GER Sh WIN

GERShWIN is a simulation software dedicated to the simulation of microwave interaction with biological tissues. GERShWIN is based on a high order DG method formulated on unstructured tetrahedral meshes for solving the 3D system of time-domain Maxwell equations coupled to a Debye dispersion model. GERShWIN has been selected has one of the applications of the DEEP-ER EU project. In this context, its hybrid MIMD/SIMD parallelization has been investigated in detail using different approaches and programming models.

GERShWIN is a simulation software dedicated to the simulation of microwave interaction with biological tissues. GERShWIN is based on a high order DG method formulated on unstructured tetrahedral meshes for solving the 3D system of time-domain Maxwell equations coupled to a Debye dispersion model. GERShWIN has been selected has one of the use cases of the DEEP-ER EU project. In this context, its hybrid MIMD/SIMD parallelization has been investigated in detail using different approaches and programming models.

GERShWIN is a simulation software dedicated to the simulation of microwave interaction with biological tissues. GERShWIN is based on a high order DG method formulated on unstructured tetrahedral meshes for solving the 3D system of time-domain Maxwell equations coupled to a Debye dispersion model. GERShWIN has been selected has one of the use cases of the DEEP-ER EU project. In this context, its hybrid MIMD/SIMD parallelization has been investigated in detail using different approaches and programming models.

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Heterogeneous geometrical model of head tissues, which consists of 4 tissues: skin, skull, CSF and brain. The final tetrahedral mesh contains 1,853,832 elements.

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Heterogeneous geometrical model of a pregnant woman, which consists of 3 tissues. The fetus and the brain of the fetus are considered as different tissues and are meshed separately. The final tetrahedral mesh contains 5,536,852 elements.

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(:cell align='center':) Heterogeneous geometrical model of a pregnant woman, which consists of 3 tissues. The fetus and the brain of the fetus are considered as different tissues and are meshed separately. The final tetrahedral mesh contains 5,536,852 elements. (:tableend:)

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GERShWIN - discontinuous GalERkin Solver for microWave INteraction with biological tissues

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GERShWIN -

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GERShWIN is a simulation software dedicated to the simulation of microwave interaction with biological tissues. GERShWIN is based on a high order DG method formulated on unstructured tetrahedral meshes for solving the 3D system of time-domain Maxwell equations coupled to a Debye dispersion model.\\