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ORCIDMartin Berzins
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- affiliation: University of Utah, Salt Lake City, Utah, USA
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2020 – today
- 2024
[j42]Nitish Shingde
, Timothy Blattner, Alexandre Bardakoff, Walid Keyrouz, Martin Berzins:
An Illustration of Extending Hedgehog to Multi-Node GPU Architectures Using GEMM. SN Comput. Sci. 5(5): 654 (2024)- [j41]Timbwoga A. J. Ouermi, Robert M. Kirby, Martin Berzins:
Algorithm 1041: HiPPIS - A High-order Positivity-preserving Mapping Software for Structured Meshes. ACM Trans. Math. Softw. 50(1): 8:1-8:31 (2024) - [c57]Justin M. Baker, Qingsong Wang, Martin Berzins, Thomas Strohmer, Bao Wang:
Monotone Operator Theory-Inspired Message Passing for Learning Long-Range Interaction on Graphs. AISTATS 2024: 2233-2241 - 2023
- [j40]T. A. J. Ouermi, Robert M. Kirby, Martin Berzins:
ENO-based high-order data-bounded and constrained positivity-preserving interpolation. Numer. Algorithms 92(3): 1517-1551 (2023) - [c56]John K. Holmen, Marta García, Abhishek Bagusetty, Allen Sanderson, Martin Berzins:
Making Uintah Performance Portable for Department of Energy Exascale Testbeds. Euro-Par Workshops 2023: 115-126 - [c55]Nitish Shingde, Martin Berzins, Timothy Blattner, Walid Keyrouz, Alexandre Bardakoff:
Extending Hedgehog's Dataflow Graphs to Multi-node GPU Architectures. WAMTA 2023: 1-12 - [c54]John K. Holmen, Verónica G. Vergara Larrea, Erik W. Draeger, Eric T. Phipps, Philip J. Smith, Martin Berzins, Sean T. Smith, Jeremy N. Thornock, Suzanne Parete-Koon:
Strengthening the US Department of Energy's Recruitment Pipeline: The DOE/NNSA Predictive Science Academic Alliance Program (PSAAP) Experience. PEARC 2023: 137-144 - [i4]Timbwaoga A. J. Ouermi, Robert M. Kirby, Martin Berzins:
Algorithm xxxx: HiPPIS A High-Order Positivity-Preserving Mapping Software for Structured Meshes. CoRR abs/2310.08818 (2023) - 2022
- [c53]John K. Holmen, Damodar Sahasrabudhe, Martin Berzins:
Porting uintah to heterogeneous systems. PASC 2022: 11:1-11:10 - [i3]Timbwaoga A. J. Ouermi, Robert M. Kirby, Martin Berzins:
ENO-Based High-Order Data-Bounded and Constrained Positivity-Preserving Interpolation. CoRR abs/2204.06168 (2022) - 2021
- [j39]Anshu Dubey, Martin Berzins, Carsten Burstedde, Michael L. Norman, Didem Unat, Mohamed Wahib:
Structured Adaptive Mesh Refinement Adaptations to Retain Performance Portability With Increasing Heterogeneity. Comput. Sci. Eng. 23(5): 62-66 (2021) - [j38]Damodar Sahasrabudhe, Rohit Zambre, Aparna Chandramowlishwaran, Martin Berzins:
Optimizing the hypre solver for manycore and GPU architectures. J. Comput. Sci. 49: 101279 (2021) - [j37]Rohit Zambre, Damodar Sahasrabudhe, Hui Zhou, Martin Berzins, Aparna Chandramowlishwaran, Pavan Balaji:
Logically Parallel Communication for Fast MPI+Threads Applications. IEEE Trans. Parallel Distributed Syst. 32(12): 3038-3052 (2021) - [c52]John K. Holmen, Damodar Sahasrabudhe, Martin Berzins:
A Heterogeneous MPI+PPL Task Scheduling Approach for Asynchronous Many-Task Runtime Systems. PEARC 2021: 2:1-2:9 - 2020
- [c51]Damodar Sahasrabudhe, Martin Berzins:
Improving Performance of the Hypre Iterative Solver for Uintah Combustion Codes on Manycore Architectures Using MPI Endpoints and Kernel Consolidation. ICCS (1) 2020: 175-190 - [i2]T. A. J. Ouermi, Robert M. Kirby, Martin Berzins:
Numerical Testing of a New Positivity-Preserving Interpolation Algorithm. CoRR abs/2009.08535 (2020)
2010 – 2019
- 2019
- [j36]Damodar Sahasrabudhe, Martin Berzins, John A. Schmidt:
Node failure resiliency for Uintah without checkpointing. Concurr. Comput. Pract. Exp. 31(20) (2019) - [j35]Brad Peterson, Alan Humphrey, Daniel Sunderland, James C. Sutherland, Tony Saad, Harish Kumar Dasari, Martin Berzins:
Automatic Halo Management for the Uintah GPU-Heterogeneous Asynchronous Many-Task Runtime. Int. J. Parallel Program. 47(5-6): 1086-1116 (2019) - [c50]Alan Humphrey, Martin Berzins:
An Evaluation of An Asynchronous Task Based Dataflow Approach For Uintah. COMPSAC (2) 2019: 652-657 - [c49]John K. Holmen, Brad Peterson, Martin Berzins:
An Approach for Indirectly Adopting a Performance Portability Layer in Large Legacy Codes. P3HPC@SC 2019: 36-49 - [c48]Damodar Sahasrabudhe, Eric T. Phipps, Sivasankaran Rajamanickam, Martin Berzins:
A Portable SIMD Primitive Using Kokkos for Heterogeneous Architectures. WACCPD@SC 2019: 140-163 - 2018
- [j34]T. A. J. Ouermi, Robert M. Kirby, Martin Berzins:
Performance Optimization Strategies for WRF Physics Schemes Used in Weather Modeling. Int. J. Netw. Comput. 8(2): 301-327 (2018) - [j33]Brad Peterson, Alan Humphrey, John K. Holmen, Todd Harman, Martin Berzins, Daniel Sunderland, H. Carter Edwards:
Demonstrating GPU code portability and scalability for radiative heat transfer computations. J. Comput. Sci. 27: 303-319 (2018) - [c47]Zhang Yang, Damodar Sahasrabudhe, Alan Humphrey, Martin Berzins:
A Preliminary Port and Evaluation of the Uintah AMT Runtime on Sunway TaihuLight. IPDPS Workshops 2018: 1006-1015 - [c46]Sidharth Kumar, Alan Humphrey, Will Usher, Steve Petruzza, Brad Peterson, John A. Schmidt, Derek Harris, Ben Isaac, Jeremy Thornock, Todd Harman, Valerio Pascucci, Martin Berzins:
Scalable Data Management of the Uintah Simulation Framework for Next-Generation Engineering Problems with Radiation. SCFA 2018: 219-240 - 2017
- [c45]T. A. J. Ouermi, Aaron Knoll, Robert M. Kirby, Martin Berzins:
Optimization Strategies for WRF Single-Moment 6-Class Microphysics Scheme (WSM6) on Intel Microarchitectures. CANDAR 2017: 146-152 - [c44]Brad Peterson, Alan Humphrey, John A. Schmidt, Martin Berzins:
Addressing Global Data Dependencies in Heterogeneous Asynchronous Runtime Systems on GPUs. ESPM2@SC 2017: 1:1-1:8 - [c43]T. A. J. Ouermi, Aaron Knoll, Robert M. Kirby, Martin Berzins:
OpenMP 4 Fortran Modernization of WSM6 for KNL. PEARC 2017: 12:1-12:8 - [c42]John K. Holmen, Alan Humphrey, Daniel Sunderland, Martin Berzins:
Improving Uintah's Scalability Through the Use of Portable Kokkos-Based Data Parallel Tasks. PEARC 2017: 27:1-27:8 - 2016
- [j32]Martin Berzins, Jacqueline C. Beckvermit, Todd Harman, Andrew Bezdjian, Alan Humphrey, Qingyu Meng, John A. Schmidt, Charles A. Wight:
Extending the Uintah Framework through the Petascale Modeling of Detonation in Arrays of High Explosive Devices. SIAM J. Sci. Comput. 38(5) (2016) - [c41]Alan Humphrey, Daniel Sunderland, Todd Harman, Martin Berzins:
Radiative Heat Transfer Calculation on 16384 GPUs Using a Reverse Monte Carlo Ray Tracing Approach with Adaptive Mesh Refinement. IPDPS Workshops 2016: 1222-1231 - [c40]Daniel Sunderland, Brad Peterson, John A. Schmidt, Alan Humphrey, Jeremy Thornock, Martin Berzins:
An Overview of Performance Portability in the Uintah Runtime System through the Use of Kokkos. ESPM2@SC 2016: 44-47 - [i1]Anshu Dubey, Ann S. Almgren, John B. Bell, Martin Berzins, Steven R. Brandt, Greg Bryan, Phillip Colella, Daniel T. Graves, Michael Lijewski, Frank Löffler, Brian W. O'Shea, Erik Schnetter, Brian van Straalen, Klaus Weide:
A Survey of High Level Frameworks in Block-Structured Adaptive Mesh Refinement Packages. CoRR abs/1610.08833 (2016) - 2015
- [c39]Brad Peterson, Harish Kumar Dasari, Alan Humphrey, James C. Sutherland, Tony Saad, Martin Berzins:
Reducing overhead in the Uintah framework to support short-lived tasks on GPU-heterogeneous architectures. WOLFHPC@SC 2015: 4:1-4:8 - [c38]Alan Humphrey, Todd Harman, Martin Berzins, Philip J. Smith:
A Scalable Algorithm for Radiative Heat Transfer Using Reverse Monte Carlo Ray Tracing. ISC 2015: 212-230 - 2014
- [j31]Qingyu Meng, Martin Berzins:
Scalable large-scale fluid-structure interaction solvers in the Uintah framework via hybrid task-based parallelism algorithms. Concurr. Comput. Pract. Exp. 26(7): 1388-1407 (2014) - [j30]Alan Humphrey, Qingyu Meng, Martin Berzins, Diego Caminha Barbosa De Oliveira, Zvonimir Rakamaric, Ganesh Gopalakrishnan:
Systematic Debugging Methods for Large-Scale HPC Computational Frameworks. Comput. Sci. Eng. 16(3): 48-56 (2014) - [j29]Anshu Dubey, Ann S. Almgren, John B. Bell, Martin Berzins, Steven R. Brandt, Greg Bryan, Phillip Colella, Daniel T. Graves, Michael Lijewski, Frank Löffler, Brian W. O'Shea, Erik Schnetter, Brian van Straalen, Klaus Weide:
A survey of high level frameworks in block-structured adaptive mesh refinement packages. J. Parallel Distributed Comput. 74(12): 3217-3227 (2014) - [c37]Zhisong Fu, Harish Kumar Dasari, Bradley R. Bebee, Martin Berzins, Bryan B. Thompson:
Parallel Breadth First Search on GPU clusters. IEEE BigData 2014: 110-118 - [c36]Diego Caminha Barbosa De Oliveira, Zvonimir Rakamaric, Ganesh Gopalakrishnan, Alan Humphrey, Qingyu Meng, Martin Berzins:
Systematic Debugging of Concurrent Systems Using Coalesced Stack Trace Graphs. LCPC 2014: 317-331 - [c35]Zhisong Fu, Harish Kumar Dasari, Bradley R. Bebee, Martin Berzins, Bryan B. Thompson:
MapGraph - Graphprocessing at 30 Billion Edges per Second on NVIDIA GPUs. ISWC (Industry Track) 2014 - [c34]Sidharth Kumar, Cameron Christensen, John A. Schmidt, Peer-Timo Bremer, Eric Brugger, Venkatram Vishwanath, Philip H. Carns, Hemanth Kolla, Ray W. Grout, Jacqueline Chen, Martin Berzins, Giorgio Scorzelli, Valerio Pascucci:
Fast Multiresolution Reads of Massive Simulation Datasets. ISC 2014: 314-330 - 2013
- [j28]Jacqueline C. Beckvermit, Joseph R. Peterson, Todd Harman, Scott Bardenhagen, Charles A. Wight, Qingyu Meng, Martin Berzins:
Multiscale Modeling of Accidental Explosions and Detonations. Comput. Sci. Eng. 15(4): 76-86 (2013) - [j27]Martin Berzins:
Data and range-bounded polynomials in ENO methods. J. Comput. Sci. 4(1-2): 62-70 (2013) - [c33]John A. Schmidt, Martin Berzins, Jeremy Thornock, Tony Saad, James C. Sutherland:
Large Scale Parallel Solution of Incompressible Flow Problems Using Uintah and Hypre. CCGRID 2013: 458-465 - [c32]Joseph R. Peterson, Charles A. Wight, Martin Berzins:
Applying High-Performance Computing to Petascale Explosive Simulations. ICCS 2013: 2259-2268 - [c31]Diego Caminha Barbosa De Oliveira, Zvonimir Rakamaric, Ganesh Gopalakrishnan, Alan Humphrey, Qingyu Meng, Martin Berzins:
Practical formal correctness checking of million-core problem solving environments for HPC. SE-CSE@ICSE 2013: 75-83 - [c30]Qingyu Meng, Alan Humphrey, John A. Schmidt, Martin Berzins:
Investigating applications portability with the Uintah DAG-based runtime system on PetaScale supercomputers. SC 2013: 96:1-96:12 - [c29]Monica Hall, Jacqueline C. Beckvermit, Charles A. Wight, Todd Harman, Martin Berzins:
The influence of an applied heat flux on the violence of reaction of an explosive device. XSEDE 2013: 11:1-11:8 - [c28]Qingyu Meng, Alan Humphrey, John A. Schmidt, Martin Berzins:
Preliminary experiences with the uintah framework on Intel Xeon Phi and stampede. XSEDE 2013: 48:1-48:8 - 2012
- [j26]H. Lu, Martin Berzins, Christopher E. Goodyer, Peter K. Jimack:
Adaptive high-order Discontinuous Galerkin solution of elastohydrodynamic lubrication point contact problems. Adv. Eng. Softw. 45(1): 313-324 (2012) - [c27]Qingyu Meng, Martin Berzins:
Abstract: Uintah Hybrid Task-Based Parallelism Algorithm. SC Companion 2012: 1431-1432 - [c26]Qingyu Meng, Martin Berzins:
Poster: Uintah Hybrid Task-Based Parallelism Algorithm. SC Companion 2012: 1433 - [c25]Alan Humphrey, Qingyu Meng, Martin Berzins, Todd Harman:
Radiation modeling using the Uintah heterogeneous CPU/GPU runtime system. XSEDE 2012: 4:1-4:8 - [c24]Joseph R. Peterson, Jacqueline C. Beckvermit, Todd Harman, Martin Berzins, Charles A. Wight:
Multiscale modeling of high explosives for transportation accidents. XSEDE 2012: 32:1-32:8 - 2011
- [j25]Justin Luitjens, Martin Berzins:
Scalable parallel regridding algorithms for block-structured adaptive mesh refinement. Concurr. Comput. Pract. Exp. 23(13): 1522-1537 (2011) - [c23]Martin Berzins, Daniela di Serafino, Martin J. Gander, Luc Giraud:
Introduction. Euro-Par (2) 2011: 65 - [c22]Martin Berzins, Qingyu Meng, John A. Schmidt, James C. Sutherland:
DAG-Based Software Frameworks for PDEs. Euro-Par Workshops (1) 2011: 324-333 - [c21]Qingyu Meng, Martin Berzins, John A. Schmidt:
Using hybrid parallelism to improve memory use in the Uintah framework. TG 2011: 24:1-24:8 - 2010
- [j24]Martin Berzins:
Nonlinear data-bounded polynomial approximations and their applications in ENO methods. Numer. Algorithms 55(2-3): 171-189 (2010) - [c20]Justin Luitjens, Martin Berzins:
Improving the performance of Uintah: A large-scale adaptive meshing computational framework. IPDPS 2010: 1-10 - [c19]Qingyu Meng, Justin Luitjens, Martin Berzins:
Dynamic task scheduling for the Uintah framework. MTAGS@SC 2010: 1-10 - [c18]Martin Berzins, Justin Luitjens, Qingyu Meng, Todd Harman, Charles A. Wight, Joseph R. Peterson:
Uintah: a scalable framework for hazard analysis. TG 2010: 3:1-3:8 - [c17]John A. Schmidt, Martin Berzins:
Development of the Uintah Gateway for fluid-structure-interaction problems. TG 2010: 17:1-17:8
2000 – 2009
- 2007
- [j23]Christopher E. Goodyer, Martin Berzins:
Parallelization and scalability issues of a multilevel elastohydrodynamic lubrication solver. Concurr. Comput. Pract. Exp. 19(4): 369-396 (2007) - [j22]Justin Luitjens, Martin Berzins, Tom Henderson:
