Watcher Overload standard deviation algorithm

Synopsis

display name: Workload stabilization

goal: workload_balancing

Workload Stabilization control using live migration

This is workload stabilization strategy based on standard deviation algorithm. The goal is to determine if there is an overload in a cluster and respond to it by migrating VMs to stabilize the cluster.

This strategy has been tested in a small (32 nodes) cluster.

It assumes that live migrations are possible in your cluster.

Requirements

Metrics

The workload_stabilization strategy requires the following metrics:

metric

service name

plugins

comment

compute.node.cpu.percent

ceilometer

none

need to set the compute_monitors option to cpu.virt_driver in the nova.conf.

hardware.memory.used

ceilometer

SNMP

cpu_util

ceilometer

none

cpu_util has been removed since Stein.

memory.resident

ceilometer

none

Cluster data model

Default Watcher’s Compute cluster data model:

Nova cluster data model collector

The Nova cluster data model collector creates an in-memory representation of the resources exposed by the compute service.

Actions

Default Watcher’s actions:

action

description

migration

Migrates a server to a destination nova-compute host

This action will allow you to migrate a server to another compute destination host. Migration type ‘live’ can only be used for migrating active VMs. Migration type ‘cold’ can be used for migrating non-active VMs as well active VMs, which will be shut down while migrating.

The action schema is:

schema = Schema({
 'resource_id': str,  # should be a UUID
 'migration_type': str,  # choices -> "live", "cold"
 'destination_node': str,
 'source_node': str,
})

The resource_id is the UUID of the server to migrate. The source_node and destination_node parameters are respectively the source and the destination compute hostname (list of available compute hosts is returned by this command: nova service-list --binary nova-compute).

Note

Nova API version must be 2.56 or above if destination_node parameter is given.

Planner

Default Watcher’s planner:

Weight planner implementation

This implementation builds actions with parents in accordance with weights. Set of actions having a higher weight will be scheduled before the other ones. There are two config options to configure: action_weights and parallelization.

Limitations

  • This planner requires to have action_weights and parallelization configs tuned well.

Configuration

Strategy parameters are:

parameter

type

default Value

description

metrics

array

[“cpu_util”, “memory.resident”]

Metrics used as rates of cluster loads.

thresholds

object

{“cpu_util”: 0.2, “memory.resident”: 0.2}

Dict where key is a metric and value is a trigger value.

weights

object

{“cpu_util_weight”: 1.0, “memory.resident_weight”: 1.0}

These weights used to calculate common standard deviation. Name of weight contains meter name and _weight suffix.

instance_metrics

object

{“cpu_util”: “compute.node.cpu.percent”, “memory.resident”: “hardware.memory.used”}

Mapping to get hardware statistics using instance metrics.

host_choice

string

retry

Method of host’s choice. There are cycle, retry and fullsearch methods. Cycle will iterate hosts in cycle. Retry will get some hosts random (count defined in retry_count option). Fullsearch will return each host from list.

retry_count

number

1

Count of random returned hosts.

periods

object

{“instance”: 720, “node”: 600}

These periods are used to get statistic aggregation for instance and host metrics. The period is simply a repeating interval of time into which the samples are grouped for aggregation. Watcher uses only the last period of all received ones.

Efficacy Indicator

[{'name': 'released_nodes_ratio', 'description': 'Ratio of released compute nodes divided by the total number of enabled compute nodes.', 'unit': '%', 'value': 0}]

Algorithm

You can find description of overload algorithm and role of standard deviation here: https://specs.openstack.org/openstack/watcher-specs/specs/newton/implemented/sd-strategy.html

How to use it ?

$ openstack optimize audittemplate create \
  at1 workload_balancing --strategy workload_stabilization

$ openstack optimize audit create -a at1 \
  -p thresholds='{"memory.resident": 0.05}' \
  -p metrics='["memory.resident"]'