The Tsunami Imaging Suite provides the ultimate capability for distributed computing in the seismic processing industry. With the ability to mix Intel, AMD, SUN and SGI nodes within the same cluster and as little as 256 mbytes of memory on each CPU, unprecedented performance can be achieved. Tsunami migrations are much faster than the most popular systems with better image quality. Our exceptional scalability has been tested running over 1,000 CPU's on a single job!

About Tsunami

The Tsunami Imaging Suite is developed, marketed and supported by Tsunami Development, a Houston, Texas based company. Tsunami Development was formed in 2000 with the goal of developing prestack migration software designed and optimized to take full advantage of the low cost Linux cluster technology. This meant writing software code from scratch and not recompiling existing code (shared-memory mainframes) to run in a Linux cluster as so many companies have done. This exercise resulted in a unique new data handling I/O method that has since been awarded a worldwide patent by the United States Patent Office. It is our superior software coding and patented I/O method that is giving our clients significantly superior performance and high quality migration results today.

Our customers include both oil companies and seismic processing companies on three continents. With our user community growing everyday and 1,000’s of CPU’s now licensed, the Tsunami Imaging software has proven to be easy-to-use, reliable, accurate and FAST.

  

  
The Tsunami PSTM/PSDM is a distributed computing, hardware independent, Kirchhoff implementation for 2D/3D prestack time and depth migration. Featuring numerous industry advances, the software includes automatic restart capabilities to manage compute node failures during jobs, eliminating the need for continuous job status monitoring, making projects more likely to complete on schedule.

All Tsunami products incorporate a well designed graphic user interface, developed by a processing geophysicist, with all the ease of use expected from a next generation product. It includes extensive parameter and data checking, resulting in fewer mistakes when setting up jobs, therefore fewer jobs need to be rerun.