Reducing the Cost of Optical Networks

1. Reducing the Cost of Optical Networks Rob Adams, VP Product Marketing/Product Line Management

2. Who is Ekinops Private company, founded in 2003 Headquarters in Lannion, France Pre-Sales & Post-Sales: Europe, US, APAC Innovative vendor of Layer 1 optical aggregation & transport equipment for University, Enterprise, and Service Provider Networks Dynamic Optical Transport Solutions Patents Held In Optical Aggregation and Transport

3. Who is Ekinops?

4. Where does Ekinops sit in the Network? One of the few Dynamic Multi-Reach platform that spans all transport domains Ekinops has 40 and 80 channel options today Up to 2000Km reach with 300Km in a single hop! 160 Channels coming in November 320 Channels available next year. For Service Providers/MSOs, Enterprises, Government, And Universities Dynamic Multi-Reach Optical Transport Platform for Metro, Regional & Long-Haul networks Transport Aggregation Conversion Ethernet FE/GE/10GE/40GE 2,5G / 10G / 40G λs Aggregation Conversion Ethernet FE/GE/10GE/40GE Aggregation 2,5G / 10G / 40G λs Conversion Transport Ethernet : FE/GE/10GE/40GE SDH : STM1/4/16/64 Aggregation FC/GFC HD/SD-SDI Aggregation

5. Tried and TrueDeployed Globally

6. Market DynamicsWhy is the market ripe for reducing your transport costs? • Cost of optical components has come down dramatically • Improvements in capabilities of optical components • Cost of programmable technology has come down dramatically • Improvements in power consumption of optical and electrical components • Scalability options introduced for certain components • Capabilities that used to be spread across multiple pieces of equipment are now offered by a single piece of equipment • System designs focused on scaling costs incrementally

7. Reducing Network Cost Where should you look to optimize transport network costs? • Reduce your cost of infrastructure • Reduce your Capital Costs • Reduce ongoing costs

8. Scale back, Then Scale Up

9. Reducing the cost of InfrastructureSingle fiber capabilities • Carry up to 32 bi-directional waves over 1 fiber today! Advantages of EKINOPS solution • Optimization of the number of fibers • Reduction of 50% of the fiber OPEX • 32 Bi-Directional 10G Services today • 64 Bi-Directional 10G Services todaywith 40G Muxponder • 128 Bi-Directional 10G services commingnextyear. DWDM network Over a pair of fiber EKINOPS EKINOPS DWDM network Over a single fiber Chassis with an Optical Combiner module Chassis with an Optical Combiner module

10. Reducing the Cost of InfrastructureLonger Distance, Fewer Amplifiers • Combination of better FEC and amplifier technologies help transport systems go further cheaper • FEC transitioning from 6-8dB to 10dB or more today Advanced FEC combined with newer Amplifier technologies • Longer distances withoutInlineAmplifiers • FewerAmplifierswhenamplifiers are needed • Longer Distances over poorfiber Up to 300Km with Full Channel Counts 500km - 600km with Full Channel Counts Also reduces ongoing costs Page 10

11. Reducing the Cost of Infrastructure Using Fewer Wavelengths The Old Way • Cost Effective Multiplexing of any mix of service types over a single wavelength or standard service Ethernet SONET/SDH Another Alternative HD-Video Newer Technologies Each Port Programmed to different protocols, different rates

12. Reducing the Cost of Infrastructure Using Fewer Wavelengths • Typical Point to Point Transport Solution • Ethernet Layer 1 ADM Solution Inconvenients of the solution Less Equipment, Better Utilization of your infrastructure Less Equipment = Lower Ongoing Costs (Power) Can be implemented over a wavelength or leased service

13. Reducing the Cost of Infrastructure Using Fewer Wavelengths • Typical Point to Point Transport Solution • Multi-Protocol ADM Less Equipment, Better Utilization of your infrastructure Less Equipment = Lower Ongoing Costs (Power) Can be implemented over a wavelength or leased service

14. Pulling it all TogetherReducing the Cost of Infrastructure • Multi-Protocol ADM allows for Daisy Chaining of Sites to Provide an ADM Capability and Reduce Waves • Combine that with 1 Fiber Capability to Reduce Fibers in fiber constrained or leased environments • Eliminate Amplifier and Regeneration Sites 3 2 4 1 Typical Point to Point Ethernet Transport

15. Serving Multiple Applications more Efficiently Router ATM/IP DSLAM MPLS Core 2G, 3G, 4G Wireless (TDM/ATM/Ethernet) TDM Core Private Line (TDM, Ethernet) G.PON, FTTC More efficiently aggregate traffic from multiple applications using the multi-rate, multi-protocol ADM And don't forget that you can do this on 1 fiber with fewer amplifiers

16. Reducing Capital Costs Programmable Technology Reduced Complexity, Cost, Footprint, and Power Benefits Client Card Electronics Composite Services Over Fiber • Fast • Time to Market (Manufacturing) • Flexible • Programmable Technology • Cost Effective • Low Power, Small Footprint, Fewer Electronics Before Composite Services Over Fiber Any Protocol Per Port Ideal

