can provide all scenarios, the practical challenge of achieving that goal for any given feature and
release results in some disparity.
-Danube scenario overeview
+Euphrates scenario overeview
^^^^^^^^^^^^^^^^^^^^^^^^^
The following table provides an overview of the installation tools and available scenario's
-in the Danube release of OPNFV.
+in the Euphrates release of OPNFV.
Scenario status is indicated by a weather pattern icon. All scenarios listed with
a weather pattern are possible to deploy and run in your environment or a Pharos lab,
+---------------------------------------------+----------------------------------------------------------+
Scenarios that are not yet in a state of "Stable, no known issues" will continue to be stabilised
-and updates will be made on the stable/danube branch. While we intend that all Danube
+and updates will be made on the stable/euphrates branch. While we intend that all Euphrates
scenarios should be stable it is worth checking regularly to see the current status. Due to
-our dependency on upstream communities and code some issues may not be resolved prior to the D release.
+our dependency on upstream communities and code, some issues may not be resolved prior to E release.
Scenario Naming
^^^^^^^^^^^^^^^
In OPNFV scenarios are identified by short scenario names, these names follow a scheme that
-identifies the key components and behaviours of the scenario. The rules for scenario naming are as follows:
+identifies the key components and behaviours of the scenario. The rules for scenario naming are as
+follows:
.. code:: bash
* **[option]:** optional
* Used for the scenarios those do not fit into naming scheme.
- * The optional field in the short scenario name should not be included if there is no optional scenario.
+ * The optional field in the short scenario name should not be included if there is no optional
+ scenario.
Some examples of supported scenario names are:
* This is an OpenStack deployment using OpenDaylight and OVS enabled with SFC features
- * **os-nosdn-kvm_nfv_ovs_dpdk-ha**
+ * **os-nosdn-kvm_ovs_dpdk-ha**
- * This is an Openstack deployment with high availability using OVS, DPDK including the OPNFV enhanced KVM hypervisor
+ * This is an Openstack deployment with high availability using OVS, DPDK including the OPNFV
+ enhanced KVM hypervisor
* This deployment has ``3-Contoller and 2-Compute nodes``
- * **os-nosdn-kvm_nfv_ovs_dpdk-noha**
+ * **os-nosdn-kvm_ovs_dpdk-noha**
- * This is an Openstack deployment without high availability using OVS, DPDK including the OPNFV enhanced KVM hypervisor
+ * This is an Openstack deployment without high availability using OVS, DPDK including the OPNFV
+ enhanced KVM hypervisor
* This deployment has ``1-Contoller and 3-Compute nodes``
- * **os-nosdn-kvm_nfv_ovs_dpdk_bar-ha**
+ * **os-nosdn-kvm_ovs_dpdk_bar-ha**
- * This is an Openstack deployment with high availability using OVS, DPDK including the OPNFV enhanced KVM hypervisor
+ * This is an Openstack deployment with high availability using OVS, DPDK including the OPNFV
+ enhanced KVM hypervisor
and Barometer
* This deployment has ``3-Contoller and 2-Compute nodes``
- * **os-nosdn-kvm_nfv_ovs_dpdk_bar-noha**
+ * **os-nosdn-kvm_ovs_dpdk_bar-noha**
- * This is an Openstack deployment without high availability using OVS, DPDK including the OPNFV enhanced KVM hypervisor
+ * This is an Openstack deployment without high availability using OVS, DPDK including the OPNFV
+ enhanced KVM hypervisor
and Barometer
* This deployment has ``1-Contoller and 3-Compute nodes``
Installing your scenario
^^^^^^^^^^^^^^^^^^^^^^^^
-There are two main methods of deploying your target scenario, one method is to follow this guide which will
-walk you through the process of deploying to your hardware using scripts or ISO images, the other method is
-to set up a Jenkins slave and connect your infrastructure to the OPNFV Jenkins master.
+There are two main methods of deploying your target scenario, one method is to follow this guide
+which will walk you through the process of deploying to your hardware using scripts or ISO images,
+the other method is to set up a Jenkins slave and connect your infrastructure to the OPNFV Jenkins
+master.
-For the purposes of evaluation and development a number of Danube scenarios are able to be deployed
-virtually to mitigate the requirements on physical infrastructure. Details and instructions on performing
-virtual deployments can be found in the installer specific installation instructions.
+For the purposes of evaluation and development a number of Euphrates scenarios are able to be
+deployed virtually to mitigate the requirements on physical infrastructure. Details and instructions
+on performing virtual deployments can be found in the installer specific installation instructions.
-To set up a Jenkins slave for automated deployment to your lab, refer to the `Jenkins slave connect guide.
+To set up a Jenkins slave for automated deployment to your lab, refer to the `Jenkins slave connect
+guide.
<http://artifacts.opnfv.org/brahmaputra.1.0/docs/opnfv-jenkins-slave-connection.brahmaputra.1.0.html>`_