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author | fuqiao <fuqiao@chinamobile.com> | 2016-01-27 04:10:07 +0000 |
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committer | Gerrit Code Review <gerrit@172.30.200.206> | 2016-01-27 04:10:07 +0000 |
commit | ad33fcfaefde2e45afc67383ab984195d18394d6 (patch) | |
tree | 56eb4f8f4cf33cf6f2f8555d5f41bb9aceb4317a /Scenario_2/scenario_analysis_multi_site.rst | |
parent | 777adf7b46ff4ba0baba945bc15b497a8cfb66a7 (diff) | |
parent | b9ac620a89e6b3e9cffa077535353e53807741ed (diff) |
Merge changes I1fd9a83f,I3df017ec,Iba2a6e46,I74b51e91,I8dff0d11, ...
* changes:
Scenario Analysis Doc - Section 3 - communication Interfaces HA scheme
Scenario Analysis doc - multisite scenario
cenario analysis doc - general issues for VNF HA
Scenario Analysis doc - multisite scenario
Scenario analysis doc - general issues for VNF HA
Scenario Analysis doc - multisite scenario
Diffstat (limited to 'Scenario_2/scenario_analysis_multi_site.rst')
-rw-r--r-- | Scenario_2/scenario_analysis_multi_site.rst | 45 |
1 files changed, 45 insertions, 0 deletions
diff --git a/Scenario_2/scenario_analysis_multi_site.rst b/Scenario_2/scenario_analysis_multi_site.rst new file mode 100644 index 0000000..2e43471 --- /dev/null +++ b/Scenario_2/scenario_analysis_multi_site.rst @@ -0,0 +1,45 @@ +6, Multisite Scenario +==================================================== + +The Multisite scenario refers to the cases when VNFs are deployed on multiple VIMs. +There could be three typical usecases for such scenario. + +One is in one DC, multiple openstack clouds are deployed. Taking into consideration that the +number of compute nodes in one openstack cloud are quite limited (nearly 100) for +both opensource and commercial product of openstack, multiple openstack clouds will +have to be deployed in the DC to manage thousands of servers. In such a DC, it should +be possible to deploy VNFs accross openstack clouds. + + +Another typical usecase is Geographic Redundancy (GR). GR deployment is to deal with more +catastrophic failures (flood, earthquake, propagating software fault, and etc.) of a single site. +In the Geographic redundancy usecase, VNFs are deployed in two sites, which are +geographically seperated and are deployed on NFVI managed by seperate VIM. When +such a catastrophic failure happens, the VNFs at the failed site can failover to +the redundant one so as to continue the service. Different VNFs may have specified +requirement of such failover. Some VNFs may need stateful failover, while others +may just need their VMs restarted on the redundant site in their initial state. +The first would create the overhead of state replication. The latter may still +have state replication through the storage. Accordingly for storage we don't want +to loose any data, and for networking the NFs should be connected the same way as +they were in the original site. We probably want also to have the same number of +VMs on the redundant site coming up for the VNFs. + + +The other usecase is the maintainance. When one site is planning for a maintaining, +it should first replicate the service to another site before it stops them. Such +replication should not disturb the service, nor should it cause any data loss. The +service at the second site should be excuted, before the first site is stopped and +began maintenance. In such case, the multisite schemes may be used. + +The multisite scenario is also captured by the Multisite project, in which specific +requirements of openstack are also proposed for different usecases. However, +the multisite project mainly focuses on the requirement of these multisite +usecases on openstack. HA requirements are not necessarily the requirement +for the approaches discussed in multisite. While the HA project tries to +capture the HA requirements in these usecases. The following links are the scenarios +and Usecases discussed in the Multisite project. +https://gerrit.opnfv.org/gerrit/#/c/2123/ +https://gerrit.opnfv.org/gerrit/#/c/1438/. + + |