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authorChristopherPrice <christopher.price@ericsson.com>2016-08-29 18:39:54 +0200
committerChristopher Price <christopher.price@ericsson.com>2016-09-20 05:46:16 +0000
commit6d135c3f9616a5ec1d9dc76d87eda83d89427d48 (patch)
tree36ab99475fe8921290cb6fc02f2b54f94ab29b70 /docs
parentbdeaf3f6beb1be54c14ccfa46576959ee6d4067c (diff)
Draft of the overview doc.
Change-Id: I13d4230591055c5e8c1f4daa469a6bf71993856e Signed-off-by: ChristopherPrice <christopher.price@ericsson.com> (cherry picked from commit 91ac9a64b9ebdf0c1b0c81144e8037f7efa6824e)
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diff --git a/docs/platformoverview/index.rst b/docs/overview/index.rst
index 49252002c..6b7b66846 100644
--- a/docs/platformoverview/index.rst
+++ b/docs/overview/index.rst
@@ -1,17 +1,12 @@
.. This work is licensed under a Creative Commons Attribution 4.0 International License.
.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Huawei
+.. (c) Open Platform for NFV Project, Inc. and its contributors
********************************
OPNFV Platform Overview Document
********************************
-Colorado 1.0
-------------
.. toctree::
:maxdepth: 2
- introduction.rst
- softwarearchitecture.rst
- deploymenttools.rst
- testcasesframework.rst
+ ./overview.rst
diff --git a/docs/overview/overview.rst b/docs/overview/overview.rst
new file mode 100644
index 000000000..26ec052b1
--- /dev/null
+++ b/docs/overview/overview.rst
@@ -0,0 +1,289 @@
+.. This work is licensed under a Creative Commons Attribution 4.0 International License.
+.. http://creativecommons.org/licenses/by/4.0
+.. (c) Open Platform for NFV Project, Inc. and its contributors
+
+============
+Introduction
+============
+
+Network Functions Virtualization (NFV) is transforming the networking industry via
+software-defined infrastructures and open source is the proven method for developing
+software quickly for commercial products and services that can move markets.
+Open Platform for NFV (OPNFV) facilitates the development and evolution of NFV
+components across various open source ecosystems. Through system level integration,
+deployment and testing, OPNFV constructs a reference NFV platform to accelerate the
+transformation of enterprise and service provider networks.
+As an open source project, OPNFV is uniquely positioned to bring together the work
+of standards bodies, open source communities, and commercial suppliers to deliver a
+de facto NFV platform for the industry.
+
+By integrating components from upstream projects, the community is able to conduct performance
+and use case-based testing on a variety of solutions to ensure the platform’s suitability for
+NFV use cases. OPNFV also works upstream with other open source communities to bring both contributions
+and learnings from its work directly to those communities in the form of blueprints, patches,
+and new code.
+
+OPNFV initially focused on building NFV Infrastructure (NFVI) and Virtualised Infrastructure
+Management (VIM) by integrating components from upstream projects such as OpenDaylight,
+OpenStack, Ceph Storage, KVM, Open vSwitch, and Linux.
+More recently, OPNFV has extended its portfolio of forwarding solutions to include fd.io and ODP,
+is able to run on both Intel and ARM commercial and white-box hardware, and includes
+Management and Network Orchestration MANO components primarily for application composition
+and management in the Colorado release.
+
+These capabilities, along with application programmable interfaces (APIs) to other NFV
+elements, form the basic infrastructure required for Virtualized Network Functions (VNF)
+and MANO components.
+
+Concentrating on these components while also considering proposed projects on additional
+topics (such as the MANO components and applications themselves), OPNFV aims to enhance
+NFV services by increasing performance and power efficiency improving reliability,
+availability and serviceability, and delivering comprehensive platform instrumentation.
+
+===========================
+OPNFV Platform Architecture
+===========================
+
+The OPNFV project addresses a number of aspects in the development of a consistent virtualisation
+platform including common hardware requirements, software architecture, MANO and applications.
+
+
+OPNFV Platform Overview Diagram
+
+.. image:: ../images/opnfvplatformgraphic.png
+ :alt: Overview infographic of the opnfv platform and projects.
