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Can we use both Fair scheduler and Capacity Scheduler in the same hadoop cluster. Which scheduler is good and effective. Can anyone help me ?

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I do not think both can be used at the same time. It doesn't make sense too. Why would you want to use both type of scheduling in the same cluster? Both scheduling algos have come up due to specific use-cases.

Fair scheduling is a method of assigning resources to jobs such that all jobs get, on average, an equal share of resources over time. When there is a single job running, that job uses the entire cluster. When other jobs are submitted, tasks slots that free up are assigned to the new jobs, so that each job gets roughly the same amount of CPU time. Unlike the default Hadoop scheduler, which forms a queue of jobs, this lets short jobs finish in reasonable time while not starving long jobs. It is also a reasonable way to share a cluster between a number of users. Finally, fair sharing can also work with job priorities - the priorities are used as weights to determine the fraction of total compute time that each job should get.

The Fair Scheduler arose out of Facebook’s need to share its data warehouse between multiple users. Facebook started using Hadoop to manage the large amounts of content and log data it accumulated every day. Initially, there were only a few jobs that needed to run on the data each day to build reports. However, as other groups within Facebook started to use Hadoop, the number of production jobs increased. In addition, analysts started using the data warehouse for ad-hoc queries through Hive (Facebook’s SQL-like query language for Hadoop), and more large batch jobs were submitted as developers experimented with the data set. Facebook’s data team considered building a separate cluster for the production jobs, but saw that this would be extremely expensive, as data would have to be replicated and the utilization on both clusters would be low. Instead, Facebook built the Fair Scheduler, which allocates resources evenly between multiple jobs and also supports capacity guarantees for production jobs. The Fair Scheduler is based on three concepts:

  • Jobs are placed into named “pools” based on a configurable attribute such as user name, Unix group, or specifically tagging a job as being in a particular pool through its jobconf.
  • Each pool can have a “guaranteed capacity” that is specified through a config file, which gives a minimum number of map slots and reduce slots to allocate to the pool. When there are pending jobs in the pool, it gets at least this many slots, but if it has no jobs, the slots can be used by other pools.
  • Excess capacity that is not going toward a pool’s minimum is allocated between jobs using fair sharing. Fair sharing ensures that over time, each job receives roughly the same amount of resources. This means that shorter jobs will finish quickly, while longer jobs are guaranteed not to get starved.

The scheduler also includes a number of features for ease of administration, including the ability to reload the config file at runtime to change pool settings without restarting the cluster, limits on running jobs per user and per pool, and use of priorities to weigh the shares of different jobs.

The CapacityScheduler is designed to allow sharing a large cluster while giving each organization a minimum capacity guarantee. The central idea is that the available resources in the Hadoop Map-Reduce cluster are partitioned among multiple organizations who collectively fund the cluster based on computing needs. There is an added benefit that an organization can access any excess capacity no being used by others. This provides elasticity for the organizations in a cost-effective manner.

The Capacity Scheduler from Yahoo offers similar functionality to the Fair Scheduler but takes a somewhat different philosophy. In the Capacity Scheduler, you define a number of named queues. Each queue has a configurable number of map and reduce slots. The scheduler gives each queue its capacity when it contains jobs, and shares any unused capacity between the queues. However, within each queue, FIFO scheduling with priorities is used, except for one aspect – you can place a limit on percent of running tasks per user, so that users share a cluster equally. In other words, the capacity scheduler tries to simulate a separate FIFO/priority cluster for each user and each organization, rather than performing fair sharing between all jobs. The Capacity Scheduler also supports configuring a wait time on each queue after which it is allowed to preempt other queues’ tasks if it is below its fair share.

Hence it would boil down to what is your need and setup in order to decide on which scheduler you should go with.

Apache hadoop has now support for both these types of scheduling. More detailed info can be found at the following links:

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Fairshare scheduling has been used in HPC long before Facebook was created -- at least since the late 1980s. I think confusion arises (this question) due to the existence of fairshare trees, which allow fairshare systems in HPC to provide what Hadoop's capacity scheduler does. –  Jon Bringhurst Feb 20 '14 at 15:46
I believe that he's referring the Fair Share Scheduling in the context of the Hadoop project. Of course that the concept has probably been around way before Mark Zukerberg was even born. –  petersaints Apr 16 at 22:49

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