accelerate the sdn with intel onp

Intel® Open Network Platforms: Accelerating and Enabling Software Defined Networks

DATS005

Frank Schapfel – Senior Product Line Manager, Intel Vivien Yang, Platform Solution Architect, Intel Ye Dong, Senior Engineer, Intel

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Can you develop a solution for Network Function

Virtualization and Software Defined Networks on Intel®

Architecture today?

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Agenda

• Demand for Network Function Virtualization (NFV) and Software Defined Networks (SDN)

• Intel® Open Network Platform for Server

• Intel Open Network Platform for Switch

• Where to find NFV and SDN enablers today

4

Agenda





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Service Provider Challenge

Service Agility

Lower Cost: CapEx and

Opex

Enhanced User

Experience

Save Money, Make Money

Service Providers scale to deliver more services

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Converging Data Center and Communications Network architectures

Data Center Networks

Communications Networks

DATA CENTER NETWORKS 99.9% available

99.999% available

COMMUNICATIONS NETWORKS

Flexible Scalable

New Services Commercial Off

The Shelf systems

Communications Networks adopting Data Center Networking Standards

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1. Using standard IT virtualization technology to migrate a fixed function network device to a software application on a server

2. Equipment located in datacenters, wireless/wireless networks and end user premises

3. Applicable to any data plane and control plane function

Network Function

Virtualization

1. Separation of control and data plane

2. Network Virtualization for multi-tenancy

3. A centralized controller and view of the network

4. Programmability of the network by external applications

Creates Network Abstractions to enable faster innovation

Reduces CAPEX,

OPEX, Space, Power, and

Consumption

Software Defined Networking & Network Function Virtualization

Software Defined

Networking

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Intel Objectives: SDN

South Bound API

(e.g.) OpenStack* Network

Apps

Controller

CRAN Cloud Server BNG EPC

Node Node Node Node Top of Rack

Switch

Node

Orchestration

Network Appliances

Node

Controller

North Bound API

(e.g.) OpenFlow, Open vSwitch*

Enable industry leading manageability by exposing health,

state, resource availability for optimal workload placement and

configuration

Promote and contribute to industry standards and open

source solutions for interoperability

ONP Switch Reference

Design ONP Server Reference

Design

(e.g.) OpenDaylight*

Enable TEMs/OEMs to deliver industry leading performance, power, cost, security optimized

solutions

1

2

3

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To This… Networking within VMs Standard x86 COTS HW

Open SDN standard solutions

From This… Traditional networking topology

Monolithic vertical integrated box

TEM proprietary solutions

VM: Firewall

VPN IPS/IDS

VM: ADC CDN

Router Gateway

VM: EPC

CRAN

Hypervisor

Firewall VPN

IPS/IDS

ADC CDN

Routers Gateway

Evolved Packet Core

Intel® Architecture CPU

Chipset Acceleration

Switch Silicon

NIC Silicon

Wind River*

Linux* + Apps TEM/OEM Proprietary OS ASIC, DSP, FPGA, ASSP

NFV is Driving Architectural Transformation

Migrating Network Functions to industry standard servers

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Intel® Architecture (IA) Leading the Network Transformation

Software Defined

Networking

Controller

Orchestration

Node Node Node

Network Function

Virtualization

Intel® Architecture

Virtual Machine Monitor

Appliance

Virtual Switch

Appliance Appliance

Intel Confidential

Proprietary

Proprietary Proprietary

Applica-tion

Packet

Control

Signal

2011 2012/13 Future Workload

4:1 Workload Consolidation

Intel® Open Network Platform Ingredients

Each framework can operate independently or together

Intel® Open Network Platforms

ONP Switch Reference Design

ONP Server Reference Design

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Agenda





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Open Network Platform for Servers – Sunrise Trail

Open Network Platform

Open Source Software •OpenStack*

•OpenDaylight*

•OpenFlow •01.Org • OpenVSwitch.org •Kernel.org

Fast Software Development •Commercial Software Options

•Roll your Own

System Integration •Network Builders Ecosystem

Industry Standards •ETSI •ONF

Sunrise Trail = Open Source Software + Standard Servers

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Open Network Platform Hardware Roadmap