+
+
+To address these areas effectively, the OPNFV platform architecture can be decomposed
+into the following basic building blocks:
+
+* Hardware: with the Infra working group, Pharos project and associated activities
+* Software Platform: through the platform integration and deployment projects
+* MANO: through the MANO working group and associated projects
+* Applications: which affect all other areas and drive requirements for OPNFV
+
+OPNFV Lab Infrastructure
+========================
+
+The infrastructure working group oversees such topics as lab management, workflow,
+definitions, metrics and tools for OPNFV infrastructure.
+
+Fundamental to the WG is the `Pharos Project <https://www.opnfv.org/developers/pharos>`_
+which provides a set of defined lab infrastructures over a geographically and technically
+diverse federated global OPNFV lab.
+
+Labs may instantiate bare-metal and virtual environments that are accessed remotely by the
+community and used for OPNFV platform and feature development, build, deploy and testing.
+No two labs are the same and the heterogeneity of the Pharos environment provides the ideal
+platform for establishing hardware and software abstractions providing well understood
+performance characteristics.
+
+Community labs are hosted by OPNFV member companies on a voluntary basis.
+The Linux Foundation also hosts an OPNFV lab that provides centralized CI
+and other production resources which are linked to community labs.
+Future lab capabilities will include the ability easily automate deploy and test of any
+OPNFV install scenario in any lab environment as well as on a nested "lab as a service"
+virtual infrastructure.
+
+OPNFV Software Platform Architecture
+====================================
+
+The OPNFV software platform is comprised exclusively of open source implementations of
+platform component pieces. OPNFV is able to draw from the rich ecosystem of NFV related
+technologies available in open-source then integrate, test, measure and improve these
+components in conjunction with our source communities.
+
+While the composition of the OPNFV software platform is highly complex and constituted of many
+projects and components, a subset of these projects gain the most attention from the OPNFV community
+to drive the development of new technologies and capabilities.
+
+---------------------------------
+Virtual Infrastructure Management
+---------------------------------
+
+OPNFV derives it's virtual infrastructure management from one of our largest upstream ecosystems
+OpenStack. OpenStack provides a complete reference cloud management system and associated technologies.
+While the OpenStack community sustains a broad set of projects, not all technologies are relevant in
+an NFV domain, the OPNFV community consumes a sub-set of OpenStack projects where the usage and
+composition may vary depending on the installer and scenario.
+
+For details on the scenarios available in OPNFV and the specific composition of components
+refer to the OPNFV installation instruction:
+https://artifacts.opnfv.org/opnfvdocs/colorado/docs/installationprocedure/index.rst
+
+-----------------
+Operating Systems
+-----------------
+
+OPNFV currently uses Linux on all target machines, this can include Ubuntu, Centos or SUSE linux. The
+specific version of Linux used for any deployment is documented in the installation guide.
+
+-----------------------
+Networking Technologies
+-----------------------
+
+SDN Controllers
+---------------
+
+OPNFV, as an NFV focused project, has a significant investment on networking technologies
+and provides a broad variety of integrated open source reference solutions. The diversity
+of controllers able to be used in OPNFV is supported by a similarly diverse set of
+forwarding technologies.
+
+There are many SDN controllers available today relevant to virtual environments
+where the OPNFV community supports and contributes to a number of these. The controllers
+being worked on by the community during this release of OPNFV include:
+
+* Neutron: an OpenStack project to provide “network connectivity as a service” between
+ interface devices (e.g., vNICs) managed by other OpenStack services (e.g., nova).
+* OpenDaylight: addresses multivendor, traditional and greenfield networks, establishing the
+ industry’s de facto SDN platform and providing the foundation for networks of the future.
+* ONOS: a carrier-grade SDN network operating system designed for high availability,
+ performance, scale-out.
+
+.. OpenContrail SDN controller is planned to be supported in the next release.
+
+Data Plane
+----------
+
+OPNFV extends Linux virtual networking capabilities by using virtual switching
+and routing components. The OPNFV community proactively engages with these source
+communities to address performance, scale and resiliency needs apparent in carrier
+networks.
+
+* FD.io (Fast data - Input/Output): a collection of several projects and libraries to
+ amplify the transformation that began with Data Plane Development Kit (DPDK) to support
+ flexible, programmable and composable services on a generic hardware platform.
+* Open vSwitch: a production quality, multilayer virtual switch designed to enable
+ massive network automation through programmatic extension, while still supporting standard
+ management interfaces and protocols.
