Wave atoms are a low-redundancy alternative to curvelets, suitable for high-dimensional seismic data processing. This abstract extends the wave atom orthobasis construction to 3D, 4D, and 5D Cartesian arrays, and parallelizes it in a sharedmemory environment. An implementation of the algorithm for NVIDIA CUDA capable graphics processing units (GPU) is also developed to accelerate computation for 2D and 3D data. The new transforms are benchmarked against the Fourier transform for compression of data generated from synthetic 2D and 3D acoustic models.TOTAL (Firm)National Science Foundation (U.S.)Alfred P. Sloan Foundatio
The gap between processing performance and the memory bandwidth is still increasing. To compensate f...
Full Waveform Inversion (FWI) is a depth imaging technique that takes advantage of the full informat...
An \emph {explicit} algorithm for the extrapolation of one-way wavefields is proposed which combines...
Wave atoms are a low-redundancy alternative to curvelets, suitable for high-dimensional seismic data...
Seismic data compression SDC is crucially confronted in the oil Industry with large data volumes ...
In this paper, we consider 3D wave-packet transform that is useful in 3D data processing. This trans...
AbstractWe introduce “wave atoms” as a variant of 2D wavelet packets obeying the parabolic scaling w...
We introduce “wave atoms ” as a variant of 2D wavelet packets obeying the parabolic scaling waveleng...
Different seismic data compression algorithms have been developed in order to make the storage more ...
Best Paper Award at HPCS'09International audienceWe have designed a fast parallel simulator that sol...
Considerable attention has been focussed on the use of wavelet transforms for seismic data compressi...
The measurements conducted in tomography and seismology typically yield large multidimensional data ...
International audienceWe accelerate a three-dimensional finite-difference in the time domain (FDTD) ...
What makes a seismogram look like a seismogram? Seismic data sets generally contain waveforms sharin...
Wavefield reconstruction is a crucial step in the seismic processing flow. For instance, unsuccessfu...
The gap between processing performance and the memory bandwidth is still increasing. To compensate f...
Full Waveform Inversion (FWI) is a depth imaging technique that takes advantage of the full informat...
An \emph {explicit} algorithm for the extrapolation of one-way wavefields is proposed which combines...
Wave atoms are a low-redundancy alternative to curvelets, suitable for high-dimensional seismic data...
Seismic data compression SDC is crucially confronted in the oil Industry with large data volumes ...
In this paper, we consider 3D wave-packet transform that is useful in 3D data processing. This trans...
AbstractWe introduce “wave atoms” as a variant of 2D wavelet packets obeying the parabolic scaling w...
We introduce “wave atoms ” as a variant of 2D wavelet packets obeying the parabolic scaling waveleng...
Different seismic data compression algorithms have been developed in order to make the storage more ...
Best Paper Award at HPCS'09International audienceWe have designed a fast parallel simulator that sol...
Considerable attention has been focussed on the use of wavelet transforms for seismic data compressi...
The measurements conducted in tomography and seismology typically yield large multidimensional data ...
International audienceWe accelerate a three-dimensional finite-difference in the time domain (FDTD) ...
What makes a seismogram look like a seismogram? Seismic data sets generally contain waveforms sharin...
Wavefield reconstruction is a crucial step in the seismic processing flow. For instance, unsuccessfu...
The gap between processing performance and the memory bandwidth is still increasing. To compensate f...
Full Waveform Inversion (FWI) is a depth imaging technique that takes advantage of the full informat...
An \emph {explicit} algorithm for the extrapolation of one-way wavefields is proposed which combines...