Mult

i-R

ate 1

,2.5

,5,1

0 G

iga

bit

Ed

ge P

oE

++

Mult

i-R

ate S

pine L

ea

f D

esi

gn (

10,2

5,4

0,5

0,1

00 G

iga

bit

)

X440-G2 (L3 - Value 1G to 10G)

PoE

Fiber

DC

Policy

SummitStack-V (WITHOUT any

additional license required).

Upgradeable 10GbE (PN 16542 or 16543).

Policy built-in (simplicity with multi-auth).

EXOS 21.1 or

higher

Value with Automation

First Extreme

Switch to support

Cloud Value

X460-G2 (Advanced L3 1-40G) Multirate Option

PoE

Fiber

DC

Policy

Fit The Swiss Army Knife of Switches Half Duplex

& 3 Models

This is where: 10G on

existing copper Cat5e

and Cat6 extend the

life of the installed

cable plant. Great for

1:N Convergence.

X620 (1OG Copper or Fiber)

Speed Next Gen Edge

Lowered TCO via

Limited Lifetime Warrantee

Wallplate AP

AP + Camera

Outdoor Wave 2

Multi-Gigabit

Wireless

High Density

-pack or Wedge

Facebook

Extre

me

Supp

ort

XoS

Platform

Config L2/L3

Analytics

Any OS

Any Bare Metal Switch

Policy

Disaggregated Switch

CAPEX or OPEX (you choose)?

Reduced Risk (just witness or take action)

Time is the critical Factor with XYZ Account Services...

Infrastructure

Business model

Ownership

Considerations

Management

Location

32 x 100Gb

64 x 50Gb

128 x 25Gb

128 x 10Gb

32 x 40Gb

96 x 10GbE Ports

(via4x10Gb breakout)8 x 10/25/40/

50/100G

10G

Next Gen: Spine Leaf

X670 & X770 - Hyper Ethernet

Common Features

Data Center Bridging (DCB) features

Low ~600 nsec chipset latency in cut through mode.

Same PSUs and Fans as X670s (Front to back or Back to

Front) AC or DC.

X670-G2 -72X (10GbE Spine Leaf) 72 10GbE

X670-48x-4q (10GbE Spine Leaf) 48 10GbE & 4 QSFP+

QSFP+

40G DAC

Extreme Feature Packs

Core

Edge

AVB

OpenFlow

Advance

Edge

1588 PTP

MPLS

Direct Attach

Optics License

Extreme Switches

include the license

they normally need.

Like any other

software platform

you have an

upgrade path.

QSPF28

100G DAC

Thin & Crunchy

XoS Platform with one track of software.

Speed with Features (Simple).

Metro Functionality like ATM or SONET

Flexible Horizontal or Vertical stacking

Purposed for Broadcom

(ASICs)

So What, Who cares?

Deliver XYZ Account, the

value of HP with the feature

function of Cisco.

XYZ Account Business Value

Why E

xtre

me?

Summit

Summit

Policy delivers automation..

Thick & Chewy

Know and control

the who, what, when, where and the user

experience across your XYZ Account

Network.

Control with insight...

Wh

y E

nte

rasy

s?

XYZ Account Strategic Asset

Custom ASICs

S & K Series

Chantry

Motorola

Air

Defense

So What, Who cares?

Flow Based Switching

Simplicity w Policy

Wired and Wireless

100% insourced support

Today you get both

Control

So What, Who cares?

Fit

Speed

Unique

Value

Unique

Control

Summit G2

Yesterday - Cabletron Changed the game w Structured wiring

(remember Vampire taps, Coax ethernet ect.)

Today - Extreme Delivers Structured networking

Policy

Summit

Who?

Where?

When?

What device?

How?

QuarantineRemediateAllow

Authentication

NAC Server

Summit

Netsite

Advanced

NAC Client

Joe Smith

XYZ Account

Access

Controlled

Subnet

Enforcement

Point

Network

Access

Control

This is where

if X + Y, then Z...

LLDP-MED

CDPv2

ELRP

ZTP

If user

matches a

defined

attribute

value

ACL

QoS

Then place

user into a

defined ROLE

A port is what it is because?This is where you easily Identify

the impact and Source of

Interference Problems.

Detailed Forensic Analysis

Device, Threats, Associations,

Traffic, Signal and Location

Trends

Record of Wireless Issues

Network Trend Analysis

Historical Analysis of

Intermittent Wireless

Problems

Performance Trends a

Spectrum Analysis for

Interference Detection

Real-time Spectrograms

Proactive Detection of

Application Impacting

Interference

Visualize RF Coverage

Real-time RF Visualizations

Proactive Monitoring and

Alerting of Coverage Problem

ADSP for faster Root Cause Forensic

Analysis for SECURITY & COMPLIANCE.

Event

Sequence

Classify

Interference

Sources

Side-by-side

Comparative

Analysis

Air Defense

App

lic

atio

n

Expe

rie

nc

e

Full C

ontext

App

App

Analytics

App

Stop the

finger-pointing

Application Network Response.

