Copyright 2013 Alcatel-Lucent. All rights reserved. CONFIDENTIAL - SOLELY FOR AUTHORIZED PERSONS HAVING A NEED TO KNOW
PROPRIETARY – USE PURSUANT TO COMPANY INSTRUCTION Nuage Networks
Nuage Networks Overview
Charles Ferland Vice President of Business Development [email protected]
September, 2015
Nuage Networks Overview
Nuage is based in Silicon Valley with a team around the world
An Alcatel-Lucent venture focused on data center and branch office network evolution
for the cloud era
Leverage Alcatel-Lucent infrastructure and key technologies
Creation of an Abstraction & Automation layer between networking features and
hardware equipment
Policy-driven networking design reflecting business directives, not network protocols
Nuage Networks Momentum
Solid wins with marquee accounts
100+ pilot deployments
25+ commercial wins
Across large enterprises, cloud providers & service providers
Major wins across all regions, to name a few:
Numergy EvoNet CTCC SKCC CMCC
BBVA Santander Bloomberg UPMC
My Republic Singtel Telus
PHYSICAL & MANUAL DISTRIBUTED & AUTOMATED
DYNAMIC MULTI-TENANT
VIRTUAL WORKLOADS API
NO-MOBILITY SINGLE TENANT
BARE METAL WORKLOADS MANUAL
The Cloud Shift
STATIC NETWORKS HIGHLY AUTOMATED NETWORKS
AUTOMATION ABSTRACTION
CONTROL VISIBILITY
✓
✓ ✓
✓ The SDN Framework For Highly Automated
Networks
CUSTOM COMPLEX
COSTLY CLOSED
Focus on “Needs”, automate the “Means”
The Networking Shift
Network Policy • IP address 10.x.y.z • VLAN configuration • WAN configuration • Security / FW settings • QoS parameters • …
Workloads
Appropriate network properties propagated to the workload, regardless of physical location on infrastructure
Physical: Snail mail delivered to the same physical address, regardless of Tina’s location
Virtualized: Email delivered to Tina’s location, regardless of her mailing address
Network Virtualization ABSTRACTION
Nuage versus Traditional Networking
When workloads are deployed, physical network
infrastructure needs to be provisioned
Time consuming, error prone, equipment specific, etc.
Introducing vSwitch removes the need to configure the
physical equipment – we then only use it for transport
Network overlays are dynamically created using VxLAN
“tunnels” according to the Network policies of each
workload
Core
Aggregation
ToR
vSwitch
Servers
Network Overlay
VxL
AN
ABSTRACTION
Switch
Switch
Switch
Switch
Virtual Network
Switch
Switch
VM
Nuage VRS
VM VM
Nuage VRS
VM VM VM
Overlay
Underlay
VM VM
VFirewall
Nuage versus Traditional Networking ABSTRACTION
SDN Controller
Current Data Center Network
Compute is virtualized
Available in minutes
Network is partially virtualized
Configuration takes days/weeks
Network Configuration
Compute Management
Application Orchestration
Help Desk Change Control
IP Address
VLAN Address
Firewall Configuration
LAN (VLAN) Configuration
WAN (IP) Configuration
Security / QA Team
Project Coordinator
Network change completed in days/weeks
Service velocity is hindered by manual network process
Auto-instantiation
Compute request completed in
minutes
00:01
AUTOMATION
Nuage Networks Policy Templates
Application Orchestration
Service velocity is not hindered by manual network process
Compute Management
Networking
Security/ Compliance
Policy Templates
Nuage Networks VSP
Auto-instantiation
Compute request completed in minutes
IP address
WAN interconnect
Policy / Security Zones
L2 /L3 Service AD
Service chaining
Policy Instantiation • IP address 10.x.y.z • VLAN configuration • WAN configuration • Security / FW settings • QoS parameters • …
Network change completed automatically
00:01
00:01
AUTOMATION
Micro-Segmentation Prevents Lateral Movement of Malware
VLAN / Subnet
Ap
p 1
Ap
p 2
DB
2
Web
1
Web
2
DB
1
Micro-segmentation within a broadcast domain
Micro-Segmentation contains security breaches to smaller set of servers / fault domains
CONTROL
Bare Metal Servers
Gateway
Server
Server
VM VM
ESXi Server
L2
Virtual Network A
Virtual Network B
L2
L2
Virtual Network C
Nuage Networks Supports All Workloads CONTROL
Linux Server
Containers V
M VM Container
s
Any Network
Public Datacenter
Branch
Branch Branc
h
SD_WAN DataCenter Interconect
From Network Service Topology to…
IGP Mapping to…
Physical Topology
Need for Multi-Layer Correlation VISIBILITY
VSAP is about underlay & overlay correlation
Branch Offices Headquarters
IP Network
Hypervisor
Hypervisor
Hypervisor
DC 1 Rack 1 Hypervisor
Hypervisor
Hypervisor
DC 1 Rack 2
ToR
Hypervisor
Hypervisor
Hypervisor
DC 2 Rack 1
DC Core
X
VISIBILITY
MONITOR
physical topology CORRELATE physical & virtual topology
