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From "Hudson (JIRA)" <j...@apache.org>
Subject [jira] [Commented] (YARN-569) CapacityScheduler: support for preemption (using a capacity monitor)
Date Thu, 11 Jul 2013 13:20:04 GMT

    [ https://issues.apache.org/jira/browse/YARN-569?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=13705801#comment-13705801

Hudson commented on YARN-569:

Integrated in Hadoop-Hdfs-trunk #1457 (See [https://builds.apache.org/job/Hadoop-Hdfs-trunk/1457/])
    YARN-569. Add support for requesting and enforcing preemption requests via
a capacity monitor. Contributed by Carlo Curino, Chris Douglas (Revision 1502083)

     Result = FAILURE
cdouglas : http://svn.apache.org/viewcvs.cgi/?root=Apache-SVN&view=rev&rev=1502083
Files : 
* /hadoop/common/trunk/hadoop-yarn-project/CHANGES.txt
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-api/src/main/java/org/apache/hadoop/yarn/api/records/Priority.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-api/src/main/java/org/apache/hadoop/yarn/conf/YarnConfiguration.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-common/src/main/resources/yarn-default.xml
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/ApplicationMasterService.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/ResourceManager.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/monitor
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/monitor/SchedulingEditPolicy.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/monitor/SchedulingMonitor.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/monitor/capacity
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/monitor/capacity/ProportionalCapacityPreemptionPolicy.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/scheduler/AppSchedulingInfo.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/scheduler/ContainerPreemptEvent.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/scheduler/ContainerPreemptEventType.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/scheduler/PreemptableResourceScheduler.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/scheduler/capacity/CapacityScheduler.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/scheduler/capacity/LeafQueue.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/scheduler/common/fica/FiCaSchedulerApp.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/main/java/org/apache/hadoop/yarn/server/resourcemanager/scheduler/common/fica/FiCaSchedulerNode.java
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/test/java/org/apache/hadoop/yarn/server/resourcemanager/monitor
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/test/java/org/apache/hadoop/yarn/server/resourcemanager/monitor/capacity
* /hadoop/common/trunk/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-server/hadoop-yarn-server-resourcemanager/src/test/java/org/apache/hadoop/yarn/server/resourcemanager/monitor/capacity/TestProportionalCapacityPreemptionPolicy.java

> CapacityScheduler: support for preemption (using a capacity monitor)
> --------------------------------------------------------------------
>                 Key: YARN-569
>                 URL: https://issues.apache.org/jira/browse/YARN-569
>             Project: Hadoop YARN
>          Issue Type: Sub-task
>          Components: capacityscheduler
>            Reporter: Carlo Curino
>            Assignee: Carlo Curino
>         Attachments: 3queues.pdf, CapScheduler_with_preemption.pdf, preemption.2.patch,
YARN-569.10.patch, YARN-569.11.patch, YARN-569.1.patch, YARN-569.2.patch, YARN-569.3.patch,
YARN-569.4.patch, YARN-569.5.patch, YARN-569.6.patch, YARN-569.8.patch, YARN-569.9.patch,
YARN-569.patch, YARN-569.patch
> There is a tension between the fast-pace reactive role of the CapacityScheduler, which
needs to respond quickly to 
> applications resource requests, and node updates, and the more introspective, time-based
> needed to observe and correct for capacity balance. To this purpose we opted instead
of hacking the delicate
> mechanisms of the CapacityScheduler directly to add support for preemption by means of
a "Capacity Monitor",
> which can be run optionally as a separate service (much like the NMLivelinessMonitor).
> The capacity monitor (similarly to equivalent functionalities in the fairness scheduler)
operates running on intervals 
> (e.g., every 3 seconds), observe the state of the assignment of resources to queues from
the capacity scheduler, 
> performs off-line computation to determine if preemption is needed, and how best to "edit"
the current schedule to 
> improve capacity, and generates events that produce four possible actions:
> # Container de-reservations
> # Resource-based preemptions
> # Container-based preemptions
> # Container killing
> The actions listed above are progressively more costly, and it is up to the policy to
use them as desired to achieve the rebalancing goals. 
> Note that due to the "lag" in the effect of these actions the policy should operate at
the macroscopic level (e.g., preempt tens of containers
> from a queue) and not trying to tightly and consistently micromanage container allocations.

> ------------- Preemption policy  (ProportionalCapacityPreemptionPolicy): -------------

> Preemption policies are by design pluggable, in the following we present an initial policy
(ProportionalCapacityPreemptionPolicy) we have been experimenting with.  The ProportionalCapacityPreemptionPolicy
behaves as follows:
> # it gathers from the scheduler the state of the queues, in particular, their current
capacity, guaranteed capacity and pending requests (*)
> # if there are pending requests from queues that are under capacity it computes a new
ideal balanced state (**)
> # it computes the set of preemptions needed to repair the current schedule and achieve
capacity balance (accounting for natural completion rates, and 
> respecting bounds on the amount of preemption we allow for each round)
> # it selects which applications to preempt from each over-capacity queue (the last one
in the FIFO order)
> # it remove reservations from the most recently assigned app until the amount of resource
to reclaim is obtained, or until no more reservations exits
> # (if not enough) it issues preemptions for containers from the same applications (reverse
chronological order, last assigned container first) again until necessary or until no containers
except the AM container are left,
> # (if not enough) it moves onto unreserve and preempt from the next application. 
> # containers that have been asked to preempt are tracked across executions. If a containers
is among the one to be preempted for more than a certain time, the container is moved in a
the list of containers to be forcibly killed. 
> Notes:
> (*) at the moment, in order to avoid double-counting of the requests, we only look at
the "ANY" part of pending resource requests, which means we might not preempt on behalf of
AMs that ask only for specific locations but not any. 
> (**) The ideal balance state is one in which each queue has at least its guaranteed capacity,
and the spare capacity is distributed among queues (that wants some) as a weighted fair share.
Where the weighting is based on the guaranteed capacity of a queue, and the function runs
to a fix point.  
> Tunables of the ProportionalCapacityPreemptionPolicy:
> # 	observe-only mode (i.e., log the actions it would take, but behave as read-only)
> # how frequently to run the policy
> # how long to wait between preemption and kill of a container
> # which fraction of the containers I would like to obtain should I preempt (has to do
with the natural rate at which containers are returned)
> # deadzone size, i.e., what % of over-capacity should I ignore (if we are off perfect
balance by some small % we ignore it)
> # overall amount of preemption we can afford for each run of the policy (in terms of
total cluster capacity)
> In our current experiments this set of tunables seem to be a good start to shape the
preemption action properly. More sophisticated preemption policies could take into account
different type of applications running, job priorities, cost of preemption, integral of capacity
imbalance. This is very much a control-theory kind of problem, and some of the lessons on
designing and tuning controllers are likely to apply.
> Generality:
> The monitor-based scheduler edit, and the preemption mechanisms we introduced here are
designed to be more general than enforcing capacity/fairness, in fact, we are considering
other monitors that leverage the same idea of "schedule edits" to target different global
properties (e.g., allocate enough resources to guarantee deadlines for important jobs, or
data-locality optimizations, IO-balancing among nodes, etc...).
> Note that by default the preemption policy we describe is disabled in the patch.
> Depends on YARN-45 and YARN-567, is related to YARN-568

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