Lois Curfman McInnes
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American mathematician
Lois Curfman McInnes's AcademicInfluence.com Rankings
Lois Curfman McInnesmathematics Degrees
Mathematics
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Control Theory
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#71
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Applied Mathematics
#383
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#411
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Measure Theory
#3346
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#3951
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Mathematics
Why Is Lois Curfman McInnes Influential?
(Suggest an Edit or Addition)According to Wikipedia, Lois Virginia Curfman McInnes is an American applied mathematician who works as a senior computational scientist at Argonne National Laboratory, where she works on the numerical solution of nonlinear partial differential equations for scientific applications.
Lois Curfman McInnes's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Efficient Management of Parallelism in Object-Oriented Numerical Software Libraries (1997) (2166)
- PETSc Users Manual (2019) (1199)
- Toward a Common Component Architecture for High-Performance Scientific Computing (1999) (470)
- PETSc Users Manual Revision 3.4 (2016) (388)
- A Component Architecture for High-Performance Scientific Computing (2006) (264)
- PETSc 2.0 users manual (2000) (247)
- Multiphysics simulations (2013) (177)
- Multiphysics simulations: Challenges and opportunities (2013) (154)
- Globalized Newton-Krylov-Schwarz Algorithms and Software for Parallel Implicit CFD (2000) (103)
- PETSc Users Manual (Rev. 3.3) (2013) (87)
- PETSc Users Manual (Rev. 3.5) (2014) (82)
- PETSc/TAO Users Manual (2022) (77)
- Composable Linear Solvers for Multiphysics (2012) (73)
- PETSc Users Manual (Rev. 3.4) (2014) (69)
- TAO users manual. (2003) (61)
- Research and Education in Computational Science and Engineering (2016) (60)
- Parallel PDE-Based Simulations Using the Common Component Architecture (2006) (46)
- The CCA component model for high-performance scientific computing (2006) (45)
- Hierarchical Krylov and nested Krylov methods for extreme-scale computing (2014) (43)
- Parallel simulation of compressible flow using automatic differentiation and PETSc (2001) (42)
- Computational Quality of Service for Scientific Components (2004) (42)
- Parallel components for PDEs and optimization: some issues and experiences (2002) (40)
- A case study in the performance and scalability of optimization algorithms (2001) (39)
- Component‐based integration of chemistry and optimization software (2004) (39)
- The CCA component model for high‐performance scientific computing (2006) (32)
- petsc: Portable, Extensible Toolkit for Scientific Computation (2016) (28)
- Adaptive sparse linear solvers for implicit CFD using Newton-Krylov algorithms (2003) (27)
- The Role of Multi-method Linear Solvers in PDE-based Simulations (2003) (27)
- Community Organizations: Changing the Culture in Which Research Software Is Developed and Sustained (2018) (26)
- Capturing performance knowledge for automated analysis (2008) (25)
- A component infrastructure for performance and power modeling of parallel scientific applications (2008) (25)
- Computational Quality of Service for Scientific CCA Applications: Composition, Substitution, and Reconfiguration (2006) (24)
- Faster PDE-based simulations using robust composite linear solvers (2004) (24)
- Analysis and Practical Use of Flexible BiCGStab (2016) (24)
- PETSc Users Manual: Revision 3.10 (2018) (23)
- How the common component architecture advances computational science (2006) (23)
- ECP Software Technology Capability Assessment Report (2018) (22)
- PETSc 2.0 Users Manual: Revision 2.0.16 (1997) (21)
- Mathematics and Computer Science Division (2001) (20)
- Facets (2010) (18)
- Parallel adaptive solvers in compressible petsc-fun3d simulations (2006) (17)
