This paper revisits a new model reduction methodology based on the use of separated
representations, the so called Proper Generalized Decomposition—PGD. Space and time …

In this paper we are addressing a new paradigm in the field of simulation-based engineering
sciences (SBES) to face the challenges posed by current ICT technologies. Despite the …

The LATIN multiscale computational method and the Proper Generalized Decomposition -
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The modern design of industrial structures leads to very complex simulations characterized
by nonlinearities, high heterogeneities, tortuous geometries... Whatever the modelization …

This chapter presents an overview of Model Order Reduction–a new paradigm in the field of
simulationbased engineering sciences, and one that can tackle the challenges and leverage …

This chapter presents an overview of model order reduction–a new paradigm in the field of
simulation‐based engineering sciences, and one that can tackle the challenges and …

This paper is a review of the developments of the Proper Generalized Decomposition (PGD)
method for the resolution, using the multiscale/multiphysics LATIN method, of the nonlinear …

The behaviour of materials at the microscale is generally considered the main driver for the
macroscopic response. However, it is still a great challenge in terms of computational cost …

Image-based simulation is becoming an appealing technique to homogenize properties of
real microstructures of heterogeneous materials. However fast computation techniques are …

Advancement of X-ray micro-computed tomography (micro-CT) imaging technologies
demands more efficient numerical methods that are capable of handling huge 3D images of …