SDM – A New (Subsea) Cable Paradigm
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Spatial Division Multiplexing (SDM) is a new submarine cable paradigm that allows for higher total cable capacity by increasing the number of fiber pairs in a cable, even if capacity per pair is lower. SDM cables sacrifice spectral efficiency per pair in order to add more pairs and compensate with a higher cable capacity overall. This approach helps maximize capacity as we near the limits imposed by Shannon's law. Initial SDM cables deployed around 12-24 fiber pairs and achieved cable capacities over 300Tbps. Future SDM designs could scale to 32 or even 40 fiber pairs to support petabit cable systems.
SDM – A New (Subsea) Cable Paradigm
- 1. Spatial Division Multiplexing A New (Subsea) Cable Paradigm Mark Tinka SAFNOG
- 2. HISTORY • Submarine cables have been in operation since 1866. • Fibre optic submarine cables began carrying traffic in 1956 (TAT-1). • Submarine cables are carrying 1.5Pbps annually, as of 2023.
- 3. EVOLUTION • Initial transmission technologies were based on modulation. • The next phase was Wavelength Division Multiplexing (WDM). • The future is Space Division Multiplexing (SDM). Evolution Snapshot
- 4. OPTICAL TECHNOLOGY • Direct Detection has been the technology, until 2010. • Uses only amplitude to transmit data. • 1 for high power. 0 for low power. • Maximum capacity is 10Gbps. • Prone to linear impairments. • Coherent came on the scene in 2010. • Uses amplitude and phase to transmit data. • Allows for 100Gbps – 800Gbps (as of 2022). • Permits great distances at lowest power consumption possible. • Inherently compensates for linear impairments. Coherent Detection Direct Detection
- 5. COHERENT EVOLUTION Coherent Detection Development Milestones & Roadmap
- 6. COHERENT EVOLUTION 100G Coherent ZR Optics • Industry’s first 100Gbps coherent ZR optic. • Developed by Adva and Coherent Corp. (formerly II-VI). • In-house DSP. • Up to 120km unamplified, and over 900km amplified. • DWDM, so is tunable. • Tx launch power can be configured. • QSFP28 interface, so <5W of power, maximum. • Vendor-neutral.
- 7. DWDM GRID SYSTEMS: FIXED-GRID • Most DWDM systems today use a fixed-grid layout. • Ideal when transponders use the same baud rate per wave. • Today, transponders can run at various baud rates. • Increasing baud rate increases bandwidth capacity per wave. • But higher baud rates require wider grid frequencies. • The edges of the 75GHz signal are clipped in the 50GHz channel. • Leads to poor signal and/or transmission errors. Fixed DWDM Grid
- 8. DWDM GRID SYSTEMS: FLEX-GRID • Flex(ible) grids are the solution to the fixed grid limitations. • Provides a continuous 4.8THz block of spectrum (C-Band). • Operators can choose to assign spectral width per wavelength, as needed. • It is granular, up to 12.5GHz per channel. • You no longer have to strand capacity as in the case of fixed grid systems. • More efficient use of the overall spectrum. • More capacity can be carried across the entire system. • Different services can be delivered without suffering spectral inefficiency. Flexible DWDM Grid
- 9. SHANNON’S LIMIT • Once a submarine cable is laid, “B” is fixed based on the number of fibre pairs. • The only thing to improve is the SNR to increase “C”. • In the last 12 years, we have done this with coherent detection. • But we are nearing Shannon’s limit. • Time to go back to basics and build “hardware”. Shannon’s Limit Equation
- 10. SUBMARINE CABLE TECHNOLOGY EVOLUTION • There is still room for Uncompensated cables, depending on use-case. • Newer longhaul submarine cables will likely be SDM-based. • Especially if content providers are involved in the build. Evolution of Submarine Cable Design
- 11. SDM: SIDE-STEPPING SHANNON’S LIMIT • We can be as clever as we have been, but at some point, we need to build things. • SDM looks at adding more fibre pairs, as opposed to improving SNR. • Rather than increase fibre pair capacity, we increase overall cable capacity. SDM Submarine Cables
- 12. WHAT IS SDM? Latest approach to maximizing the capacity of a subsea cable SDM techniques (examples) Optimize repeater power and space • Longer amplifier spacing • Lower amplifier power • Pump sharing Consequences of SDM • Lower launch power • Lower OSNR Lower non-liner penalties • Operation in linear regime Lower fibre pair capacity but more fibre pairs delivering higher total cable capacity
- 13. UNCOMPENSATED CABLES: HOW WE REACH MAXIMUM CAPACITY? • Uncompensated fibre technology. • First appeared in 2015. • 2, 4, 6 or 8 fibre pairs in the cable. • Maximize spectral efficiency per fibre pair. • Maximize spectral capacity per fibre pair. • (not the overall cable). • High amplifier power. • 100Gbps, 400Gbps, 800Gbps waves per fibre pair. • Anywhere from 4Tbps – 24Tbps per fibre pair. • 32Tbps – 192Tbps per cable system. Uncompensated Cable Design
- 14. SDM: HOW WE REACH MAXIMUM CAPACITY? • SDM fibre architecture. • First appeared in 2020. • 10, 12, 16, 18, 20 or 24 fibre pairs in the cable. • Sacrifice spectral efficiency per fibre pair. • Sacrifice spectral capacity per fibre pair. • Compensate by increasing fibre pairs in the cable. • Low amplifier power. • 100Gbps, 400Gbps, 800Gbps waves per fibre pair. • Anywhere from 4Tbps – 24Tbps per fibre pair. • 40Tbps – 576Tbps per cable system. • Lots more margin for future capacity. SDM Cable Design
- 15. GENERATIONAL EVOLUTION OF TRANS-ATLANTIC CABLE SYSTEMS Apollo MAREA Dunant Meta Cable 2003 2018 2021 Contract in Force 4 8 12 24 10Tb/s 26.2Tb/p 25.2Tb/s 21Tb/s 40Tb/s 210Tb/s 312Tb/s 504Tb/s RFS Date: Fibre pairs: FP Capacity: Cable Capacity Dispersion Managed Uncompensated SDM-1 SDM-2 Cable Design & Capacity Growth
- 16. SDM BENEFITS • SDM = lower capacity per fibre pair, BUT more capacity per cable. • Lower wavelength power = low system SNR at receiver. • Lower power requirements compared to previous cable technologies. • Lower power = plenty of margin to adapt to new transponder technology.
- 17. SDM CABLES SDM Cable System Fibre Pairs RFS Dunant 12 2021 H2HE 16 2021 Amitié 16 2022 Equiano 12 2022 APRICOT 16 2024 JUNO 20 2024 2Africa 16 2024 Bifrost 12 2024 MEDUSA 24 2024 Hawaiki Nui 12 2025 Caribbean Express 18 2025 SMW6 10 2025 CSN-1 ? 2025 • For each of these, you are looking at 15Tbps – 20Tbps per fibre pair. • Total system capacity in excess of 400Tbps - 500Tbps. SDM Cable Build Projects
- 18. SDM CHALLENGES • Latest SDM cables are touted as being “open”. • So when is a cable RFS? • How do you manage spectrum? • Who operates the cable system? • How do you perform testing quickly? • How do you provision quickly? • Who do you call when things go wrong? It’s not all roses…
- 19. It is rather logistical… Vendor C SDM CHALLENGES
- 20. SDM FUTURE • 32 fibre pairs is work currently under way for SDM cables. • Later on, 40 fibre pairs is the target. • Limitations for the # of fibre is the # of amplifiers and their spacing.