TOWARDS AUTONOMOUS PACKET-OPTICAL...

TOWARDS AUTONOMOUS PACKET-OPTICAL

NETWORKS Jonathan Homa

ECI Telecom

Jan Radil

CESNET

2 ECI Proprietary 2

Make a virtue

of necessity

Necessity is the

mother of invention

NECESSITY: OVERCOME PHYSICAL LIMITATIONS

ON FIBER OPTIC BANDWIDTH

GROWTH

3 ECI Proprietary 3

● Now operating at the Shannon Limit

● Transmission needs to choose:

● Faster and shorter

● Longer and slower

● Forces new approaches to

increase capacity Distance

Capacity

(speed)

Shannon

Limit

Prior to reaching the Shannon limit

optical transmission could be

optimized to go faster and further

Pre -

Shannon

Limit

INVENTION: REAL TIME MULTI LAYER

OPTIMIZATION

4 ECI Proprietary 4

● Advanced algorithms

+ ● Real time control

+ ● Agile packet-optical

transport technologies

Flexible

Spectrum

Adaptive

Rate TX

OTN

Switching

CDC-F

ROADMs

Flexible

Ethernet

Packet

Switching

Elastic (agile)

packet-optical

network

ODUflex

• Real-time E2E control

• Optimized algorithms

• Open source & interfaces

Real-time

OSNR L0-L1

L1-L2

L2-L3

ECI Proprietary 5

AGILE PACKET-OPTICAL TRANSPORT TECHNOLOGIES

Technology Optimize Fiber

Capacity

Create Complex

Services

L2-L3 Packet Switching Statistical multiplexing Policy management

L1-L2

Flex Ethernet Match bandwidth of Ethernet

client and network interfaces Ethernet client choice

OTN w/ ODUflex

OTN Switching Maximize fill (grooming)

Bandwidth on Demand

Dynamic service restoration L0-L1

CDC ROADMs Multivariate optimization:

• signal (coding)

• channel (filter width)

• optical path

Flexible Spectrum

Agile Transceivers

Real time OSNR

VIRTUE: COMPLEX MULTI-TIER

BANDWIDTH SERVICES

6 ECI Proprietary 6

● Creates user choice

● Maximizes revenues

● Relies on resource

sharing

● User experience

similar to ordering

cloud services 1

2

3 5

7

10

Gbps

Service Envelope

Selector

Committed

Information

Rate

Excess

Information

Rate

Speed Selector

1.75

1.25

Gbps

Immediate

1 Minute

CIR Protection

1.00

0.25

Gbps

1 Hour 0.50

Port 1 Port 2

Ports Selector

5 Madison Ave, NY, NY, 3rd floor 125 Morris Ave, Hoboken, NJ

Estimated Turn-up

Time 3.0 hours

Cost $175 /day

Outputs after playing with selector controls

Madrid to Moscow 4177

London to Berlin 1100

Naples to Milan 775

Adaptive performance

Software selectable clients

Flex grid

Low power

2U solution

400G 2 x 200G

DP-16QAM

200G 2 x 100G DP-QPSK

7 7

BUILDING BLOCK – ADAPTIVE RATE 400G

ECI Proprietary

8

Over to

CESNET INTRODUCTION

The e-infrastructure provider in the

Czech Republic for research,

education, and science since 1996

24 public and 2 state universities,

54 Academy of Sciences research

institutes

Advanced DWDM optical and

IP/MPLS infrastructure connected to

GÉANT and GLIF

6400 Km of fibres (100G DWDM)

Cross border fibres connecting

Austria, Slovakia, Poland

SUPPORTS A BROAD SET OF APPLICATIONS

Speed-Capacity

(less sensitive to jitter or latency)

Stability

(low jitter,

low latency)

HIGH STABILITY

High speeds cannot solve all challenges.

New applications like Accurate Time Transfer

or Ultra Stable Frequency Transfer are here

CESNET service to connect and compare

atomic clocks in Praha and Wien

CESNET service to monitor stability of

containment of a reactor pressure vessel in the

Temelín nuclear power plant

Remote control of instruments like telescopes

Essentially Alien wavelengths

Low and stable jitter and latency are the key

SPEED + LOW LATENCY

Example: Real time music collaboration

Miami Brno Brno – Miami

ACHIEVING HIGHER speeds

Demonstrated interoperability between

ECI Apollo with 400G flex-grid blade and

Czech Light® open DWDM system:

2000 km

DP-16QAM 200 Gb/s signals

for 20 years of CESNET

High bit rate traffic easily transported as

Alien Wavelengths over the CESNET

production network.

Verified coherent and legacy amplitude-

modulated signals in mixed networking

environments.

CESNET-ECI DEMO AT TNC PRAGUE 2016

400G demo

New and traditional

applications working

seamlessly in a single fiber

Accurate time

Stable frequency

High definition video

15

Back to

ECI 200G FLEX GRID

PERFORMANCE

ECI Proprietary 16

● Tested by Telecom Italia

● 4 x 37.5GHz super-channel for

effective 800G!

● 8 flex grid WSS cascade

● Results

● Strong system performance

(OSNR, Flex-grid cascading)

● Easy configuration & control

200G

200G

200G

200G

800G flex grid super-channel

17 ECI Proprietary 17

RECAP: ITS ALL ABOUT

MULTILAYER

OPTIMIZATION

● Capex savings up to 25%

versus “layer at a time”

approach

● Basis for complex services

18 ECI Proprietary 18

ALGORITHMS MATTER

● Multiple optimizations

● Lowest first cost

● Survivability

● Multivariate

● Within each layer

● Between layers

● Algorithms are a

source of value

19 ECI Proprietary 19

ULTIMATE GOAL –

AUTONOMOUS

NETWORKS

● Self organizing (like SON

mobile networks)

● Service aware

● Peak efficiency

● Highest levels of Capex

and Opex savings

Need more raw

capacity in sector 9.

Issue PO.

400G blade

en route!

ECI Proprietary 20

A NEW PARADIGM

Classic SDN

Decision making Human

Analytics Reports

Algorithms Recommend action

Dynamic restoration Predetermined or Best Effort

Multitier bandwidth services Initial stages

Incremental revenues $

Capex/Opex savings $

Autonomous Networks

Machine

Feed algorithms

Take action

Fluid

Central concept

$$

$$

Tig

htly C

ouple

d

ECI Proprietary 21

STAYING AHEAD OF THE CURVE

Classic

SDN

Autonomous

Packet-Optical

Networks

Time

Benefits

TODAY

Multilayer

optimization of

agile packet-

optical

technologies

TOMORROW

Jump S-Curves

and remove the

driver from the

car to maximize

responsiveness

and savings

THANK YOU.