Virtualized Services Controller (VSC)
Graphical view of alarms and faults in the network
Alarm correlation for root cause analysis
Remedial action for expediting problem resolution
Upstream router port failure
VSAP Fault Correlation VISIBILITY
Major Trends Underway
-> Build programmable & automated IaaS/PaaS for all workloads -> Provide IaaS and Secure VPC Services -> Sovereign Clouds -> Differentiate from AWS
-> Centralized Apps & hyper-distributed users require RETHINK of branch network connectivity & services -> Provide self-managed, low cost VPN services -> Upsell network services
-> Automated, Agile cloud to connect virtualized Network Functions -> CPU intensive Network Functions are ideal candidates as VNFs -> Leverage webscale architectures and BigData tools for Analytics
PRIVATE & PUBLIC CLOUDS NFV CLOUDS BRANCH CONNECTIVITY
Business Agility -> Massive Automation + Highly Simplified Operations
BGP
MPLS Internet Mobile
Fast, simple core Multi-service edge
Multi-domain support
Massive network scale
Policy-driven, on-demand connectivity
Massive user scale
Applying Principles of Proven Architectures
Remote Office
Wide Area Network
Remote Office BRANCH
Private/WAN Cloud Architecture
Cloud Service MANAGEMENT Plane
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
Datacenter CONTROL Plane
Datacenter DATA Plane
Datacenter CONTROL Plane
Data Center - 1
WAN Router
WAN Router
Network Control Plane
Network Control Plane
Network Policy Engine
BGP
Enterprise PRIVATE CLOUD
Overlay Learning's
Internet Learning's
Mobile Policy Learning's
Industry analyst firms are forecasting continued strong growth of cloud spending by enterprise IT
In particular, enterprise IT
are now focused on
adopting hybrid cloud
functionalities, and the
uptake is forecast to
dramatically increase
IDC predictions include:
‘The global cloud market, including private, public and hybrid clouds, will hit $118
billion in 2015’ ‘More than 65% of enterprise IT organizations will commit to hybrid cloud technologies
before 2016’ ‘Hybrid cloud architectures are expected to dominate most enterprise customer
priorities…’
The Future of Enterprise IT Open Hybrid Clouds
Ultimately, a hybrid cloud is about connecting IT workloads together to support the enterprise business requirements
These IT workloads historically were located on-premise, but increasingly are in the public cloud
Hybrid cloud is an infrastructure that connects an enterprise on-premise infrastructure with the public cloud
What Are Hybrid Clouds?
Based on survey data from TBR, there are some key reasons for enterprises to adopt hybrid clouds
With the spread of workloads to multiple clouds, there is the need to connect these together to support the business
This includes compute as well as storage
resources
This also extends to dynamic requirements
such as bursting, DR and failover
What is Driving Hybrid Cloud?
Remote Office
Wide Area Network
Remote Office BRANCH
Private/Public Cloud Architecture
Cloud Service MANAGEMENT Plane
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
Datacenter CONTROL Plane
Datacenter DATA Plane
Datacenter CONTROL Plane
WAN CONTROL Plane
Data Center - 1
WAN Router
WAN Router
Network Control Plane
Network Control Plane
Network Policy Engine
BGP BGP
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
Datacenter CONTROL Plane
Data Center - 3
WAN Router
Network Control Plane
BGP
Enterprise PRIVATE CLOUD PUBLIC CLOUD
Overlay Learning's
Internet Learning's
Mobile Policy Learning's
Hybrid cloud enablement
Building networks between multiple physical locations and cloud environments
Ensuring connectivity between
business application workloads
Fully certified integrated solution
Virtualized Services Platform
for networking
RHEL OSP, RHEV, CloudForms
and JBoss Fuse for workload
management
Data Center
WAN
Private Cloud
Public Cloud
Public cloud environments
WAN
Enterprise-located compute environment
Hybrid clouds built with Nuage and Red Hat
Hypervisor
Hypervisor
Hypervisor
BBVA Data Center
Virtualized Services Controller
Virtualized Services Controller
BBVA – Hybrid Cloud Model
BBVA uses Nuage in its own DataCenter
BBVA developed an architecture that will allow them to securely move workloads to public cloud provider
Nuage provide a common Networking profile regardless of the physical location and networking equipment used
For governance purposes, Nuage offer a single/centralized tracking infrastructure
Hypervisor
Hypervisor
Hypervisor
Amazon AWS
Virtualized Services Controller
Hypervisor
Hypervisor
Hypervisor
Google GCS Reference
