysics (Version 2.6)." Journal of Open Source Software, 4(42):1638.
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A new class of high-order methods for multirate differential equations
Published in SIAM Journal on Scientific Computing, 2020
Recommended citation: Luan, V.T., Chinomona, R., and Reynolds, D.R. (2020). "A new class of high-order methods for multirate differential equations." SIAM Journal on Scientific Computing, 42(2):A1245-A1268.
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Cyclically parallelized treecode for fast computations of electrostatic interactions on molecular surfaces
Published in Computer Physics Communications, 2021
Recommended citation: Chen, J., Geng, W., and Reynolds, D.R. (2021). "Cyclically parallelized treecode for fast computations of electrostatic interactions on molecular surfaces." Computer Physics Communications, 260:107742.
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Implicit-explicit multirate infinitesimal GARK methods
Published in SIAM Journal on Scientific Computing, 2021
Recommended citation: Chinomona, R. and Reynolds, D.R.. (2021). "Implicit-explicit multirate infinitesimal GARK methods." SIAM Journal on Scientific Computing, 43(5):A3082-A3113.
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Enabling GPU accelerated computing in the SUNDIALS time integration library
Published in Parallel Computing, 2021
Recommended citation: Balos, C.J., Gardner, D.J., Woodward, C.S., and Reynolds, D.R.. (2021). "Enabling GPU accelerated computing in the SUNDIALS time integration library." Parallel Computing, 108:102836.
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Enabling new flexibility in the SUNDIALS suite of nonlinear and differential/algebraic equation solvers
Published in ACM Transactions on Mathematical Software, 2022
Recommended citation: Gardner, D.J., Reynolds, D.R., Balos, C.J. and Woodward, C.S. (2022). "Enabling new flexibility in the SUNDIALS suite of nonlinear and differential/algebraic equation solvers." ACM Transactions on Mathematical Software, 48(3):1-24.
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Multirate exponential Rosenbrock methods
Published in SIAM Journal on Scientific Computing, 2022
Recommended citation: Luan, V.T., Chinomona, R., and Reynolds, D.R. (2022). "Multirate exponential Rosenbrock methods." SIAM Journal on Scientific Computing, 44(5):A3265-A3289.
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Adaptive time step control for infinitesimal multirate methods
Published in SIAM Journal on Scientific Computing, 2023
Recommended citation: Fish, A.C. and Reynolds, D.R. (2023). "Adaptive time step control for infinitesimal multirate methods." SIAM Journal on Scientific Computing, 45(2):A958-A984.
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ARKODE: a flexible IVP solver infrastructure for one-step methods
Published in ACM Transactions on Mathematical Software, 2023
Recommended citation: Reynolds, D.R., Gardner, D.J., Woodward, C.S., and Chinomona, R. (2023). "ARKODE: a flexible IVP solver infrastructure for one-step methods." ACM Transactions on Mathematical Software, 49(2):1-26.
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Time-dependent integration of chemical networks
Published in Astrochemical Modeling: Practical Aspects of Microphysics in Numerical Simulations, 2023
Recommended citation: Reynolds, D.R. (2023). "Time-dependent integration of chemical networks." in Astrochemical Modeling: Practical Aspects of Microphysics in Numerical Simulations. S. Bovino and T. Grasso (ed.), Elsevier.
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Performance of explicit and IMEX MRI multirate methods on complex reactive flow problems within modern parallel adaptive structured grid frameworks
Published in International Journal of High Performance Computing Applications, 2024
Recommended citation: Loffeld, J., Nonaka, A., Reynolds, D.R., Gardner, D.J., and Woodward, C.S. (2024). "Performance of explicit and IMEX MRI multirate methods on complex reactive flow problems within modern parallel adaptive structured grid frameworks." International Journal of High Performance Computing Applications.
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Implicit-explicit multirate infinitesimal stage-restart methods
Published in Journal of Computational and Applied Mathematics, 2024
Recommended citation: Fish, A.C., Reynolds, D.R., and Roberts, S.B. (2024). "Implicit-explicit multirate infinitesimal stage-restart methods." Journal of Computational and Applied Mathematics, 438:115534.
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Optimized parallelization of boundary integral Poisson-Boltzmann solvers
Published in Computer Physics Communications, 2024
Recommended citation: Yang, X., Sliheet, E., Iriye, R., Reynolds, D.R., and Geng, W. (2024). "Optimized parallelization of boundary integral Poisson-Boltzmann solvers." Computer Physics Communications, 299:109125.'
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SUNDIALS time integrators for exascale applications with many independent ODE systems
Published in International Journal of High Performance Computing Applications, 2024
Recommended citation: Balos, C.J., Day, M., Esclapez, L., Felden, A.M., Gardner, D.J., Hassanaly, M., Reynolds, D.R., Rood, J., Sexton, J.M., Wimer, N.T., Woodward, C.S. (2024). "SUNDIALS Time Integrators for Exascale Applications with Many Independent ODE Systems; International Journal of High Performance Computing Applications.
