Basic Earth Imaging

Chapter	Description	Download
Presentation Slides
1	You'll be introduced to different acquisition geometries exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine.	chapter1.pdf
2	Forward and adjoint operators and the concept of pushing and pulling are explained, using as example the task of writing a program that downward shifts traces.	chapter2.pdf
4	Normal moveout and stacking operators are explained.	chapter4.pdf
5	The basic geometry of migrating a dipping reflector is presented.	chapter5.pdf
6	Fourier sums.	chapter6.pdf
7	Downward continuation of wavefields is explained and migration of seismic data by downward continuation is introduced with the support of the exploding reflector concept.	chapter7.pdf
9	Quick introduction to finite-difference migration.	chapter9.pdf
10	Quick introduction to finite-difference migration.	chapter10.pdf

Description	Download
Subjects not covered in the book
Here you'll find different subjects ranging from the differences between 2D and 3D seismic to time X depth imaging and Kirchhoff X wave-equation migration.	2dvs3d.pdf
If you are interested on the results of migrating with an inaccurate velocity model, take a look at the examples using Marmousi data.	pspi.pdf
Here are two papers explaining the computation of angle-domain common image gathers (ADCIGs) and prestack migration using DSR equation plus split-step correction (DSR plus split-step).

Fortran 2003 Slides

Subject	Slides
Type extension and procedure pointers	fortran-2003-1.pdf	f2003-1.tgz
Abstraction, lecture 1	fortran2003-2.pdf	fortran-2003-2.tgz
C/Fortran	fortran2003-3.pdf	fortran-2003-3.tgz
More details	fortran2003-4.pdf

Subject	Slides	Files
Cuda basics (courtesy Nvidia)	cuda_basics.pdf
Cuda optimation (Nvidia)	nvidia.pptx