Flow or Bit

Bucket

Collector

3 million Flows

Sensors

X460 IPFix 4000 Flows

(2048 ingress, 2048 egress)

Sensor PV-FC-180, S or K Series (Core

Flow 2/ 1 Mi llion Flows)

Flow-based Access Points

From the controller (8K Flows

per AP or C35 is 24K Flows)

Flows

Why not do this in the

network?

10110111011101110 101101110111011101

6 million Flows

Business ValueContext BW IP HTTP:// Apps

Platform Automation Control Experience Solution Framework

Is your network faster today than

it was 3 years ago? Going forward

it should deliver more, faster,

different

X430-G2 (L2 - 1G to 10G)

PoE

Distribute content

from a single source

to hundreds of displays

Ethernet as a Utility

(PoE)

Injectors

Up to 75

Watts

XYZ AccountXYZ Account

XYZ Account Network services delivering Converged Plant

wide Ethernet Architectures for manufacturing and

industrial environments

Physical Security - limit physical access to authorized

personnel: areas, control panels, devices, cabling, and

control room - escort and track visitors.

End-point Hardening - patch management, antivirus

software as well as removal of unused applications,

protocols, and services (IP or MAC-based Access

Control).

Device Hardening - change management and

restrictive access (IEEE802.1x Access Control, RADIUS

and TACACS+).

Hardened Ethernet

4- 1G SFP

8- 10/100/1000 RJ-45

POE+

12 Port Switch

240 Watt PoE Budget

All Ports Active Simultaneously

-20 to + 70C temperature range

Fan-less Free Air Convection

XYZ Account Network services delivering Converged Plant

wide Ethernet Architectures for manufacturing and

industrial environments

Physical Security - limit physical access to authorized

personnel: areas, control panels, devices, cabling, and

control room - escort and track visitors.

End-point Hardening - patch management, antivirus

software as well as removal of unused applications,

protocols, and services (IP or MAC-based Access

Control).

Device Hardening - change management and

restrictive access (IEEE802.1x Access Control, RADIUS

and TACACS+).

Hardened Ethernet

4- 1G SFP

8- 10/100/1000 RJ-45

POE+

12 Port Switch

240 Watt PoE Budget

All Ports Active Simultaneously

-20 to + 70C temperature range

Fan-less Free Air Convection

Old School Manufacturing Net (MAP)

Token bus was standardized by IEEE

standard 802.4. It was mainly used for

industrial applications.

Token bus was used by General

Motors for their Manufacturing

Automation Protocol (MAP).

This is an application of the

concepts used in token ring networks.

The main difference is that the

endpoints of the bus do not meet to

form a physical ring.

The IEEE 802.4 Working Group is

disbanded and the standard has

been withdrawn by the IEEE.

Old School Manufacturing Net (MAP)

Token bus was standardized by IEEE

standard 802.4. It was mainly used for

industrial applications.

Token bus was used by General

Motors for their Manufacturing

Automation Protocol (MAP).

This is an application of the

concepts used in token ring networks.

The main difference is that the

endpoints of the bus do not meet to

form a physical ring.

The IEEE 802.4 Working Group is

disbanded and the standard has

been withdrawn by the IEEE.

Networking Technologies in Manufacturing

The US market is dominated by the CIP

networks where Ethernet/IP is overtaking

Device Net in terms of market shares.

Runners-up are PROFIBUS and Ether CAT

Fieldbuses most widely used type of

network with 66% of the market.

Industrial Ethernet networks - 34%

Machine-to-machine (M2M) essential

for smart factories and the largest

value driver for manufacturers.

Embracing the Internet of Everything

to Capture Your Share of $14.4 Trillion,

Cisco white paper, February 2013.

HMS Industrial Networks

Networking Technologies in Manufacturing

The US market is dominated by the CIP

networks where Ethernet/IP is overtaking

Device Net in terms of market shares.

Runners-up are PROFIBUS and Ether CAT

Fieldbuses most widely used type of

network with 66% of the market.

Industrial Ethernet networks - 34%

Machine-to-machine (M2M) essential

for smart factories and the largest

value driver for manufacturers.

Embracing the Internet of Everything

to Capture Your Share of $14.4 Trillion,

Cisco white paper, February 2013.

HMS Industrial Networks

Automation on the Factory Floor

This is where, Proximity + Identity + Time = Contextual Insight. This deployment acts

as the technology enabler for the convergence of industrial and enterprise networks.

KPIs - By gaining timely access to key performance indicators (KPIs) make business

decisions from real time information.

Ethernet-to-the-Factory, provide users with the foundation for success to deploy

the latest technology.

Recognize - There are cultural and technical challenges to network convergence.

Automation on the Factory Floor

This is where, Proximity + Identity + Time = Contextual Insight. This deployment acts

as the technology enabler for the convergence of industrial and enterprise networks.

KPIs - By gaining timely access to key performance indicators (KPIs) make business

decisions from real time information.

Ethernet-to-the-Factory, provide users with the foundation for success to deploy

the latest technology.

