As Engenharias frente a Sociedade, a Economia e o Meio Ambiente 5

Description

The present work introduces a high performance hardware/software co-design that provides a scalable model for seismic imaging. The main goal is to provide an analysis of such an implementation performance and power efficiency against other accelerators. For that it has been used a custom method for 2-D RTM, namely Hybrid Boundary Condition (HBC), which optimizes memory bandwidth and allows to explore a pipelined architecture. This design provides a high performance and powerful efficient alternative for accelerating seismic imaging processes through a combination of state of the art RTM techniques and hardware-oriented optimizations.

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• Chapter 11: Seismic Imaging Using FPGA Applied for Reverse Time Migration

Citation

Nascimento, A. A.; Junior, D. M. M.; Rojas, G.G.; Bittencourt, J. C. N.; Oliveira, J. R. S.; Jesus, L. R. C. de; Tutu, R. C.; Junior, S. M.; Oliveira, W. L. A. de. Imageamento Sísmico com FPGA Aplicado a Migração Reversa no Tempo. As Engenharias frente a Sociedade, a Economia, e o Meio Ambiente 5, 2020. DOI 10.22533/at.ed.87220080611.

@inbook{nascimento2020imageamento,
    title={Imageamento Sísmico com FPGA Aplicado a Migração Reversa no Tempo},
    author={Nascimento, Anderson Amorim do and Junior, Deusdete Miranda Matos and Rojas, Georgina Gonzalez and Bittencourt, João Carlos N. and Oliveira, Joaquim Ranyere Santana de and Jesus, Laue Rami Souza Costa de and Tutu, Rodrigo Carvalho and Junior, Silvano Moreira and Oliveira, Wagner Luiz Alves de},
    booktitle={As Engenharias frente a Sociedade, a Economia, e o Meio Ambiente 5},
    year={2020},
    publisher={Athena Editora},
    doi={10.22533/at.ed.87220080611},
    chapter={11}
}