Parallel space-filling curve generation through sorting. Concurr. Comput. Pract. Exp. 19(10): 1387-1402 (2007) - [j21]C. W. Hamman, Robert M. Kirby, Martin Berzins:
Parallelization and scalability of a spectral element channel flow solver for incompressible Navier-Stokes equations. Concurr. Comput. Pract. Exp. 19(10): 1403-1422 (2007) - [j20]Martin Berzins, Bradley A. Shadwick, Denis Donnelly:
On the Role and Place of Computation in Science and Engineering. Comput. Sci. Eng. 9(1): 98-103 (2007) - [j19]Martin Berzins:
Adaptive Polynomial Interpolation on Evenly Spaced Meshes. SIAM Rev. 49(4): 604-627 (2007) - 2006
- [j18]Christopher E. Goodyer, Martin Berzins, Peter K. Jimack, L. E. Scales:
A grid-enabled problem solving environment for parallel computational engineering design. Adv. Eng. Softw. 37(7): 439-449 (2006) - [j17]Christopher E. Goodyer, Martin Berzins:
Adaptive Timestepping for Elastohydrodynamic Lubrication Solvers. SIAM J. Sci. Comput. 28(2): 626-650 (2006) - [c16]Christopher E. Goodyer, Jason D. Wood, Martin Berzins:
Mathematical Modelling of Chemical Diffusion through Skin using Grid-based PSEs. HPSC 2006: 249-258 - [c15]Robert M. Kirby, Cullen R. Johnson, Martin Berzins:
Involving Undergraduates in Computational Science and Engineering Research: Successes and Challenges. International Conference on Computational Science (2) 2006: 147-154 - [p1]Christopher E. Goodyer, Martin Berzins:
Solving Computationally Intensive Engineering Problems on the Grid Using Problem Solving Environments. Grid Computing: Software Environments and Tools 2006: 284-301 - 2005
- [c14]Martin Berzins, Robert M. Kirby, Cullen R. Johnson:
Integrating Teaching and Research in HPC: Experiences and Opportunities. International Conference on Computational Science (2) 2005: 36-43 - 2002
- [c13]Christopher E. Goodyer, Martin Berzins:
Eclipse and Ellipse: PSEs for EHL Solutions Using IRIS Explorer and SCIRun. International Conference on Computational Science (1) 2002: 523-532 - [c12]Christopher E. Goodyer, Jason D. Wood, Martin Berzins:
A Parallel Grid Based PSE for EHL Problems. PARA 2002: 521-530 - 2001
- [j16]Martin Berzins:
Review of The Computational Beauty of Nature by Gary William Flake. Artif. Intell. 128(1-2): 237-238 (2001) - [c11]István Lagzi, Alison S. Tomlin, Tamás Turányi, László Haszpra, Róbert Mészáros, Martin Berzins:
The Simulation of Photochemical Smog Episodes in Hungary and Central Europe Using Adaptive Gridding Models. International Conference on Computational Science (2) 2001: 67-76 - 2000
- [j15]Alison S. Tomlin, S. Ghorai, G. Hart, Martin Berzins:
3-D Multi-scale air pollution modelling using adaptive unstructured meshes. Environ. Model. Softw. 15(6-7): 681-692 (2000) - [j14]Martin Berzins:
Solution-Based Mesh Quality Indicators for Triangular and Tetrahedral Meshes. Int. J. Comput. Geom. Appl. 10(3): 333-346 (2000) - [j13]Nasir Touheed, Paul M. Selwood, Peter K. Jimack, Martin Berzins:
A comparison of some dynamic load-balancing algorithms for a parallel adaptive flow solver. Parallel Comput. 26(12): 1535-1554 (2000) - [j12]Martin Berzins:
A Data-Bounded Quadratic Interpolant on Triangles and Tetrahedra. SIAM J. Sci. Comput. 22(1): 177-197 (2000)
1990 – 1999
- 1999
- [j11]Paul M. Selwood, Martin Berzins:
