Step by step instructions for submitting XSI jobs with Qube!



    Step 1 (First Time Only)

    Install Jobtypes

    In order to submit directly from XSI, you will need to install the XSI jobtype.

    Installation:

    If you are not familiar with the installation process please see Installing Qube!

    You will need to select "XSI Jobtype" during the installation process


     

    Alternatively:

    If you only wish to use the "Batch XSI jobs" you can install the InApp plugins via the Qube! WranglerView.

    File > Install App UI > Install XSI BatchRender App UI

     

    Step 2

     

    Once installed you should be able to locate the "Qube!" menu in XSI. With a scene loaded in XSI choose "Submit Render Job..." or "Submit Batch Render..." depending on your requirements.

     

    Render vs Batch Render

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    What's the difference?

    Submit Render will open a copy (instance) of XSI on the Worker that picks up the job, and that instance will render frames as assigned by the Supervisor. Since the scene file is only being opened one time, this can be faster to generate the full sequence.

    Submit Batch Render will use the command line to open a new instance of the XSI file for each frame that it renders. Although this can be slower for large scenes, it can also be more flexible in large, complex environments.

     

     

    Step 3

    This will present a pre-filled submission UI like the one shown here. Ensure sections marked in red have the correct details.

     

    Step 4

    Click 'Submit'

    For further details on the submission UI see below.

     

    Job Submission Details

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    Not all sections need to be filled in in order to render only the fields marked in red are required.


     Click here for details...

    Name
    This is the name of the job of the job so it can be easily identified in the Qube! UI.

    Priority
    Every job in Qube is assigned a numeric priority. Priority 1 is higher than priority 100. This is similar to 1st place, 2nd place, 3rd place, etc. The default priority assigned to a job is 9999.

    Instances
    This is the number of copies of the application that will run at the same time across the network. The combination of "Instances=1" and "Max Instances=-1" means that this job will take as much of the farm as it can, and all jobs will share evenly across the farm.

    Examples:

    On a 12 slot(core) machine running Maya if you set
    "Instances" to 4
    "Reservations" to "host.processors=3"
    Qube! will open 4 sessions of Maya on the Worker(s) simultaneously, which may consume all slots/cores on a given Worker.

    if you set
    "Instances" to 1
    "Reservations" to "host.processors=1+"
    Qube will open 1 session of Maya on a Worker, consuming all slots/cores ("host.processors=1+" is used for all slots/cores).

    Max Instances
    If resources are available, Qube! will spawn more than 'Instances' copies of the application, but no more than 'Max Instances'. The default of -1 means there is no maximum. If this is set to 0, then it won't spawn more than 'Instances' copies.

    More on Instances & Reservations & SmartShare Studio Defaults

     Click here for details...

    Range
    Frame range for the job (e.g 1-100, or 1-100x3, or 1,3,7,10)

    Most jobs require a frame range to execute on the workers. You can set this range in a few different ways :

    • "1-100" will just render the range between 1 and 100
    • "1-100x3" will render the range 1 to 100, every third frame, so 1, 4, 7, etc.
    • "1,3,7,10" will only render the selected frames 1,3,7,10

    Execution
    How to break up frame range to be executed. Use QB_START_FRAME, QB_END_FRAME and QB_FRAME_NUMBER

    When submitting a job to the farm it may be more efficient to "chunk" your job. This means that when the job is sent to the worker it tells the worker to render N consecutive frames before requesting more work. You would do this to keep from reopening the scene file for each frame. Large scene files can take substantial time to open, which is wasteful across dozens or hundreds of frames.

    The drop down options are below:

    • "Individual frames" this tells the worker to render 1 frame at a time.
    • "Chunks with n frames" this tells the worker to render consecutively the number of frames specified in the field.
    • "Split into n partitions" this tells the worker to render consecutively the total frames in the range divided by the number in the field.

    Examples:

    • range 1-100 with "individual frames" set will render 1 frame at a time
    • range 1-100 with "Chunks with n frames" and the field set to 5 will send 20 frames to each instance
    • range 1-100 with "Split into n partitions" and the field set to 4 will send 25 frames to each instance

    rangeOrdering
    Order to render the items. (Ascending=1,2,3,4,5...,Descending=10,9,8...,Binary=first,middle,last...)

    You can set the order in which your frames are rendered. The drop down options are:

    • "Ascending" - this will render the frames counting upwards from your start frame
    • "Decending" - this will render the frames counting backwards from your end frame
    • "Binary" - This will render the first, last, and middle frames of the range, then the middle frame of the first half and the middle frame of the second half, and so on. This is useful for sampling the frames in the sequence to make sure it is rendering correctly.

     Click here for details...

    Use Preview Frames  

    Enabling preview frames will create 2 jobs:

    • A primary dependent job with a higher priority that will render the selected frames first 
    • A secondary job with lower priority that will render the remaining frames. This will return the selected frames faster so that you can check the accuracy of your renders.