+
+Deployment Architecture
+=======================
+
+A typical OPNFV deployment starts with three controller nodes running in a high availability
+configuration including control plane components from OpenStack, SDN, etc. and a minimum
+of two compute nodes for deployment of workloads (VNFs).
+A detailed description of the hardware requirements required to support the 5 node configuration
+can be found in pharos specification: https://artifacts.opnfv.org/pharos/colorado/docs/specification/index.rst
+
+In addition to the deployment on a highly available physical infrastructure, OPNFV can be
+deployed for development and lab purposes in a virtual environment. In this case each of the hosts
+is provided by a virtual machine and allows control and workload placement using nested virtualization.
+
+The initial deployment is done using a staging server, referred to as the "jumphost".
+This server-either physical or virtual-is first installed with the installation program
+that then installs OpenStack and other components on the controller nodes and compute nodes.
+See the `OPNFV User Guide`_ for more details.
+
+===========================
+The OPNFV Testing Ecosystem
+===========================
+
+The OPNFV community has set out to address the needs of virtualization in the carrier
+network and as such platform validation and measurements are a cornerstone to the
+iterative releases and objectives.
+
+To simplify the complex task of feature, component and platform validation and characterization
+the testing community has established a fully automated method for addressing all key areas of
+platform validation. This required the integration of a variety of testing frameworks in our CI
+systems, real time and automated analysis of results, storage and publication of key facts for
+each run.
+
+
+Release Verification
+====================
+
+The OPNFV community relies on its testing community to establish release criteria for each OPNFV
+release. Each release cycle the testing criteria become more stringent and better representative
+of our feature and resiliency requirements.
+
+
+As each OPNFV release establishes a set of deployment scenarios to validate, the testing
+infrastructure and test suites need to accommodate these features and capabilities. It’s not
+only in the validation of the scenarios themselves where complexity increases, there are test
+cases that require multiple datacenters to execute when evaluating features, including multisite
+and distributed datacenter solutions.
+
+The release criteria as established by the testing teams include passing a set of test cases
+derived from the functional testing project ‘functest,’ a set of test cases derived from our
+platform system and performance test project ‘yardstick,’ and a selection of test cases for
+feature capabilities derived from other test projects such as bottlenecks, vsperf, cperf and
+storperf. The scenario needs to be able to be deployed, pass these tests, and be removed from
+the infrastructure iteratively (no less that 4 times) in order to fulfill the release criteria.
+
+--------
+Functest
+--------
+
+Functest provides a functional testing framework incorporating a number of test suites
+and test cases that test and verify OPNFV platform functionality.
+The scope of Functest and relevant test cases can be found in its
+`user guide <http://artifacts.opnfv.org/functest/colorado/docs/userguide/index.html>`_.
+
+Functest provides both feature project and component test suite integration, leveraging
+OpenStack and SDN controllers testing frameworks to verify the key components of the OPNFV
+platform are running successfully.
+
+---------
+Yardstick
+---------
+
+Yardstick is a testing project for verifying the infrastructure compliance when running VNF applications.
+Yardstick benchmarks a number of characteristics and performance vectors on the infrastructure making it
+a valuable pre-deployment NFVI testing tools.
+
+Yardstick provides a flexible testing framework for launching other OPNFV testing projects.
+
+There are two types of test cases in Yardstick:
+
+* Yardstick generic test cases and OPNFV feature test cases;
+ including basic characteristics benchmarking in compute/storage/network area.
+* OPNFV feature test cases include basic telecom feature testing from OPNFV projects;
+ for example nfv-kvm, sfc, ipv6, Parser, Availability and SDN VPN
+
+System Evaluation and compliance testing
+========================================
+
+The OPNFV community is developing a set of test suites intended to evaluate a set of reference
+behaviors and capabilities for NFV systems developed externally from the OPNFV ecosystem to
+evaluate and measure their ability to provide the features and capabilities developed in the
+OPNFV ecosystem.
+
+The Dovetail project will provide a test framework and methodology able to be used on any NFV platform,
+including an agreed set of test cases establishing an evaluation criteria for exercising
+an OPNFV compatible system. The Dovetail project has begun establishing the test framework
+and will provide a preliminary methodology for the Colorado release. Work will continue to
+develop these test cases to establish a stand alone compliance evaluation solution
+in future releases.
