Table of Contents
SEP report reproducibility test guideline
If you have more complex rebuild strategies rather than typing make. You need to include a readme file or put the instructions at the top of make file as comment.
The quality of reproducibility will be evaluated in five aspects:
1. ER figures can be reproduced
2. flow for CR figures is present is makefile
3. All Code compiles on SEP computing environment
4. Makefile is written in a clear/concise/neat manner
5. CR figures can be reproduced.
The last two are optional, but rest are mandatory(everyone needs to pass in order to pass the test). Also we will check that proper reproducibility label are assigned to each figures.
Testing score sheet SEP 147
CR Figure Flows | CR figures can | |||||
---|---|---|---|---|---|---|
Papers: | Filename | present | code compiles | Makefile Clarity | actually be rebuilt | note |
Paper1 | jasonpc1 | |||||
Paper2 | nfarghal1 | |||||
Paper3 | musa1 | |||||
Paper4 | musa2 | |||||
Paper5 | musa3 | |||||
Paper6 | yishen | |||||
Paper7 | qiang | |||||
Paper8 | chris1 | |||||
Paper9 | chris2 | |||||
Paper10 | ali1 | |||||
Paper11 | yang1 | |||||
Paper12 | yang2 | |||||
Paper13 | ohad1 | |||||
Paper14 | mandy1 | |||||
Paper15 | mandy2 | |||||
Paper16 | elita1 | |||||
Paper17 | elita2 | |||||
Paper18 | elita3 | |||||
Paper19 | sjoerd1 | |||||
Paper20 | sjoerd2 | |||||
Paper21 | adam1 | |||||
Paper22 | adam2 | |||||
Paper23 | xukai1 | |||||
Paper24 | xukai2 | |||||
Paper25 | xukai3 | |||||
Paper26 | xukai4 | |||||
Paper27 | biondo1 | |||||
Paper28 | bob1 | |||||
Paper29 | stew1 | |||||
Paper30 | jon1 | |||||
Paper31 | jon2 |
Y: Yes/Passed
N: No/Failed
-: Not applicable. (for example, if one paper has no CR figures)
Paper Titles
Paper1: Jason P. Chang and Sjoerd de Ridder, “Correlation energy between surface and borehole stations at the Valhall Field”
Paper2: Noha S. Farghal and Stewart A. Levin, “Hunting for microseismic reflections using multiplets”
Paper3: Musa Maharramov, “Identifying reservoir depletion patterns from production-induced deformations with applications to seismic imaging”
Paper4: Musa Maharramov, “Least-squares via Generalised Minimum Residuals”
Paper5: Musa Maharramov, “Object-oriented design patterns and data abstraction in the tk framework”
Paper6: Yi Shen, “Estimation of Q from surface-seismic reflection data in data space and image space”
Paper7: Qiang Fu and Jon Claerbout, “Recently progress regarding logarithm Fourier domain bidirectional deconvolution”
Paper8: Chris Leader and Robert Clapp, “Linearised inversion with GPUs”
Paper9: Chris Leader and Ali Almomin, “How incoherent can we be? Phase encoded linearised inversion with random boundaries”
Paper10: Ali Almomin and Biondo Biondi, “Tomographic full waveform inversion: Practical and computationally feasible approach”
Paper11: Yang Zhang and Biondo Biondi, “Residual moveout based wave equation migration velocity analysis in 3-D”
Paper12: Yang Zhang and Adam D. Halpert, “Enhanced interpreter-aided salt-boundary extraction using shape deformation”
Paper13: Ohad Barak, “P/S separation of OBS data by inversion in a homogeneous media”
Paper14: Mandy Wong, Shuki Ronen, and Biondo Biondi, “Joint imaging with Streamer and ocean bottom data”
Paper15: Mandy Wong, Biondo Biondi, and Shuki Ronen, “Imaging with multiples using linearized full-wave inversion”
Paper16: Yunyue (Elita) Li, Peng Shen, and Colin Perkins, “VTI Migration velocity analysis using RTM”
Paper17: Yunyue (Elita) Li, “Wave-equation migration velocity analysis for anisotropic models on 2-D ExxonMobil field data”
Paper18: Yunyue (Elita) Li, “Wave-equation migration velocity analysis for VTI media using optimized implicit finite difference”
Paper19: Sjoerd de Ridder, “Continuous reservoir monitoring by ambient seismic noise tomography”
Paper20: Sjoerd de Ridder, “Surface wave tomography based on FWI of the 2 dimensional scalar wave equation”
Paper21: Adam Halpert, “Edge-preserving smoothing for segmentation of seismic images”
Paper22: Adam Halpert, “Fast velocity model evaluation with synthesized wavefields”
Paper23: Xukai Shen, “Early-arrival waveform inversion for near-surface velocity and anisotropic parameters: Modeling and sensitivity kernel analysis”
Paper24: Xukai Shen, “Early-arrival waveform inversion for near-surface velocity and anisotropic parameters: Inversion of synthetic data”
Paper25: Xukai Shen and Robert G. Clapp, “Short Note: FWI with different boundary conditions”
Paper26: Xukai Shen and Tieyuan Zhu, “Short Note: Early arrival waveform inversion: Application to crosswell field data”
Paper27: Biondo Biondi and Ali Almomin, “Tomographic full waveform inversion (TFWI) by combining full waveform inversion with wave-equation migration velocity anaylisis”
Paper28: Robert G. Clapp, “Image gather reconstruction using STOMP”
Paper29: Stewart A. Levin, “Integral operator quality from low order interpolation”
Paper30: Jon Claerbout, “Polarity preserving decon in N logN time”
Paper31: Jon Claerbout, Antoine Guitton, and Qiang Fu, “Decon in the log domain with variable gain”