Recognize - There are cultural and technical challenges to network convergence.

SCADA / PLCs (Plant Floor Challenges)

Where is SCADA used? When you move from a 3 tier

network - Device / Control / Info network to

converged network there are many variables

When moving to a plant-wide Ethernet network,

more considerations (ie. Isolate or Segment

traffic security, QOS Contain traffic in one

area).

Sustaining Availability (keep the automation

and control systems operational) and Integrity -

protects data and systems from intentional or

accidental alteration.

Customer Examples include Water and

Wastewater, Power, Oil and Gas, Research

facilities, Transportation, Security systems, Siren

systems, Irrigation, Communication control

SCADA / PLCs (Plant Floor Challenges)

Where is SCADA used? When you move from a 3 tier

network - Device / Control / Info network to

converged network there are many variables

When moving to a plant-wide Ethernet network,

more considerations (ie. Isolate or Segment

traffic security, QOS Contain traffic in one

area).

Sustaining Availability (keep the automation

and control systems operational) and Integrity -

protects data and systems from intentional or

accidental alteration.

Customer Examples include Water and

Wastewater, Power, Oil and Gas, Research

facilities, Transportation, Security systems, Siren

systems, Irrigation, Communication control

Manufacturing Technology Vendors

Adoption of standards-based technologies that eliminate

the need to support separate, closed, factory floor-

networks plus delivers an increase in plant flexibility and

accelerate moves, adds, and changes

Schneider Electric, ABB, Legrand, Omron, Siemens,

Eaton, Cisco/Rockwell.

Schneider Electric/Invensys is Extreme s biggest

customer in this vertical

Extreme provides switches to Schneider for their

internal networks, and they bundle our switches for

them to OEM in their PLC (Programmable Logic

Controller) offerings to sell through distribution to their

integrators

Manufacturing Technology Vendors

Adoption of standards-based technologies that eliminate

the need to support separate, closed, factory floor-

networks plus delivers an increase in plant flexibility and

accelerate moves, adds, and changes

Schneider Electric, ABB, Legrand, Omron, Siemens,

Eaton, Cisco/Rockwell.

Schneider Electric/Invensys is Extreme s biggest

customer in this vertical

Extreme provides switches to Schneider for their

internal networks, and they bundle our switches for

them to OEM in their PLC (Programmable Logic

Controller) offerings to sell through distribution to their

integrators

This is where, XYZ Account can segmenting plant floor networks from company wide

networks by using built-in VRs as an Industrial Demilitarized Zone (IDMZ) to separate

the network level between the Industrial and Enterprise Zones.

Extreme automated security policy for helping secure manufacturing assets.

IAM for defense-in-depth security approach that addresses internal security

threats with support for both wired and wireless access methods.

Availability with 50 ms failover through Ethernet Rings with QoS buckets needs

to be applied as a service Ethernet like a MUX

Industrial Demilitarized Zone (IDMZ)

B

D E

C

A

B

D E

C

A

X

Spanning Tree Root Node

Or EAPS Master

FAILURE

B

D E

C

A

B

D E

C

A

B

D E

C

A

Spanning Tree Re-

Convergence Messages Complex & Slow

Exponentially worse as more

nodes added

Recovered

Network

Healthy

Network

EAPS Re-

Convergence Messages Deterministic & Fast

Simple scaling as more nodes

added

Failu

re

Re-co

nverg

ence

Reco

very

EAPS:

Simpler,

faster

Ethernet Rings

(without STP) SONET like

Ethernet BusLooks like

DMZ

VOIP

Guest

WiFi

VoIP

DMZ

WiFi

Guest

Guest

WiFi

VoIP

Guest

WiFi

VoIP

WiFi

VoIP

IP or MAC

IP or MAC

IP or MAC

IP or MAC

This is where, XYZ Account can segmenting plant floor networks from company wide

networks by using built-in VRs as an Industrial Demilitarized Zone (IDMZ) to separate

the network level between the Industrial and Enterprise Zones.

Extreme automated security policy for helping secure manufacturing assets.

IAM for defense-in-depth security approach that addresses internal security

threats with support for both wired and wireless access methods.

Availability with 50 ms failover through Ethernet Rings with QoS buckets needs

to be applied as a service Ethernet like a MUX

Industrial Demilitarized Zone (IDMZ)

B

D E

C

A

B

D E

C

A

X

Spanning Tree Root Node

Or EAPS Master

FAILURE

B

D E

C

A

B

D E

C

A

B

D E

C

A

Spanning Tree Re-

Convergence Messages Complex & Slow

Exponentially worse as more

nodes added

Recovered

Network

Healthy

Network

EAPS Re-

Convergence Messages Deterministic & Fast

Simple scaling as more nodes

added

Failu

re

Re-co

nverg

ence

Reco

very

EAPS:

Simpler,

faster

Ethernet Rings

(without STP) SONET like

Ethernet BusLooks like

DMZ

VOIP

Guest

WiFi

VoIP

DMZ

WiFi

Guest

Guest

WiFi

VoIP

Guest

WiFi

VoIP

WiFi

VoIP

IP or MAC

IP or MAC

IP or MAC

IP or MAC

Multi-discipline Industrial Network Convergence.

