- VIEW the color-coded reciprocal lattice.
- VIEW the complete job log (probably only useful for diagnosing a failed job).
- Anisotropy information extracted from the STARANISO log file for 5REJ:

Processing software: XDS(integration) Aimless(scaling) STARANISO version: 2.3.94 (25-May-2023) Run on: Tue, 26 Sep 2023 10:16:07 +0200. Using MTZ column labels: FP SIGFP NOTE: Not doing Bayesian estimation because corrected Is or Fs were input. Unit cell and space group: 112.568 52.860 44.490 90.00 102.90 90.00 'C 1 2 1' Nominal diffraction range: 54.863 1.720 Input reflection count: 27213 Unique reflection count: 26954 Diffraction cut-off criterion: Local mean I/sd(I) = 1.20 Diffraction limits & principal axes of ellipsoid fitted to diffraction cut-off surface: 2.000 0.9207 0.0000 -0.3903 0.970a*- 0.244c*1.703 0.0000 1.0000 0.0000b*1.753 0.3903 0.0000 0.9207 0.773a*+ 0.634c*GoF to ellipsoid (d*): 0.0221 Fraction of surface points fitted: 100.0% ( 4055 / 4055) Number of unobserved reflections inside ellipsoid: 1957 Number of observed reflections inside ellipsoid: 21104 Number of observed reflections outside ellipsoid: 2 Lowest cut-off diffraction limit: 2.109 at reflection -45 1 15 in direction -0.948a*+ 0.021b*+ 0.316c*Worst diffraction limit after cut-off: 2.167 at reflection -43 1 15 in direction -0.944a*+ 0.022b*+ 0.329c*Best diffraction limit after cut-off: 1.734 at reflection 4 24 15 in direction 0.140a*+ 0.840b*+ 0.525c*NOTE that because the cut-off surface is likely to be only very approximately ellipsoidal, in part due to variations in reflection redundancy arising from the chosen collection strategy, the directions of the worst and best diffraction limits may not correspond with the reciprocal axes, even in high-symmetry space groups (the only constraint being that the surface must have point symmetry at least that of the Laue class). Fraction of data inside cut-off surface: 78.3% ( 21106 / 26954) Fraction of surface truncated by detector edges: 0.5% ( 8 / 1630) Fraction of total surface above threshold truncated by cusp(s): 0.0% ( 0 / 1630) Scale: 7.70913E-03 [ = factor to place Iobs on same scale as Iprofile.] Beq: 18.94 [ = equivalent overall isotropic B factor on Fs.] B11 B22 B33 B23 B31 B12 Baniso tensor: 20.22 18.62 17.99 0.00 -0.06 0.00 NOTE: The Baniso tensor is the overall anisotropy tensor on Fs. Delta-B tensor: 1.28 -0.32 -0.96 0.00 -0.06 0.00 NOTE: The delta-B tensor is the overall anisotropy tensor on Fs after subtraction of Beq from its diagonal elements (so trace = 0). Neither this nor its eigenvalues shown below is used further in any computation, including in anisotropy correction and deposition. Eigenvalues of overall anisotropy tensor (Ang.^2), eigenvalues after subtraction of smallest eigenvalue (as used in the anisotropy correction) and corresponding eigenvectors of the overall & anisotropy tensor as direction cosines relative to the orthonormal basis (standard PDB convention), and also in terms of reciprocal unit-cell vectors: Eigenvalue #1: 20.22 2.24 ( 0.9997, 0.0000, -0.0258) 0.995a*- 0.098c*Eigenvalue #2: 18.62 0.64 ( 0.0000, 1.0000, 0.0000)b*Eigenvalue #3: 17.98 0.00 ( 0.0258, 0.0000, 0.9997) 0.067a*+ 0.998c*The eigenvalues and eigenvectors of the overall