Thiago Teixeira scite author profile

In this paper, we discuss the porting strategy and the achieved performance of Petrobras production code that implements Kirchhoff prestack time and depth seismic migration algorithms on a cluster of 64 GPUs and 256 CPU cores. The time migration of a real-world survey was 20 times faster in the full cluster with GPUs than in the full cluster without GPUs. The introduction of GPUs accelerated the depth migration of another real-world survey by a factor of 5. In both cases, a large fraction of the achieved gains were due to the porting strategy that privileges CPU-GPU A preliminary version of this work was published at the 21st International Symposium on Computer Architecture and High Performance Computing, SBAC-PAD 2009. 123 Int J Parallel Prog (2012) 40:290-312 291cooperation instead of pure GPU speed. Another strategy that contributed to the high gains was GPU overloading by multiple MPI processes. To cope with the heterogeneous load of real-world data, we developed a dynamic load balancing scheme that significantly speeds up computation.

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Analysis of Optimization Opportunities for Intel Xeon Phi and Intel Xeon Scalable Processors Environments of a Numerical Method for the Biphasic Flow of Fluids in Porous Media

Teixeira

Cabral

Osthoff

et al. 2018

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A Scalable Parallel Deduplication Algorithm

Teixeira

Machado

Meira

et al. 2007

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Online multimedia retrieval on CPU–GPU platforms with adaptive work partition

Souza

Fernandes

Teixeira

et al. 2021

Journal of Parallel and Distributed Computing

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Thiago Teixeira

Accelerating Kirchhoff Migration by CPU and GPU Cooperation

Accelerating Time and Depth Seismic Migration by CPU and GPU Cooperation

Analysis of Optimization Opportunities for Intel Xeon Phi and Intel Xeon Scalable Processors Environments of a Numerical Method for the Biphasic Flow of Fluids in Porous Media

A Scalable Parallel Deduplication Algorithm

Online multimedia retrieval on CPU–GPU platforms with adaptive work partition

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