Cell Ranger ATAC1.1, printed on 12/23/2024
The pipeline output directory, described in Understanding Output, contains all of the data produced by one invocation of a pipeline (a pipestance) as well as rich metadata describing the characteristics of each stage. This directory contains a specific structure that is used by the Martian pipeline framework to track the state of the pipeline as execution proceeds.
Cell Ranger ATAC's notion of a pipeline is very flexible in that a pipeline can be composed of stages that run stage code or sub-pipelines that may themselves contain stages or sub-pipelines.
Cell Ranger ATAC pipelines follow the convention that stages are named with verbs (e.g., ALIGN_READS, MARK_DUPLICATES, FILTER_BARCODES) and sub-pipelines are named with nouns and prefixed with an underscore (e.g., _PEAK_ANNOTATOR). Each stage runs in its own directory bearing its name, and each stage's directory is contained within its parent pipeline's directory.
For example, the cellranger-atac pipeline has the following process graph:
where
The MAKE_FASTQS_CS stage is not strictly necessary since it contains no stages and only one child pipeline (MAKE_FASTQS); however, it serves to mask some of the low-level inputs required by the MAKE_FASTQS pipeline. |
Every pipestance operates wholly inside of its pipeline output directory. When the pipestance completes, this pipestance output directory contains three outputs: metadata files, the pipestance output file directory, and the top-level pipeline stage directory.
The top-level pipeline stage directory is a stage directory that contains any number of child stage directories as well as one stage output directory for each fork run by that stage. There are four possible top-level pipeline stages:
All of the Cell Ranger ATAC pipelines only contain single-fork stages, so there will only ever be a fork0 stage output directory within each stage directory. Chunk output directories are a subset of stage output directories that additionally contain runtime information specific to the job or process being run by that chunk (e.g., a process ID or cluster job ID).
For example, the cellranger-atac mkfastq pipeline's pipeline output directory contains the following directory structure:
_log | Metadata file |
outs/ | Pipestance output file directory |
MAKE_FASTQS_CS/ | Top-level pipeline stage directory |
MAKE_FASTQS_CS/fork0/ | Stage output directory |
MAKE_FASTQS_CS/fork0/files/ | Stage output files |
MAKE_FASTQS_CS/MAKE_FASTQS/ | Stage directory |
MAKE_FASTQS_CS/MAKE_FASTQS/fork0/ | Stage output directory |
MAKE_FASTQS_CS/MAKE_FASTQS/fork0/files/ | Stage output files |
MAKE_FASTQS_CS/MAKE_FASTQS/BCL2FASTQ_WITH_SAMPLESHEET/ | Stage directory |
MAKE_FASTQS_CS/MAKE_FASTQS/BCL2FASTQ_WITH_SAMPLESHEET/fork0/ | Stage output directory |
MAKE_FASTQS_CS/MAKE_FASTQS/BCL2FASTQ_WITH_SAMPLESHEET/fork0/chnk0/ | Chunk output directory |
The metadata contained in the pipeline output directory includes
File Name | Description |
---|---|
_finalstate | Metadata cache that is populated when a pipestance completes to minimize re-aggregation of metadata |
_invocation | The MRO call used to invoke this pipestance |
_log | The log messages that are reported to your terminal window when running cellranger commands |
_mrosource | The entire MRO describing the pipeline with all @include statements dereferenced |
_perf | Detailed runtime performance data for every stage in the pipestance |
_timestamp | The start and finish time for this pipestance |
_vdrkill | A list of all of the volatile data (temporary files) removed during pipeline execution as well as total number of files and bytes deleted |
_versions | Versions of the components used by the pipeline |
Stage directories contain stage output directories, stage output files, and the stage directories of any child stages or pipelines.
