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CubiCal - Fast radio interferometric calibration suite exploiting complex optimisation

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arxiv 1805.03410 v2 pith:RW5CPCEU submitted 2018-05-09 astro-ph.IM

CubiCal - Fast radio interferometric calibration suite exploiting complex optimisation

classification astro-ph.IM
keywords calibrationcubicalcomplexsolversbeenexistinggainsinterferometric
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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It has recently been shown that radio interferometric gain calibration can be expressed succinctly in the language of complex optimisation. In addition to providing an elegant framework for further development, it exposes properties of the calibration problem which can be exploited to accelerate traditional non-linear least squares solvers such as Gauss-Newton and Levenberg-Marquardt. We extend existing derivations to chains of Jones terms: products of several gains which model different aberrant effects. In doing so, we find that the useful properties found in the single term case still hold. We also develop several specialised solvers which deal with complex gains parameterised by real values. The newly developed solvers have been implemented in a Python package called CubiCal, which uses a combination of Cython, multiprocessing and shared memory to leverage the power of modern hardware. We apply CubiCal to both simulated and real data, and perform both direction-independent and direction-dependent self-calibration. Finally, we present the results of some rudimentary profiling to show that CubiCal is competitive with respect to existing calibration tools such as MeqTrees.

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