Ethernet with ATM like QoS delivers toll-

quality voice even under adverse congestion

conditions...

low latency (.1ms),

low jitter (.01ms)

zero packet loss

Disparate V Single Technology

Vertically To Horizontally

Voic

e V

ide

o

Se

nsor

Pla

nt S

ite

Ne

twor

k

I/O

Ne

twor

k

Sa

fety

Ne

twor

k

Dri

ve N

etw

ork

Switching & Routing

Enhanced Services

Performance w features turned on.

L2 SONET Like convergence

Multi-discipline Industrial Network Convergence.

Ethernet with ATM like QoS delivers toll-

quality voice even under adverse congestion

conditions...

low latency (.1ms),

low jitter (.01ms)

zero packet loss

Disparate V Single Technology

Vertically To Horizontally

Voic

e V

ide

o

Se

nsor

Pla

nt S

ite

Ne

twor

k

I/O

Ne

twor

k

Sa

fety

Ne

twor

k

Dri

ve N

etw

ork

Switching & Routing

Enhanced Services

Performance w features turned on.

L2 SONET Like convergence

Implementing CIP Sync time synchronization on Ethernet/IP utilizing 1EEE 1588

precision time protocol (PTP): Transparent Clock and Boundary Clock Embedded

switch technology - Transparent Clock - Ring and Linear topologies

Real-time updates and alerts & Schedule/event triggers

Interactive venue maps & Point of interest filters

Wayfinding or Guest location discovery

1588 precision time protocol (PTP):

BEACONS

WI-FI

GPS

Implementing CIP Sync time synchronization on Ethernet/IP utilizing 1EEE 1588

precision time protocol (PTP): Transparent Clock and Boundary Clock Embedded

switch technology - Transparent Clock - Ring and Linear topologies

Real-time updates and alerts & Schedule/event triggers

Interactive venue maps & Point of interest filters

Wayfinding or Guest location discovery

1588 precision time protocol (PTP):

BEACONS

WI-FI

GPS

In a plant, it is not just about data...

Extreme becomes an enabler with open secure

Infrastructure with integrated control and

information. Industrial Networks Needs

Better asset utilization - lean initiatives

(training, support, and inventory)Capture &

Record every application flow network-wide

>100M Sessions (Quickly Identify Network vs.

Application Performance Problems).

One Common network through converged

Extreme technologies (information sharing,

common design).

Mobility - Measure and Trend Application

Behavior to maximize investments and

minimize risks

Status

updates from

the cloud

Everything

has a URL

Cameras

Energy Control

Sensors

Zero Config

Mobility

Automated

alerts

In a plant, it is not just about data...

Extreme becomes an enabler with open secure

Infrastructure with integrated control and

information. Industrial Networks Needs

Better asset utilization - lean initiatives

(training, support, and inventory)Capture &

Record every application flow network-wide

>100M Sessions (Quickly Identify Network vs.

Application Performance Problems).

One Common network through converged

Extreme technologies (information sharing,

common design).

Mobility - Measure and Trend Application

Behavior to maximize investments and

minimize risks

Status

updates from

the cloud

Everything

has a URL

Cameras

Energy Control

Sensors

Zero Config

Mobility

Automated

alerts

XYZ Account Network services delivering Converged Plant

wide Ethernet Architectures for manufacturing and

industrial environments

Physical Security - limit physical access to authorized

personnel: areas, control panels, devices, cabling, and

control room - escort and track visitors.

End-point Hardening - patch management, antivirus

software as well as removal of unused applications,

protocols, and services (IP or MAC-based Access

Control).

Device Hardening - change management and

restrictive access (IEEE802.1x Access Control, RADIUS

and TACACS+).

Hardened Ethernet

4- 1G SFP

8- 10/100/1000 RJ-45

POE+

12 Port Switch

240 Watt PoE Budget

All Ports Active Simultaneously

-20 to + 70C temperature range

Fan-less Free Air Convection

Old School Manufacturing Net (MAP)

Token bus was standardized by IEEE

standard 802.4. It was mainly used for

industrial applications.

Token bus was used by General

Motors for their Manufacturing

Automation Protocol (MAP).

This is an application of the

concepts used in token ring networks.

The main difference is that the

endpoints of the bus do not meet to

form a physical ring.

The IEEE 802.4 Working Group is

disbanded and the standard has

been withdrawn by the IEEE.

Networking Technologies in Manufacturing

The US market is dominated by the CIP

networks where Ethernet/IP is overtaking

Device Net in terms of market shares.

Runners-up are PROFIBUS and Ether CAT

Fieldbuses most widely used type of

network with 66% of the market.

Industrial Ethernet networks - 34%

Machine-to-machine (M2M) essential

for smart factories and the largest

value driver for manufacturers.

Embracing the Internet of Everything

to Capture Your Share of $14.4 Trillion,

Cisco white paper, February 2013.