1H-2014 2nd Generation Comms • 2x 10 Core Intel® Xeon™

E5-2600 v2 processor • 10Gb Ethernet • 20Gbps Intel® QuickAssist

Technology

Server • 2x 10 core Intel® Xeon™

E5-2600 v2 • 10Gb Ethernet • 20Gbps Intel QuickAssist

add in card

2H-14 3rd Generation Comms • Intel microarchitecture

Haswell CPU • 50Gbps Intel QuickAssist

technology • 1, 10GbE, 40GbE

Server • Haswell CPU • 50Gbps Intel QuickAssist

add in card • 10GbE, 40GbE

2016 Next Gen platform

• Next Gen Intel Xeon

processor • Next gen Ethernet IO • Next gen Intel

QuickAssist technology

Intel® Architecture CPU

Chipset Acceleration

Intel® Data Plane

Development Kit

Switch Silicon

NIC Silicon

Open Networking

Software

Multiple Generations of Industry Standard Servers and Comms Platforms

Con

vergen

ce

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Intel® Open Network Platform Server Reference Design 1.0 (In development)

Base software components to enable NFV and SDN development on latest Intel

Architecture Communications Platform

Intel® Data Plane Development Kit (Intel® DPDK)

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SW HW


Intel® 82599 10GbE

Controller

Intel® Communications Chipset 89xx Series


Intel Product

Wind River Products Third Party




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SW HW


Intel® 82599 10GbE

Controller



Fedora Linux

OpenFlow* OpenStack* Intel DPDK Optimized vSwitch

QuickAssist

Intel Product





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SW HW


Intel® 82599 10GbE

Controller



Fedora Linux


QuickAssist

Intel Product




Wind River*

Linux*

OVP ON

Server


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SW HW


Intel® 82599 10GbE

Controller



Fedora Linux


QuickAssist

KVM VMware* Red Hat*

Intel Product




OpenFlow OpenStack

Open vSwitch*

Wind River*

Linux*

OVP ON

Server


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ISV App

SP App

OEM App

SW HW


Intel® 82599 10GbE

Controller



Fedora Linux


QuickAssist


Intel Product




OpenFlow OpenStack

Open vSwitch*

Wind River*

Linux*

OVP ON

Server


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ISV App

SP App

OEM App

SW HW


Intel® 82599 10GbE

Controller



Fedora Linux


QuickAssist


Controller Orchestrator

Intel Product




OpenFlow OpenStack

Open vSwitch*

Wind River*

Linux*

OVP ON

Server


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ISV App

SP App

OEM App

SW HW


Intel® 82599 10GbE

Controller



Fedora Linux


QuickAssist


Controller Orchestrator

Intel Product




OpenFlow OpenStack

Open vSwitch*

Wind River*

Linux*

OVP ON

Server • Intel® Open Network Platform—Not All

Solutions Are Created Equal [infographic] • Intel Open Network Platform page on

Intel.com


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Open Network Platform Server roadmap - 2014 V1.

0 Enhanced Platform Awareness • PCI Express*

V1.

1 Enhanced Platform Awareness • CPU Affinity vSwitch*

• VXLAN • QOS • IPv6 • DPI API

V1.

2 Enhanced Platform Awareness • NIC affinity • Memory Affinity • QuickAssist vSwitch • Live Migration • MPLS • Hyperscan

Roadmap and Product Features and timing are subject to change without notice

Linkage to OpenStack* platform awareness

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Agenda





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Intel® Open Network Platform (ONP) Reference Design 1.0 (Available Today)

SP App

OEM App

ISV App

Controller

HW

Intel Product 3rd Party

Intel Open Network Software (ONS 1.2)


Intel® FM 6700 Switch


3rd Party OS

An SDN Platform reducing TTM and driving economics of scale

Flexible software options

Intel® ONS Software enabling innovation, scalability,

manageability

Intel® Flexpipe™ technology efficiently processes packets

ToR Switch Reference Design 1.0

SW

HW

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Intel® Open Network Platform (ONP) Architecture