    Frame Numbers

    Choose the frames that you wish to render first. If left blank the default is to render the first frame, the last frame and the middle frame in that order. You can select specific frames by adding comma separated frame numbers e.g 1,2,10,15,75, or a range with, e.g., 1-100x5 (1 to 100, every 5th frame)

    Preview Priority

    Choose the priority for the preview job. This can be set by the site admin.

    Preview Subjobs

    Choose the number of instances / subjobs for the preview frames. By default, this is equal to the number of preview frames - that is, it will try to do all the preview frames at the same time.

    Note that when you submit a job with preview frames enabled, it will actually submit 2 jobs—one with the preview frames list at a higher priority, and another with the rest of the agenda, at the normal priority (as specified in the job's Priority field). You will get, consequently, 2 job IDs for the submission.

    XSI Specific Parameters

     

     Click here for details...

    Scenefile
    The path to the XSI scene file. This is a required field for submission. Make sure the path is accessible by the Workers.

    XSI Version
    Select or manually enter the Softimage/XSI version to be used on the Workers.

    Passes
    Choose or list the comma-separated passes to render. These are named in your XSI scene.

    Output Dir
    The output directory for images. Make sure this location is accessible by the Workers.

    Render Mode
    Override the scene file's render mode. The default is "render".

    Xsibatch Executable
    The explicit path to xsibatch executable (optional) on the Workers. Be aware that if you are submitting from one OS to a different one, the path will be different for the Workers.

    Verbose
    Choose the level of detail you would like the logs to provide.

    Frame Timeout
    Kill subjobs if a frame runs longer than this value (in seconds).

     Click here for details...

    Qube Job Tags
    New in Qube 6.5

    Note: The Job Tags section of the submission UI will not be visible unless they are turned on in the Preferences in the Wrangler View UI. Job Tags are explained in detail on the Job Tags page.

     Click here for details...

    Hosts

    Explicit list of Worker hostnames that will be allowed to run the job (comma-separated).

    Groups

    Explicit list of Worker groups that will be allowed to run the job (comma-separated). Groups identify machines through some attribute they have, eg, a GPU, an amount of memory, a license to run a particular application, etc. Jobs cannot migrate from one group to another. See worker_groups.

    Omit Hosts

    Explicit list of Worker hostnames that are not allowed run the job (comma-separated).

    Omit Groups

    Explicit list of Worker groups that are not allowed to run the job (comma-separated).

    Priority Cluster

    Clusters are non-overlapping sets of machines. Your job will run at the given priority in the given cluster. If that cluster is full, the job can run in a different cluster, but at lower priority. Clustering

    Example:

    • A job submitted to /showB/lighting will run with its given priority in /showB/lighting cluster.

    • If /showB/lighting is full, that job can run in /showB/FX, but at a lower priority.

    • If both /showB/lighting and /showB/FX are full, the job can run in /showA/* at an even lower priority.

     

    Host Order

    Order to select Workers for running the job (comma-separated) [+ means ascending, - means descending].

    Host Order is a way of telling the job how to select/order workers

      • "+host.processors.avail" means prefer workers which have more slots available

      • "+host.memory.avail" means prefer workers which have more memory available

      • "+host.memory.total" means prefer workers which have more total memory

      • "+host.processor_speed" means prefer workers with higher cpu speeds

      • "+host.cpus" means prefer workers with higher total cpu slots

     

    Requirements

    Worker properties needed to be met for job to run on that Worker (comma-separated, expression-based). Click 'Browse' to choose from a list of Host Order Options.

    Requirements is a way to tell the workers that this job needs specific properties to be present in order to run. The drop-down menu allows a choice of OS:

    • "winnt" will fill the field with "host.os=winnt" which means only run on Windows based workers

    • "linux" will fill the field with "host.os=linux" which means only run on Linux based workers

    • "osx" will fill the field with "host.os=osx" which means only run on OSX based workers

    You can also add any other Worker properties via plain text. Some examples: 

    • "host.processors.avail.=4" means only run this job on workers that have 4 or more slots available

    • "host.processors.used=0" means only run this job on workers with 0 slots in use

    • "host.memory.avail=400" means only run this job on workers that have 400 memory available

    With integer values, you can use any numerical relationships, e.g. =, <, >, <=, >=. This won't work for string values or floating point values. Multiple requirements can also be combined with AND and OR (the symbols && and || will also work).

    The 'Only 1 of a "kind" of job' checkbox will restrict a Worker to running only one instance with a matching "kind" field (see below). The prime example is After Effects, which will only allow a single instance of AE on a machine. Using this checkbox and the "Kind" field, you can restrict a Worker to only one running copy of After Effects, while still leaving the Worker's other slots available for other "kinds" of jobs.

     

    Reservations

    Worker resources to reserve when running job (comma-separated, expression-based).  