Actual Business Results – Large Bank Case Study
50% Reduction in Operational Expense
10x Improvement in turn-up response time, Reduction in configuration errors
40% Increase in asset utilization & flexibility
Source: Alcatel-Lucent Analysis, customer survey feedback 2013-2014
Source: Internet - Ana Botin’s speech at the VII International Banking Conference – Banco Santander - 10.22.2014
Source: Internet - http://www.fool.co.uk/
Source: Internet - http://www.fool.co.uk/
Santander’s Digital Transformation
Cloud infrastructure is the catalyst towards a
DevOps & Agile operating model allowing a faster
time to market
Santander: Building a Global Cloud
Faster time to market
Elasticity
New Cloud Applications
I+D
Cost efficiency
Nuage Networks VSP for networking
Connecting to Neutron plug-in
Example presented by Produban, the IT division of Banco Santander (June 2015)
Red Hat Enterprise Linux OpenStack Platform
Advanced capabilities only available with Nuage Networks Fully distributed data-plane
VRS performs all routing and switching functions in the compute node preventing choke points and providing consistent performance
Strong & Fast distributed security policies
Scalable control plane regardless of the location (based on BGP)
Seamless integration of non-virtualized assets in Overlays
Allow multiple Cloud Management Systems to coexist with others
Unique optimization of routing information across any networks
Neutron Networking with Nuage VSP
Nuage VSC
…
Servers as VMs in AWS VPC
Nuage VSD 40 servers 80 subnets / 40 routers 20K docker containers (500 / server) 140K ACLs (7 ACLs per VM) Completion Time: 8 minutes 42 containers / second
With most containers being used for less-than 1-hour,
speed of turn-up is critical!* Proves the scalability and automation available with
the Nuage Networks VSP solution!
Configuration
VSD running as C3.4xlarge (16-core)
VSC running as C3.2xlarge ( 8 core)
VRS running as M3.xlarge
* Source: New Relic, ‘The Truth About Docker Container Lifecycles, August 2015
Nuage Networks Container Scalability Demonstration
Cloud Service Management Plane
Data Center Control Plane
Data Center Data Plane
Virtual Routing & Switching
Virtualized Services Directory
Virtualized Services Controller
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
HYPERVISOR
Virtualized Services Directory (VSD) • Network Policy Engine – abstracts complexity • Service templates and analytics
Virtualized Services Controller (VSC) • SDN Controller, programs the network • Rich routing feature set
Virtual Routing & Switching (VRS) • Distributed switch / router – L2-4 rules • Integration of bare metal assets
Nuage Networks Virtualized Services Platform (VSP)
IP Fabric
Bare Metal Servers
Nuage Networks Virtualized Services Platform
MP-BGP
NSG
Integrated solution combining VSP and RHEL OSP
Management Plane
Control Plane
Data Plane VRS
VSD
VSC
HYPERVISOR
HYPERVISOR
HYPERVISOR
Datacenter - Zone 1
Virtualized Services Directory (VSD)
Virtualized Services Controller (VSC)
Virtual Routing & Switching (VRS)
Nuage Networks Virtualized Services Platform (VSP)
IP Fabric
ReST APIs
HYPERVISOR
HYPERVISOR
HYPERVISOR
Certified with RHEL OSP-X
Nuage Networks & Red Hat Overview
Nuage Networks VSP and Red Hat RHEL OSP
Resources
EcoSystem
Methodology
Integrated Professional Services
Value
Time
An SDN Journey … Delivering Value Over the Network
Nuage Networks Virtualized Service Platform (VSP)
Hypervisor
Hypervisor
Hypervisor
• 40% increase in asset utilization
• 50% OPEX reduction • 10x improvement in service
time • Build “modern networks”
on top of existing infrastructure
• Extend life of Net HW and increase utilization
• Break dependency between features and HW supplier
Data center
Any Network
Public Datacenter
Branch
Branch Branc
h
• Reuse existing network infrastructure
• COTS hardware CPE • Advanced features in SW versus
bound to HW • Central/common policy engine
reflecting business values vs net capabilities
• Automated bootup process
SD_WAN DC Interconnect
• Increase resiliency • Enable hybrid/public cloud • “Follow the sun” apps
support where you move workloads where/when needed
• Allow workloads to move from one data center to another
• Keep the same net profile/security regardless of the location
VM VM
VM
Virtual Net
Existing Network
In Conclusion
Integrated & certified joined solutions with Red Hat
Enabling Private/Public/Hybrid Clouds:
Enhance Security
Seamless Mobility
More performing Networking
Reduce OPEX, Faster deployment & optimized CAPEX
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