Large-scale topology optimization using preconditioned Krylov subspace methods with recycling

Fast Algorithms for Hyperspectral Diffuse Optical Tomography, Recycling Krylov subspaces for CFD applications and a new hybrid recycling solver, ParILUT---A New Parallel Threshold ILU Factorization, Constraint Interface Preconditioning for Topology Optimization Problems, Machine learning for topology optimization: physics-based learning through an independent training strategy, Large-scale parallel topology optimization using a dual-primal substructuring solver, A computational paradigm for multiresolution topology optimization (MTOP), Efficient use of iterative solvers in nested topology optimization, On reducing computational effort in topology optimization: how far can we go?, Single-loop system reliability-based topology optimization considering statistical dependence between limit-states, Efficient generation of large-scale Pareto-optimal topologies, Krylov subspace recycling for evolving structures, Topology optimization design of 3D electrothermomechanical actuators by using GPU as a co-processor, Improving multiresolution topology optimization via multiple discretizations, Total and selective reuse of Krylov subspaces for the resolution of sequences of nonlinear structural problems, Improving the efficiency of large scale topology optimization through on-the-fly reduced order model construction, Density gradient‐based adaptive refinement of analysis mesh for efficient multiresolution topology optimization, Topology optimization of geometrically nonlinear structures using reduced-order modeling, Level-set topology optimization with many linear buckling constraints using an efficient and robust eigensolver, Isogeometric gradient‐free proportional topology optimization (<scp>IGA‐PTO</scp>) for compliance problem, Limited memory preconditioners for symmetric indefinite problems with application to structural mechanics, A dynamic mode decomposition based reduced-order model for parameterized time-dependent partial differential equations, Inertial projected gradient method for large-scale topology optimization, gLaSDI: parametric physics-informed greedy latent space dynamics identification, GPLaSDI: Gaussian process-based interpretable latent space dynamics identification through deep autoencoder, A new preconditioner update strategy for the solution of sequences of linear systems in structural mechanics: application to saddle point problems in elasticity, A survey of subspace recycling iterative methods, Inexact rational Krylov Subspace methods for approximating the action of functions of matrices, Recycling Krylov subspaces for efficient large-scale electrical impedance tomography, An efficient reanalysis method for topological optimization of vibrating continuum structures for simple and multiple eigenfrequencies, Reducing dimensionality in topology optimization using adaptive design variable fields, Revisiting element removal for density-based structural topology optimization with reintroduction by Heaviside projection, Accelerating the solution of linear systems appearing in two-phase reservoir simulation by the use of POD-based deflation methods, Hybrid Projection Methods with Recycling for Inverse Problems, Explicit and efficient topology optimization of frequency-dependent damping patches using moving morphable components and reduced-order models, Polygonal finite elements for topology optimization: A unifying paradigm, Computing Reduced Order Models via Inner-Outer Krylov Recycling in Diffuse Optical Tomography, Parallel computing techniques applied to the simultaneous design of structure and material, Three-dimensional topology optimization of auxetic metamaterial using isogeometric analysis and model order reduction, Universal machine learning for topology optimization, A globally convergent method to accelerate topology optimization using on-the-fly model reduction, A multi-resolution method for 3D multi-material topology optimization, Projections, Deflation, and Multigrid for Nonsymmetric Matrices, Primal-Dual Interior Point Multigrid Method for Topology Optimization, Preconditioner updates for solving sequences of linear systems in matrix-free environment, Reduced order models for Lagrangian hydrodynamics, Design parameterization for topology optimization by intersection of an implicit function, A multi-resolution approach for multi-material topology optimization based on isogeometric analysis, A polytree-based adaptive polygonal finite element method for multi-material topology optimization, Multilevel sparse approximate inverse preconditioners for adaptive mesh refinement, A Robust Iterative Scheme for Symmetric Indefinite Systems, Hybrid Projection Methods with Recycling for Inverse Problems, Preconditioning Parametrized Linear Systems, Extending the eigCG algorithm to nonsymmetric Lanczos for linear systems with multiple right-hand sides, Local Lagrangian reduced-order modeling for the Rayleigh-Taylor instability by solution manifold decomposition, Subspace Recycling--Based Regularization Methods, A new three-level mesh method to accelerate the structural topology optimization

• TAUCS

• Finite Element Solution of Boundary Value Problems
• The method of moving asymptotes—a new method for structural optimization
• The principle of minimized iterations in the solution of the matrix eigenvalue problem