HW support enables high performance

Local or Remote Management Applications

SW

HW +

OSV/ISV Applications

Service Provider Apps or Scripts

OEM/NEM Applications

IA BSP & Boot Switch-Specific Adapters

WRS Linux*

Core Switch Abstraction

Management API Control & Data plane abstraction XML-RPC, CLI, SNMP interfaces

Switch system object model Linux programming model

Open and Scalable Software Architecture: • Control Plane and Data Plane separation • Open management ecosystem • Extensibility for add-on data or control plane apps

Switch Adapter API Switch hardware abstraction

Heterogeneous switch support Supports software and hardware data

planes

Core Switch API Data plane abstraction

Switch “port abstraction” model Functional interface for data plane

programming elements

Intel® FM6700 Switch

Control Plane Suite

IA = Intel® Architecture

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Intel® Open Network Software (ONS) Architecture

ONS Core Services

XML-RPC

CLI

Switch Adapter SimSwitch* Adapter Switch Adapter API

SimSwitch Silicon(s)

Open-vSwitch*

OpenFlow* 1.x

OVS-DB

L3

L2+

Object Model

L1

PORT, PHYs VLAN

Switch Physical API SimSwitch Control API

SNMP

Object Model Object Model Object Model

RPC RPC

Platform services

Object Model

Custom App

Pluggable app

Object Model

Management API

Core Switch API

External MGMT Applications

OSPF, Static Routing, ARP,

BGP…

s/w upgrade Management port h/w management

Performance monitor

LACP, QinQ, STP, LLDP, QoS, IGMP…

Database Services & Object Model

ONS is a foundational element for SDN

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Intel® Open Network Software (ONS) Feature Overview

SDN Features OpenFlow* 1.0, Application Development Kit (ADK)

Core WRLinux* 5, Uplink Failure Detection (UFD) ,ECC support

Management Features Local authentication, XML-RPC, SNMP, CLI, RADIUS/TACACS+ Authentication, Traceroute

L2 Features QinQ, VLANs, STP, RSTP, MSTP, LLDP, IGMP Snooping, QoS (with Diffserv), Flow Control, Storm control, LAG, LACP, Port Mirroring, BPDU Guard, Root Guard, DHCP Relay

L3 Features IPv4 Routing, IPv6 static unicast routing, Inter-VLAN Routing, OSPFv2, ECMP, BGP4, ARP, Route Destination

Platform Support for uServer and ToR switch

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Intel® Open Network Platform Switch Reference Design

Early Development Partners

First Production Platforms

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Agenda





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SDI - Broad Industry participation

Deploying solutions for Telecom and Data Center • Software Defined Networking (SDN) • Network Function Virtualization (NFV)

Intel® Software Defined Infrastructure Builders

Intel® Network Builders

Intel® Cloud Builders

Intel® Network Builders Program: Accelerating software defined infrastructure solutions (networkbuilders.intel.com)

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Service Chaining Demo – Via Intel Network Builders

10G Ingress Traffic

Security Gateway

Load Balancer IDS / IPS

WAN Optimiza

-tion

10G Egress Traffic

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ETSI - Industry Standard Proof Of Concept (POC)

Open Network Platform on Server – first generation use case

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Summary

• NFV and SDN technical and business requirements are developing dynamically

• Intel® Open Network Platforms for server and switch deliver time to market, continuous feature improvements and significant performance optimizations

• The Software Defined Infrastructure ecosystem is ready now on Intel® Architecture – Commercial software and hardware options available – Open Source software options available

Start innovating today

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Call to Action

• Request Intel® Open Network Platform from Network Builders hardware and software ecosystem – Optimizations for latest Intel® technologies

• Contribute to Open Source implementations – Open vSwitch*, OpenFlow, OpenDaylight*, OpenStack*

• Integration and benchmarking of virtual network functions leading to commercial deployments

• Use and recommend new ETSI* Proof of Concepts

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Additional Sources of Information PDF of this presentation is available from our Technical Session Catalog: www.intel.com/idfsessionsSZ. The URL is on top of Session Agenda Pages in Pocket Guide. • Demos in the showcase – Service Chaining Demo - Booth 134

• Additional info in the Network Builders community –

– www.networkbuilders.intel.com

• More web based info: – www.opennetworking.org – www.etsi.org – www.openvswitch.org – www.openstack.org – www.opendaylight.org

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*Other names and brands may be claimed as the property of others. Copyright ©2014 Intel Corporation.

