To get the best perfomance from your workflows, be aware of the following Arvados features, behaviors, and best practices.
Use cwltool:CUDARequirement to request nodes with GPUs.
Try using preemptible (spot) instances .
If you have a sequence of short-running steps (less than 1-2 minutes each), use the Arvados extension arv:RunInSingleContainer to avoid scheduling and data transfer overhead by running all the steps together in the same container on the same node. To use this feature, cwltool must be installed in the container image. Example:
class: Workflow cwlVersion: v1.0 $namespaces: arv: "http://arvados.org/cwl#" inputs: file: File outputs: [] requirements: SubworkflowFeatureRequirement: {} steps: subworkflow-with-short-steps: in: file: file out: [out] # This hint indicates that the subworkflow should be bundled and # run in a single container, instead of the normal behavior, which # is to run each step in a separate container. This greatly # reduces overhead if you have a series of short jobs, without # requiring any changes the CWL definition of the sub workflow. hints: - class: arv:RunInSingleContainer run: subworkflow-with-short-steps.cwl
InlineJavascriptRequirement or ShellCommandRequirementAvoid declaring InlineJavascriptRequirement or ShellCommandRequirement unless you specifically need them. Don’t include them “just in case” because they change the default behavior and may add extra overhead.
When combining a parameter value with a string, such as adding a filename extension, write $(inputs.file.basename).ext instead of $(inputs.file.basename + 'ext'). The first form is evaluated as a simple text substitution, the second form (using the + operator) is evaluated as an arbitrary Javascript expression and requires that you declare InlineJavascriptRequirement.
ExpressionTool to efficiently rearrange input filesUse ExpressionTool to efficiently rearrange input files between steps of a Workflow. For example, the following expression accepts a directory containing files paired by _R1_ and _R2_ and produces an array of Directories containing each pair.
class: ExpressionTool cwlVersion: v1.0 inputs: inputdir: Directory outputs: out: Directory[] requirements: InlineJavascriptRequirement: {} expression: | ${ var samples = {}; for (var i = 0; i < inputs.inputdir.listing.length; i++) { var file = inputs.inputdir.listing[i]; var groups = file.basename.match(/^(.+)(_R[12]_)(.+)$/); if (groups) { if (!samples[groups[1]]) { samples[groups[1]] = []; } samples[groups[1]].push(file); } } var dirs = []; for (var key in samples) { dirs.push({"class": "Directory", "basename": key, "listing": [samples[key]]}); } return {"out": dirs}; }
Available compute nodes types vary over time and across different cloud providers, so it is important to limit the RAM requirement to what the program actually needs. However, if you need to target a specific compute node type, see this discussion on calculating RAM request and choosing instance type for containers.
Instead of a scatter step that feeds into another scatter step, prefer to scatter over a subworkflow.
With the following pattern, step1 has to wait for all samples to complete before step2 can start computing on any samples. This means a single long-running sample can prevent the rest of the workflow from moving on:
cwlVersion: v1.0 class: Workflow inputs: inp: File steps: step1: in: {inp: inp} scatter: inp out: [out] run: tool1.cwl step2: in: {inp: step1/inp} scatter: inp out: [out] run: tool2.cwl step3: in: {inp: step2/inp} scatter: inp out: [out] run: tool3.cwl
Instead, scatter over a subworkflow. In this pattern, a sample can proceed to step2 as soon as step1 is done, independently of any other samples.
Example: (note, the subworkflow can also be put in a separate file)
cwlVersion: v1.0 class: Workflow steps: step1: in: {inp: inp} scatter: inp out: [out] run: class: Workflow inputs: inp: File outputs: out: type: File outputSource: step3/out steps: step1: in: {inp: inp} out: [out] run: tool1.cwl step2: in: {inp: step1/inp} out: [out] run: tool2.cwl step3: in: {inp: step2/inp} out: [out] run: tool3.cwl
To write workflows that are easy to modify and portable across CWL runners (in the event you need to share your workflow with others), there are several best practices to follow:
DockerRequirementWorkflows should always provide DockerRequirement in the hints or requirements section.
Share tool wrappers and subworkflows between projects. Make use of and contribute to community maintained workflows and tools and tool registries such as Dockstore .
CommandLineTools wrapping custom scripts should represent the script as an input parameter with the script file as a default value. Use secondaryFiles for scripts that consist of multiple files. For example:
cwlVersion: v1.0 class: CommandLineTool baseCommand: python inputs: script: type: File inputBinding: {position: 1} default: class: File location: bclfastq.py secondaryFiles: - class: File location: helper1.py - class: File location: helper2.py inputfile: type: File inputBinding: {position: 2} outputs: out: type: File outputBinding: glob: "*.fastq"
You can get the designated temporary directory using $(runtime.tmpdir) in your CWL file, or from the $TMPDIR environment variable in your script.
Similarly, you can get the designated output directory using $(runtime.outdir), or from the HOME environment variable in your script.
ResourceRequirementAvoid specifying resources in the requirements section of a CommandLineTool, put it in the hints section instead. This enables you to override the tool resource hint with a workflow step level requirement:
cwlVersion: v1.0 class: Workflow inputs: inp: File steps: step1: in: {inp: inp} out: [out] run: tool1.cwl step2: in: {inp: step1/inp} out: [out] run: tool2.cwl requirements: ResourceRequirement: ramMin: 2000 coresMin: 2 tmpdirMin: 90000
You can use HTTP URLs as File input parameters and arvados-cwl-runner will download them to Keep for you:
fastq1: class: File location: https://example.com/genomes/sampleA_1.fastq fastq2: class: File location: https://example.com/genomes/sampleA_2.fastq
Files are downloaded and stored in Keep collections with HTTP header information stored in metadata. If a file was previously downloaded, arvados-cwl-runner uses HTTP caching rules to decide if a file should be re-downloaded or not.
The default behavior is to transfer the files on the client, prior to submitting the workflow run. This guarantees the data is available when the workflow is submitted. However, if data transfer is time consuming and you are submitting multiple workflow runs in a row, or the node submitting the workflow has limited bandwidth, you can use the --defer-download option to have the data transfer performed by workflow runner process on a compute node, after the workflow is submitted.
arvados-cwl-runner provides two additional options to control caching behavior.
--varying-url-params will ignore the listed URL query parameters from any HTTP URLs when checking if a URL has already been downloaded to Keep.--prefer-cached-downloads will search Keep for the previously downloaded URL and use that if found, without checking the upstream resource. This means changes in the upstream resource won’t be detected, but it also means the workflow will not fail if the upstream resource becomes inaccessible.One use of this is to import files from AWS S3 signed URLs
Here is an example usage. The use of --varying-url-params=AWSAccessKeyId,Signature,Expires is especially relevant, this removes these parameters from the cached URL, which means that if a new signed URL for the same object is generated later, it can be found in the cache.
arvados-cwl-runner --defer-download \
--varying-url-params=AWSAccessKeyId,Signature,Expires \
--prefer-cached-downloads \
workflow.cwl params.yml
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