Visualisation & Grid Applications of Electromagnetic Scattering from Aircraft Mark Spivack (PI), Andrew Usher, Xiaobo Yang, Mark Hayes CeSC, DAMTP & BAE.

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Presentation transcript:

Visualisation & Grid Applications of Electromagnetic Scattering from Aircraft Mark Spivack (PI), Andrew Usher, Xiaobo Yang, Mark Hayes CeSC, DAMTP & BAE Systems

The physical problem Simulate radar scattering from aircraft components (and eventually whole aircraft) The calculated radar cross-section is dependent on physical shape and material properties of the object. Results are fed back into the design process. Similar applications: acoustics, non-destructive testing, noise & vibration, medical imaging, meteorology.

CAD Design HPCF Reflection data Workflow BAE Cambridge

Stages of the computation Define geometry of the object Calculate surface currents (2D) Evaluate electromagnetic field (3D)

Why is this a hard problem? Small localised changes in the geometry or material properties will cause global changes in the scattered fields The geometry for e.g. a small engine duct is specified at 1.5x10^6 points… with a 3D complex-valued surface current at each point, giving a matrix with 10^12 elements. The time required for an “exact” solution grows as the 6th power of the dimensions of the object Need TeraFlop-class machines (HPCF) to solve realistic problems

Portal user interface Login (MyProxy) Submit batch jobs Transfer of results Launch visualisation Based on GridPort v

Visualisation tools Based on the Visualisation Toolkit - open source C++ library cross platform, extendable, large user base - Surface currents, virtual fly through, looking for “hot-spots”

eScience components Portal interface to Globus-accessible compute resources: linux clusters (+HPCF & SGI O2000 at BAE) GridFTP of results back to visualisation workstation XML schema to specify & validate input parameters, plus metadata annotation of results Security: VPN between Cambridge & BAE

Future work Improved user interface for specifying geometry Volume rendering of electromagnetic fields “Patching” of surface currents to generate a quick preliminary sln Grid service interface to code running on HPCF Larger objects up to and including whole aircraft