summit 16: arm mini-summit - intro & overview

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ARM NFV Ecosystem Mini Summit- Intro & Overview Bob Monkman June 21, 2016

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ARM NFV Ecosystem Mini Summit- Intro & Overview

Bob Monkman

June 21, 2016

© ARM 2016

Welcome and Agenda Overview

8:30-8:35 Welcome and Introduction (Bob Monkman, ARM)

8:35-8:50 OPNFV on ARM: Overview and Perspective (Bob Monkman, ARM)

8:50- 9:15 NFV Solutions for the Premise and Edge – NXP Semiconductor (Sam Fuller, NXP)

9:15- 9:40 OpenFastPath Solutions: Fast and Open IP Stack – Nokia (Tapio Tallgen)

9:40-10:05 VOSYSwitch, high performance virtual switch alternative for ARMv8 (Michele Paolino)

10:05-10:30 NFV for the Masses – Marvell (Maen Suleiman)

10:30-10:45 Break

10:45-11:10 OPNFV Solutions & OFP #3 – Enea

11:10- 11:35 Efficient NFV solutions for Cloud and Edge – Cavium (Kin-Yip Liu)

11:35- 12:00 OpenDataPlane Monarch Release – (Bill Fischofer- Linaro.org)

12:00- 1:00 Lunch

1:00 - 4:00 ARM NFV Ecosystem Demos/Meet the Developers

© ARM 2016

A special thanks to our Mini Summit Co-Sponsors

© ARM 2016

Next Generation Infrastructure Challenges

OPEXEfficiency

ManagingCAPEX

ServiceRevenue

Generation

Creating Service Value Agile Deployment

Power Constraints Increase Capacity

New Business Models

© ARM 2016

The promise of NFV

Reduce the costs associated with deploying, managing and maintaining networks

Accelerate time-to-market for new services and maintenance

Deliver the flexibility and agility needed to address changing business requirements

Create an open and collaborativeecosystem to minimize duplication and increase speed of innovation

http://portal.etsi.org/NFV/NFV_White_Paper2.pdf

© ARM 2016

4G to 5G challenges and gaps.Latency Throughput Connections Mobility Network

Architecture1msE2E

Latency10Gbps

Perconnection

1 MillionConnections

Per km2

Up to 450km/hMobility

NetworkSlicing

Required5G

Requirement

Gap 30-50x 100x 100x 1.5xNFV/SDN

HeterogeneousCompute.

LTE 30-50ms 100Mb/s 10K 350km/hInflexible –Statically deployed

Compute requiremen

ts

System Latency

DistributedIntelligence

© ARM 2016

ARM Well Positioned and Executing in Networking

Legacy architectures transitioning to ARM Compelling IP Broad range of solutions Rich ecosystem

ARM in 2015: 15% infrastructure market share ARM Partners supply

~85% legacy volume today 30% of home and office

networking

Deep Product portfolio and pipeline Over 50 shipping platforms

Over 30 infrastructure platforms Range of implementations

from single core through 100 core; range of peripherals and accelerators

New networking chips constantly being introduced

© ARM 2016

ARM value proposition is based on performance/watt, density, scalability… to meet the needs of real network applications

Infrastructure Requires DiversityOne size does not fit all

Real network nodes have fixed constraints

Power limits- At the edge: <20W

Space and form-factor limits At the edge; In the Telco Data Center

Raw performance and latency needs Real-time processing and feedback

Acceleration drives performance for real problems

Form

Fac

tor

© ARM 2016

Devices

Intelligent Flexible Cloud: Enabling the 5G vision

Right size compute with common, scalable architecture Lowering the energy demands of future mobile networks Delivering the 5G vision

Edge Data CenterCoreAggregationAccess

ACC

ACS ion

Storage

ion

Storage

Packet Flows Packet Flows

Acceleration

Storage

Compute

Packet Flows

S

ACS

C

AC

A

S

SA

C

IoT

© ARM 2016 10

Networking ecosystem drives market share growth

OSes /HAL

Network Virtualization

Firmware & Network Boot

VNFs

Middleware

Virtual Infrastructure Manager

ACPI

ARM Ecosystem driving Optimized Solutions for Range of Use Cases:- via Community Engagement