+
+Additional Testing
+==================
+
+Besides the test suites and cases for release verification, additional testing is performed to validate
+specific features or characteristics of the OPNFV platform.
+These testing framework and test cases may include some specific needs; such as extended measurements,
+additional testing stimuli, or tests simulating environmental disturbances or failures.
+
+These additional testing activities provide a more complete evaluation of the OPNFV platform.
+Some of the projects focused on these testing areas include:
+
+------
+VSPERF
+------
+
+VSPERF provides a generic and architecture agnostic vSwitch testing framework and associated tests.
+This serves as a basis for validating the suitability of different vSwitch implementations and deployments.
+
+-----------
+Bottlenecks
+-----------
+
+Bottlenecks provides a framework to find system limitations and bottlenecks, providing
+root cause isolation capabilities to facilitate system evaluation.
+
+
+.. _`OPNFV Configuration Guide`: http://artifacts.opnfv.org/opnfvdocs/colorado/docs/configguide
+.. _`OPNFV User Guide`: http://artifacts.opnfv.org/opnfvdocs/colorado/docs/userguide
+.. _Dovetail project: https://wiki.opnfv.org/display/dovetail
+
diff --git a/docs/platformoverview/deploymenttools.rst b/docs/platformoverview/deploymenttools.rst
deleted file mode 100644
index 034ceda69..000000000
--- a/docs/platformoverview/deploymenttools.rst
+++ /dev/null
@@ -1,46 +0,0 @@
-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Huawei
-
-================
-Deployment Tools
-================
-
-Brahmaputra provides 4 different installers.
-
-The installers will deploy the target platform onto a set of virtual or bare metal servers according
-to the configuration files. After the deployment, it doesn't matter which of the installers had been used
-to deploy the target scenario.
-
-**Apex** is an OPNFV Installation tool based on RDO Manager that deploys OPNFV using the RDO Project
-OpenStack Distribution.
-RDO manager is a Triple-O based installation tool.
-Triple-O is an image based life cycle deployment tool that is a member of the OpenStack Big Tent Governance.
-Apex uses Centos on all target platforms and can deploy all SDN controllers.
-Find more information at
-`OpenStack Wiki for Triple-O <https://wiki.openstack.org/wiki/TripleO>`_ and `OPNFV Configuration Guide`_.
-
-**Compass** is an installer project based on open source project Compass, which provides automated deployment
-and management of OpenStack and other distributed systems.
-It can be considered as what the LiveCD to a single box for a pool of servers – bootstrapping the server pool.
-Compass is based on Ansible.
-It can deploy Ubuntu or Centos as target operating system and ODL and ONOS as SDN controllers.
-Find more information at
-`OpenStack Wiki for Compass <https://wiki.openstack.org/wiki/Compass>`_ and `OPNFV Configuration Guide`_.
-
-**Fuel** is an installer project based on the Fuel OpenStack open source project
-providing automated deployment and management of OpenStack and other distributed systems.
-Fuel is based on puppet and deploys the Ubuntu Linux operating system;
-the OpenStack virtual Infra-structure manager, and OpenDaylight or ONOS SDN controllers.
-Find more information at
-`OpenStack Wiki for Fuel <https://wiki.openstack.org/wiki/Fuel>`_ and `OPNFV Configuration Guide`_.
-
-**Joid** is an installer utilizes the technology developed in Juju and MAAS.
-Juju allows you to deploy, configure, manage, maintain, and scale
-cloud services quickly and efficiently on public clouds, as well as on physical servers,
-OpenStack, and containers. Together with MAAS hardware usage can be optimized.
-For more info on Juju and MAAS, please visit `<https://jujucharms.com/>`_,
-`<http://maas.ubuntu.com>`_ and the
-`Joid User Guide <http://artifacts.opnfv.org/joid/brahmaputra/docs/userguide/index.html>`_.
-
-.. _`OPNFV Configuration Guide`: http://artifacts.opnfv.org/opnfvdocs/brahmaputra/docs/configguide
diff --git a/docs/platformoverview/introduction.rst b/docs/platformoverview/introduction.rst
deleted file mode 100644
index eab30e9b1..000000000
--- a/docs/platformoverview/introduction.rst
+++ /dev/null
@@ -1,70 +0,0 @@
-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Huawei
-
-.. ==> All actions still to be resolved during the review are marked "==>" in comments.
