User guide » History » Version 72
- Table of contents
- Using project.py
- GUI Interface
- Project File Structure
Larsoft common batch and workflow tools are contained in ups product
larbatch (this redmine), which is built and distributed as part of
larsoft. Larbatch tools are built on top of Fermilab
jobsub_client batch submission tools. For general information about jobsub_client and the Fermilab batch system, refer to articles on the jobsub wiki and the fife wiki.
No other part of larsoft is dependent on
larbatch is not setup as a dependent of the
larsoft umbrella ups product. Rather,
larbatch is intended to be a dependent of experiment-specific ups products (see this article for instructions on configuring
larbatch for a specific experiment.
After setting up ups product
larbatch, several executable scripts and python modules are available on the execution path and python path. Here is a list of the more important ones.
An executable python script that is the the main entry point for user interation. More information can be found below.
A python module, imported by
project.py, that implements some of the workflow functionality. End users would not normally interact directly with this module. However, a significant aspect of
project_utilities.pyis that is supplies hooks for providing experiment-specific implementations of some functionality, as described in an accompanying article on this wiki.
The main batch script.
Condor_lar.shis a general purpose script that manages a single invocation of an art framework program (
Condor_lar.shsets up the run-time environment, fetches input data, interacts with sam, and copies output data. It is not intended that end users will directly invoke
condor_lar.sh. However, one can get a general idea of the features and capabilities of
condor_lar.shby viewing the built-in documentation by typing "
condor_lar.sh -h, or reading the file header.
Batch script for starting a sam project.
Batch script for stopping a sam project.
Project.py is used in conjunction with a xml format project definition file (see below). The concept of a project, as understood by
project.py, and as defined by the project definition file, is a multistage linear processing chain involving a specified number of batch workers at each stage.
Refer to header of project.py or type
"project.py --help". Internal documentation is always kept up to date
project.py command line options are changed.
In a typical invocation of
project.py, one specifies the project file (via option
--xml), tha stage name (via option
--stage), and one or more action options. Here are some use cases for invoking
Print built-in help (lists all available command line options).
Print built-in xml help (lists all available elements that can be included in project definition file).
project.py --xml xml-name --status
Print global summary status of the project.
project.py --xml xml-name --stage stage-name --submit
Submit batch jobs for specified stage.
project.py --xml xml-name --stage stage-name --check
Check results from specified stage (identifies failed jobs). This action assumes that the art program produces an artroot output file.
project.py --xml xml-name --stage stage-name --checkana
Check results from specified stage (identifies failed jobs). This version of the check action skips some checks done by
--checkthat only make sense if the art program produces an artroot output file. Use this action to check results from an analyzer-only art program.
project.py --xml xml-name --stage stage-name --makeup
Submit makeup jobs for failed jobs, as identified by a previous
project.py --xml xml-name --stage stage-name --clean
Delete output for the specified stage and later stages. This option can be combined with
project.py --xml xml-name --stage stage-name --declare
Declare successful artroot files to sam.
project.py --xml xml-name --stage stage-name --upload
Upload successful artroot files to enstore.
project.py --xml xml-name --stage stage-name --define
Create sam dataset definition.
project.py --xml xml-name --stage stage-name --audit
Check the completeness and correctness of a processing stage using sam parentage information. For this action to work, input and output files must be must be declared to sam.
Project.py has a GUI interface called
projectgui.py, which is invoked as follows.
Essentially all of the functionality that is available via the command line interface of
project.py can be access from the GUI, in (hopefully) obvious fashion.
Project File Structure¶
The general structure of the project file is that it is an XML file that contains a single root element of type "
project" (enclosed in "
<project name=project-name>...</project>"). Inside the project element, there are additional subelements, including one or moe stage subelements (enclosed in "
<stage name=stage-name>...</stage>." Each stage element defines a group of batch jobs that are submitted together by a single invocation of
Example XML project files used by microboone from ubutil product can be found here.
Refer to header of project.py or type
"project.py --xmlhelp". Internal documentation is always kept up to date when XML constructs are added or changed.
XML header section¶
The initial lines of an XML project file should follow a standard pattern. Here is a typical example header.
<?xml version="1.0"?> <!DOCTYPE project [ <!ENTITY release "v02_05_01"> <!ENTITY file_type "mc"> <!ENTITY run_type "physics"> <!ENTITY name "prod_eminus_0.1-2.0GeV_isotropic_uboone"> <!ENTITY tag "mcc5.0"> ]>
The significance of the header elements are as follows.
- The XML version
Copy the above version line exactly, namely,
- The document type (DOCTYPE keyword).
The argument following the DOCTYPE keyword specifies the "root element" of the XML file, and should always be "
- Entity definitions
Entity definitions, which occur inside the DOCTYPE section, are XML aliases. Any string that occurs repeatedly inside an XML file is a candidate for being defined as an entity. Entities can be substituted inside the the body of the XML file by enclosing the entity name inside
Each project definition file should contain a single project element enclosed in "
<project name=project-name>...</project>." The name attribute of the project element is required.
- A single subelement with tag "
larsoft," which defines the run-time environment.
- Option subelements.
- One or more stage subelements.
Each project element is required to contain a single subelement with tag "
larsoft" (enclosed in "
<larsoft>...</larsoft>." The larsoft subelement defines the batch run-time environment. The larsoft subelement may contain simple text subelements, of which there are currently three:
Larsoft release version.
Larsoft release qualifier.
Path of user's local test release directory or tarball.
local subelement is optional. Here is how a typical larsoft subelement might appear in a project definition file.
<larsoft> <tag>&release;</tag> <qual>e6:prof</qual> </larsoft>
Note in this example that the larsoft version is defined by an entity "
release," which should be defined in the DOCTYPE section.
Project options are text subelements of the project element with tags other that "
larsoft" or "
stage." Here are some project options (this is the full list when this wiki was written). The full list of project options (and all defined XML constructs) can always be found by typing "
Should contain the standard experiment name (for microboone use "
uboone"). If missing, environment variable
Total number of events to process.
Number of parallel worker jobs (default 1). Can be overridden in individual stages.
- @ <maxfilesperjob>...</maxfilesperjob>
Maximum number of files to deliver to a single job. Useful in case you want to limit output file size or keep 1 -> 1 correlation between input and output.
Can be overwritten by <stage><maxfilesperjob>
Comma-separated list of allowed batch OSes (e.g. "SL5,SL6"). This option is passed directly to
jobsub_submitcommand line option
--OS. Default is
jobsubresources (command line option "
--resource-provides=usage_model="). Default is "
DEDICATED,OPPORTUNISTIC". For OSG specify "
OFFSITE." Can be overridden in individual stages.
jobsubserver. Expert option, usually not needed.
OSG site(s) (comma-separated list). Use with "
<resource>OFFSITE</resource>." Default is
jobsubdecides, which usually means "any site."
Sam file type (e.g. "data" or "mc"). Default none.
Sam run type (e.g. "physics"). Default none.
Histogram merging program. Default "
hadd -T." Can be overridden in each stage.
Specify additional directories in which to search for top-level fcl job files.
$FHICL_FILE_PATHand the current directory by default.
Each project element should contain one or more stage subelements enclosed in "
<stage name=stage-name>...</stage>." The name attribute of the stage subelement is required, and should be different for each stage. The stage element should contain stage options in the form of simple text subelements. Here are the stage options:
Top-level fcl job file (required). Can be specified as full or relative path.
Output directory full path (required). The output directory should be accessible interactively on the submitting node and grid-write-accessible via
ifdh cpfrom the batch worker.
Number of parallel worker jobs. If not specified, inherit from project options.
If specified, this option may override the number of workers (option numjobs) in the downward direction to achieve the estimated target file size.
The following options deal with where this processing stage gets its input data. Specify no more than one input option. You can also omit any input opiton, in which case, output data from the previous stage is pipelined to this stage, or there is no input.
Specify a single input file full path.
Specify input file list (a file containing a list of input files, one per line, full path).
Specify input sam dataset definition.
Specify input mode, which can be "
textfile" (do not include the quotes in the xml file) or nothing. Use this option with
<inputlist>...</inputlist>together with art producer module
TextFileGenshould be configured at location physics.producers.generator in the job configuration fcl file. One example fcl is prodtext.fcl. The number of files in the
inputlistshould match the number of grid jobs.
The following options allow job customizations by user-written scripts. The script location should be specified as an absolute or relative path (relative to current directory where
project.py is invoked). Any specified job customization scripts are copied to the work directory and from there are copied to the batch worker.
Worker initialization script (condor_lar.sh --init-script).
Worker initialization source script (condor_lar.sh --init-source).
Worker finalization script (condor_lar.sh --end-script).
Sam dataset definition name for art output files.
Sam dataset definition name for analysis output files.
Sam data tier for art output files.
Sam data tier for analysis output files.
Histogram merging program. If not specified, inherit from project options.
jobsubresources (command line option "
--resource-provides=usage_model="). If not specified, inherit from project options.
Specify arbitrary condor command via @jobsub_submit --lines= (expert option).
OSG site(s) (comma-separated list). If not specified, inherit from project options.