AbstractWe present a discrete adjoint version of the open-source fluid-dynamics package OpenFOAM obtained by operator overloading which yields, in comparison to continuous adjoint versions, a greater flexibility and robustness. We discuss our implementation and how the discrete adjoint version of OpenFOAM differs from existing continuous implementations. To reduce the inherent memory requirement of discrete adjoint code we introduce a checkpointing scheme to trade computation time for memory. Moreover we show results from a relevant reference case
DAFoam: Discrete Adjoint with OpenFOAM for High-fidelity Multidisciplinary Design Optimizatio
DAFoam: Discrete Adjoint with OpenFOAM for High-fidelity Multidisciplinary Design Optimizatio
<p>Gradient-based optimisation using adjoints is an increasingly common approach for industrial flow...
AbstractWe present a discrete adjoint version of the open-source fluid-dynamics package OpenFOAM obt...
An effective discrete adjoint model for OpenFOAM Open Field Operation and Manipulation Open-Source ...
AbstractOpenFOAM is a powerful Open-Source (GPLv3) Computational Fluid Dynamics tool box with a risi...
A Discrete Adjoint version of an Unsteady Incompressible solver for OpenFOAM using Algorithmic Diffe...
Aim: Solution of the incompressible Navier-Stokes equations •Problem: No inherent coupling for the c...
Sensitivity analysis with the aim of design optimization is a growing area of interest in Computatio...
Presented at the 15th Computational Fluid Dynamics Conference, Anaheim, California, 11-14 June 2001A...
Sensitivity analysis with the aim of design optimization is a growing area of interest in Computatio...
This paper presents a number of algorithm developments for adjoint meth-ods using the `discrete &apo...
This paper presents a number of algorithm developments for adjoint methods using the `discrete&apos...
A methodology is developed and implemented to mitigate the lengthy software development cycle typica...
Adjoint based methods have become the focus of research in CFD optimization pertaining to their low ...
DAFoam: Discrete Adjoint with OpenFOAM for High-fidelity Multidisciplinary Design Optimizatio
DAFoam: Discrete Adjoint with OpenFOAM for High-fidelity Multidisciplinary Design Optimizatio
<p>Gradient-based optimisation using adjoints is an increasingly common approach for industrial flow...
AbstractWe present a discrete adjoint version of the open-source fluid-dynamics package OpenFOAM obt...
An effective discrete adjoint model for OpenFOAM Open Field Operation and Manipulation Open-Source ...
AbstractOpenFOAM is a powerful Open-Source (GPLv3) Computational Fluid Dynamics tool box with a risi...
A Discrete Adjoint version of an Unsteady Incompressible solver for OpenFOAM using Algorithmic Diffe...
Aim: Solution of the incompressible Navier-Stokes equations •Problem: No inherent coupling for the c...
Sensitivity analysis with the aim of design optimization is a growing area of interest in Computatio...
Presented at the 15th Computational Fluid Dynamics Conference, Anaheim, California, 11-14 June 2001A...
Sensitivity analysis with the aim of design optimization is a growing area of interest in Computatio...
This paper presents a number of algorithm developments for adjoint meth-ods using the `discrete &apo...
This paper presents a number of algorithm developments for adjoint methods using the `discrete&apos...
A methodology is developed and implemented to mitigate the lengthy software development cycle typica...
Adjoint based methods have become the focus of research in CFD optimization pertaining to their low ...
DAFoam: Discrete Adjoint with OpenFOAM for High-fidelity Multidisciplinary Design Optimizatio
DAFoam: Discrete Adjoint with OpenFOAM for High-fidelity Multidisciplinary Design Optimizatio
<p>Gradient-based optimisation using adjoints is an increasingly common approach for industrial flow...