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From "ASF GitHub Bot (JIRA)" <j...@apache.org>
Subject [jira] [Commented] (HELIX-655) Helix per-participant concurrent task throttling
Date Mon, 15 May 2017 17:44:04 GMT

    [ https://issues.apache.org/jira/browse/HELIX-655?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=16010971#comment-16010971

ASF GitHub Bot commented on HELIX-655:

Github user jiajunwang commented on a diff in the pull request:

    --- Diff: helix-core/src/main/java/org/apache/helix/controller/stages/CurrentStateOutput.java
    @@ -260,13 +260,72 @@ public Message getPendingState(String resourceName, Partition partition,
         return partitionSet;
    +  /**
    +   * Get the partitions count for each participant with the pending state and given resource
state model
    +   * @param resourceStateModel specified resource state model to look up
    +   * @param state specified pending resource state to look up
    +   * @return set of participants to partitions mapping
    +   */
    +  public Map<String, Integer> getPartitionCountWithPendingState(String resourceStateModel,
String state) {
    +    Map<String, Integer> pendingPartitionCount = new HashMap<String, Integer>();
    +    for (String resource : _pendingStateMap.keySet()) {
    +      String stateModel = _resourceStateModelMap.get(resource);
    +      if (stateModel != null && stateModel.equals(resourceStateModel)
    --- End diff --
    I don't think most of us need to google to know that...
    But I agree that it could be safer to add parentheses, just to make it safer.

> Helix per-participant concurrent task throttling
> ------------------------------------------------
>                 Key: HELIX-655
>                 URL: https://issues.apache.org/jira/browse/HELIX-655
>             Project: Apache Helix
>          Issue Type: New Feature
>          Components: helix-core
>    Affects Versions: 0.6.x
>            Reporter: Jiajun Wang
>            Assignee: Junkai Xue
> h1. Overview
> Currently, all runnable jobs/tasks in Helix are equally treated. They are all scheduled
according to the rebalancer algorithm. Means, their assignment might be different, but they
will all be in RUNNING state.
> This may cause an issue if there are too many concurrently runnable jobs. When Helix
controller starts all these jobs, the instances may be overload as they are assigning resources
and executing all the tasks. As a result, the jobs won't be able to finish in a reasonable
time window.
> The issue is even more critical to long run jobs. According to our meeting with Gobblin
team, when a job is scheduled, they allocate resource for the job. So in the situation described
above, more and more resources will be reserved for the pending jobs. The cluster will soon
be exhausted.
> For solving the problem, an application needs to schedule jobs in a relatively low frequency
(what Gobblin is doing now). This may cause low utilization.
> A better way to fix this issue, at framework level, is throttling jobs/tasks that are
running concurrently, and allowing setting priority for different jobs to control total execute
> So given same amount of jobs, the cluster is in a better condition. As a result, jobs
running in that cluster have a more controllable execute time.
> Existing related control mechanisms are:
> * ConcurrentTasksPerInstance for each job
> * ParallelJobs for each workflow
> * Threadpool limitation on the participant if user customizes TaskStateModelFactory.
> But none of them can directly help when concurrent workflows or jobs number is large.
If an application keeps scheduling jobs/jobQueues, Helix will start any runnable jobs without
considering the workload on the participants.
> The application may be able to carefully configures these items to achieve the goal.
But they won't be able to easily find the sweet spot. Especially the cluster might be changing
(scale out etc.).
> h2. Problem summary
> # All runnable tasks will start executing, which may overload the participant.
> # Application needs a mechanism to prioritize important jobs (or workflows). Otherwise,
important tasks may be blocked by other less important ones. And allocated resource is wasted.
> h2. Feature proposed
> Based on our discussing, we proposed 2 features that can help to resolve the issue.
> # Running task throttling on each participant. This is for avoiding overload.
> # Job priority control that ensures high priority jobs are scheduled earlier.
> In addition, application can leverage workflow/job monitor items as feedback from Helix
to adjust their stretgy.

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