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^ **Assignment List** ^ | ^ **Assignment List** ^ | ||

| | **Name ** | **Description ** | **Due ** | **Download ** | | | | **Name ** | **Description ** | **Due ** | **Download ** | | ||

- | | {{sep:courses:gif:lab1.gif}} | **Getting to know your data** | This lab is meant to help you think of data in a physical way rather than a binary one. Keep in mind that the focus of this lab is on your analysis of the data rather than on programming. | | [[http://sepwww.stanford.edu/data/media/sep/courses/labs210/lab1_fortran.pdf|Lab1_fortran.pdf]] | | + | | {{sep:courses:gif:lab1.gif}} | **Getting to know your data** | This lab is meant to help you think of data in a physical way rather than a binary one. Keep in mind that the focus of this lab is on your analysis of the data rather than on programming. | | [[http://sepwww.stanford.edu/data/media/public/sep/prof/Lab1_fortran.pdf|Lab1_fortran.pdf]] [[http://sepwww.stanford.edu/data/media/public/sep/prof/Lab1_fortran.tar|Lab1_fortran.tar]] | |

| {{sep:courses:gif:lab2.gif}} | **Causal and anti-causal integration plus fun with adjoints** | You are first given a subroutine which performs causal andanti-causal integration. Your task is to code the adjoint and the dot product test to verify that the given anti-causal integration is the adjoint of the causal integration. Then you will have to answer some questions and apply the concept of causal and anti-causal integration. Secondly, you will have several subroutines withthe adjoints removed. The adjoints are also provided, so you simply have to match the correct adjoint with each subroutine. | | | | | {{sep:courses:gif:lab2.gif}} | **Causal and anti-causal integration plus fun with adjoints** | You are first given a subroutine which performs causal andanti-causal integration. Your task is to code the adjoint and the dot product test to verify that the given anti-causal integration is the adjoint of the causal integration. Then you will have to answer some questions and apply the concept of causal and anti-causal integration. Secondly, you will have several subroutines withthe adjoints removed. The adjoints are also provided, so you simply have to match the correct adjoint with each subroutine. | | | | ||

| {{sep:courses:gif:lab3.gif}} | ** Normal move-out, multiples and velocity analysis** | This lab is based on material from Chapters 3 and 4 of BEI. In the first portion you will be asked to select a velocity function that best flattens an NMO gather. In the second portion of the lab you will be given a velocity scan of the same cmp gather and asked to reselect the velocity function. In the final portion you will be given a multiple contaminated CMP gather, and asked to correct it based on both the primary and multiple trend of the data. | | | | | {{sep:courses:gif:lab3.gif}} | ** Normal move-out, multiples and velocity analysis** | This lab is based on material from Chapters 3 and 4 of BEI. In the first portion you will be asked to select a velocity function that best flattens an NMO gather. In the second portion of the lab you will be given a velocity scan of the same cmp gather and asked to reselect the velocity function. In the final portion you will be given a multiple contaminated CMP gather, and asked to correct it based on both the primary and multiple trend of the data. | | | |