-
-============
-Introduction
-============
-
-.. ==> take some more inputs from the marketing message
-
-OPNFV is an integration effort that takes outputs from several open source communities to build a NFV platform. This task of integration leads to providing different kinds of output to its users.
-
-The primary goal of the OPNFV project is the target software platform, which is a integrated solution
-of a set of components/building blocks of the ETSI ISG NFV reference architecture.
-In the Brahmaputra release, this is limited to the NFVI and VIM blocks.
-OPNFV users will be able to deploy their VNFs there using some MANO solution.
-The target software platform is integrated from a set of other open source components,
-of which the biggest ones are OpenStack and SDN controllers. There are multiple combinations
-possible and a subset is provided and tested by the Brahmaputra release. These subsets
-are called here scenarios.
-
-Besides the target software platform, OPNFV provides a set of tools that helps the user
-deploy this target software platform on a set of servers. These tools are installers.
-Brahmaputra provides multiple options here. Naturally the different installers
-have different capabilities, that is they support deployment of different scenarios.
-
-The installers allow users to deploy OPNFV target software platform on a bare metal environment
-or a set of virtual machines. In both cases, some hosts (bare metal or virtual) will act
-as controller nodes, while other hosts will be the compute nodes hosting the VNFs.
-The installers use a separate server to control the deployment process. This server is called
-"jump server" and is installed with the installer's software at the beginning of a deployment.
-The jump server also can be bare metal or virtual.
-
-This configuration - jump servers and a set of typically 5 nodes to run the target software platform -
-is also described as part of an OPNFV release. This allows the users to build their own labs
-accordingly and deploy OPNFV easily. A lab compliant to this description sometimes is called
-"Pharos-compliant" after the OPNFV project providing the lab description.
-
-Another major part of the OPNFV release is a testing framework and test cases.
-This test framework allows users to verify their deployment of the OPNFV target software platform.
-It will execute and test major functions of the platform relevant to NFV applications (VNFs) so
-the user can be confident that VNFs can successfully run.
-
-OPNFV releases come with the necessary documentation describing
-target software platform, deployment tools, test cases, etc. in their architecture, configuration and usage.
-The most important documents here are configuration guides and user guides that help to set up
-a OPNFV deployment and use it.
-
-The OPNFV project takes major effort to provide lab environments to the community.
-The OPNFV community labs of course need to be Pharos-compliant. They are used for OPNFV development
-tasks and release creation, but should also provide users with the opportunity to run their own
-OPNFV tests. OPNFV community labs are not part of a OPNFV release.
-Please find more information on the labs in the
-`Pharos project documentation <http://artifacts.opnfv.org/pharos/brahmaputra/docs/index.html>`_.
-
-We should also mention that OPNFV works on requirements of open source projects used in OPNFV to
-make these projects better suitable for NFV telco carrier use cases.
-These requirements are described in requirement documents and also forwarded
-to the "upstream" projects in the format required by these projects.
-These requirement documents are not bound to OPNFV releases.
-
-OPNFV bundles the target software, installers, documentation, test cases and lab
-description to releases.
-
-This overview document introduces these components and scenarios on a high level and
-points you to more detailed documentation.
-
-
diff --git a/docs/platformoverview/softwarearchitecture.rst b/docs/platformoverview/softwarearchitecture.rst
deleted file mode 100644
index cf122a5ef..000000000
--- a/docs/platformoverview/softwarearchitecture.rst
+++ /dev/null
@@ -1,211 +0,0 @@
-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Huawei
-
-===========================
-OPNFV Platform Architecture
-===========================
-
-The OPNFV project addresses a number of aspects in the development of a consistent virtualization
-platform including common hardware requirements, software architecture and installed state.
-The platform architecture as the OPNFV project approaches it is dicussed in the following sections.
-
-OPNFV Lab Infrastructure
-========================
-
-The `Pharos Project <https://www.opnfv.org/developers/pharos>`_ provides a lab infrastructure
-that is geographically and technically diverse.
-Labs instantiate bare-metal and virtual environments that are accessed remotely by the
-community and used for OPNFV platform and feature development, build, deploy and testing.
-This helps in developing a highly robust and stable OPNFV platform
-with well understood performance characteristics.
