Files
Jungfraujoch/docs/RUGNUX.md
T
leonarski_fandClaude Fable 5 01e4f81e44
Build Packages / build:windows:cuda (push) Failing after 5m34s
Build Packages / build:viewer-tgz:cpu (push) Successful in 7m45s
Build Packages / build:viewer-tgz:cuda (push) Successful in 9m5s
Build Packages / build:windows:nocuda (push) Successful in 10m37s
Build Packages / build:rpm (ubuntu2404_nocuda) (push) Successful in 12m54s
Build Packages / build:rpm (rocky8_nocuda) (push) Successful in 13m6s
Build Packages / build:rpm (rocky8_sls9) (push) Successful in 13m25s
Build Packages / build:rpm (ubuntu2204_nocuda) (push) Successful in 13m38s
Build Packages / build:rpm (rocky9_nocuda) (push) Successful in 13m47s
Build Packages / build:rpm (rocky8) (push) Successful in 11m1s
Build Packages / build:rpm (rocky9_sls9) (push) Successful in 12m35s
Build Packages / XDS test (durin plugin) (push) Successful in 7m43s
Build Packages / Generate python client (push) Successful in 35s
Build Packages / Build documentation (push) Successful in 1m1s
Build Packages / Create release (push) Skipped
Build Packages / build:rpm (ubuntu2404) (push) Successful in 11m3s
Build Packages / build:rpm (ubuntu2204) (push) Successful in 12m53s
Build Packages / build:rpm (rocky9) (push) Successful in 13m4s
Build Packages / DIALS test (push) Successful in 13m38s
Build Packages / XDS test (neggia plugin) (push) Successful in 7m34s
Build Packages / XDS test (JFJoch plugin) (push) Successful in 8m15s
Build Packages / Unit tests (push) Successful in 1h0m56s
Consolidate offline tools into rugnux; merge on by default
Fold jfjoch_azint and rugnux_scale into the single rugnux CLI, and flip
scaling/merging from opt-in to on-by-default.

- rugnux --azint-only replaces jfjoch_azint (reuses ProcessMode::
  AzimuthalIntegration; adds the correction toggles and geometry overrides
  the old tool carried).
- rugnux --scale replaces rugnux_scale (re-scale/merge stored reflections,
  same simpler scale/merge as before: no space-group search or rot3d
  defaults). Its workflow is folded into the CLI verbatim.
- Merging is now on by default for rotation and stills; --no-merge disables
  it, replacing -M/--scale-merge.

Also fix the batch ReadReflections reader so it works on rugnux's own
NXmxIntegrated _process.h5: read per-image reflections/mosaicity/lattice
from the master (global index) first, falling back to the source-data
locator for legacy/VDS datasets. Without this, both --scale and the former
rugnux_scale read zero reflections from an integrated snapshot.

RugnuxCommandLine now emits `rugnux --azint-only` and `--no-merge`; docs and
tests updated to match.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-08 14:09:15 +02:00

11 KiB
Raw Blame History

rugnux

rugnux is the offline crystallographic data-analysis tool of Jungfraujoch — the data-processing half of the system (see Naming for where the name comes from). It takes an existing HDF5 dataset, runs the full analysis pipeline — spot finding, indexing, geometry refinement, Bragg integration and (optionally) scaling and merging — and writes the results to a _process.h5 file, plus reflection files (.mtz/.cif/.hkl) when merging is requested.

It runs the same analysis code as the online and interactive tools, just driven from the command line over a file rather than a live detector stream.

Note. rugnux is under very active development. This page describes the tool and its options at a high level; the authoritative, always-current list of options is the program's own usage message — run rugnux with no arguments.

Where it fits among the three analysis tools

Tool Mode Driven by Output
jfjoch_broker Online, real-time streaming analysis on FPGA + GPU HTTP/REST + ZeroMQ Live results and statistics, images streamed to jfjoch_writer
jfjoch_viewer Interactive, on-screen exploration Qt desktop application Displayed on screen (results not saved to disk)
rugnux Offline batch processing of a stored dataset Command-line interface _process.h5, and .mtz/.cif/.hkl when merging

Use rugnux to re-analyse data after acquisition, to experiment with processing parameters, or to produce merged intensities for downstream structure solution.

