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2017
Michael Lange, Navjot Kukreja, Fabio Luporini, Mathias Louboutin, Charles Yount, Jan Hückelheim, and Gerard Gorman, Optimised finite difference computation from symbolic equations, in Python in Science Conference Proceedings, 2017, pp. 89-96.
Mathias Louboutin, Gerard Gorman, and Felix J. Herrmann, Optimizing the computational performance of time-domain modelling–-leveraging multiple right-hand-sides, UBC, TR-EOAS-2017-2, 2017.
Mathias Louboutin, Michael Lange, Felix J. Herrmann, Navjot Kukreja, and Gerard Gorman, Performance prediction of finite-difference solvers for different computer architectures, Computers & Geosciences, vol. 105, pp. 148-157, 2017.
Mathias Louboutin, Michael Lange, Felix J. Herrmann, Navjot Kukreja, and Gerard Gorman, Performance prediction of finite-difference solvers for different computer architectures, Computers & Geosciences, vol. 105, pp. 148-157, 2017.
Mathias Louboutin, Michael Lange, Navjot Kukreja, Fabio Luporini, Felix J. Herrmann, and Gerard Gorman, Raising the abstraction to separate concerns: enabling different physics for geophysical exploration, in SIAM Conference on Computational Science and Engineering, 2017.
Mathias Louboutin, Michael Lange, Navjot Kukreja, Fabio Luporini, Felix J. Herrmann, and Gerard Gorman, Raising the abstraction to separate concerns: enabling different physics for geophysical exploration, in SIAM Conference on Computational Science and Engineering, 2017.
Mathias Louboutin, Michael Lange, Navjot Kukreja, Fabio Luporini, Felix J. Herrmann, and Gerard Gorman, Raising the abstraction to separate concerns: enabling different physics for geophysical exploration, in SIAM Conference on Computational Science and Engineering, 2017.
2016
Navjot Kukreja, Mathias Louboutin, Felippe Vieira Zacarias, Fabio Luporini, Michael Lange, and Gerard Gorman, Devito: automated fast finite difference computation, in WOLFHPC 2016 Workshop (Super Computing), 2016.
Navjot Kukreja, Mathias Louboutin, Felippe Vieira Zacarias, Fabio Luporini, Michael Lange, and Gerard Gorman, Devito: automated fast finite difference computation, in WOLFHPC 2016 Workshop (Super Computing), 2016.
Navjot Kukreja, Mathias Louboutin, Felippe Vieira Zacarias, Fabio Luporini, Michael Lange, and Gerard Gorman, Devito: automated fast finite difference computation, in WOLFHPC 2016 Workshop (Super Computing), 2016.
Marcos de Aguiar, Gerard Gorman, Felix J. Herrmann, Navjot Kukreja, Michael Lange, Mathias Louboutin, and Felippe Vieira Zacarias, DeVito: fast finite difference computation, in Super Computing (SC16), 2016.
Marcos de Aguiar, Gerard Gorman, Felix J. Herrmann, Navjot Kukreja, Michael Lange, Mathias Louboutin, and Felippe Vieira Zacarias, DeVito: fast finite difference computation, in Super Computing (SC16), 2016.
Michael Lange, Navjot Kukreja, Mathias Louboutin, Fabio Luporini, Felippe Vieira Zacarias, Vincenzo Pandolfo, Paulius Velesko, Paulius Kazakas, and Gerard Gorman, Devito: Towards a generic finite difference DSL using symbolic python, in 6th Workshop on Python for High-Performance and Scientific Computing, 2016, pp. 67-75.
Michael Lange, Navjot Kukreja, Mathias Louboutin, Fabio Luporini, Felippe Vieira Zacarias, Vincenzo Pandolfo, Paulius Velesko, Paulius Kazakas, and Gerard Gorman, Devito: Towards a generic finite difference DSL using symbolic python, in 6th Workshop on Python for High-Performance and Scientific Computing, 2016, pp. 67-75.
Michael Lange, Navjot Kukreja, Mathias Louboutin, Fabio Luporini, Felippe Vieira Zacarias, Vincenzo Pandolfo, Paulius Velesko, Paulius Kazakas, and Gerard Gorman, Devito: Towards a generic finite difference DSL using symbolic python, in 6th Workshop on Python for High-Performance and Scientific Computing, 2016, pp. 67-75.
Zhilong Fang, Chia Ying Lee, Curt Da Silva, Tristan van Leeuwen, Felix J. Herrmann, and Rachel Kuske, Efficient approach for quantifying uncertainty of wavefield reconstruction inversion, SINBAD Fall consortium talks. SINBAD, 2016.
Tim T.Y. Lin and Felix J. Herrmann, Estimation of primaries by sparse inversion with scattering-based multiple predictions for data with large gaps, Geophysics, vol. 81, pp. V183-V197, 2016.
Mathias Louboutin and Felix J. Herrmann, High-performance seismic applications of OPESCI, SINBAD Fall consortium talks. SINBAD, 2016.
Oscar Lopez, Rajiv Kumar, and Felix J. Herrmann, Low-rank matrix recovery for parallel architectures, SINBAD Fall consortium talks. SINBAD, 2016.
Xiang Li, Ernie Esser, and Felix J. Herrmann, Modified Gauss-Newton full-waveform inversion explained–-why sparsity-promoting updates do matter, Geophysics, vol. 81, pp. R125-R138, 2016.
Oscar Lopez, Rajiv Kumar, Ozgur Yilmaz, and Felix J. Herrmann, Off-the-grid low-rank matrix recovery and seismic data reconstruction, IEEE Journal of Selected Topics in Signal Processing, vol. 10, pp. 658-671, 2016.
Oscar Lopez, Rajiv Kumar, Ozgur Yilmaz, and Felix J. Herrmann, Off-the-grid low-rank matrix recovery: seismic data reconstruction, in Canadian Mathematical Society Summer Meeting, 2016.
Gerard Gorman, Marcos de Aguiar, David Ham, Felix J. Herrmann, Paul H. J. Kelly, Navjot Kukreja, Michael Lange, Mathias Louboutin, Fabio Luporini, Paulius Velesko, Vincenzo Pandolfo, and Felippe Vieira Zacarias, Open Performance portablE SeismiC Imaging–-OPESCI, SINBAD Fall consortium talks. SINBAD, 2016.
Gerard Gorman, Marcos de Aguiar, David Ham, Felix J. Herrmann, Paul H. J. Kelly, Navjot Kukreja, Michael Lange, Mathias Louboutin, Fabio Luporini, Paulius Velesko, Vincenzo Pandolfo, and Felippe Vieira Zacarias, Open Performance portablE SeismiC Imaging–-OPESCI, SINBAD Fall consortium talks. SINBAD, 2016.
Gerard Gorman, Marcos de Aguiar, David Ham, Felix J. Herrmann, Paul H. J. Kelly, Navjot Kukreja, Michael Lange, Mathias Louboutin, Fabio Luporini, Paulius Velesko, Vincenzo Pandolfo, and Felippe Vieira Zacarias, Open Performance portablE SeismiC Imaging–-OPESCI, SINBAD Fall consortium talks. SINBAD, 2016.

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