Objective Considerations: Given Today s Data Center Environment

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Transcription:

Objective Considerations: Given Today s Data Center Environment John D Ambrosia, Dell David Law, HP Applications Ad Hoc IEEE 802.3 400 Gb/s Ethernet Study Group October 9, 2013

Supporters Kapil Shrikhande, Dell Brad Booth, Microsoft Tom Issenhuth, Microsoft Jeff Maki, Juniper John Petrilla, Avago Paul Kolesar, CommScope 2

May 2013 Straw Polls PMD Chicago Rules (#2) Choose 1 (#5) 400 GbE Backplane 25 2 400 GbE Twin-Ax 15 2 400 GbE MMF 39 9 400 GbE SMF 62 49 No PMDs 2 0 Strawpoll #3 Made by the Chair Are you interested in multi-rate support (backward compatibility from 400GE to 100GE and/or 40GE): Results Yes 50 No 10 3

Summary of Stated Reach Needs Presentation 100m 500m 1km 2km 10km 40km maki_400_01a_0513 x x song_400_01_0513 x trowbridge_400_01_0513 x x x x x hirai_400_01_0713 x x issenhuth_400_01_0713 x x Beyond 1km jewell_400_01a_0713 nicholl_400_01_0713 x (200m) x palkert_400_01_0713 x x x x x song_400_01a_0713 x x takahara_400_01_0713 x x x vijn_400_01a_0713 wenyu_400_01_0713 x x x x palkert_400_01_0913 song_x_400_01_0913 x x x 4

Sept 2013 Straw Polls Straw Polls #4 and #5 SMF Inside Building Reach Objectives Chicago Rules Choose One 500m 30 18 1km 13 1 2km 34 27 Undecided 11 16 Straw Polls #6 and #7 SMF Outside Building Reach Objectives Chicago Rules Choose One 2km 10 4 2km < x < 10km 5 0 10km 39 34 10km < x < 40km 8 1 40km 31 11 Undecided 10 12 5

Sept-13 Interim Straw Poll #8 (Chicago Rules) I would support an objective that reads Define a 400Gb/s PHY for operation up to at least X of MMF wherein X is: a) a distance less than 30m b) 30m c) a distance between 30m and 100m d) 100m e) a distance between 100m and 200m f) 200m g) a distance greater than 200m h) undecided Results (All) a) 0 b) 3 c) 2 d) 25 e) 2 f) 1 g) 0 h) 42 6

Sept-13 Interim Straw Poll #9 (Chicago Rules) I would support an objective that provides 400Gb/s operation over: a) at least 100m over OM-Y MMF and at least 100m over OM4 b) about 200m over OM-Y MMF and at least 100m over OM4 c) about 200m over OM-Y MMF and at least 30m over OM4 d) at least 200m over OM-Y MMF e) at least 300m over OM-Y MMF f) none of the above g) Undecided Results (All) a) 8 b) 6 c) 1 d) 1 e) 1 f) 2 g) 53 7

But 40 GbE is Taking off in the Data Center 1,000,000 100,000 Rate Mb/s 10,000 Core Networking Doubling 18 mos DC Why? Cost Available solutions to meet target application 1,000 100 Server I/O Doubling 24 mos 1995 2000 2005 2010 2015 2020 Date From IEEE 802.3 HSSG Tutorial, Nov11. 8

40 GbE Port Usage (1 of 2) 40 GbE Port Configuration Example #1 QSFP QSFP Today s Media* Multi-conductor twin-ax Multi-fibre MMF Full Duplex SMF Multi-fibre SMF 40 GbE 40 GbE * Includes standard & nonstandard technologies 9

40 GbE Port Usage (2 of 2) 40 GbE Port Configuration Example #2 QSFP 40 GbE SFP+ 10 GbE SFP+ 10 GbE SFP+ 10 GbE SFP+ 10 GbE Today s Media* Multi-conductor twin-ax** Multi-fibre MMF** Full Duplex SMF Multi-fibre SMF ** Being used in data center applications for all above. * Includes standard & nonstandard technologies 10

Port Density Implication From 100GbE Backplane / Cu Cable CFI Or 176 ports of 10GbE Increased 10GbE port density based on QSFP will enable lower cost 10GbE. Increased usage of 40GbE ports will enable lower cost 40GbE ports. 11

Observations for 400GbE Reasonable assumption that 40G/100G will ship in greater volumes than 400G. Multiple scenarios can be envisioned where 400GbE ports could support higher density / lower rate 40GbE and or 100 GbE PMDs. Some include: o 400 GbE based on 16 x 25 Gb/s Could be divided into 4 ports of 100G @ 4 x25gb/s o 400 GbE based on 8 x 50 Gb/s Run 50Gb/s at 40 Gb/s for 8 ports of 40GbE Divide into 4 ports of 100G @ 2 x 50Gb/s o 400 GbE based on 4x 100Gb/s (assuming modulation) Divide into 4 ports of 100G @ 1 x 100Gb/s Change modulation to support 40G and support 4 ports @ 1 x 40 Gb/s 12

Conclusions The market is adopting this breakout functionality for 10GbE / 40GbE o Breakout functionality the ability to use a port in a lower rate / higher density mode of operation Breakout functionality will enhance broad market potential of 400GbE by enabling adoption to support higher density / lower rate (40GbE and / or 100GbE) to enable lower 400GbE cost. Consider objective for breakout functionality? Wording of such an objective? o Focus on media? o Focus on backwards compatibility? o Focus on do no harm? 13

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