HMS Industrial Networks

Automation on the Factory Floor

This is where, Proximity + Identity + Time = Contextual Insight. This deployment acts

as the technology enabler for the convergence of industrial and enterprise networks.

KPIs - By gaining timely access to key performance indicators (KPIs) make business

decisions from real time information.

Ethernet-to-the-Factory, provide users with the foundation for success to deploy

the latest technology.

Recognize - There are cultural and technical challenges to network convergence.

SCADA / PLCs (Plant Floor Challenges)

Where is SCADA used? When you move from a 3 tier

network - Device / Control / Info network to

converged network there are many variables

When moving to a plant-wide Ethernet network,

more considerations (ie. Isolate or Segment

traffic security, QOS Contain traffic in one

area).

Sustaining Availability (keep the automation

and control systems operational) and Integrity -

protects data and systems from intentional or

accidental alteration.

Customer Examples include Water and

Wastewater, Power, Oil and Gas, Research

facilities, Transportation, Security systems, Siren

systems, Irrigation, Communication control

Manufacturing Technology Vendors

Adoption of standards-based technologies that eliminate

the need to support separate, closed, factory floor-

networks plus delivers an increase in plant flexibility and

accelerate moves, adds, and changes

Schneider Electric, ABB, Legrand, Omron, Siemens,

Eaton, Cisco/Rockwell.

Schneider Electric/Invensys is Extreme s biggest

customer in this vertical

Extreme provides switches to Schneider for their

internal networks, and they bundle our switches for

them to OEM in their PLC (Programmable Logic

Controller) offerings to sell through distribution to their

integrators

This is where, XYZ Account can segmenting plant floor networks from company wide

networks by using built-in VRs as an Industrial Demilitarized Zone (IDMZ) to separate

the network level between the Industrial and Enterprise Zones.

Extreme automated security policy for helping secure manufacturing assets.

IAM for defense-in-depth security approach that addresses internal security

threats with support for both wired and wireless access methods.

Availability with 50 ms failover through Ethernet Rings with QoS buckets needs

to be applied as a service Ethernet like a MUX

Industrial Demilitarized Zone (IDMZ)

B

D E

C

A

B

D E

C

A

X

Spanning Tree Root Node

Or EAPS Master

FAILURE

B

D E

C

A

B

D E

C

A

B

D E

C

A

Spanning Tree Re-

Convergence Messages Complex & Slow

Exponentially worse as more

nodes added

Recovered

Network

Healthy

Network

EAPS Re-

Convergence Messages Deterministic & Fast

Simple scaling as more nodes

added

Failu

re

Re-co

nverg

ence

Reco

very

EAPS:

Simpler,

faster

Ethernet Rings

(without STP) SONET like

Ethernet BusLooks like

DMZ

VOIP

Guest

WiFi

VoIP

DMZ

WiFi

Guest

Guest

WiFi

VoIP

Guest

WiFi

VoIP

WiFi

VoIP

IP or MAC

IP or MAC

IP or MAC

IP or MAC

Multi-discipline Industrial Network Convergence.

Ethernet with ATM like QoS delivers toll-

quality voice even under adverse congestion

conditions...

low latency (.1ms),

low jitter (.01ms)

zero packet loss

Disparate V Single Technology

Vertically To Horizontally

Voic

e V

ide

o

Se

nsor

Pla

nt S

ite

Ne

twor

k

I/O

Ne

twor

k

Sa

fety

Ne

twor

k

Dri

ve N

etw

ork

Switching & Routing

Enhanced Services

Performance w features turned on.

L2 SONET Like convergence

Implementing CIP Sync time synchronization on Ethernet/IP utilizing 1EEE 1588

precision time protocol (PTP): Transparent Clock and Boundary Clock Embedded

switch technology - Transparent Clock - Ring and Linear topologies

Real-time updates and alerts & Schedule/event triggers

Interactive venue maps & Point of interest filters

Wayfinding or Guest location discovery

1588 precision time protocol (PTP):

BEACONS

WI-FI

GPS

In a plant, it is not just about data...

Extreme becomes an enabler with open secure

Infrastructure with integrated control and

information. Industrial Networks Needs

Better asset utilization - lean initiatives

(training, support, and inventory)Capture &

Record every application flow network-wide

>100M Sessions (Quickly Identify Network vs.

Application Performance Problems).

One Common network through converged

Extreme technologies (information sharing,

common design).