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Risk Factors The above statements and any others in this document that refer to plans and expectations for the first quarter, the year and the future are forward-looking statements that involve a number of risks and uncertainties. Words such as “anticipates,” “expects,” “intends,” “plans,” “believes,” “seeks,” “estimates,” “may,” “will,” “should” and their variations identify forward-looking statements. Statements that refer to or are based on projections, uncertain events or assumptions also identify forward-looking statements. Many factors could affect Intel’s actual results, and variances from Intel’s current expectations regarding such factors could cause actual results to differ materially from those expressed in these forward-looking statements. Intel presently considers the following to be the important factors that could cause actual results to differ materially from the company’s expectations. Demand could be different from Intel's expectations due to factors including changes in business and economic conditions; customer acceptance of Intel’s and competitors’ products; supply constraints and other disruptions affecting customers; changes in customer order patterns including order cancellations; and changes in the level of inventory at customers. Uncertainty in global economic and financial conditions poses a risk that consumers and businesses may defer purchases in response to negative financial events, which could negatively affect product demand and other related matters. Intel operates in intensely competitive industries that are characterized by a high percentage of costs that are fixed or difficult to reduce in the short term and product demand that is highly variable and difficult to forecast. Revenue and the gross margin percentage are affected by the timing of Intel product introductions and the demand for and market acceptance of Intel's products; actions taken by Intel's competitors, including product offerings and introductions, marketing programs and pricing pressures and Intel’s response to such actions; and Intel’s ability to respond quickly to technological developments and to incorporate new features into its products. The gross margin percentage could vary significantly from expectations based on capacity utilization; variations in inventory valuation, including variations related to the timing of qualifying products for sale; changes in revenue levels; segment product mix; the timing and execution of the manufacturing ramp and associated costs; start-up costs; excess or obsolete inventory; changes in unit costs; defects or disruptions in the supply of materials or resources; product manufacturing quality/yields; and impairments of long-lived assets, including manufacturing, assembly/test and intangible assets. Intel's results could be affected by adverse economic, social, political and physical/infrastructure conditions in countries where Intel, its customers or its suppliers operate, including military conflict and other security risks, natural disasters, infrastructure disruptions, health concerns and fluctuations in currency exchange rates. Expenses, particularly certain marketing and compensation expenses, as well as restructuring and asset impairment charges, vary depending on the level of demand for Intel's products and the level of revenue and profits. Intel’s results could be affected by the timing of closing of acquisitions and divestitures. Intel's results could be affected by adverse effects associated with product defects and errata (deviations from published specifications), and by litigation or regulatory matters involving intellectual property, stockholder, consumer, antitrust, disclosure and other issues, such as the litigation and regulatory matters described in Intel's SEC reports. An unfavorable ruling could include monetary damages or an injunction prohibiting Intel from manufacturing or selling one or more products, precluding particular business practices, impacting Intel’s ability to design its products, or requiring other remedies such as compulsory licensing of intellectual property. A detailed discussion of these and other factors that could affect Intel’s results is included in Intel’s SEC filings, including the company’s most recent reports on Form 10-Q, Form 10-K and earnings release.

Rev. 1/16/14

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Backup

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Intel® Platform for Communications Infrastructure

• Launched in late 2013 • Industry standard servers

and blades • Intel® QuickAssist technology

for Crypto and Compression acceleration

• 16 Virtual Machines supported via SRIOV

• Intel® Data Plane Development Kit (Intel® DPDK) for packet acceleration

2 SATA 6 USB 2.0

PCI GPIO

Intel® Xeon™

E5-2600 v2

Intel Xeon

E5-2600 v2

QPI

Intel® Comms Chipset 8920

DMI PCI

QASAC 8920

PCI

2x10GbE 82599ES

SFP+

SFP+

4x GbE PHY

2x 10GbE 82599ES

SFP+

SFP+

PCI Express* (PCIe) Gen 3 Slots

Formerly Codename Crystal Forest

QPI = Intel® QuickPath Interconnect (Intel® QPI) QASAC = QuickAssist Services Acceleration Card

accelerate the sdn with intel onp

Technology

network virtualization

network abstractions

network functions

intel objectives

intel architecture ia

intel vivien yang

intel ye dong

fixed function network