Table of Contents
SEP 152 reproducibility testing score sheet
IMPORTANT!
For the guidelines/FAQs/instructions, please check out this guideline and this short presentation on common mistakes.
code | ER figs can | CR Fig Flows | Makefile | CR figs can | |||
---|---|---|---|---|---|---|---|
Papers: | Filename | compiles | be rebuilt | present | Clarity | be rebuilt | note |
Paper1 | jon | P | P | - | P | - | |
Paper2 | mandy1 | P | - | P | P | - | |
Paper3 | stew2 | - | - | P | P | - | |
Paper4 | biondo1 | ||||||
Paper5 | ali1 | ||||||
Paper6 | xukai1 | P | P | P | - | - | |
Paper7 | musa1 | ||||||
Paper8 | taylor1 | P | - | P | P | P | |
Paper9 | adam1 | P | - | P | P | P | |
Paper1 | yang1 | P | P | P | P | - | |
Paper11 | guillaume | P | - | P | P | P | |
Paper12 | chris1 | P | - | P | P | P | |
Paper13 | chris2 | - | - | - | P | - | |
Paper14 | daniel | P | P | - | P | P | |
Paper15 | eileen1 | P | P | P | P | P | |
Paper16 | mandy2 | P | - | P | P | - | |
Paper17 | musa3 | ||||||
Paper18 | stew3 | - | - | P | - | - | |
Paper19 | gcalves | P | P | - | P | - | |
Paper20 | ohad1 | P | P | - | P | - | |
Paper21 | jason1 | P | P | P | P | P | |
Paper22 | taylor2 | P | - | P | P | - | |
Paper23 | elita1 | P | P | P | P | - | |
Paper24 | elita2 | P | P | P | - | - | |
Paper25 | huyle | P | P | P | P | P | |
Paper26 | musa2 | ||||||
Paper27 | yishen1 | P | P | P | P | - | |
Paper28 | bob1 | - | - | - | - | - | |
Paper29 | eileen2 | - | - | - | - | - | |
Paper30 | stew1 | - | - | - | - | - | |
Paper31 | musa4 |
P: Pass; F: Fail; -: Non-applicable
Paper Titles
Paper1: Jon Claerbout “Automatic default for hyperbolic softclip”
Paper2: Mandy Wong, Biondo Biondi, and Shuki Ronen “Shot-dependent angle-domain noise filtering in RTM”
Paper3: Stewart A. Levin and Fritz Foss “Downward continuation of Mars SHARAD data”
Paper4: Biondo Biondi and Ali Almomin “Efficient and robust waveform-inversion workflow: tomographic FWI followed by FWI”
Paper5: Ali Almomin, Biondo Biondi “Preconditioned tomographic full waveform inversion by wavelength continuation”
Paper6: Xukai Shen “Revisiting absolute amplitude matching in waveform inversion”
Paper7: Musa Maharramov and Biondo Biondi “Joint full-waveform inversion of time-lapse seismic data sets”
Paper8: Taylor Dahlke “Shape optimization using the FWI objective function for salt body segmentation”
Paper9: Adam Halpert “Efficient velocity model evaluation with multiple shots”
Paper10: Yang Zhang and Biondo Biondi “Residual-moveout-based WEMVA: a WAZ field data example”
Paper11: Guillaume Barnier and Robert Clapp “Multiple realizations of equiprobable velocity fields using sequential Gaussian simulation”
Paper12: Chris Leader and Biondo Biondi “Demigration and image space separation of simultaneously acquired data”
Paper13: Chris Leader and Robert Clapp “Phase-encoded inversion with randomised sampling”
Paper14: Daniel Blatter and Chris Leader “Simultaneous Source Deblending as a Sequency of Coherency Pass Filters”
Paper15: Eileen Martin “Compression for effective memory bandwidth use in forward modeling”
Paper16: Mandy Wong and Antoine Guitton “Preliminary results of iterative migration with the hybrid penalty function”
Paper17: Musa Maharramov “Monitoring of cyclic steam stimulation by inversion of surface tilt measurements”
Paper18: Stewart A. Levin “What Bayes sayes”
Paper19: Gustavo Alves and Biondo Biondi “High order elastic finite differences modeling”
Paper20: Ohad Barak, Priyank Jaiswal, Sjoerd de Ridder, John Giles, and Shuki Ronen “Six-component seismic land data acquired with geophones and rotation sensors: wave-mode separation using 6C SVD”
Paper21: Jason P. Chang, Sjoerd de Ridder, Nori Nakata, and Biondo Biondi “High-frequency surface and body waves from ambient noise cross-correlations at Long Beach, CA”
Paper22: Taylor Dahlke, Gregory Beroza, Jason Chang, and Sjoerd de Ridder “Stochastic variability of velocity estimates using eikonal tomography on the Long Beach data set”
Paper23: Yunyue (Elita) Li, Robert Clapp, Biondi Biondo, and Dave Nichols “Rock physics constrained anisotropic WEMVA: Part I - Theory and Synthetic test”
Paper24: Yunyue (Elita) Li, Robert Clapp, Biondi Biondo, and Dave Nichols “Rock physics constrained anisotropic WEMVA: Part II - Field data test”
Paper25: Huy Le, Stewart A. Levin, Robert G. Clapp, and Biondo Biondi “Removing shear artifacts in acoustic anisotropic wave propagation”
Paper26: Musa Maharramov “Fast artifact-free pseudo-acoustic modeling of wave-propagation in anisotropic media with spectral and finite difference methods”
Paper27: Yi Shen “Wave-equation migration Q analysis (WEMQA) from Angle-Domain Common Image Gather (ADCIG)”
Paper28: Robert G. Clapp “HTML5 and interactive visualization”
Paper29: Eileen Martin, Robert G. Clapp, Huy Le, Chris Leader, and Dave Nichols “SEPVector: a C++ inversion library”
Paper30: Stewart A. Levin “SEG2 to MATLAB file converter”
Paper31: Musa Maharramov “CESLib: an object library for building scalable inversion applications”