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# The only global parameter at this time is ha_enabled, which will use
# the tripleo ha architecture described here:
# https://github.com/beekhof/osp-ha-deploy/blob/master/HA-keepalived.md
# with 3 controllers by default
#
# If ha_enabled is false, there will only be one controller.
global_params:
ha_enabled: true
deploy_options:
# Which SDN controller to use. Valid options are 'opendaylight', 'onos',
# 'opendaylight-external', 'opencontrail' or false. A value of false will
# use Neutron's OVS ML2 controller.
sdn_controller: opendaylight
# Which version of ODL to use. This is only valid if 'opendaylight' was used
# above. Valid options are 'beryllium', 'boron' and 'carbon'. If no value
# is specified, Beryllium will be used.
#odl_version: boron
# Whether to configure ODL L3 support. This will disable the Neutron L3 Agent and
# use ODL instead.
sdn_l3: false
# Whether to install and configure Tacker (VNF Manager)
tacker: true
# Whether to configure Congress (policy as a service) datasources
# Note: Congress is already installed by default
congress: false
# Whether to configure ODL or ONOS with Service Function Chaining support. This
# requires the opnfv-apex-opendaylight-sfc package to be installed, since it
# uses a different overcloud image.
sfc: false
# Whether to configure ODL with SDNVPN support.
vpn: false
# Which dataplane to use for overcloud tenant networks. Valid options are
# 'ovs', 'ovs_dpdk' and 'fdio'.
dataplane : ovs
# Whether to run the kvm real time kernel (rt_kvm) in the compute node(s) to
# reduce the network latencies caused by network function virtualization
rt_kvm: false
# Whether to install and configure fdio functionality in the overcloud
# The dataplane should be specified as fdio if this is set to true
vpp: false
# Whether to run vsperf after the install has completed
#vsperf: false
# Specify a device for ceph to use for the OSDs. By default a virtual disk
# is created for the OSDs. This setting allows you to specify a different
# target for the OSDs. The setting must be valid on all overcloud nodes.
# The controllers and the compute nodes all have OSDs setup on them and
# therefore this device name must be valid on all overcloud nodes.
#ceph_device: /dev/sdb
# Set performance options on specific roles. The valid roles are 'Compute', 'Controller'
# and 'Storage', and the valid sections are 'kernel' and 'nova'
#performance:
# Controller:
# kernel:
# # In this example, these three settings will be passed to the kernel boot line.
# # Any key/value pair can be entered here, so care should be taken to ensure that machines
# # do not fail to boot.
# #
# # isolcpus is generally used to push host processes off a particular core,
# # so that it can be dedicated to a specific process. On control nodes
# # this could be an ovs_dpdk process.
# isolcpus: 1
# # Hugepages are required for ovs_dpdk support.
# hugepage: 2M
# # intel_iommu is also required for ovs_dpdk support.
# intel_iommu: 'on'
# Compute:
# nova:
# # This is currently the only available option in the nova section. It will
# # add the provided string to vcpu_pin_set in nova.conf. This is used to pin
# # guest VMs to a set of CPU cores, and is decsribed in more detail here:
# # http://docs.openstack.org/mitaka/config-reference/compute/config-options.html
# libvirtpin: 1
# kernel:
# # On compute nodes, isolcpus is usually used to reserve cores for use either by VMs
# # or ovs_dpdk
# isolcpus: 0
# hugepage: 2M
# intel_iommu: 'on'
# Set yardstick option to install yardstick
#yardstick: false
# Set dovetail option to install dovetail
#dovetail: false
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