Successfully reported this slideshow.
We use your LinkedIn profile and activity data to personalize ads and to show you more relevant ads. You can change your ad preferences anytime.

The hague rina-workshop-nfv-diego

548 views

Published on

NFV support in RINA

Published in: Internet
  • Be the first to comment

  • Be the first to like this

The hague rina-workshop-nfv-diego

  1. 1. NFV Support in RINA Diego R. López Telefónica I+D @ictpristine
  2. 2. The Key NFV Challenges • Support the performance requirements of dataplane workloads • Optimization beyond current cloud practices • Adaptive security policy verification • Security beyond physical access and links • Smarter forwarding • Go beyond the 5-tuple • Enhanced resiliency by elasticity • Availability beyond overprovisioned failover • Network functions become applications and services at the same time • Support for recursive service and components beyond current overlay techniques • Find a proper integration of different technologies @ictpristine 2
  3. 3. Starting with RINA in NFV • Provide the infrastructural network support for NFV • Service chains via SFC • VNF internal connections • VNF resiliency mechanisms • Full software-based management and control • Circumscribe it to NFV PoPs and the provision of IP-based services • Facilitate service provisioning and stability • In a compatible way with current network deployments • Demonstrating an evolutionary path @ictpristine 3
  4. 4. NFV Infrastructure End Point End Point E2E Network Service Compute Storage NetworkHW Resources Virtualization LayerVirtualization SW Virtual Compute Virtual Storage Virtual Network Virtual Resources Logical Abstractions Network Service VNF VNF VNF VNF VNF Logical Links VNF Instances VNF VNF VNF SW Instances VNF : Virtualized Network Function VNF RINA on the NFV Framework @ictpristine 4 RINA support for SFC and pooling RINA support for NFV Forwarding Graphs via SFC Single PoP Multiple tenants PoP fabric network untouched Optimized fabric usage
  5. 5. RINA on the NFV MANO @ictpristine 5 SFC Node (VNF) SFC Node (VNF) SFC Egress Node (VNF/PNF) SFC Ingress Node (VNF/PNF) VNFCI Service Chain DAF Chain DIFIPCP IPCP IPCP IPCP VNFCI VNFCI VNFCI VNFCI VNFCI VNF DAF VNF DIFIPCP IPCP Transport DC & shim DIFsIPCPIPCP IPCP VIM VNFM(s) NFVO  Service chain DAF & DIF, managed by NFVO – One per each VNFFG  VNF DAF & DIF, managed by VNFM(s) – One per each VNF – IPCPs at the DIF provide pooling  Transport (and shim) DIFs, managed by the VIM – As required by SC and VNF DIFs
  6. 6. Enabling New Design Patterns • The MANO DAF • Supporting recursive aggregation at the orchestration stack • Consistent policy-based orchestration at all layers • Through an object-oriented approach • An adaptive, recursive “control plane” • Quotes above are essential! • Simplified deployment • Beyond current network overlay technologies that require specific cross-layer bindings • Dynamic updates, migration, scaling… • Infrastructure network properties such as security, topology verification, allocation, load balancing, failure protection… are directly enforced by the RINA policies • Network components become reusable • New service design patterns become possible, even for the current Internet @ictpristine 6

×