Hardware

As with the rest of Jungfraujoch, serious performance requires an NVIDIA GPU. The CUDA build provides the GPU fast-feedback indexer (ffbidx) and the GPU FFT indexer (fft); without CUDA only the CPU fftw indexer is available. Spot finding, integration and scaling run on the CPU and scale with the thread count (-N).

Input and output

Input is a single Jungfraujoch HDF5 master file (NXmx-based). If the dataset already contains stored spot lists, two-pass rotation indexing can reuse them instead of re-running spot finding on the first pass.

Output (controlled by -o, --output-prefix, default output):

  • <prefix>_process.h5 — NXmx-compliant HDF5 with derived metadata (spots, indexing, integration, azimuthal integration, per-image statistics). See HDF5 / NeXus data format for the layout. Written by default only when not merging (i.e. under --no-merge); add --write-process-h5 to also write it when merging.
  • Merging is on by default (--no-merge disables it). The merged reflections are written as <prefix>.cif (mmCIF — the default), or <prefix>.mtz / <prefix>.hkl depending on --scaling-output. Both the mmCIF and the MTZ carry the refined unit cell (from rotation indexing) and the space group determined from systematic absences (constrained to the indexed lattice symmetry). No-reference scaling additionally emits per-iteration <prefix>_iterN_scale.dat.

Merged statistics (⟨I/σ⟩, CC1/2, completeness, …), the error model and timing are printed to the console.

Re-scaling and re-merging (rugnux --scale)

The --scale mode re-scales and merges the already-integrated reflections stored in a _process.h5 file, without re-running spot finding or integration. Use it to re-merge quickly with a different space group, resolution limit, anomalous setting or reference MTZ. It reuses the same -o/-N/-s/-e/-S/-A/-B/-z/--scaling-* options as the full run, and (unlike the full pipeline) does not run a space-group search, so pass -S for the correct symmetry.

Quick start

Rotation data

Index, integrate, scale and merge a rotation sweep, fully de novo:

rugnux rotation_master.h5 \
    -o lyso_rot -N 32 \
    --scaling-high-resolution 1.4

Because the dataset carries a rotation goniometer axis, it is processed as rotation data by default: two-pass rotation indexing (index the sweep once, then process every frame against that lattice) with the rot3d partiality model (rotation partials combined into 3D fulls). Scaling and merging run by default (for both rotation and stills; --no-merge turns them off); the unit cell is taken from the rotation indexer and the space group is determined from systematic absences, and both are written into the merged .cif.

Run fully de novo (no -C/-S) for the best result — supplying a cell or space group up front tends to degrade low-symmetry cases. --scaling-high-resolution (set it to your expected resolution) sharpens both the space-group search and the error model. To tune the first pass use --two-pass-rotation=100 (or -R100 — the first-pass image count); to force the sweep to be treated as independent stills use --force-still.

Still / serial data

A dataset with no goniometer axis (e.g. a serial grid scan) is processed as independent stills automatically — no flag needed. Known-cell indexing with the GPU fast-feedback indexer, then merge against a reference structure:

rugnux serial_master.h5 \
    -o lyso_serial -N 32 \
    -X ffbidx -C 79,79,38,90,90,90 -S 96 \
    --spot-sigma 4 \
    -z reference.mtz \
    --scaling-high-resolution 1.8

ffbidx requires a known cell (-C) and is the indexer of choice for sparse serial stills. For weak serial data, tightening spot finding with --spot-sigma 4 typically raises the indexing rate substantially. If a dataset does carry a goniometer axis but you want per-frame stills processing anyway, add --force-still.

Command-line options

General:

Option Description
-o, --output-prefix <txt> Output file prefix (default: output)
-N, --threads <num> Number of worker threads (default: 1)
-s, --start-image <num> First image to process (default: 0)
-e, --end-image <num> Last image to process (default: all)
-t, --stride <num> Process every n-th image (default: 1)
-v, --verbose Verbose output

Modes (default: full analysis — spot finding, indexing, integration and merging):

Option Description
--azint-only Only run azimuthal integration (no spot finding/indexing); writes <prefix>_process.h5
--scale Only re-scale/merge the already-integrated reflections in the input _process.h5 (no re-integration)

Spot finding:

Option Description
--spot-sigma <num> Noise sigma level for spot finding (default: 3.0)
--spot-threshold <num> Photon-count threshold for spot finding (default: 10)
--spot-high-resolution <num> High-resolution limit for spot finding, Å (default: 1.5)
--max-spots <num> Maximum spot count (default: 250)
--detect-ice-rings[=on|off] Flag ice-ring spots and exclude ice-ring reflections from scaling/merging; overrides the dataset setting (default: use the dataset value)

Azimuthal integration (the radial profile behind the per-image ice-ring score):

Option Description
-q, --azim-q-spacing <num> Q bin spacing, 1/Å (default: 0.01; finer resolves the narrow ice rings)
--azim-min-q <num> Minimum Q, 1/Å
--azim-max-q <num> Maximum Q, 1/Å
--azim-phi-bins <num> Number of azimuthal (phi) bins (default: 1)

Indexing:

A dataset with a rotation goniometer axis is processed as rotation data (two-pass rotation indexing) by default; a dataset without one is processed as independent stills. --force-still overrides the former; the -R / --single-pass-rotation / --force-rotation-lattice flags request rotation explicitly and pick the pass or lattice.

Option Description
--force-still Treat a rotation (goniometer) dataset as independent stills instead of rotation
-X, --indexing-algorithm <txt> FFBIDX | FFT | FFTW | Auto | None
-C, --unit-cell <cell> Reference unit cell "a,b,c,alpha,beta,gamma" (required by ffbidx)
-S, --space-group <num> Space group number (used for indexing and scaling)
-r, --refine <txt> Geometry refinement: none | orientation | beam_and_lattice (default)
-R, --two-pass-rotation[=num] Two-pass offline rotation indexing (default for goniometer data; optional first-pass image count, default 100)
--single-pass-rotation[=num] Online-like single-pass rotation indexing (optional min angular range, deg)
--redo-rotation-spots Redo spot finding for the two-pass rotation first pass
--force-rotation-lattice <vec> Force rotation lattice (9 floats, Å), skipping the first pass

Indexer choice in brief: ffbidx (GPU) refines toward a known cell and is best for sparse serial stills; fft (GPU) / fftw (CPU) index de novo and suit strong rotation data. See the CPU/GPU data-analysis reference for the algorithms.

Scaling and merging:

Option Description
--no-merge Skip scaling and merging (on by default); write only the per-image _process.h5
-A, --anomalous Anomalous mode (keep Friedel pairs separate)
-B, --refine-bfactor Refine a per-image B-factor
--scale-fulls / --no-scale-fulls rot3d: refit a per-frame scale on the combined fulls (XDS order, Unity model); on by default for rotation data, off for stills
--smooth-g[=deg] rot3d: smooth the per-frame scale G over a degree range before the 3D combine (XDS DELPHI-like; default 5° for rotation, 0 = off)
--capture-uncertainty <num> rot3d: systematic sigma on under-captured fulls, ~num·(1captured_fraction)·I (default: 1.0 for rotation, 0 otherwise)
--scaling-high-resolution <num> High-resolution limit for scaling, Å (default: no limit)
--min-partiality <num> Minimum partiality to accept a reflection (default: 0.02)
--reject-outliers <num> Per-observation outlier rejection, N σ from the per-reflection median (default: 6 for rot3d, off otherwise)
--reject-delta-cchalf <num> Drop images with ΔCC1/2 below mean N·stddev (default: off)
--min-image-cc <num> Per-image CC limit, percent (default: no limit)
--scaling-iterations <num> Scaling iterations with no reference data (default: 3)
--scaling-output <txt> Reflection output format: cif (mmCIF, default) | mtz | txt
-z, --reference-mtz <file> Reference MTZ (enables reference-driven scaling)
--write-process-h5 Also write the (large) _process.h5 when merging (default: only .mtz/.cif)

Integration:

Option Description
--integrator <txt> Spot integrator: gaussian (profile-fit, default) | empirical | boxsum (classical fallback)
--integration-radius <r> Signal-box radius r1, or r1,r2,r3 (px). One value ⇒ r2=r1+2, r3=r1+4
--bandwidth <num> Relative X-ray bandwidth FWHM (e.g. 0.01 for a 1% DMM); default from file or 0 (monochromatic)