1 | © 2016 Infinera

Building the Future-Proof, End to End Intelligent Transport Network

Geoff Bennett: Director, Solutions and Technology

2 | © 2016 Infinera

EE UK Network Traffic • Highest ever traffic spike • 50% higher overall load than previous max

BBC Sport Website Visits • 2.3M online viewers (Eng-Wales – X2) • Sports page view up from 10.2M to 11.8M

Bandwidth Demand Grows Exponentially

Source: Gartner, Ericsson, IBM

• IoT growth 3x, 21B devices

• Mobile video use 13x

• 70% business cloud-enabled

By 2020

Redigo spes post

MCMLXVI

Euro 2016

Source: Computer Weekly

3 | © 2016 Infinera

Layer C: Cloud Services

Layer T: Intelligent Transport

The Emergence of a Simplified Network Model

Scale

Virtualization

Old Model

Firewall SBC

B-RAS MPLS PE

Packet

OTN

WDM

New Model

L0 – L3

L3 – L7

SDN

4 | © 2016 Infinera

The Intelligent Transport Network

Metro • Strong application focus • High density, low power • Packet Optical feature set

Long Haul/Subsea • Application-agnostic • Operational scale and capacity • “Time as a Weapon”

100G Metro Core

• Flexible architecture • Enable E2E integration

SDN Orchestration

Mobile

Residential

Enterprise

5 | © 2016 Infinera

Metro:

Mobile

Residential

Enterprise

Match application requirements to solution capabilities

• Power

• Density

• Synchronization

• Router offload features

Fully integrated Packet Optical

SDN Managed

6 | © 2016 Infinera

100G Metro Core

Mobile

Residential

Enterprise

Critical part of metro network for architectural decisions

DWDM layer interop

End to end management

Packet OTN

7 | © 2016 Infinera

Data Center Interconnect

Mobile

Residential

Enterprise

A “special case”

• Special case of Metro

• Special case of Long Haul

Point to point, high capacity connectivity…

• Lowest cost per bit

• Low power and high density

• Operational simplicity

8 | © 2016 Infinera

Long Haul/Subsea

Mobile

Residential

Enterprise

Key Requirements:

• Capacity

• Reach

• Operational Scale

Overlay on this a general need to be more responsive to unforeseen network demands

Time as a Weapon

9 | © 2016 Infinera

First Generation Super-Channels

F Super-Channel

Fiber capacity

• Coherent

Operational scale

• Single line card

Pay as you grow

• Instant Bandwidth™

Capacity sharing

• Integrated OTN switching

G

Capacity of the super-channel sent between same two end points

10 | © 2016 Infinera

How Have Transponders Evolved?

F Wavelength

32GBaud “sweet spot” Ultra Long Haul (3,000km) • 100G, PM-QPSK

Long Haul (1,800km) • 150G, PM-8QAM

Regional (1,200km) • 200G, PM-16QAM

Short Haul (120km) • 400G, PM-64QAM

Capacity sharing • Integrated OTN switching

G

Capacity of the transponder sent between

same two end points

11 | © 2016 Infinera

Need a Quantum Leap in Optical Transport

Infinera Infinite Capacity Engine

Bigger Multi-terabit super-channels,

up to 12x bigger

Multi-terabit wire-rate L1 encryption

Smaller One of world’s smallest multi-terabit

subsystem

Lower power: 82%↓ vs. competition

Better Sliceable photonics, 53% lower TCO

Advanced coherent, 40-60% improved capacity-reach performance

12 | © 2016 Infinera

Sliceable Photonics, Time-Based Instant Bandwidth

F

A

B

C

D E

Multi-terabit Super-channel Activate Inst. BW (1.5T)

Slice, Route, Modulate

Pre-Deploy (up to 2.4T)

Use Time-Based Inst. BW Subsea

100G

SDN

Plan

13 | © 2016 Infinera

53% Lower TCO With Sliceable Photonics

Standard US Collector Network

Client: 10G heavy, 100G later

Traffic Growth: 3 Time Periods

Mix of QPSK & 16QAM

Mix of Switched & Muxponder

Comparable designs for Infinera and nearest competitor

0

50

100

150

200

250

300

350

400

450

500

Modules Power Space TCO

Transponders INFN

340% more

53% lower N

orm

aliz

ed

56% more 37%

more

113% more

14 | © 2016 Infinera

Transponder Capacity vs Super-Channel Capacity

Transponders 200G/400G Metro

More Capacity

Incr

ease

d R

each

Infinera 500G Super-channel Long-haul

Infinera Infinite Capacity Engine Up to 2.4T Super-channel Up to 26.4T / fiber BPSK, ME-PSK, QPSK, 8QAM, 16QAM Up to 12000km

15 | © 2016 Infinera

Multi-Terabit Wire-Rate L1 Encryption

In-flight integrated encryption

Bulk and per service

Strong AES-256 bit key encryption

Hitless key rotation

521-bit Elliptical Curve DH key exchange

Ultra low latency

100% payload throughput

Protocol agnostic

16 | © 2016 Infinera

Visit The Infinera Express

• Book a truck visit at our booth in the exhibition area

• Other Infinera participation

Wednesday, 17.10

• Sten Nordell “Software Defined DCs”

Thursday, 15.00

• Moran Roth: “ROADMs, Flexgrid and Super-Channels”

17 | © 2016 Infinera

Thank You

Geoff Bennett gbennett@infinera.com www.infinera.com