We present a general finite-element solver, escript, tailored to solve geophysical forward and inverse modeling problems in terms of partial differential equations (PDEs) with suitable boundary conditions. Escript's abstract interface allows geoscientists to focus on solving the actual problem without being experts in numerical modeling. General-purpose finite element solvers have found wide use especially in engineering fields and find increasing application in the geophysical disciplines as these offer a single interface to tackle different geophysical problems. These solvers are useful for data interpretation and for research, but can also be a useful tool in educational settings. This paper serves as an introduction into PDE-based model...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
We present a new approach for 2-D magnetotelluric forward numerical modelling in contrast to traditi...
-scale vary from a planetary scale and million years for convection problems to 100km and 10 years f...
Anisotropy in the electrical conductivity of the subsurface has been recognized as one of the major ...
The developments of models in Earth Sciences, e.g. for earthquake prediction and for the simulation ...
Computational models based on the solution of partial differential equations (PDEs) play a key role ...
In this paper we will give a brief introduction into the Python-based modelling language escript. We...
The escript package is an extension of python. It provides an easy-to-use programming environment fo...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
We present the capabilities and results of the Parallel Edge-based Tool for Geophysical Electromagne...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
We present a new approach for 2-D magnetotelluric forward numerical modelling in contrast to traditi...
-scale vary from a planetary scale and million years for convection problems to 100km and 10 years f...
Anisotropy in the electrical conductivity of the subsurface has been recognized as one of the major ...
The developments of models in Earth Sciences, e.g. for earthquake prediction and for the simulation ...
Computational models based on the solution of partial differential equations (PDEs) play a key role ...
In this paper we will give a brief introduction into the Python-based modelling language escript. We...
The escript package is an extension of python. It provides an easy-to-use programming environment fo...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
We present the capabilities and results of the Parallel Edge-based Tool for Geophysical Electromagne...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
Escript is a programming tool for implementing mathematical models in python using the finite elemen...
We present a new approach for 2-D magnetotelluric forward numerical modelling in contrast to traditi...