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PRESENTATION TITLE GOES HERE SNIA Tutorial: The Continued Evolution of Fibre Channel
Mark Jones FCIA / Emulex Corporation
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
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The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Abstract
Fibre Channel has been the ubiquitous connection of choice for connecting storage within the datacenter for over fifteen years. The start of the sixth generation is being celebrated this year by introducing a staggering leap in performance and new features. We will discuss why fibre channel holds the enduring popularity it has as well as an in-depth look at the new Gen 6 features and what the future holds. We will discuss how fibre channel fits in with key datacenter initiatives such as Virtualization, the pervasive adoption of SSD
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Fibre Channel: Timeline
1988: Work begins on protocol
1997: 1Gb FC SAN products emerge
2001: 2Gb FC
2005: 4Gb FC
2008: 8Gb FC
2012: 16Gb FC
2009: FCOE
Arbitrated Loop
Fabric Services
Virtualization NPIV
Converged Networks
Cloud Ready
2015+: 32Gb FC
2016+: 128GFC
(4 “striped” parallel lanes
of 32GFC)
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Fibre Channel: Continuing (and Growing) Relevance
Fibre Channel storage remains dominant 2012 2018 Total external storage revenue $22B $25B
Block storage $17B $18B – FC SAN 10.2 10.8 – iSCSI SAN 2.7 4.0 – FCoE SAN .06
(Gartner Group, Forecast: External Controller-Based Storage, Worldwide, All Countries, 2014-2018, 3Q14 Update - October 2014)
FC in the datacenter: 19% of data center switches are Fibre Channel IDC - Market Analysis Perspective: Datacenter Networks, 2014
Flash appliances, Flash arrays and Hybrid array deployments are mostly Fibre Channel
FC for the cloud OpenStack is the largest OpenSource project – ever. Significant (and growing) OpenStack ecosystem engagement
FCIA member companies contributing to FC Openstack developments FC Switch zone management Storage vendors developing Openstack provisioning APIs FC HBA drivers inbox in OpenStack distributions
L2 - 3 Switch 80.2%
FC Switch 18.9% Infiniband
Switch 0.9%
Fibre Channel 43% of 2018
Storage Market
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
• Fibre Chanel delivers 16Gb Fibre Channel and 40Gb FCoE performance ideal for high density virtualization, cloud infrastructure, and SSD storage
• Lossless and deterministic networking ensures predictable performance under high utilization
• FC dedicated networks are inherently low latency and secure
Non-Stop Scalable and Simple
• Fibre Channel fabrics are simple, and elastic networks that easily scale up and down as needed
• Backward compatibility enables scalability with new technology while leveraging legacy infrastructure
High Performance
Why Fibre Channel?
• Fibre Channel is the only purpose-built, data center proven network infrastructure for storage that keeps running, no matter what
• Enables resilient IT infrastructure that optimizes availability and minimizes application disruptions
• Industry leading network reliability minimizes management resources and costs
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Fibre Channel Industry
Fibre Channel Industry
Association (Marketing)
INCITS T11 Standards
Organization (Technical)
Tight Collaboration
Standards/ Profiles
Storage Innovations
How the FC Industry Innovates
Press/Analysts Collateral /Education
FC Innovations Needs Requirements
End-User Influence
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
FC
Fibre Channel Speedmap V20
Product Naming
Throughput (MBps - Full
Duplex) Line Rate (GBAUD)
T11 Spec Technically
Completed (Year)‡
Market Availability
(Year)‡
1GFC 200 1.0625 1996 1997
2GFC 400 2.125 2000 2001
4GFC 800 4.25 2003 2005
8GFC 1600 8.5 2006 2008
16GFC 3200 14.025 2009 2011
32GFC 6400 28.05 2013 2016
128GFC 25600 4x28.05 2014 2016
64GFC 12800 56.1 2017 2019
256GFC 51200 4x56.1 2017 2019
128GFC 25600 TBD 2020 Market Demand
256GFC 51200 TBD 2023 Market Demand
512GFC 102400 TBD 2026 Market Demand
1TFC 204800 TBD 2029 Market Demand
• “FC” used throughout all applications for Fibre Channel infrastructure and devices, including edge and ISL interconnects. Each speed maintains backward compatibility at least two previous generations (I.e., 8GFC backward compatible to 4GFC and 2GFC)
‡ Dates: Future dates estimated
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Fibre Channel Speedmap V20
FCoE
Fibre Channel over Ethernet tunnels FC through Ethernet. 10GFCoE was not available until after FC-BB-5, the FCoE protocol standard, was completed in 2007. For compatibility, all 10GFCoE FCFs and CNAs are expected to use SFP+ devices, allowing the use of all standard and non-standard optical technologies and additionally allowing the use of direct connect cables using the SFP+ electrical interface. FCoE ports otherwise follow Ethernet standards and compatibility guidelines. *Dates: Future dates estimated
.