- FACETS – A Framework for Parallel Coupling of Fusion Components (2010) (16)
- xSDK Foundations: Toward an Extreme-scale Scientific Software Development Kit (2017) (16)
- First results from core-edge parallel composition in the FACETS project (2008) (15)
- PETSc ’ s Software Strategy for the Design Space of Composable Extreme-Scale Solvers (2012) (13)
- Parallel Implicit PDE Computations (1997) (13)
- Additive Schwarz Methods with Nonreflecting Boundary Conditions for the Parallel Computation of Helm (1998) (13)
- Extensible Toolkit for Scientific Computing (1996) (12)
- Using the GA and TAO toolkits for solving large-scale optimization problems on parallel computers (2007) (12)
- Component-based software for high-performance scientific computing (2005) (10)
- Concurrent, parallel, multiphysics coupling in the FACETS project (2009) (10)
- Using automatic differentiation for second-order matrix-free methods in PDE-constrained optimization (2000) (10)
- Adaptive Application Composition in Quantum Chemistry (2009) (8)
- Computational Quality of Service in Parallel CFD (2006) (8)
- Scalable libraries for solving systems of nonlinear equations and unconstrained minimization problems (1994) (7)
- Introducing FACETS, the Framework Application for Core-Edge Transport Simulations (2007) (7)
- A Quality-of-Service Architecture for High-Performance Numerical Components † (2003) (6)
- Scalable Algorithms in Optimization: Computational Experiments (2004) (6)
- Integrating AD with object-oriented toolkits for high-performance scientific computing (2000) (6)
- Integrating automatic differentiation with object-oriented toolkits for high-performance scientific computing. (2000) (5)
- Adaptive numerical components for PDE‐based simulations (2007) (5)
- TAO 3.10 Users Manual (2018) (5)
- Advancing Scientific Productivity through Better Scientific Software: Developer Productivity and Software Sustainability Report (2020) (5)
- High-Performance Component Software Systems (2006) (5)
- Improving parallel scalability for edge plasma transport simulations with neutral gas species (2012) (5)
- COMPASS, the COMmunity Petascale Project for Accelerator Science and Simulation, a broad computational accelerator physics initiative (2007) (5)
- petsc: PETSc: Portable, Extensible Toolkit for Scientific Computation (2016) (4)
- Workshop on Software Productivity for Extreme-scale Science, January 13-14, 2014, Hilton Hotel, Rockville, MD (2014) (4)
- PETSc and Overture: Lessons Learned Developing an Interface between Components (2000) (4)
- Challenges and Opportunities in Using Automatic Differentiation with Object-Oriented Toolkits for Scientific Computing (2003) (4)
- Middleware for Dynamic Adaptation of Component Applications (2006) (3)
- PETSc and Overture (2001) (3)
- firedrakeproject/petsc: Portable, Extensible Toolkit for Scientific Computation (2017) (3)
- Research Initiatives for Plug-and-Play Scientific Computing (2007) (3)
- Infrastructure and Interfaces for Large-Scale Numerical Software (1999) (3)
- PETSc DMNetwork (2020) (3)
- Using the scalable nonlinear equations solvers package (1995) (3)
- Adaptive software for scientific computing: co-managing quality-performance-power tradeoffs (2005) (3)
- Package Management Practices Essential for Interoperability: Lessons Learned and Strategies Developed for FASTMath (2013) (3)
- Characterizing the Performance and Energy Attributes of Scientific Simulations (2006) (2)
- How community software ecosystems can unlock the potential of exascale computing (2021) (2)
- Improved Nonlinear Solvers in BOUT (2012) (2)
- Coupled whole device simulations of plasma transport in tokamaks with the FACETS code (2010) (2)
- Commnity Petascale Project for Accelerator Science And Simulation: Advancing Computational Science for Future Accelerators And Accelerator Technologies (2008) (2)
- Gaining confidence in scientific applications through executable interface contracts. (2008) (2)
