What is it about?

A thorough understanding of dynamic processes in areas as diverse as biomechanics, materials science, and miniature engineering relies on our ability to observe changes of a sample in 3-dimensional detail at high speeds. X-ray microtromography is a technique capable of looking inside opaque objects without destroying them. So far, the observation of very fast processes has been hindered by the lack of suitable camera systems. To enable live time-resolved measurements of real dynamic phenomena over extended periods of time, we have developed a new high frame-rate camera readout system, called GigaFRoST (short for Gigabit Fast Readout System for Tomography).

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Why is it important?

While a number of commercial imaging systems are capable of acquiring images with very high frame rates, they are usually designed for burst operation, storing data on internal memory which is later read out at speeds much slower than the experiment duration. This results in essentially blind acquisition, and, moreover, the total acquisition time is limited by the available memory, which is usually not enough to cover the full duration of a dynamic process. Our developments solve this problem by streaming the data from the camera directly to a dedicated server, which is able to make the data available for previewing and analysis essentially in real-time, while the amount of data that can be aquired is limited only by the server memory or the attached file storage capacity. This opens up countless new opportunities for the observation of dynamic systems with high temporal resolution, such as crack propagation in materials, bubble growth in metal foams, musculoskeletal motions in insects, and many more. Making use of a modular and easily extendable, parallelizable architecture, the same data streaming approach can be used and adapted for other high performance detector systems.

Perspectives

Finally, after years of in-house developments at the Paul Scherrer Institute, we are able to offer this amazing new camera system to our fast imaging user community at the TOMCAT beamline of the Swiss Light Source. I am convinced that the GigaFRoST will enable groundbreaking new experiments and deliver unprecedented insights into the internal workings of many fast phenomena.

Dr Christian M Schlepuetz
Paul Scherrer Institute

Read the Original

This page is a summary of: GigaFRoST: the gigabit fast readout system for tomography, Journal of Synchrotron Radiation, October 2017, International Union of Crystallography,
DOI: 10.1107/s1600577517013522.
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