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Fibre Channel - Topologies

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Title: Mylex External RAID Solutions Author: Michael Nielson Last modified by: Catherine L. Welch Created Date: 10/15/1998 2:37:12 PM Document presentation format – PowerPoint PPT presentation

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Title: Fibre Channel - Topologies


1
Fibre Channel - Topologies Protocols
2
Agenda
  • Why Fibre
  • Fibre-Speak
  • Fibre Pipes
  • Topologies
  • Protocols

3
Question
  • Why is Fibre in Fibre Channel always misspelled
    F-I-B-R-E instead of F-I-B-E-R?
  • Answer Its the Britishspelling of the word.

4
Why Fibre
5
Why Fibre Channel?
  • Speed
  • 100 MB/s now
  • 200 MB/s early next year
  • 400 MB/s in the future
  • Distance
  • 30 meters with copper
  • 100s of meters with todays multi-mode fibre
  • 1000s of meters with tomorrows single mode fibre
  • Flexibility
  • Point-to-point
  • Loops
  • Fabrics
  • Its the industry standard interconnect
  • Clusters and SANs now
  • And an important disk interface

6
Whats a Cluster?
  • Group of independent systems that
  • Function as a single system
  • Appear to users as a single system
  • And are managed as a single system
  • Clusters are virtual servers

Fibre Channel
7
Whats a SAN?
  • Dedicated Network for Storage Devices
  • RAID Arrays, Tape and Optical libraries
  • Storage management software, e.g Back-up,
    archiving,,
  • Network Behind the Servers

LAN
SAN
Fibre Channel
8
Whats a Fibre Disk?
  • SCSI Disk
  • Single SCSI interface
  • Fibre Disk
  • Dual Fibre Channel interfaces
  • If one fibre loop fails, you can still access a
    fibre disk

SCSI Disks
Fibre Disks
9
And Its A Key Mylex Strategy
  • SF and FL Controllers
  • Fibre to the server, cluster or SAN
  • SCSI to the disks
  • FF Controller
  • Fibre to the server, cluster or SAN
  • Fibre to the disks
  • Fibre Apple, Lion and Lambersomethingorother
  • PCI to the server
  • Fibre to the disks
  • Fibre to another Fibre Apple or Lion (cluster
    configuration)

10
Fibre-Speak
11
Fibre-Speak
  • Fibre Node
  • Any device on a fibre loop or fabric with a fibre
    port address
  • Servers, Array controllers, Tape Libraries, ...
  • Fibre Networking Devices
  • Devices used to interconnect nodes in loop or
    fabrics
  • Fibre Hubs and Fibre Switches
  • Fibre Loop
  • Topology where nodes are configured in a loop
    like Token Ring
  • Fibre networking device -- Hub(s)
  • Fibre Fabric
  • Topology where nodes are configured in a star or
    mesh (the cloud)
  • Fibre networking device -- Switch(es)
  • And it could have hub(s) hanging off switches

12
More Fibre Speak
  • GBIC
  • Gigabit Interface Converter
  • Converts optical signal to copper signal (and
    vice versa)
  • Can plug into any fibre port
  • DB-9 and HSSDC
  • Fibre connectors that provide a fibre port
  • External product development kit (SF-DEVKIT) have
    HSSDCs
  • LIP
  • Loop initialization process
  • Similar to a SCSI bus reset
  • LRC
  • Loop redundancy circuit
  • Allows fibre loops to bypass non-operational
    fibre nodes

13
Fibre Pipes
14
Gigabit Transmission
  • SCSI
  • Ultra 40 MB / s
  • Ultra/2 LVD 80 MB / s -- Now
  • Ultra/3 LVD 160 MB / s -- Late 99
  • Fibre Channel
  • 1st Generation Gb Fibre 100 MB/s now
  • 2nd Generation 2 Gb Fibre 200 MB/s 2000
  • 3rd Generation 4 Gb Fibre 400 MB/s 2001

15
Serial Transmission
  • Fibre is a serial technology
  • One bit at a time through a pipe

001001110101001
  • Serial pipes can be designed to go faster over
    greater distances

16
Fibre Cables
  • Fibre cables have two pipes
  • One to move bits in each direction
  • Also called a link
  • Two unidirectional fibres transmitting in
    opposite directions
  • fibres -- copper or optical

001001110101001
001001110101001
17
Fibre Channel Pipes
  • Fibre Channel defines copper and optical pipes
  • Copper Cables
  • Electrons represent bits
  • Cheaper
  • Distance limited -- 30 meters
  • Optical Fibre Cables
  • Light pulses represent bits
  • Pulses are generated by a laser or a LED
  • And detected at the other end by a transceiver
  • More expensive
  • Distances up to thousands of meters
  • Depends on type of optical pipe, transmission
    speed, ...

