Welcome to the 100G Services Era Kyle Hollasch Marketing Director Optical Networking 29 June 2016
Welcome to the 100G services era! Moore vs Shannon to the Rescue What s Next?
Welcome to the 100G services era! Moore vs Shannon to the Rescue What s Next?
Welcome to the 100G Services Era Is your network ready? Mobile Broadband IP Video IoT IP/MPLS Services 100G IP Backbone Transport Services 100G Content Provider Cloud Operator Large Enterprise 1.2X Growth 10G WAN-facing Client Ports 8X Growth 100G WANfacing Client Ports 100G>10G in 2018 Total WAN-facing Client Port Capacity Customers demanding 100G as the new service currency 4 Nokia 2015
Core router interconnect for IP backbones is dominated by 100G interfaces 10G is no longer an efficient UNI for core routers faceplate, large flows, LAG, etc 100G will be the dominant UNI to routers/switches for many years 1/3 of all 100G WDM interfaces are transponders and growing Does this scale? Source: Ovum Optical Networks Forecast: 2015 20 5 2016 Nokia
When the Cloud Moves Closer Transport services will feed and enable cloud IT adoption 1000 s km IP/MPLS Services Cloud Provider Private Build Metro Colo Private Build Enterprises 10 s km 6 Nokia 2015 100G Private Line Services 10G 100G Ethernet or Private Line Services
Transport Market Environment Optical Transport is again at an Inflection Point and beyond client 10/100 OC/STM GigE line 10G 10G 100G 100G Capacity Reach 2000-2010 2011-2015 2016 and beyond A decade of 10G Coherent Revolution 100G Services Era 7 Nokia 2015
Welcome to the 100G services era! Moore vs Shannon to the Rescue What s Next? 8 Nokia 2015
Transforming your network for a world of 100G services Tackling the scale problem across all layers of transport Transport Switching Efficient Wavelengths Scalable Switching Photonic Services Better Wavelengths Advanced Electro-Optics Photonic Transport More Wavelengths Ultra-wideband 9 Nokia 2015
Better Wavelengths What do network operators value and how do we get there? Spectral Efficiency Unregenerated Reach Power and Density Rate Flexibility Granularity 10 Nokia 2015
Silicon Evolution still driven by Moore s Law 65 nm 40 nm 28 nm 16 nm Gate Size Gate Power Gate Speed 28 nm 11 Nokia 2015
Coherent DSP Evolution CMOS node advancements will continue to drive DSP innovation Higher Modulations Higher Baud Rates More Integration More Modulations More Baud Rates Lower Power 12 Nokia 2015
CMOS node advancements drive DSP innovation 7 modes 5 mods, 2 bauds More Integration 3 modes 3 mods, 1 baud 1 mode 1 mod, 1 baud 1 Mode 1 mod, 1 baud Lower Power 65 nm 40 nm 28 nm 13 Nokia 2015
HIgher Performance, More Flexibility It s the combinations that matter Modulation Baud Rate 14 Nokia 2015
First Generation Coherent 15 Nokia 2015
Direct Detect 16 2016 Nokia
First Generation Coherent 17 2016 Nokia
First Generation Programmable DSP 18 2016 Nokia <Change information classification in footer>
State-of-the-Art Programmable Coherent DSP 19 2016 Nokia
The Coherent Drivetrain Multiple, unique combinations of baud rate and modulation BPSK QPSK 35 GBaud 8QAM 45 GBaud 16 QAM 64 QAM 20 2016 Nokia
Capacity Nokia Photonic Service Engine 2 Super Coherent Technology Maximize capacity per link 64QA M 400G 16QA M 250G 16QA M 8QAM QPSK 100G Minimize cost/bit/km SP-QPSK 100G BPSK 50G 21 Nokia 2015 Reach
What can we do with higher baud rate and new modulations? Unique applications that change the way networks are built Single Carrier 400G Ultra Long Haul 100G > 5000 km 2-Carrier 500G Superchannel Long Haul 8QAM 2000 km 22 Nokia 2015 16QAM 1000 km
Welcome to the 100G services era! Moore vs Shannon to the Rescue What s Next? 23 Nokia 2015
What s the Impact of 8QAM? Increases applicability by 2-3X % Viable Routes 100 90 80 70 60 50 40 30 20 10 0 16QAM 31% 9% 8QAM EDFA 63% 16% 8QAM Hybrid 75% 0 500 1000 1500 2000 2500 3000 Wavelength Distance 21% 25 Nokia 2015
What about Regeneration? can still be preferable to 100G 100G Waves Waves 100G OT 100G OT 100G OT 100G OT OT OT OT OT Capacity Discreet Channels 4 Interfaces 100GHz Spectrum 4 Interfaces 62.5GHz Spectrum 400G Capacity Superchannel 8 Interfaces 150GHz Spectrum 8 Interfaces 100GHz Spectrum 26 Nokia 2015
Making Long Haul a Reality 8QAM - the most economical choice for scaling LH transport % Viable Routes 100 90 80 70 60 50 40 NA SP EMEA SP 84% 40% 100% 92% 8QAM EDFA 100% 99% 8QAM Hybrid 30 20 10 16QAM 2 nd Gen 0 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 Wavelength Distance (km) 27 2016 Nokia
Welcome to the 100G services era! Moore vs Shannon to the Rescue What s Next? 29 Nokia 2015
What s Next? A flexible, software controlled, drive train 33 Speeds Electronic Shifting Electric Assist GPS Navigation More baud rates Higher baud rates More modulation formats SDN Control 31 Nokia 2015