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authorSofia Wallin <sofia.wallin@est.tech>2019-05-12 11:25:12 +0200
committerSofia Wallin <sofia.wallin@est.tech>2019-05-12 11:25:12 +0200
commitbb8295d8a67338b3b10cda062793a429b889bc01 (patch)
tree981b8b2131e07fda68b5e4c69151e93ccff66fea
parent3137192ef70b98c004d682bb0341d54fdc150ce8 (diff)
Updates for overview doc
Changed diagram for Hunter release and editorial updates provided by Brandon. Change-Id: Ie2b39236fe016aa59232a28c4ea003ee56a71b99 Signed-off-by: Sofia Wallin <sofia.wallin@est.tech>
-rw-r--r--docs/images/hunter.pngbin0 -> 100573 bytes
-rw-r--r--docs/release/overview.rst19
2 files changed, 6 insertions, 13 deletions
diff --git a/docs/images/hunter.png b/docs/images/hunter.png
new file mode 100644
index 000000000..dfaab2e14
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diff --git a/docs/release/overview.rst b/docs/release/overview.rst
index a3f174806..c5f56762f 100644
--- a/docs/release/overview.rst
+++ b/docs/release/overview.rst
@@ -30,15 +30,14 @@ and new code.
OPNFV focuses on building NFV Infrastructure (NFVI) and Virtualized Infrastructure Management (VIM) by
integrating components from upstream projects such as OpenDaylight, OVN, OpenStack, Kubernetes,
-Ceph Storage, KVM, Open vSwitch, Linux, DPDK, FD.io and ODP. OPNFV- is able to run on both Intel and
+Ceph Storage, KVM, Open vSwitch, Linux, DPDK and FD.io. OPNFV- is able to run on both Intel and
ARM commercial and white-box hardware, support VM, Container and BareMetal workloads.
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
+Concentrating on these components, OPNFV aims to enhance
NFV services by increasing performance and power efficiency improving reliability,
availability and serviceability, and delivering comprehensive platform instrumentation.
@@ -52,7 +51,7 @@ platform including common hardware requirements, software architecture, MANO and
OPNFV Platform Overview Diagram
-.. image:: ../images/gambia.png
+.. image:: ../images/hunter.png
:alt: Overview infographic of the opnfv platform and projects.
@@ -61,7 +60,6 @@ into the following basic building blocks:
* Hardware: Infrastructure working group, Pharos project and associated activities
* Software Platform: Platform integration and deployment projects
-* MANO: MANO working group and associated projects
* Tooling and testing: Testing working group and test projects
* Applications: All other areas and drive requirements for OPNFV
@@ -87,7 +85,7 @@ The Linux Foundation also hosts an OPNFV lab that provides centralized CI
and other production resources which are linked to community labs.
The Lab-as-a-service (LaaS) offering provides developers to readily access NFV infrastructure on demand.
-Ongoing lab capabilities will include the ability easily automate deploy and test of any OPNFV install
+Ongoing lab capabilities will include the ability to easily automate deployment and test of any OPNFV install
scenario in any lab environment using a concept called “Dynamic CI”.
OPNFV Software Platform Architecture
@@ -138,8 +136,8 @@ being worked on by the community during this release of OPNFV include:
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.
-* OVN: A virtual networking solution developed by the same team that created OVS. OVN stands for
- Open Virtual Networking and is dissimilar from the above projects in that it focuses only on overlay networks.
+* Tungsten Fabric: An SDN solution that includes both the data plane element called a vRouter and the controller. The combination of these two
+ components offers network connectivity and security across VMs, containers, and bare metal servers, across public and private cloud environments.
----------
Data Plane
@@ -157,11 +155,6 @@ networks.
* DPDK: a set of libraries that bypass the kernel and provide polling mechanisms, instead of interrupt based operations,
to speed up packet processing. DPDK works with both OVS and FD.io.
-----
-MANO
-----
-OPNFV integrates open source MANO projects for NFV orchestration and VNF management. New MANO projects are constantly being added.
-
Deployment Architecture
=======================