Mobility - Measure and Trend Application

Behavior to maximize investments and

minimize risks

Status

updates from

the cloud

Everything

has a URL

Cameras

Energy Control

Sensors

Zero Config

Mobility

Automated

alerts

Heading

XYZ Account 2016 DesignE

xtre

me

Ed

ge

PoE Ex

tre

me C

ore

10G

2016 Design

1G 2.5G/5G 10G 40G

Jeff Green

2016

Rev. 1

Florida

Lege

nd

Le

ge

nd

PoE

802.3at (PoE+)

Cat5e

30W

30W30W

60W

UPOE

No Cabling Change from PoE+

Cat5e

NBASE-T Alliance Copper Max Distances

Cat 7 Shielded 100 m

Cat 6a Shielded 100 m

Cat 6a Unshielded 100 m

Cat 6 Shielded** 100 m

Cat 6 Unshielded** 55 m

Need Correct

UTP, Patch Panel

and Adapter.

known as IEEE 802.3bz

Greenfield - Cat 6a (2.5, 5G & 10G) 100m

Cat 6 (2.5G, 5G & 10G) 55m

Brownfield - Cat 5e (2.5&5G) 100M

Requires X620 or

X460 Switch for

Multi-rate Support

plus Client that

supports Multi-rate.

10G Passive (PN 10306 ~ 5m, 10307~ 10M)

10G SFP+ Active copper cable (upto 100m)

40G Passive (PN 10321 ~3m, 10323~ 5m)

40G Active (PN 10315~10M, 10316 ~20m, 10318~ 100m)

40G Fan-out (PN 10321 ~3m, 10322 ~5m, PN 10GB-4-

F10-QSFP ~10m, PN 10GB-4-F20-QSFP ~20m, )

10G Passive (PN 10304 ~1m, 10305~3m, 10306~5m)

SFP+ DAC Cables

QSFP+ DAC Cables

10 LRM 220m (720ft/plus mode conditioning) (PN 10303)

10GBASE-T over Class E Cat 6 (55M) (10G)

10GBASE-T over Class E Cat 6a or 7 (100M) (10G)

10 SR over OM3 (300M) or OM4 (400M) (PN 10301)

10 LR over single mode (10KM) 1310nm (PN 10302)

10 ER over single mode (40KM) 1550nm (PN 10309)

10 ZR over single mode (80KM) 1550nm (PN 10310)

802.3bz 10GBASE-T (100M) for Cat 6 (5G)

10G Fiber

10G Copper

802.3bz 10GBASE-T (100M) for Cat 5e (2.5G)

OM3 50 m (550m/SX) Laser, LC (PN 10051H)

OM1 62.5 m (FDDI 220m/OM1, LC (PN 10051H)

OM2 62.5 m (ATM 275m/OM2), LC (PN 10051H)

OM4 50 m (550m/SX) 2Km, LC (PN 10051H)

1G Fiber (50 m)

1G Fiber (62.5 m)

Single-fiber

transmission uses

only one strand of

fiber for both

transmit and

receive (1310nm

and 1490nm for

1Gbps; 1310nm and

1550nm for

100Mbps)

LX (MMF 220 & 550m), SMF 10km, LC (PN 10052H)

ZX SMF 70km, LC (PN 10053H)

10/100/1000 (UTP to 100m) SFP (PN 1070H)

SR4 at least 100 m OM3 MMF (PN 10319)

SR4 at least 125 m OM4 MMF (PN 10319)

LR4 at least 10 km SMF, LC (PN 10320)

LM4 140m MMF or 1kM SMF, LC (PN 10334)

Optics

Optics +

Fan-out

Fiber Cable

QSFP-SFPP-ADPTQSFP-SFPP-ADPT QSFP to SFP+ adapter

ER4 40km SMF, LC (PN 10335) Internal CWDM

transits four wavelengths over single fiber.

MPO to 4 x LC Fanout 10m (PN 10327) for use

with (PN 10326) MPO to 4 x LC duplex

connectors, SMF

LR4 Parallel SM, 10km SMF, MPO (PN 10326)

25/50/100G

CR10 > 10 m over copper cable (10x10 Gb/s /Twinax (7M))

SR10 > 100 m over OM3 MMF (10x10 Gb/s / Multimode (100M))

SR10 > 125 m over OM4 MMF (10x10 Gb/s/ (100M) Data Center)

LR4 > 10 km over SMF (4x25 Gb/s SMF/WDM (10km) Campus)

ER4 > 40 km over SMF (4x25 Gb/s SMF/WDM (40km) Metro)

Optics and DAC Cables

Extreme Networks will restrict the integration of non-qualified 3rd party optical devices within 40G and 100G product environments,

unless you purchase the EXOS 3rd Party 40G/100G Optics feature license to allow such integration.

Proprietary got you Keyed Optics

Model Number Description

10GB-LR271-SFPP 10Gb CWDM LR, SM, Channel 1271nm, LC

10GB-LR291-SFPP 10Gb CWDM LR, SM, Channel 1291nm, LC

10GB-LR311-SFPP 10Gb CWDM LR, SM, Channel 1311nm, LC

10GB-LR331-SFPP 10Gb CWDM LR, SM, Channel 1331nm, LC

MUX-CWDM-01 4 Channel O-Band CWDM Mux/Demux

MUX-RACK-01 Rack mount kit for MUX-CWDM-01

40GB-LR4-QSFP 40Gb 40GBASE-LR4, SM 10Km, LC

CWDM

MUX-CWDM-01

DACs

Notes:

Collapsed (1-tier) Spine

Summit Summit Spine

Leaf

Storage

Summit

Management

Storage

Summit

Storage

Summit

Storage

Summit

Storage

Summit

Storage

Summit

Summit Summit

4 x 72 =248 10Gs

Preparation Netsite Operation

Motion

Each network-tier adds another

two hops, which adds latency.