-
-Community labs are hosted by OPNFV member companies on a voluntary basis.
-The Linux Foundation also hosts an OPNFV lab that provides centralised CI
-and other production resources which are linked to community labs.
-Future lab capabilities will include the ability easily automate deploy and test of any
-OPNFV install scenario in any lab environemnt as well as on a virtual infrastructure.
-
-.. ==> I am not sure this is the best place to include this.
-
-
-Software architecture
-=====================
-
-This section will provide information which upstream projects, versions and components are
-integrated in the release to implement OPNFV requirement. You can find the list of common
-requirements for deployment tools here:
-http://artifacts.opnfv.org/genesisreq/brahmaputra/requirements/requirements.pdf.
-
-OpenStack
----------
-
-.. ==> didn't understand Chris' suggestion about reducing the heading level for these sub-topics
-
-OPNFV integrates OpenStack as cloud management system where Brahmaputra uses the OpenStack Liberty Release.
-The set of sub-projects deployed in a brahmaputra platform varies slightly depending on the installer and scenario.
-
-The following table shows which components are deployed.
-
-+------------+----------------+-----------+-----------+-----------+-----------+
-| services | type | Apex | Compass | Fuel | Joid |
-+============+================+===========+===========+===========+===========+
-| aodh | alarming | Available | --- | --- | --- |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| ceilometer | metering | Available | Available | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| cinder | volume | Available | Available | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| cloud | cloudformation | --- | Available | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| glance | image | Available | Available | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| heat | orchestration | Available | Available | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| keystone | identity | Available | Available | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| neutron | network | Available | Available | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| nova | compute | Available | Available | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-| swift | object-store | Available | --- | Available | Available |
-+------------+----------------+-----------+-----------+-----------+-----------+
-
-
-Note that additional components of OpenStack are used as part of deployment tools and test frameworks
-(Fuel, Tempest, Rally).
-
-For more information about the OpenStack features and usage refer to the
-`official OpenStack documentation page <http://docs.openstack.org/>`_.
-Please ensure that you have the Liberty release selected at the
-``More Releases & Languages`` drop down menu.
-
-Operating System
-----------------
-
-OPNFV uses Linux on all target machines. Depending on the installers, different
-distributions are supported.
-
-Ubuntu 14 supported by Fuel, Compass and Joid installers
-CentOS 7 supported by Apex and Compass
-
-
-SDN Controllers
----------------
-
-OPNFV Brahmaputra release supports different SDN controllers.
-Some scenarios don't use an SDN controller but rely just on Neutron networking capabilities.
-
-Depending on the SDN controller you are using, the featureset available will vary.
-More information on feature support and scenarios can be found in `OPNFV Configuration Guide`_ and `OPNFV User Guide`_.
-Brahmaputra also provides scenarios without an SDN controller, just using OpenStack Neutron.
-
-OpenDaylight is an SDN controller aiming to accelerate
-adoption of Software-Defined Networking (SDN) and Network Functions Virtualization
-(NFV) with a transparent approach that fosters new innovation.
-OpenDaylight runs within a JVM and is installed in OPNFV within a container and integrated with OpenStack
-using the ODL device driver. The Brahmaputra release of OPNFV integrates the Beryllium release.
-You can find more information about OpenDaylight among the release artifacts at the
-`Downloads page <https://www.opendaylight.org/downloads>`_.
-Please ensure you are using the Beryllium documentation.
-
-ONOS is an SDN controller written in Java with a distributed architecture with special focus to
-support scalability, fault tolerance and hardware and software upgrades without
-interrupting network traffic.
-More information on the internal design of ONOS may be found in
-`User's Guide <https://wiki.onosproject.org/display/ONOS/User's+Guide>`_ and
-`Architecture+Guide <https://wiki.onosproject.org/display/ONOS/Architecture+Guide>`_ on the
-`wiki of the ONOS project <https://wiki.onosproject.org>`_.
-ONOS is integrated to OPNFV using a framework ONOSFW and Neutron plugins. Details can be found in the
-ONOS specific OPNFV documents,
-`Design guide <http://artifacts.opnfv.org/onosfw/brahmaputra/design/design.pdf>`_,
-`User guide <http://artifacts.opnfv.org/onosfw/brahmaputra/userguide/index.html>`_ and
-`Configuration guide <http://artifacts.opnfv.org/onosfw/brahmaputra/configguide/index.html>`_.