18
Fibre Channel Glass Pipes
  • Multi-Mode Optical Fibre -- Now
  • Pipe is large enough to simultaneously transmit
    multiple streams of light
  • Comes in two diameters
  • 50 microns -- de facto standard
  • 62.5 microns
  • Single Mode Optical Fibre -- Future
  • Pipe is only wide enough to transmit a single
    steam of light
  • 9 microns

19
Question
  • How big is a micron?

20
Speed / Distance of FC Pipes
  • Copper-Local Area Wiring
  • Multi-Mode Building Wiring
  • Single Mode -Campus Wiring

62.5 Micron Multi-Mode 175 m 150 m 90 m
50 Micron Multi-Mode 500 m 300 m 150 m
9 Micron Single Mode 10 km 2 km 2 km
Transmission Speed 100 MB / s 200 MB / s 400
MB / s
Copper 30 m
21
Management Question
  • How big is a meter?
  • Hint 1,000 Microns Meter
  • Answer Enough space to put 4,000
    east coast brains side by side.

22
Topologies
23
Topologies
  • Physical Model -- Topologies
  • How the servers, arrays, hub and switches are
    physically connected
  • Communications Model
  • How nodes talk to each other and its always
    point-to-point
  • At any point in time, one node talks to one other
    node
  • Fibre Ports
  • N-Port (node in a fabric topology)
  • F-Port (switch port in a fabric topology)
  • NL-Port (node in a loop topology
  • FL-Port (hub port in a loop topology)FC Node
    server or an arrayFC Ports have world-wide
    addresses like Ethernet portsSF, FL and FF have
    two FC Ports (addresses stored in controllers)

24
Three Fibre Topologies
25
Fibre Hubs
  • Networking Device for Connecting Fibre Nodes in a
    Loop
  • Simplifies cabling
  • Connects fibre nodes with different fibre cable
    types
  • Can plug copper and different types of optical
    into the same hub
  • Improves cluster or SAN availability
  • Allows fibre nodes to be hot plugged and removed
  • Bandwidth in a Loop is Constant (100 MB/s Today)
  • As servers are added to a loop less bandwidth
    per server
  • Cheaper Per Port than Fibre Switches

26
FC Loop w/ Four Port Fibre Hubs
Hub
SF
SF
27
Server Failure - HUB LRC Heals Loop
LRC Isolates Dead Server
X
Hub
SF
SF
28
SF Failure -- HUB LRC Heals Loop
Hub
X
SF
SF
29
Fibre Switches
  • Networking Device for Connecting Fibre Nodes in a
    Fabric
  • Does everything a hub does
  • Same benefits PLUS
  • Bandwidth in a Fabric is Scaleable
  • Add more servers to a loop
  • Bandwidth per server is constant
  • But bandwidth for the fabric increases with each
    added node
  • Expensive Per Port Compared to Fibre Hubs

30
FC Fabric w/ 4 Port Fibre Switch - 200 MB/s
Pairs of Nodes Communicate in Loops and Fabrics
S0
S1
Switch
But They Communicate Simultaneously in Fabrics
SF 0
SF 1
31
FC Fabric w/ 4 Port Fibre Switch - 200 MB/s
S0
S1
Switch
Any node can talk to any other node
SF 0
SF 1
32
FC Fabric w/ 8 Port Fibre Switch - 400 MB/s
S0
S1
S0
S1
Switch
SF 0
SF 1
SF 0
SF 1
33
Fibre Protocols
34
Fibre Channel Protocol
  • Fibre Channel Spec Defines
  • Physical aspects
  • Nodes, ports, links (cables),
  • And the communications model
  • Frame -- carries the payload (chunks of data)
  • Sequence -- set of related frames (for flow
    control)
  • Exchange -- set of related sequences (sets up the
    conversation)
  • Fibre Protocol is a Low Level Protocol
  • And is used to transport other protocols
  • It transports the SCSI protocol to talk to disks
    (SCSI over FC)
  • It can transport the IP protocol for array
    management
  • Plan to port the GAM server to external
    controllers
  • And talk to it from WAM clients (IP over FC)

35
Last Question
  • Whats a protocol?

36
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