Schedulers
Nomad has four scheduler types that can be used when creating your job:
service
, batch
, system
and sysbatch
. Here we will describe the differences
between each of these schedulers.
Service
The service
scheduler is designed for scheduling long lived services that
should never go down. As such, the service
scheduler ranks a large portion
of the nodes that meet the job's constraints and selects the optimal node to
place a task group on. The service
scheduler uses a best fit scoring algorithm
influenced by Google's work on Borg. Ranking this larger set of candidate
nodes increases scheduling time but provides greater guarantees about the
optimality of a job placement, which given the service workload is highly
desirable.
Service jobs are intended to run until explicitly stopped by an operator. If a service task exits it is considered a failure and handled according to the job's restart and reschedule blocks.
Batch
Batch jobs are much less sensitive to short term performance fluctuations and
are short lived, finishing in a few minutes to a few days. Although the batch
scheduler is very similar to the service
scheduler, it makes certain
optimizations for the batch workload. The main distinction is that after finding
the set of nodes that meet the job's constraints it uses the power of two
choices described in Berkeley's Sparrow scheduler to limit the number of nodes
that are ranked.
Batch jobs are intended to run until they exit successfully. Batch tasks that exit with an error are handled according to the job's restart and reschedule blocks.
System
The system
scheduler is used to register jobs that should be run on all
clients that meet the job's constraints. The system
scheduler is also invoked
when clients join the cluster or transition into the ready state. This means
that all registered system
jobs will be re-evaluated and their tasks will be
placed on the newly available nodes if the constraints are met.
This scheduler type is extremely useful for deploying and managing tasks that should be present on every node in the cluster. Since these tasks are managed by Nomad, they can take advantage of job updating, service discovery, and more.
Since Nomad 0.9, the system scheduler will preempt eligible lower priority tasks running on a node if there isn't enough capacity to place a system job. See preemption for details on how tasks that get preempted are chosen.
Systems jobs are intended to run until explicitly stopped either by an operator or preemption. If a system task exits it is considered a failure and handled according to the job's restart block; system jobs do not have rescheduling.
System Batch
System Batch scheduling is new in Nomad 1.2.
The sysbatch
scheduler is used to register jobs that should be run to completion
on all clients that meet the job's constraints. The sysbatch
scheduler will
schedule jobs similarly to the system
scheduler, but like a batch
job once a
task exits successfully it is not restarted on that client.
This scheduler type is useful for issuing "one off" commands to be run on every node in the cluster. Sysbatch jobs can also be created as periodic and parameterized jobs. Since these tasks are managed by Nomad, they can take advantage of job updating, service discovery, monitoring, and more.
The sysbatch
scheduler will preempt lower priority tasks running on a node if there
is not enough capacity to place the job. See preemption details on how tasks that
get preempted are chosen.
Sysbatch jobs are intended to run until successful completion, explicitly stopped by an operator, or evicted through preemption. Sysbatch tasks that exit with an error are handled according to the job's restart block.