Latency can impact system

performance and CPU cycles.

FCOE looks like legacy Fibre

Channel and eliminates the

processing overhead associated w

TCP/IP.

Ultralow Latency

Non-Blocking,

Lossless Fabric,

Lossless Ethernet,

Virtualization,

Convergence 2.0

(Microseconds')

Collapsed (1-tier) Spine

Summit Summit Spine

Leaf

Storage

Summit

Management

Storage

Summit

Storage

Summit

Storage

Summit

Storage

Summit

Storage

Summit

Summit Summit

4 x 72 =248 10Gs

Preparation Netsite Operation

Motion

Each network-tier adds another

two hops, which adds latency.

Latency can impact system

performance and CPU cycles.

FCOE looks like legacy Fibre

Channel and eliminates the

processing overhead associated w

TCP/IP.

Ultralow Latency

Non-Blocking,

Lossless Fabric,

Lossless Ethernet,

Virtualization,

Convergence 2.0

(Microseconds')

Traditional control

LDAP NAC DHCP Radius Captive

Portal

DNS MDMLDAP NAC DHCP Radius Captive

Portal

DNS MDM

XYZ Account ServicesUser Repositories or Corporate Control

LDAP NAC DHCP Radius Captive

Portal

DNS MDM

XYZ Account ServicesUser Repositories or Corporate Control

NAC

Analytics

Netsite

Extreme (Wired and wireless) Control

Cloud Based control

On-prim / off-prim

Traditional control

LDAP NAC DHCP Radius Captive

Portal

DNS MDM

XYZ Account ServicesUser Repositories or Corporate Control

NAC

Analytics

Netsite

Extreme (Wired and wireless) Control

Cloud Based control

On-prim / off-prim

Extreme and selected microwave gear

In the Extreme Networks microwave transportation implementation, there were several options for the L2 hello protocol that

would satisfy the reliability requirements. The two primary options considered were 802.1AG Continuity Check Messages (CCM)

and Extreme Link Status Monitoring (ELSM). The architecture of the microwave radios and the virtual chassis at each

location is critical so that no single point of failure can impact the mission.

Flap Timers: The Extreme Networks implementation of G.8032 incorporates flap-timers to mitigate the network impact of

high-speed failure/recovery operations within the network. For example, if a crane were to spin around near to a roof-top

microwave transmitter, the link might fluctuate as the crane spun into and out of the microwave signal. In a lesser network

design the link would flap which means it would fail and restore constantly and might potentially cause an interruption of

service each time the link flapped.

Spanning Tree to Slow: In implementations such as spanning tree convergence might be slow enough that the network would

remain out of service as the link fluctuated. After some engineering discussion it was determined to set the programmable

G.8032 wait-to-restore timer to five seconds.

Hello Protocols: Since microwave link failures can find their origin in thunderstorms, fog, ice, intermediate transport domain

failures, or even moving machinery, each link in the network must have a hello protocol implemented which enables the

detection of logical faults. On a LAG port, these hello timers must operate on each link of the LAG. This means that the link

is now intelligent enough to wait until the physical link has been stable for 5000ms before moving traffic onto it. By the way,

this is why G.8032 restorals are so lightning fast.

Extreme and selected microwave gear

In the Extreme Networks microwave transportation implementation, there were several options for the L2 hello protocol that

would satisfy the reliability requirements. The two primary options considered were 802.1AG Continuity Check Messages (CCM)

and Extreme Link Status Monitoring (ELSM). The architecture of the microwave radios and the virtual chassis at each

location is critical so that no single point of failure can impact the mission.

Flap Timers: The Extreme Networks implementation of G.8032 incorporates flap-timers to mitigate the network impact of

high-speed failure/recovery operations within the network. For example, if a crane were to spin around near to a roof-top

microwave transmitter, the link might fluctuate as the crane spun into and out of the microwave signal. In a lesser network

design the link would flap which means it would fail and restore constantly and might potentially cause an interruption of

service each time the link flapped.

Spanning Tree to Slow: In implementations such as spanning tree convergence might be slow enough that the network would

remain out of service as the link fluctuated. After some engineering discussion it was determined to set the programmable

G.8032 wait-to-restore timer to five seconds.

Hello Protocols: Since microwave link failures can find their origin in thunderstorms, fog, ice, intermediate transport domain

failures, or even moving machinery, each link in the network must have a hello protocol implemented which enables the

detection of logical faults. On a LAG port, these hello timers must operate on each link of the LAG. This means that the link

is now intelligent enough to wait until the physical link has been stable for 5000ms before moving traffic onto it. By the way,

this is why G.8032 restorals are so lightning fast.