B tensor are the squares of the lengths and the directions of the principal axes of the ellipsoid that represents the tensor. Delta-B eigenvalues: 1.28 -0.32 -0.96 The delta-B eigenvalues are the eigenvalues of the overall anisotropy tensor after subtraction of Beq (so sum = 0). Angle & axis of rotation of diffraction-limit ellipsoid relative to anisotropy tensor: 21.49 0.0000 1.0000 0.0000 Anisotropy ratio: 0.118 [ = (Emax - Emin) / Beq ] Fractional anisotropy: 0.061 [ = sqrt(1.5 Sum_i (E_i - Beq)^2 / Sum_i E_i^2) ] Eigenvalues & eigenvectors of mean I/sd(I) anisotropy tensor: 1.04 0.8344 0.0000 -0.5511 0.946a*- 0.324c*1.64 0.0000 1.0000 0.0000b*1.43 0.5511 0.0000 0.8344 0.896a*+ 0.444c*Eigenvalues & eigenvectors of weighted CC_1/2 anisotropy tensor: 0.181 0.8862 0.0000 -0.4634 0.961a*- 0.278c*0.273 0.0000 1.0000 0.0000b*0.253 0.4634 0.0000 0.8862 0.839a*+ 0.544c*Eigenvalues & eigenvectors of mean K-L divergence anisotropy tensor: 0.359 0.8893 0.0000 -0.4573 0.961a*- 0.275c*0.553 0.0000 1.0000 0.0000b*0.512 0.4573 0.0000 0.8893 0.834a*+ 0.551c*Eigenvalues & eigenvectors of mean I/E[I] anisotropy tensor: 3.20E-01 0.7725 0.0000 -0.6350 0.927a*- 0.375c*3.94E-01 0.0000 1.0000 0.0000b*3.74E-01 0.6350 0.0000 0.7725 0.935a*+ 0.356c*Ranges of local mean I/sd(I), local weighted CC_1/2, local mean K-L divergence, local mean I/E[I] and D-W factor [= exp(-4 pi^2 s~Us)]: ISmean CChalf KLdive IEmean DWfact 0 Grey Unobservable* 1 Blue Observable* 2 Red|Pink:9 1.20 0.3000 0.726 0.95 0.1003 3 Orange 3.06 0.8535 1.728 1.05 0.1977 4 Yellow 7.72 0.9660 2.939 1.10 0.3460 5 Green 16.04 0.9834 3.974 1.16 0.5382 6 Cyan 22.86 0.9872 4.509 1.24 0.7439 7 Magenta 27.90 0.9890 5.510 1.33 0.9135 8 White 31.32 0.9899 6.751 1.39 0.9967 * Refer to GLOSSARY for explanation of terminology. The cut-off surface uses a different color scheme: Unmeasured points are blue (inside the fitted surface) or cyan (outside). Unobserved points are red (in) or green (out). Observed points are orange (in) or white (out). The fitted surface is magenta. Anisotropic S/N ratio: 0.66 [ = max_h | exp(4 pi^2 s~_h delta(B) s_h) - 1 | <I_h/sd(I_h)> ] The 'anisotropic S/N ratio', unlike the 'anisotropy ratio' or the 'fractional' anisotropy shown above, in addition to the anisotropy of the B tensor, takes both the diffraction and the local mean I/sd(I) into account. Estimated twin fraction from K-L divergence of observed acentric Z probability (before, after): 0.00 0.00 Estimated twin fraction from Britton histogram for -h-l,-k,l operator (strong, all): 0.00 0.00 Estimated twin fraction from Murray-Rust plot for -h-l,-k,l operator (strong, all): 0.00 0.09 Estimated twin fraction from weighted Fisher & Sweet plot for -h-l,-k,l operator: 0.05 Estimated twin fraction from K-L divergence of |delta-Z| probability for -h-l,-k,l operator: 0.00 Estimated twin fraction from K-L divergence of |H| probability for -h-l,-k,l operator: 0.01 Estimated twin fraction from K-L divergence of unrelated acentric |delta-Z| probability: 0.00 Padilla & Yeates L test for twinning, acentric moments of |L|: <|L|> (normal = .500; perfect twin = .375): 0.495 <L^2> (normal = .333; perfect twin = .200): 0.323 Estimated twin fraction from K-L divergence of |L| probability: 0.02