© ARM 2016 11

API enables scaling from general purpose through accelerated systems

App

High Volume Server

(ARM, x86)

SoC(ARM, MIPS, Power,

x86)

ODP Implementation

for SoC

Application layer

Silicon vendors port to their chip architecture

DPDK

App App App App

Networking I/O Application Portability

ODP: Common API for highly-differentiated implementations of common networking accelerators

Queues, Buffers, Crypto, etc. defined Accelerator APIs

Polled mode & Event mode Options

Open Contribution and Shared Governance

DPDK: Common API for SW optimized high volume servers

Leverage hardware via polled mode driver extensions

ODP API Layer

© ARM 2016 12

ARM-Based OPNFV Reference Stack & Pharos Lab: In Partnership w/ Enea Software, replicated @ Orange…more on the way

POD

3x Control Nodes

2x ComputeNodes

Build Server

Jump Server

VPN

Firewall

VPN Gateway Router

INTERNET

Brahmaputra Reference Stack

© ARM 2016 13

Specifications

Prototype (Arno)

Lab Ready (Brahmaputra)

VNF Validation & Infrastructure Optimization

Field Trial (Colorado)

OPNFV – Realizing the Vision

This is the challenging part…yet to be fully scoped by theOPNFV community at large

• OPNFV Project currently at Brahmaputra “Lab-Ready” release

• ARM & rest of community opening labs for VNF development/porting

• Colorado release Fall ‘16 in progress

• MANO options added into the mix

• Community has much hardening to do before OPNFV is deployment-ready

• Fragmentation, performance challenges still being worked

© ARM 2016 14

VNF Ecosystem Engagement

OPNFV Infrastructure in place Enea opened 1st ARM-based OPNFV Lab April

Beginning to replicate ARM pods in Operator and OEM labs throughout 2016

Orange SoftIron Pod (AMD-based) up and running in 2 days (early June)

Continue to expand stack options for Colorado and beyond

Developing a program for VNF ubiquity on ARM vCPE, vIMS, vSBC, vEPC initial use cases Coordinating with operators, ISVs and ARM SoC partners

Prove that VNFs are easy to port to ARM and demonstrate value in operator lab trials

Performance/watt, density, scalability, TCO

Leverage DPDK where this is legacy; Optimize w/ ODP to demonstrate increased value

© ARM 2016 15

The Right Architecture for Virtualized Edge

Early SDN technologies based on HW virtualization in OPNFV OpenStack management of KVM-based VMs for VNFs

Higher overhead (memory, performance, complexity) approach

Consensus building that the Virtualized Edge favors a lighter weight solution

Solutions looking to leverage lighter weight OS virtualization at edge Docker, CoreOS

Kubernetes, Mesosphere, Weaveworks etc.

Microservices

OpenStack, SDN Controllers may still play a higher level role in these configurations

ARM Ecosystem building PoCs in this area of optimization of NFV

© ARM 2016 16

Summary

ARM partners currently supplying ~85% of Networking equipment (volume)

ARM SoC vendors deliver range of workload-optimized solutions for different networking use cases

ARM driving application developer ecosystem with ISVs and open source communities

ARM technology best suited to emerging lighter-weight demands at mobile edge

Robust Application Ecosystem

Strong ARM Ecosystem Position

Maximum Flexibility

Agility at Edge

© ARM 2016 17

Join us for a Light Reading Webinar 28 June, 2016Better Living Through the ARM NFV Ecosystem

Registration:http://www.lightreading.com/webinar.asp?webinar_id=705

Date / Time: Tuesday, June 28, 2016, 12:00 p.m. New York / 5:00 p.m. London

The trademarks featured in this presentation are registered and/or unregistered trademarks of ARM Limited (or its subsidiaries) in the EU and/or elsewhere. All rights reserved. All other marks featured may be trademarks of their respective owners.

Copyright © 2016 ARM Limited