The crystallographic fast Fourier transform. II. One-step symmetry reduction

Małgorzata Rowicka; Andrzej Kudlicki; Zbyszek Otwinowski

doi:10.1107/S0108767303002320

The crystallographic fast Fourier transform. II. One-step symmetry reduction

Małgorzata Rowicka, Andrzej Kudlicki, Zbyszek Otwinowski

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Abstract

An algorithm for evaluation of the crystallographic FFT for 67 crystallographic space groups is presented. The symmetry is reduced in such a way that it is enough to calculate P1 FFT in the asymmetric unit only and then, in a computationally simpler step, recover the final result. The algorithm yields the maximal symmetry reduction for every space group considered. For the central step in the calculation consisting of general P1 FFTs, any generic fast Fourier subroutine can be used. The approach developed in this paper is an extension of the scheme derived for p3-symmetric data [Rowicka, Kudlicki & Otwinowski (2002). Acta Cryst. A58, 574-579]. Algorithms described here will also be used in our forthcoming papers [Rowicka, Kudlicki & Otwinowski (2003). Acta Cryst A59, 183-192; Rowicka, Kudlicki & Otwinowski (2003), in preparation], where more complicated groups will be considered.

Original language	English (US)
Pages (from-to)	172-182
Number of pages	11
Journal	Acta Crystallographica Section A: Foundations of Crystallography
Volume	59
Issue number	2
DOIs	https://doi.org/10.1107/S0108767303002320
State	Published - Mar 2003

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Structural Biology

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abstract = "An algorithm for evaluation of the crystallographic FFT for 67 crystallographic space groups is presented. The symmetry is reduced in such a way that it is enough to calculate P1 FFT in the asymmetric unit only and then, in a computationally simpler step, recover the final result. The algorithm yields the maximal symmetry reduction for every space group considered. For the central step in the calculation consisting of general P1 FFTs, any generic fast Fourier subroutine can be used. The approach developed in this paper is an extension of the scheme derived for p3-symmetric data [Rowicka, Kudlicki & Otwinowski (2002). Acta Cryst. A58, 574-579]. Algorithms described here will also be used in our forthcoming papers [Rowicka, Kudlicki & Otwinowski (2003). Acta Cryst A59, 183-192; Rowicka, Kudlicki & Otwinowski (2003), in preparation], where more complicated groups will be considered.",

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AU - Rowicka, Małgorzata

AU - Kudlicki, Andrzej

AU - Otwinowski, Zbyszek

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N2 - An algorithm for evaluation of the crystallographic FFT for 67 crystallographic space groups is presented. The symmetry is reduced in such a way that it is enough to calculate P1 FFT in the asymmetric unit only and then, in a computationally simpler step, recover the final result. The algorithm yields the maximal symmetry reduction for every space group considered. For the central step in the calculation consisting of general P1 FFTs, any generic fast Fourier subroutine can be used. The approach developed in this paper is an extension of the scheme derived for p3-symmetric data [Rowicka, Kudlicki & Otwinowski (2002). Acta Cryst. A58, 574-579]. Algorithms described here will also be used in our forthcoming papers [Rowicka, Kudlicki & Otwinowski (2003). Acta Cryst A59, 183-192; Rowicka, Kudlicki & Otwinowski (2003), in preparation], where more complicated groups will be considered.

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The crystallographic fast Fourier transform. II. One-step symmetry reduction

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