Parallel unstructured tetrahedral mesh adaptation: algorithms, implementation and scalability. Concurr. Pract. Exp. 11(14): 863-884 (1999) - [j10]Martin Berzins:
Mesh Quality: A Function of Geometry, Error Estimates or Both? Eng. Comput. 15(3): 236-247 (1999) - [c10]Jonathan M. Nash, Martin Berzins, Paul M. Selwood:
A Structured SADT Approach to the Support of a Parallel Adaptive 3D CFD Code. Euro-Par 1999: 651-658 - [c9]Martin Berzins, Paul M. Selwood, Jonathan M. Nash:
Parallel Solution of Reacting Flow Problems Using Unstructured Tetrahedral Meshes. PP 1999 - 1998
- [j9]Martin Berzins:
A Solution-Based Triangular and Tetrahedral Mesh Quality Indicator. SIAM J. Sci. Comput. 19(6): 2051-2060 (1998) - [j8]Martin Berzins, R. Fairlie, S. V. Pennington, J. M. Ware, L. E. Scales:
SPRINT2D: Adaptive Software for PDEs. ACM Trans. Math. Softw. 24(4): 475-499 (1998) - [c8]Martin Berzins:
Mesh Quality: A Function of Geometry, Error Estimates or Both? IMR 1998: 229-237 - [c7]Paul M. Selwood, Martin Berzins, Jonathan M. Nash, Peter M. Dew:
Portable Parallel Adaptation of Unstructured 3D Meshes. IRREGULAR 1998: 56-67 - 1997
- [c6]Nasir Touheed, Paul M. Selwood, Peter K. Jimack, Martin Berzins, Peter M. Dew:
Parellel Dynamic Load-Balancing for the Solution of Transient CFD Problems Using Adaptive Tetrahedral Meshes. Parallel CFD 1997: 81-88 - [c5]Paul M. Selwood, Martin Berzins, Peter M. Dew:
3D Parallel Mesh Adaptivity: Data-Structures and Algorithms. PP 1997 - 1996
- [j7]Paul Pratt, Martin Berzins:
Shock preserving quadratic interpolation for visualization on triangular meshes. Comput. Graph. 20(5): 723-730 (1996) - [c4]Paul M. Selwood, N. A. Verhoeven, Jonathan M. Nash, Martin Berzins, Nigel P. Weatherill, Peter M. Dew, Kenneth Morgan:
Parallel mesh generation and adaptivity. Parallel CFD 1996: 166-173 - [c3]Martin Berzins, S. V. Pennington, P. R. Pratt, J. M. Ware:
SPRINT2D Software for Convection Dominated PDEs. SciTools 1996: 63-80 - 1995
- [j6]Chris Walshaw, Martin Berzins:
Dynamic load-balancing for PDE solvers on adaptive unstructured meshes. Concurr. Pract. Exp. 7(1): 17-28 (1995) - [j5]Martin Berzins:
Temporal Error Control for Convection-Dominated Equations in Two Space Dimensions. SIAM J. Sci. Comput. 16(3): 558-580 (1995) - 1994
- [j4]S. V. Pennington, Martin Berzins:
New NAG library software for first-order partial differential equations. ACM Trans. Math. Softw. 20(1): 63-99 (1994) - 1993
- [c2]Chris Walshaw, Martin Berzins:
Enhanced Dynamic Load-Balancing of Adaptive Unstructured Meshes. PPSC 1993: 971-978 - 1991
- [j3]Jane Lawson, Martin Berzins, Peter M. Dew:
Balancing Space and Time Errors in the Method of Lines for Parabolic Equations. SIAM J. Sci. Comput. 12(3): 573-594 (1991) - [j2]Martin Berzins, Peter M. Dew:
Algorithm 690: Chebyshev polynomial software for elliptic-parabolic systems of PDEs. ACM Trans. Math. Softw. 17(2): 178-206 (1991) - [c1]Ken Brodlie, Martin Berzins, Peter M. Dew, A. Poon, Helen Wright:
Visalization and its Use in Scientific Computation. Programming Environments for High-Level Scientific Problem Solving 1991: 293-305 - 1990
- [j1]Robert D. Skeel, Martin Berzins:
A Method for the Spatial Discretization of Parabolic Equations in One Space Variable. SIAM J. Sci. Comput. 11(1): 1-32 (1990)
Coauthor Index
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