    Reservations is a way to tell the workers that this job will reserve the specific resources for this job.

    Menu items:

    • "host.processors" this will fill the field with "host.processors=X" which means reserve X slots on the worker while running this job

    • "host.memory" this will fill the field with "host.memory=X" which means only reserve X memory on the worker while running this job

    Other options:

    • "host.license.nuke=1" when a Global Resources entry has been made you can reserve any arbitrary named item. New in 6.6: Once you create a global resource, it will show up in this menu (eg global.vray above).

    • See also Job Reservations

     

    Restrictions

    Restrict job to run only on specified clusters ("||"-separated) [+ means all below, * means at that level]. Click 'Browse' to choose from a list of Restrictions Options.

    Restrictions is a way to tell the workers that this job can only run on specific clusters. You can choose more than one cluster in the list.

    Examples:

    • Choosing /showA would restrict the job to machines that are only in the /showA cluster, and no other cluster, not even those below /showA.

    • Choosing /showA/* would restrict the job to the cluster(s) below /showA, but not including /showA

    • Choosing /showA/+ would restrict the job to /showA and all the clusters below it.

     

    See Also

     Click here for details...

    Flags

    List of submission flag strings (comma separated). Click 'Browse' to choose required job flags.

     

    See this page for a full explanation of flag meanings

     

    Dependency

    Wait for specified jobs to complete before starting this job (comma-separated). Click 'Add' to create dependent jobs.

    You can link jobs to each other in several ways:

    • "complete" means only start this job after designated job completes
    • "failed" means only start this job if the designated job fails
    • "killed" means only start this job if the designated job has been killed
    • "done" means start this job if the designated job is killed/failed/complete

    The second menu chooses between "job" (the entire set of frames) and "work" (typically a frame). So to link frame 1 of one job to frame 1 of a second, job, you would choose "work" in this menu. If you want to wait for all the frames of one job to complete before starting a second, then choose "job". The other option, "subjob", refers to the instance of a job. This is much less common, but means that, for example, the instance of Maya that was running frames has completed.

    For a complete description on how to define complex dependencies between jobs or frames, please refer to the Callbacks section of the Developers Guide.


    Email (job complete)

    Send email on job completion (success or failure). Sends mail to the designated user.

    Email (failed frames)

    Sends mail to the designated user if frames fail.

    Blocked

    Set initial state of job to "blocked".

    Stderr->Stdout

    Redirect and consolidate the job stderr stream to the stdout stream. Enable this if you would like to combine your logs into one stream.

    Job Label

    Optional label to identify the job. Must be unique within a Job Process Group. This is most useful for submitting sets of dependent jobs, where you don't know in advance the job IDs to depend on, but you do know the labels. 

    Job Kind

    Arbitrary typing information that can be used to identify the job. It is commonly used to make sure only one of this "kind" of job runs on a worker at the same time by setting the job's requirements to include "not (job.kind in host.duty.kind)". See How to restrict a host to only one instance of a given kind of job, but still allow other jobs

    Process Group

    Job Process Group for logically organizing dependent jobs. Defaults to the jobid. Combination of "label" and "Process Group" must be unique for a job. See Process group labels

    Retry Frame/Instance

    Number of times to retry a failed frame/job instance. The default value of -1 means don't retry.

    Retry Work Delay

    Number of seconds between retries.

    Subjob Timeout

    Kill the subjob process if running for the specified time (in seconds).  Value of -1 means disabled. Use this if the acceptable instance/subjob spawn time is known.

    Frame Timeout

    Kill the agenda/frame if running for the specified time (in seconds).  Value of -1 means disabled. Use this if you know how long frames should take, so that you can automatically kill those running long.

     Click here for details...

    Cwd

    Current Working Directory to use when running the job.

    Environment Variables

    Environment variables override when running a job. You can specify key/value pairs of environment variables

    This is useful when you might need different settings for your render applications based on different departments or projects.

    Impersonate User

    You can specify which user you would like to submit the job as. The default is the current user. The format is simply <username>. This is useful for troubleshooting a job that may fail if sent from a specific user.

    Example:
    Setting "josh" would attempt to submit the job as the user "josh" regardless of your current user ID.

    Note: In order to do this, the submitting user must have "impersonate user" permissions.

     Click here for details...

    GenerateMovie

    Select this option to create a secondary job that will wait for the render to complete then combine the output files into a movie.

    Note: For this to work correctly the "Qube (ImagesToMovie) Job..." has to be setup to use your studios transcoding application.

     

     Click here for details...

    Account
    Arbitrary accounting or project data (user-specified). This can be used for creating tags for your job.

    You can add entries by typing in the drop-down window or select already created accounts from the drop-down.

    See also Qube! Job Tags

    Notes
    Freeform text for making notes on this job. Add text about the job for future reference. Viewable in the Qube UI.

     

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