17. Ekinops T-Chip

18. Introducing the ChameleonTaking the T-Chip to the next Level • A Single Hardware Platform that adapts to all applications regardless of the protocol or rate • Software and Hardware are cost optimized for specific applications • Use of a single hardware platform provides quick time to market for new features and ease of manufacturing • Field Upgradeability

19. The Flexibility of the T-ChipBringing Cost Effective Solutions to you Quickly • What Client Protocols Does the Application Require? • You want Flexible Muxing, FEC, and a Gateway Capability?… OK • 10GigE on the Line Side…. We have that covered! • A Real Example Created in 4 Months!... Ekinops’ HD-SDI Video Solution! • The Value is in the FIRMware!.... Your Application Optimized for Cost, Delivered Quickly • Client Protocols: • Ethernet • SONET/SDH • Fiber Channel • ESCON • Video (HD-SDI, SD-SDI, ASI) • Future • T-Chip Capabilities: • Flexible Multiplexing • Generic Gateway • Forward Error Correction • Add-Drop • Future • Line • Protocols: • SONET/SDH • OTN • Ethernet • Proprietary • 2.5Gig • 10 Gig • 40 Gig • Future • Client Protocols: • Ethernet • Video (HD-SDI, SD-SDI, ASI) • T-Chip Capabilities: • Flexible Multiplexing • Generic Gateway • Forward Error Correction • Line • Protocols: • Ethernet • 10 Gig Cost Optimize the Hardware Package Size!

20. Reducing Capital CostsScalable Amplifier Solutions • Scalability of transport systems isn't only about adding transonders In Service Upgrade Of Amplifier As You Grow Transponder Transponder Transponder Transponder Transponder Transponder Transponder Transponder Transponder Transponder Transponder Transponder Transponder Management Upgrade Upgrade Amplifier

21. Reducing Capital CostsScalable ROADM Solution Inside a Typical 8 Degree Node 8Deg WSS 8Deg WSS 8Deg WSS 8Deg WSS 8Deg WSS 8Deg WSS 8Deg WSS 8Deg WSS 8 Degree Node

22. Reducing Capital CostsScalable ROADM Solution 8 Deg WSS 2 Deg WSS 2 Deg WSS North Channels West Channels East Channels 2 Deg WSS 2 Deg WSS 8 Deg WSS 2 Deg WSS 2 Deg WSS 8 Deg WSS 2 Deg WSS 2 Deg WSS 8 Deg WSS Local Add/Drop Local Add/Drop Local Add/Drop Local Add/Drop South Channels

23. Reducing Capital CostsScalable ROADM Solution Using 2 Degree ROADM Components Using 4 Degree ROADM Components Using 8 Degree ROADM Components Page 23

24. Reducing Capital CostsLower Cost 40G Options DWDM Network 10G The issue with past 40G solutions 40G 40G 10G This is what you really want 10G/40G Then of course there is cost…. Expensive transponders and collateral equipment Alternative 40G solutions with 10G Performance

25. An Alternative to the Popular Techniques Lower Cost 40G Options And other Variants At 100GHz this solution for instance achieves 2200Km with 40 Wavelengths of 40G PMD Tolerance and Dispersion Tolerance the same as 10G! (1600ps/nm, PMD: 12ps, 48ps DGD, 14dB OSNR) Cost out of the shoot is less than 4x 10G! Lower rate carriers bonded into the spectrum of One Native 40G wave Solutions for both 50GHz and 100GHzSpacing

26. Reducing Capital CostsLower Cost 40G Options Advantages of Bonding of Lower Rate Carriers over Native 40G Modulation Schemes • Less than 4 times the cost of 10G • Same PMD and Dispersion Performance as 10G • Same Approximate Distance Performance as 10G • Low cost 10G drop solution (Dropping 1 10G out of 40G) • No Interference of Adjacent 10G Waves, no guard band

27. Ekinops 40G 100GHz Muxponder ArchitectureFlexible Multiplexing and Add Drop of Lower Rates Services • The 40G 100GHz Muxponder utilizes 10G Chameleon Cards to Multiplex virtually any mix of protocols into the 40G line • Each Chameleon could be a native 10G with no lower rate services or one of the Chameleon cards with the desired multiplexing capability • Chameleon cards can be added one at a time to provide a true "pay as you grow" architecture • Each Chameleon can be a single slot or double slot depending on the mix of traffic being multiplexed. Single and Double can be mixed. • Does not require separate Multiplexing cards for rates under 10G like other 40G muxponders • Reduces hardware costs by more than 50% for complex multiplexing applications Bonds the Wavelengths

28. Ekinops 40G 100GHz Muxponder ArchitectureReuse your 10G Investment Deploy Ekinops 10G transponders and muxponders stand-alone today Reuse those same modules to build a 40G muxponder!

29. Summary • Lower cost of infrastructure + • Lower capital costs (equipment) + • True Scale as you grow Technologies = Lower Cost of ownership

30. Thank you Page 30