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software
ARKODE
Adaptive Runge Kutta solvers for systems of Ordinary Differential Equations
SUNDIALS
SUite of Nonlinear Differential and ALgebraic Solvers
RKLab
Runge–Kutta exploration framework
GX
GPU-native nonlinear gyrokinetics
Gkeyll
Discontinuous Galerkin plasma physics
BOUT++
Plasma simulation in curvilinear coordinate systems
Enzo
Astrophysical adaptive mesh refinement simulation framework
E3SM/HOMME
Energy Exascale Earth System Model
Tempest
Tempest atmosphere / Earth-system model
ParaDiS
Parallel Dislocation Simulator
talks
FASTMath: Time Integration Activities
Published:
Capabilities: Time Integration
Published:
Using SUNDIALS on GPU-based HPC platforms
Published:
teaching
Unofficial online teaching evaluations
Evaluations from RateMyProfessors.com
</article> </div>CAAM 335 – Matrix Analysis (Teaching Assistant)
Undergraduate, Rice University, Department of Computational and Applied Mathematics
Equilibria and the solution of linear systems and linear least squares problems. Dynamical systems and the eigenvalue problem with the Jordan form and Laplace transform via complex integration. Optional 1-credit laboratory motivates concepts from the course via physical experiments involving circuits, spring networks, and vibrating mechanical systems.
</article> </div>CAAM 336 – Differential Equations in Science and Engineering (Teaching Assistant)
Undergraduate, Rice University, Department of Computational and Applied Mathematics
Classical and numerical solution techniques for ordinary and partial differential equations. Fourier series and the finite element method for initial and boundary value problems arising in diffusion and wave propagation phenomena.
</article> </div>Math 20D – Introduction to Differential Equations
Undergraduate, University of California, San Diego
Ordinary differential equations: exact, separable, and linear; constant coefficients, undetermined coefficients, variations of parameters. Systems. Series solutions. Laplace transforms. Techniques for engineering sciences. Computing symbolic and graphical solutions using MATLAB.
</article> </div>Math 174 – Numerical Methods in Science and Engineering
Undergraduate, University of California, San Diego
Floating point arithmetic, direct and iterative solution of linear equations, iterative solution of nonlinear equations, optimization, approximation theory, interpolation, quadrature, numerical methods for initial and boundary value problems in ordinary differential equations.
</article> </div>SMU HPC Workshops
Graduate, Southern Methodist University, Department of Mathematics
Inaugural SMU HPC workshops, sponsored by the SMU Center for Scientific Computation. These focused on general high-performance computing computing, with specific instruction on using the new SMU ManeFrame cluster.
</article> </div>Math 3302 – Calculus 3 / Multivariable Calculus
Undergraduate, Southern Methodist University, Department of Mathematics
A continuation of Calculus 2. Topics include arametric equations, polar coordinates, partial differentiation, multiple integrals, and vector analysis.
</article> </div>Math 3304 – Introduction to Linear Algebra
Undergraduate, Southern Methodist University, Department of Mathematics
Matrices and linear equations, Gaussian elimination, determinants, rank, geometrical notions, eigenvalue problems, and coordinate transformations, norms, inner products, orthogonal projections, Gram-Schmidt and least squares.
</article> </div>Math 3315 – Introduction to Scientific Computing
Undergraduate, Southern Methodist University, Department of Mathematics
An elementary survey course that includes techniques for root-finding, interpolation, functional approximation, numerical differentiation and numerical integration. Special attention is given to MATLAB programming, algorithm implementations, and library codes. Students registering for this course must also register for an associated computer laboratory.
</article> </div>Math 3316 – Introduction to High-Performance Scientific Computing
Undergraduate, Southern Methodist University, Department of Mathematics
An elementary survey course that includes techniques for root-finding, interpolation, functional approximation, linear equations, and numerical integration. Computational work focuses on the Python and C++ programming languages using Linux.
</article> </div>Math 4315 – Advanced Scientific Computing
Undergraduate, Southern Methodist University, Department of Mathematics
Advanced algorithms central to scientific and engineering computing. Topics include solution of linear systems of equations, functional approximation, initial-value problems, and boundary-value problems. Special attention is given to algorithm derivation and implementation.
</article> </div>Math 4370 – Parallel Scientific Computing
Undergraduate, Southern Methodist University, Department of Mathematics
An introduction to parallel computing in the context of scientific computation.
</article> </div>Math 5315 – Introduction to Numerical Analysis
Undergraduate, Southern Methodist University, Department of Mathematics
Numerical solution of linear and nonlinear equations, interpolation and approximation of functions, numerical integration, floating-point arithmetic, and the numerical solution of initial value problems in ordinary differential equations. Student use of the computer is emphasized.
</article> </div>Math 5316 – Introduction to Matrix Computation
Undergraduate, Southern Methodist University, Department of Mathematics
The efficient solution of dense and sparse linear systems, least squares problems, and eigenvalue problems. Elementary and orthogonal matrix transformations provide a unified treatment. Programming is in MATLAB, with a focus on algorithms.
</article> </div>Math 6316 – Numerical Methods I
Graduate, Southern Methodist University, Department of Mathematics
The efficient solution of dense and sparse linear systems, least squares problems and eigenvalue problems. Elementary and orthogonal matrix transformations provide a unified treatment. In addition to algorithm development, the course emphasizes the theory underlying the methods.
</article> </div>Math 6317 – Numerical Methods II
Graduate, Southern Methodist University, Department of Mathematics
Covers interpolation and approximation of functions, numerical differentiation and integration, basic methods for initial value problems in ordinary differential equations, and basic approximation methods for one-dimensional initial-boundary value problems. Topics focus on algorithm development and the theory underlying each method.
</article> </div>Math 6321 – Numerical Solution of Ordinary Differential Equations
Graduate, Southern Methodist University, Department of Mathematics
Numerical methods for initial value problems and boundary value problems for ordinary differential equations. Emphasizes practical solution of problems using Matlab, Python and/or C++.
</article> </div>Math 6370 – Parallel Scientific Computing
Graduate, Southern Methodist University, Department of Mathematics
An introduction to parallel computing in the context of scientific computation.
</article> </div>Current courses
Southern Methodist University, Department of Mathematics, Fall 2024
Fall 2024: None (on sabbatical)