We present a parallel and high-order Nédélec finite element solution for the marine controlled-source electromagnetic (CSEM) forward problem in 3-D media with isotropic conductivity. Our parallel Python code is implemented on unstructured tetrahedral meshes, which support multiple-scale structures and bathymetry for general marine 3-D CSEM modelling applications. Based on a primary/secondary field approach, we solve the diffusive form of Maxwell’s equations in the low-frequency domain. We investigate the accuracy and performance advantages of our new high-order algorithm against a low-order implementation proposed in our previous work. The numerical precision of our high-order method has been successfully verified by comparisons against pre...
Marine controlled-source electromagnetic (CSEM) method is a non-invasive offshore technique used, in...
We present a 3D forward modeling algorithm of marine controlled-source electromagnetic (CSEM) fields...
We put forward the idea of using a Block Low-Rank (BLR) multifrontal direct solver to efficiently so...
We present a parallel and high-order Nédélec finite element solution for the marine controlled-sourc...
We present a routine for 3D magnetotelluric (MT) modeling based upon high-order edge finite element ...
We present the capabilities and results of the Parallel Edge-based Tool for Geophysical Electromagne...
We introduce a new synthetic marine model for 3D controlled-source electromagnetic method (CSEM) sur...
The last decade has been a period of rapid growth for electromagnetic methods (EM) in geophysics, mo...
Large-scale modelling of 3-D controlled-source electromagnetic (CSEM) surveys used to be feasible on...
We present a nodal finite-element method that can be used to compute in parallel highly accurate sol...
Over the past 10 years, both academia and industry collected large amounts of EM data. Compared with...
The marine controlled-source electromagnetic method is a standard geophysical exploration tool in th...
This work presents a set of node-level optimizations to perform the assembly of edge finite element ...
The growing significance, technical development and employment of electromagnetic (EM) methods in ex...
This paper presents an edge-based parallel code for the data computation that arises when applying o...
Marine controlled-source electromagnetic (CSEM) method is a non-invasive offshore technique used, in...
We present a 3D forward modeling algorithm of marine controlled-source electromagnetic (CSEM) fields...
We put forward the idea of using a Block Low-Rank (BLR) multifrontal direct solver to efficiently so...
We present a parallel and high-order Nédélec finite element solution for the marine controlled-sourc...
We present a routine for 3D magnetotelluric (MT) modeling based upon high-order edge finite element ...
We present the capabilities and results of the Parallel Edge-based Tool for Geophysical Electromagne...
We introduce a new synthetic marine model for 3D controlled-source electromagnetic method (CSEM) sur...
The last decade has been a period of rapid growth for electromagnetic methods (EM) in geophysics, mo...
Large-scale modelling of 3-D controlled-source electromagnetic (CSEM) surveys used to be feasible on...
We present a nodal finite-element method that can be used to compute in parallel highly accurate sol...
Over the past 10 years, both academia and industry collected large amounts of EM data. Compared with...
The marine controlled-source electromagnetic method is a standard geophysical exploration tool in th...
This work presents a set of node-level optimizations to perform the assembly of edge finite element ...
The growing significance, technical development and employment of electromagnetic (EM) methods in ex...
This paper presents an edge-based parallel code for the data computation that arises when applying o...
Marine controlled-source electromagnetic (CSEM) method is a non-invasive offshore technique used, in...
We present a 3D forward modeling algorithm of marine controlled-source electromagnetic (CSEM) fields...
We put forward the idea of using a Block Low-Rank (BLR) multifrontal direct solver to efficiently so...