Product Naming
Throughput (MBps – Full
Duplex) Line Rate (GBAUD)
Spec Technically Completed
(Year)
Market Availability
(Year)
10G FCoE 2400 10.3125 2008 2009
40G FCoE 9600 4x10.3125 2010 2013
100G FCoE 24000 10x10.3125 2010 Market Demand
100G FCoE 24000 4x25.78125 2015 Market Demand
400G FCoE 96000 8x51.5625 2017 Market Demand
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Generation-Based Naming
GFC GFC GFC GFC GFC GFC
From speed-based naming…
1997 2001 2008 2005 2016 2011
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
FC Generational Cycles
Historical Assumptions New generation introduced every 3-4 years
Each generation spans up to 10 years Three generations overlap at any point in time
New generations are less defined by protocol speed, more by service level
16GFC & Gen6 Adoption *16GFC reaching 15% point now, 50% expected late 2016
**Gen 6 adoption may be accelerated with 16G optics
Generation Intro / GA Up to 10% shipments
50% shipments
Down to 10%
4GFC 2005 2006 2008 2013 8GFC 2008 2009 2011 2017E
16GFC 2012 2014* 2016E
Gen 6 (32GFC) 2016 2017E (16G) 2019E** 2018E (32G) 2020E
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
What will drive the need for Gen 6
Performance Unleash application
performance with SSD storage
Scalability Built for
application and workload scalability
Availability Increase availability for high-density and critical
workloads
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
• 32GFC Specification completed, Being published by INCITS • Doubles data bandwidth over 16GFC to 6400MB/s1
• Backwards compatible two generations
32GFC
• 1x single-lane • 28.05GBaud with 64b/66b encoding • 100 Meter on OM4 • Forward Error Correction
• Performance / Reliability
• ANSI T11 specification complete • First vendor commercial products in 2016
1. Full Duplex data transmission
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
• 128GFCp based on 4 lanes of 32GFC • 25,600MB/s1 - 4x the bandwidth of 32GFC • Backwards compatible to single lane 32GFC or 16GFC
• 4x 28.05GBaud lanes with 64b/66b encoding • QSFP cable connectors • Forward Error Correction across striped lanes
• Performance / Reliability
• ANSI T11 to complete specification in early 2015 • First vendor commercial products possible in 2016
1. Full Duplex data transmission
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
40GbE FCOE
• Utilizes 4x10.3125 Gbaud links • Products will use optical QSFP modules with MPO
cables • Server connectivity - PCIe 8GT/s x8 required for 1p,
x16 for 2p
• Specification was complete in 2010 • Switch products GA in 2013, Adapters in 2014
1. Full Duplex data transmission
• 40GbE link rate for FCoE • 4x the bandwidth of 10GbE • Greater in-fabric performance per switch faceplate
density
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
FC-BB-6
• Each VN2VN port learns about all others in it’s VSAN • No FC Zoning, use VLANs and LUN masking • Scalability must be managed due to amount of
context information to maintain
• ANSI T11 Q4 2014 publication • Vendor adoption 2015
• VN2VN port – Virtual Node to Virtual Node • No FCF required – Lowers Cost of FCOE adoption • Separate Fibre Channel network not required • Enhanced Domain ID scalability
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
FC-NVMe
• Use native FC protocol – not over SCSI • Leverage new “NVMe over Fabrics” specification • Leverage Fibre Channel Strengths:
• Lossless, High Perf, Zoning, Name Server
• Scalability must be managed due to amount of context information to maintain
• INCITS T11 kicks off FC-NVMe working group 8/2014 • Specification to be completed - ~2016
• New T11 Project to define NVMe over existing Fibre Channel
• Using existing Fibre Channel networks is a natural fit • Trusted, Proven, Ubiquitous….
• Connecting SSD storage is as easy as SAN!
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
=
16GFC Improves Host Flash Performance 16GFC Improves Host Flash Write IO
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
=
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Fibre Channel OpenStack Roadmap
Folsom – October 2012
Grizzly – April 2013
Havana – October 2013
Icehouse – April 2014
Juno – October 2014
Kilo – April 2015
Liberty - October 2015
CINDER Block Storage
FC HBA, FC switch drivers
Zone, Volume, snapshot management
Virtual fabrics, friendly zone names
Quality of service Capability advertising Stats for scheduling
NPIV support
Ubuntu LTS 14.04 Red Hat OSP 5
Oracle OpenStack Mirantis OpenStack
HP Helion, Red Hat OSP 6
VMware Integrated OpenStack
…
…. Enterprise/Hybrid Cloud Deployments
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Relevant INCITS T11 Fibre Channel Standards
www.t11.org Recently Published
FC-BB-6 FCoE Enhancements FC-PI-6 (32GFC – GEN6) FC-MSQS-2 (32GFC – GEN6)
Work In Progress FC-SB-6 FICON - New project FC-SP-2 AM1, Security FC-SW-6 Fabric Enhancements (completed by T11, in letter ballot resolution) FC-GS-7 Management Enhancements (Includes FCoE) FC-EE Energy Efficiency FC-LS-3 Link Service FC-FS-4 Framing and Signaling Protocol (completed by T11, in letter ballot resolution) FC-NVMe – Fibre Channel specific NVMe over fabrics FC-PI-6p – 128GFC (comment resolution) FC-PI-7 – 64GFC/256GFC – New project FC Workstudy group – Idea incubation
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Summary: Fibre Channel…
Non Stop, High Performance and Scalable Speed Roadmap continues to lead the industry Gen6: 32GFC/128GFCp 40GbE FCoE FC-BB-6 and VN2VN Fibre Channel for NVMe over Fabrics 16GFC for: Virtualization, Flash Storage, Databases
The Continued Evolution of Fibre Channel Approved SNIA Tutorial © 2015 Storage Networking Industry Association. All Rights Reserved.
Attribution & Feedback
23
Please send any questions or comments regarding this SNIA Tutorial to [email protected]
The SNIA Education Committee thanks the following Individuals for their contributions to this Tutorial.
Authorship History Mark Jones, April 2015 DSI
Additional Contributors Members and companies of the Fibre Channel Industry Association (FCIA)