-
-.. OpenContrail SDN controller will be supported in the next drop of the Brahmaputra release.
-
-
-Data Plane
-----------
-
-OPNFV extends Linux's virtual networking capabilies by using virtual switch
-and router components including improving those components by requirements
-specific to telco use cases.
-
-For instance some scenarios use OpenVSwitch
-to replace Linux bridges as it offers advantages in terms of mobility, hardware
-integration and use by network controllers. OPNFV leverages these by upgrade
-to a specific installation using user-space datapath. This includes changes to
-other dataplane components, including libvirt, qemu, DPDK etc.
-Please find more information in
-`OVSNFV User's Guide <http://artifacts.opnfv.org/ovsnfv/brahmaputra/docs/userguides/userguides.pdf>`_.
-
-Other Components
-----------------
-
-**KVM**
-
-NFV infrastructure has special requirements on hypervisors with respect of
-interrupt latency (timing correctness and packet latency in data plane) and
-live migration.
-
-Besides additional software changes, this requires
-some adjustments to system configuration
-information, like hardware, BIOS, OS, etc.
-
-.. KVM4NFV is one implementation, we have three implementations of the OS virtualization layer
-.. to capture here.
-.. ==> need more input
-
-Please find more information at
-`KVM4NFV project documentation <http://artifacts.opnfv.org/kvmfornfv/docs/all/all.pdf>`_.
-
-.. As it is a platform overview I think if we mention KVM as hypervisor we should focus on which version we are using and how as opposed to the OPNFV project that deals with KVM itself.
-
-
-
-Deployment Architecture
-=======================
-
-OPNFV starts with a typical configuration with 3 controller nodes running
-OpenStack, SDN, etc. and a minimum of 2 compute nodes for deployment of VNFs.
-A detailed description of this 5 node configuration can be found in pharos documentation.
-
-The 3 controller nodes allow to provide an HA configuration. The number of compute
-nodes can be increased dynamically after the initial deployment.
-
-OPNFV can be deployed on bare metal or in a virtual environment, where each of the hosts
-is a virtual machine and provides the virtual resources using nested virtualization.
-
-The initial deployment is done using a so-called "jumphost". This server (either bare metal
-or virtual) is first installed with the installer program that then installs OpenStack
-and other components on the controller nodes and compute nodes. See the `OPNFV User Guide`_
-for more details.
-
-.. Editors note:
-.. In a second level of detail, describe how software is distributed over the 3 controller
-.. nodes, compute nodes and other hardware.
-
-
-In Brahmaputra, different scenarios can be deployed to provide the different feature sets, e.g.
-HA, IPV6, BGPVPN, KVM, or select the different implementations, e.g. SDN controllers.
-
-.. ==> Is it described somewhere what we mean by scenarios? If yes, then the original text is better.
-.. If not, I would give a brief overview here to describe the term.
-
-The following scenarios are supported, some of them can be deployed using different installers.
-
-* nosdn-nofeature
-* odl_l2-ha
-* odl_l3-ha
-* odl_l2-bgpvpn-noha
-* onos-ha
-* nosdn-ovs-ha
-* nosdn-kvm-ha
-* nosdn-ovs_kvm-ha
-
-Please find more information at:
-http://artifacts.opnfv.org/opnfvdocs/brahmaputra/configguide/configoptions.html#opnfv-scenario-s.
-
-.. _`OPNFV Configuration Guide`: http://artifacts.opnfv.org/opnfvdocs/brahmaputra/docs/configguide
-.. _`OPNFV User Guide`: http://artifacts.opnfv.org/opnfvdocs/brahmaputra/docs/userguide
diff --git a/docs/platformoverview/testcasesframework.rst b/docs/platformoverview/testcasesframework.rst
deleted file mode 100644
index 73c9cd187..000000000
--- a/docs/platformoverview/testcasesframework.rst
+++ /dev/null
@@ -1,110 +0,0 @@
-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Huawei
-
-=================
-Testing ecosystem
-=================
-
-Testing is a key area and also a challenge for OPNFV in order to be able to
-verify and validate the platform we are creating.
-
-This is a complex task as we have to test the integration of the components,
-the functionality we are creating and using and we have to verify
-that the platform is suitable for telecom applications.