- Software for the scalable solution of partial differential equations (2003) (2)
- Performance Portability in the Exascale Computing Project: Exploration Through a Panel Series (2021) (2)
- Interface contract enforcement for improvement of computational quality of service (CQoS) for scientific components (2009) (1)
- Introduction to Accelerating Scientific Discovery With Reusable Software (2019) (1)
- First steps toward a multiphysics exemplars and benchmarks suite. (2012) (1)
- SIAM CSE17 Tutorial: CSE Collaboration through Software: Improving Productivity and Sustainability (2017) (1)
- Coupled Core-Edge Simulations of Pedestal Formation Using the FACETS Framework (2010) (1)
- Component infrastructure for managing performance data and runtime adaptation of parallel applications (2008) (1)
- An automated component-based performance experiment environment (2009) (1)
- BOUT++: Performance Characterization and Recent Advances in Design (2011) (1)
- Why Effective Software Practices are Essential for CSE Projects (2017) (1)
- Special Section on Two Themes: CSE Software and Big Data in CSE (2016) (1)
- PETSc DMNetwork: A Library for Scalable Network PDE-Based Multiphysics Simulations (2020) (1)
- Component-Based Integration of Chemistry and Optimization Software (2005) (1)
- TAO Users Manual Revision 3.15 (2021) (1)
- Building Virtual Ecosystems: Computational Challenges for Mechanistic Modeling of Terrestrial Environments Workshop, Germantown, Maryland, March 26–27, 2014 (2015) (1)
- Solving Nonlinear PDEs Using PETSc and Automatic Differentiation (1999) (0)
- Posters presented at SIAM CSE19 PP103 Minisymposterium: Software Productivity and Sustainability for CSE and Data Science (2019) (0)
- Chapter 19 Software for the ScalableSolution of PDEsSatish (2007) (0)
- The Science of Scientific-Software Development and Use (2022) (0)
- SIAM CSE17 Minisymposium: Software Productivity and Sustainability for CSE and Data Science (2017) (0)
- Analysis and Practical Use of Flexible BiCGStab (2016) (0)
- Position Papers for the ASCR Workshop on the Science of Scientific-Software Development and Use (2021) (0)
- The FACETS project: integrated core-edge-wall modeling with concurrent execution (2009) (0)
- A PETSc DMNetwork: A Scalable Network PDE-Based Multiphysics Simulator (2019) (0)
- FACETS -- Infrastructure for Integrated Fusion Modeling (2009) (0)
- Master in High Performance Computing Core Building Blocks for Massively Parellel Multi-Physics Applications (2017) (0)
- Posters presented at SIAM CSE17 PP108 Minisymposterium: Software Productivity and Sustainability for CSE and Data Science (2017) (0)
- Integrated simulations of tokamak physics using the FACETS framework (2008) (0)
- Matrix-free Methods in PDE-constrained Optimization (0)
- IEEE Special Issue on Innovative R&D Toward the Exascale Era (2022) (0)
- On The Evolution Of User Support Topics in Computational Science and Engineering Software (2015) (0)
- Multiscale, multiphysics beam dynamics framework design and applications (2008) (0)
- Research and Education in Computational Science and Engineering | SIAM Review | Vol. 60, No. 3 | Society for Industrial and Applied Mathematics (2018) (0)
- Preprint ANL/MCS-P3039-0912 ANALYSIS AND PRACTICAL USE OF FLEXIBLE BICGSTAB (2013) (0)
- PETSc/TAO Users Manual Revision 3.19 (2023) (0)
- Two-tiered component design and performance analysis of Synergia2 accelerator simulations (2009) (0)
- Idea Paper: The Lifecycle of Software for Scientific Simulations (2016) (0)
- GPCG(cid:2) A Case Study in the Performance and Scalability of Optimization Algorithms (cid:0) (2021) (0)
- The PETSc Community as Infrastructure (2022) (0)
- Proposal for a Scientific Software Lifecycle Model (2017) (0)
- Matrix-free Methods in PDE-constrained Optimization (0)
- SIAM CSE15 Minisymposium: Scientific Software Productivity at Extreme Scale (2017) (0)
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Lois Curfman McInnes is affiliated with the following schools:
