Difference between revisions of "Zurich 2016"

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! colspan="2"  | Madagascar as a framework for reproducible research
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! colspan="2"  | Madagascar as a framework for reproducible research (Sergey Fomel)
 
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<tt>Madagascar</tt> provides a complete environment for organizing one's research, from new software development to running computational experiments to publishing the experimental results in papers and reports and archiving them for future usage. This shared environment enables an efficient exchange of research results with colleagues and sponsors. In this module, you will learn how to take the full advantage of the <tt>Madagascar</tt> environment to enhance research productivity and research collaboration.<br>
 
<tt>Madagascar</tt> provides a complete environment for organizing one's research, from new software development to running computational experiments to publishing the experimental results in papers and reports and archiving them for future usage. This shared environment enables an efficient exchange of research results with colleagues and sponsors. In this module, you will learn how to take the full advantage of the <tt>Madagascar</tt> environment to enhance research productivity and research collaboration.<br>
 
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| 13:00-14:30
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| 13:00-16:00
! colspan="2"  | Modeling and full waveform inversion (Pengliang Yang)
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! colspan="2"  | Seismic modeling, imaging, and full waveform inversion (Jeffrey Shragge and Pengliang Yang)
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Abstract.<br>
 
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! colspan="2"  | Modeling and high-herformance homputing (Jeffrey Shragge)
 
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Abstract.<br>
 
 
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! Day 2  
 
! colspan="2" style="background:#efefef;" | Tuesday, June 7th
 
! colspan="2" style="background:#efefef;" | Tuesday, June 7th
 
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! colspan="2"  | 2D field data processing (Kelly Regimbal)
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! colspan="2"  | Seismic field data processing (Kelly Regimbal and Karl Schleicher)
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Abstract.<br>
 
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! colspan="2"  | Processing the TeaPot Dome Land 3D survey with Madagascar (Karl Schleicher)
 
 
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In Marchenko imaging, wavefields are retrieved at speci- fied focal points in the subsurface through an iterative scheme derived from the multidimensional Marchenko equation. The method requires seismic-reflection data at the earth’s surface (after free-surface multiple elimination) and an estimate of the direct wavefield from the surface to each focal point, which can be computed, for instance, in a macrovelocity model.<br>
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In Marchenko imaging, wavefields are retrieved at specified focal points in the subsurface through an iterative scheme derived from the multidimensional Marchenko equation. The method requires seismic-reflection data at the earth’s surface (after free-surface multiple elimination) and an estimate of the direct wavefield from the surface to each focal point, which can be computed, for instance, in a macrovelocity model.<br>
 
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| 14:30-16:00
 
| 14:30-16:00
 
! colspan="2"  | Students' experiences with Madagascar, reproducible documents, wrap up.
 
! colspan="2"  | Students' experiences with Madagascar, reproducible documents, wrap up.
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Abstract.<br>
 
 
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Revision as of 12:45, 3 May 2016

Zurich.jpg
2016 Madagascar School on Reproducible Computational Geophysics in Zürich

 

Dates

June 6-7, 2016

Hosting Organization

Exploration and Environmental Geophysics (EEG) group
Institute of Geophysics
ETH Zürich

Location

Department of Earth Sciences at ETH Zürich (Zentrum campus)
Room F39
NO Building
Sonneggstrasse 5, 8092 Zürich
Switzerland

Location and directions in Google Maps

Travel and Accommodation

Zurich is an international business city as well as one of the favorite destinations for European tourists. Please note that the Madagascar school takes place at the beginning of the tourist season, we suggest to book your travel well in advance.

Please also check in advance if you need a visa to enter and stay in Switzerland. Switzerland is part of the Schengen Area. All EU and EEA (Iceland, Norway, and Liechtenstein) countries do not require visa and ID cards are generally sufficient, but please check if a passport might be required. Do I need a VISA?

Zurich is easily accessible by plane, by train, and by car. You can find additional information on SBB (railways) and ZVV (public transports).

Registration

Registration is open until 27th May 2016.

Registration fees are 30 Swiss Francs (CHF) for students and 100 Swiss Francs (CHF) for other participants. Exchange rate

Lunches on both days and coffee breaks are included in the registration fees.

Click here to proceed to the registration.

Agenda

Work in progress!

Program
Day 1 Monday, June 6th
9:00-12:00 Madagascar as a framework for reproducible research (Sergey Fomel)

Madagascar provides a complete environment for organizing one's research, from new software development to running computational experiments to publishing the experimental results in papers and reports and archiving them for future usage. This shared environment enables an efficient exchange of research results with colleagues and sponsors. In this module, you will learn how to take the full advantage of the Madagascar environment to enhance research productivity and research collaboration.

13:00-16:00 Seismic modeling, imaging, and full waveform inversion (Jeffrey Shragge and Pengliang Yang)
Day 2 Tuesday, June 7th
9:00-12:00 Seismic field data processing (Kelly Regimbal and Karl Schleicher)

Teapot dome 3D survey

13:00-14:30 Marchenko imaging (Constantin Mildner and Filippo Broggini)

In Marchenko imaging, wavefields are retrieved at specified focal points in the subsurface through an iterative scheme derived from the multidimensional Marchenko equation. The method requires seismic-reflection data at the earth’s surface (after free-surface multiple elimination) and an estimate of the direct wavefield from the surface to each focal point, which can be computed, for instance, in a macrovelocity model.

14:30-16:00 Students' experiences with Madagascar, reproducible documents, wrap up.

Instructors