-We do testing in an automated fashion by using several test tools and frameworks in our CI/CD pipeline.
-
-This chapter gives an overview about our testing tools and activities.
-
-
-Release verification
-====================
-
-OPNFV releases the target platform together with the deployment tools in a set of scenarios
-that provides choices regarding the deployed components and the available features.
-The scenarios and the provided functionality are tested automatically in the CI/CD pipeline
-mentioned above and they are considered to be ready for release after
-at least 4 successful consecutive iterations.
-
-The functional testing and the platform validation are divided between two projects called Functest and Yardstick.
-
-Functest
---------
-
-Functest provides a functional testing framework along with a set of test suites
-and test cases that test and verify OPNFV platform functionality.
-The scope of Functest and relevant test cases can be found in its
-`user guide <http://artifacts.opnfv.org/functest/brahmaputra/docs/userguide/userguide.pdf>`_.
-
-In Brahmaputra, Functest is focusing on OpenStack and SDN controllers deployment testing.
-Its testing framework combines a number of testing tools
-to verify the key components of the OPNFV platform are running successfully.
-For example, Rally and Tempest are integrated for OpenStack basic functional testing and benchmark,
-Robot is used for ODL testing, and Teston is integrated for ONOS testing.
-Besides these, Functest also includes tests by deploying candidate VNFs such as vPing and vIMS, and testing their basic functionality.
-
-Yardstick
----------
-
-Yardstick is a testing project for verifying the infrastructure compliance when running VNF applications.
-Yardstick can benchmark a number of characteristics/performance vectors about the infrastructure,
-that makes it become a useful pre-deployment NFVI testing tools.
-
-Yardstick is also a flexible testing framework supporting OPNFV feature testing by the various projects in OPNFV.
-Projects can plug in their test cases for specific features easily.
-
-The detail of Yardstick project can be found in the
-`yardstick user guide <http://artifacts.opnfv.org/yardstick/brahmaputra/user_guides_framework/user_guides_framework.pdf>`_.
-
-There are two types of test cases in Yardstick: Yardstick generic test cases and OPNFV feature test cases.
-Yardstick generic test cases include basic characteristics benchmarking in compute/storage/network area.
-OPNFV feature test cases include basic telecom feature testing from OPNFV projects,
-for example nfv-kvm, sfc, ipv6, Parser, Availability and SDN VPN.
-
-All of the Yardstick test cases are listed on
-`<http://artifacts.opnfv.org/yardstick/brahmaputra/docs/configguide_yardstick_testcases/03-list-of-tcs.html>`_.
-
-
-Additional Testing
-==================
-
-Besides the test suites and cases for release verification, there are some additional testing
-for specific feature or characteristics on OPNFV platform.
-These testing framework and test cases may include some specific needs,
-such as extended measurements, or additional testing stimuli, or tests which cause disturbances on the environment.
-These additional testing can provide a more complete evaluation about OPNFV platform deployment.
-
-Qtip
-----
-
-Qtip is a performance benchmark testing project by using a "Bottom-Up" approach
-in characterizing and benchmarking OPNFV platform.
-Qtip aims to benchmark the performance of components for a quantitative analysis and doesn't deal with validation of the platform.
-
-In Brahmaputra, Qtip develops a flexible framework,
-adds a number of test cases covering compute/storage/network area,
-and compares these benchmarks on a bare metal machine vs a VM.
-These contrastive result can be used to evaluate the performance of these components on the OPNFV platform basically.
-
-VSPERF
-------
-
-VSPERF will develop a generic and architecture agnostic vSwitch testing framework and associated tests,
-that will serve as a basis for validating the suitability of different vSwitch implementations
-in a Telco NFV deployment environment.
-The output of this project will be utilized as part of OPNFV Platform and VNF level testing and validation.
-
-Bottlenecks
------------
-
-Bottlenecks will provide a framework to find system bottlenecks
-by testing and verifying OPNFV infrastructure in a staging environment before committing it to a production environment.
-The Bottlenecks framework can not only find specific system limitations and bottlenecks,
-but also the root cause of these bottlenecks.
-
-In Brahmaputra, Bottlenecks includes two test cases:
-rubbos and vstf. These test cases are executed on OPNFV community pods,
-and test result report are visible on the community testing dashboard.
-
-
-