Stage output directories typically contain:
File Name | Contents |
---|---|
files/ | Directory containing any files created by this stage that were not considered volatile (temporary) |
split/ | A special stage output directory for the step that divided this stage's input into parallel chunks |
chnkN/ | A chunk output directory for the Nth parallel chunk executed |
join/ | A special stage output directory for the step that recombined this stage's parallel output chunks into a single output dataset again |
_complete | A file that, when present, signifies that this stage has successfully completed |
_errors | A file that, when present, signifies that this stage failed. Contains the errors that resulted in stage failure. |
_invocation | The MRO call used to execute this stage by the Martian framework |
_outs | The output files generated by this stage |
_vdrkill | A list of all of the volatile data (temporary files) removed during pipeline execution as well as total number of files and bytes deleted |
Chunk output directories are a subset of stage output directories that, in addition to the aforementioned stage output, may contain:
File Name | Contents |
---|---|
_args | The arguments passed to the stage's stage code |
_jobinfo | Metadata describing the stage's execution, including performance metrics, job manager jobid and jobname, and process ID |
_jobscript | The script submitted to the cluster job manager (cluster mode-only) |
_stdout | Any stage code output that was printed to the stdout stream |
_stderr | Any stage code output that was printed to the stderr stream |
These metadata files should be treated as read-only, and altering the contents of metadata files is not recommended.
Pipestance output directories can demonstrate very complicated structures, and re-attaching the Cell Ranger ATAC UI is the easiest way to quickly navigate to a pipeline stage of interest and examine its metadata. In the absence of being able to access the UI, the standard find command can quickly return high-level information about a pipestance.
For example, to find the stages that resulted in the overall failure of a pipestance whose output directory is sample345/,
$ find sample345/ -name _errors sample345/SC_ATAC_COUNTER_CS/SC_ATAC_COUNTER/_SC_ATAC_ANALYZER/SUMMARIZE_ANALYSIS/fork0/chnk0/_errors
This tells us that the failed stage was SUMMARIZE_ANALYSIS.
It can be helpful to view all _errors files' contents at once by piping to xargs cat:
$ find sample345/ -name _errors | xargs cat Traceback (most recent call last): File "/home/jdoe/cellranger-atac-1.1.0/cellranger-atac-cs/1.1.0/mro/stages/cellranger/summarize_reports/__init__.py", line 62, in main filtered_gene_bc_matrices=args.filtered_gene_bc_matrices) File "/home/jdoe/cellranger-atac-1.1.0/cellranger-atac-cs/1.1.0/lib/python/cellranger-atac/webshim/common.py", line 625, in build_web_summary_html filtered_gene_bc_matrices=filtered_gene_bc_matrices) File "/home/jdoe/cellranger-atac-1.1.0/cellranger-atac-cs/1.1.0/lib/python/cellranger-atac/webshim/common.py", line 614, in build_web_summary_json filtered_gene_bc_matrices=filtered_gene_bc_matrices) File "/home/jdoe/cellranger-atac-1.1.0/cellranger-atac-cs/1.1.0/lib/python/cellranger-atac/webshim/common.py", line 579, in build_charts plot_data = plot_preprocess_func(sample_properties, filtered_matrices, gene_index) File "/home/jdoe/cellranger-atac-1.1.0/cellranger-atac-cs/1.1.0/lib/python/cellranger-atac/webshim/common.py", line 319, in plot_preprocess silhouette_score = metrics.silhouette_score(kmeans_matrix, clusters, metric='cosine') File "/home/jdoe/cellranger-atac-1.1.0/anaconda-cs/2.2.0/lib/python2.7/site-packages/sklearn/metrics/cluster/unsupervised.py", line 84, in silhouette_score "and less than n_samples - 1" % n_labels) ValueError: Number of labels is 5 but should be more than 2 and less than n_samples - 1
In the above case, the error is an unhandled exception whose cause is not obvious; these sorts of failures should be reported to the 10x software support team for assistance with diagnosis.
Stages whose stage code run external binaries (for example, the ALIGN_READS stage which runs BWA) often generate output to their stdout and stderr streams. These messages are captured in the _stdout and _stderr metadata files within the chunk output directories, and combining find and xargs cat to examine their contents can also assist with troubleshooting.