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The inversion problem is solved by a conjugate gradient method and the gradients are computed in the frequency domain with the adjoint method. The inversion problem is solved by a conjugate gradient method and the gradients are computed in the frequency domain with the adjoint method.
The forward modeling is done by a time domain finite difference scheme. The forward modeling is done by a time domain finite difference scheme.
IFOS2D is the reverse (inverse) of our 3D finite difference forward solver [**SOFI3D**](https://git.scc.kit.edu/GPIAG-Software/SOFI3D). IFOS3D is the reverse (inverse) of our 3D finite difference forward solver [**SOFI3D**](https://git.scc.kit.edu/GPIAG-Software/SOFI3D).
The [**manual**](https://git.scc.kit.edu/GPIAG-Software/IFOS3D/wikis/home) can be downloaded [here](https://git.scc.kit.edu/GPIAG-Software/IFOS3D/wikis/home). The [**manual**](https://git.scc.kit.edu/GPIAG-Software/IFOS3D/wikis/home) can be downloaded [here](https://git.scc.kit.edu/GPIAG-Software/IFOS3D/wikis/home).
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