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The Path to 100 G Ethernet

The Path to 100 G Ethernet. Martin Nuss VP & Chief Technologist. A need for speed: 10GbE, 40Gb, 100GbE. Confidence: We will fill up the bandwidth just like we fill-up disk space and memory. Utilization. Aggregation Group Member. 40G Transmission – Current Drivers. 40G IP Router interfaces

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The Path to 100 G Ethernet

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  1. The Path to 100 G Ethernet Martin Nuss VP & Chief Technologist

  2. A need for speed: 10GbE, 40Gb, 100GbE Confidence: We will fill up the bandwidth just like we fill-up disk space and memory

  3. Utilization Aggregation Group Member 40G Transmission – Current Drivers • 40G IP Router interfaces • Link bandwidth requires N X 10G • Problems with link aggregation • Most flows small, distribute nicely • Large flows from MPLS/IPSEC problematic • 32-40 Ch DWDM ring exhaust • Multi-access DWDM rings in metro • Typically 5 nodes, some larger • At exhaust build entire new ring • New fiber, amps, ROADMs, installation, space, power,… • Or add a pair of 40G transponders Both of these applications support 40G transponder costs > 4X 10G transponder cost

  4. Mix-n-Match of 10G/40G/100G on Same Fiber System Channel 1 . . . Channel 40/80 Mix & Match 10G, 40G and 100G waves on a fiber as needed using similar engineering rules 10G 40G 100G (future) Low revenue per bit for data will not justify new network overbuilds

  5. Increased Spectral Efficiency, More Capacity Spectral Efficiency 1.2 1 0.8 b/s/Hz 0.6 Higher spectral efficiency at 100G theoretically possible 0.4 0.2 0 2.5G 10G 40G 100G Bit Rate Spectral efficiency: more bits, same fiber system, no forklift upgrade

  6. 00 01 10 11 Transport technology readinessPossible technology choices for 100G transmission • Parallel options suitable for 100G on dedicated fiber, limited distances • 4 X 25G and 10X10G have been proposed • 4x 25G VCSEL WDM likely candidate for client-side optics (achievable with CMOS) • Negative service provider reaction to parallel networking solutions in MAN/WAN • Non-scalability of capacity: multiple waves to manage, ROADM port exhaust • Serial options – new technology to improve propagation, spectral efficiency • Trading speed for complexity – starting at 112 Gb/sec • Polarization multiplexing – divide by 2 • Each polarization carries a 56 Gb/s signal • Phase coding – e.g.: Four phase states • Four phases encode two info bits • Symbol rate cut in half to 28 Gbaud/sec

  7. OTN WAN mapping topics • 100G OTN (OTU4/ODU4/OPU4) must support mapping of 100GbE • 100GbE line rate of 103.125Gbps (results in OTU4 rate of ~112Gbps w/ FEC) • Full transparency required (don’t repeat the mistakes made at 10GbE) • 100G OTN must support muxing of ODU1/2/3 to new ODU4 layer • OTU4 line rate above 112Gbps is probably not realizable economically with current technology (means ODU4 support 3xODU3 or 4xODU3 is probably not realizable) • Ciena has proposed to ITU a ~112Gbps OTU4 line rate that supports transparent mappings of 100GbE and muxing of ODU1/2e/3e (allowing transparent mappings of 10GbE and 40GbE) and is moving forward with development of this rate

  8. Economic readiness • Customers would like • 40G transponders at 2.5X 10G transponder cost • 100G transponders at similar proportional savings • Business case will initially be made based on: • Economic benefit at the overall network solution level • Including CAPEX and OPEX for IP, DWDM and fiber • A reasonable 100G initial economic target: 100G = 2.5 X cost of 40G • Parity in cost/bit, with improved spectral efficiency Definition of “acceptable” cost ratio with respect to 10G will vary with customer

  9. Thank You

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