CJIS & FIPS-140RELIABILITY TO GO:

NETMOTION WIRELESS

MOBILITY XE MOBILE VPNIntroduce a separate control plane to Ensure that users are

authorized is of greater concern in a mobile deployment where

devices can more easily be misplaced, lost or stolen.

CJIS Authentication -Law enforcement agencies face

increasingly stringent requirements for authentication, which

is required to access federal criminal databases

FIPS 140-2 validated AES encryption secures data sessions as

devices traverse networks.

Persistence through coverage gaps, areas of weak signal

strength, or when users suspend their devices; applications

pause, then resume when a connection returns.

CJIS & FIPS-140RELIABILITY TO GO:

NETMOTION WIRELESS

MOBILITY XE MOBILE VPNIntroduce a separate control plane to Ensure that users are

authorized is of greater concern in a mobile deployment where

devices can more easily be misplaced, lost or stolen.

CJIS Authentication -Law enforcement agencies face

increasingly stringent requirements for authentication, which

is required to access federal criminal databases

FIPS 140-2 validated AES encryption secures data sessions as

devices traverse networks.

Persistence through coverage gaps, areas of weak signal

strength, or when users suspend their devices; applications

pause, then resume when a connection returns.

Video Arraignment

Why Extreme for Smart City? Every WLAN We Design Must

Support Real-Time Applications delivering more real-time

access to information, better collaboration & enhanced

situational awareness.

Increase security for Public safety with built-in NAC

perimeter control.

Decrease operational expense through policy

automation Implement interoperability among agencies

Better control City infrastructure upgrades, featuring

L2 failover and hardening for emergency/disaster

readiness

Legislative / Courts Infrastructure

Video Arraignment

Why Extreme for Smart City? Every WLAN We Design Must

Support Real-Time Applications delivering more real-time

access to information, better collaboration & enhanced

situational awareness.

Increase security for Public safety with built-in NAC

perimeter control.

Decrease operational expense through policy

automation Implement interoperability among agencies

Better control City infrastructure upgrades, featuring

L2 failover and hardening for emergency/disaster

readiness

Legislative / Courts Infrastructure

Heading

XYZ Account 2016 DesignE

xtre

me

Ed

ge

PoE Ex

tre

me C

ore

10G

2016 Design

1G 2.5G/5G 10G 40G

Jeff Green

2016

Rev. 1

Florida

Lege

nd

Le

ge

nd

PoE

802.3at (PoE+)

Cat5e

30W

30W30W

60W

UPOE

No Cabling Change from PoE+

Cat5e

NBASE-T Alliance Copper Max Distances

Cat 7 Shielded 100 m

Cat 6a Shielded 100 m

Cat 6a Unshielded 100 m

Cat 6 Shielded** 100 m

Cat 6 Unshielded** 55 m

Need Correct

UTP, Patch Panel

and Adapter.

known as IEEE 802.3bz

Greenfield - Cat 6a (2.5, 5G & 10G) 100m

Cat 6 (2.5G, 5G & 10G) 55m

Brownfield - Cat 5e (2.5&5G) 100M

Requires X620 or

X460 Switch for

Multi-rate Support

plus Client that

supports Multi-rate.

10G Passive (PN 10306 ~ 5m, 10307~ 10M)

10G SFP+ Active copper cable (upto 100m)

40G Passive (PN 10321 ~3m, 10323~ 5m)

40G Active (PN 10315~10M, 10316 ~20m, 10318~ 100m)

40G Fan-out (PN 10321 ~3m, 10322 ~5m, PN 10GB-4-

F10-QSFP ~10m, PN 10GB-4-F20-QSFP ~20m, )

10G Passive (PN 10304 ~1m, 10305~3m, 10306~5m)

SFP+ DAC Cables

QSFP+ DAC Cables

10 LRM 220m (720ft/plus mode conditioning) (PN 10303)

10GBASE-T over Class E Cat 6 (55M) (10G)

10GBASE-T over Class E Cat 6a or 7 (100M) (10G)

10 SR over OM3 (300M) or OM4 (400M) (PN 10301)

10 LR over single mode (10KM) 1310nm (PN 10302)

10 ER over single mode (40KM) 1550nm (PN 10309)

10 ZR over single mode (80KM) 1550nm (PN 10310)

802.3bz 10GBASE-T (100M) for Cat 6 (5G)

10G Fiber

10G Copper

802.3bz 10GBASE-T (100M) for Cat 5e (2.5G)

OM3 50 m (550m/SX) Laser, LC (PN 10051H)

OM1 62.5 m (FDDI 220m/OM1, LC (PN 10051H)

OM2 62.5 m (ATM 275m/OM2), LC (PN 10051H)

OM4 50 m (550m/SX) 2Km, LC (PN 10051H)

1G Fiber (50 m)

1G Fiber (62.5 m)

Single-fiber

transmission uses

only one strand of

fiber for both

transmit and

receive (1310nm

and 1490nm for

1Gbps; 1310nm and

1550nm for

100Mbps)

LX (MMF 220 & 550m), SMF 10km, LC (PN 10052H)

ZX SMF 70km, LC (PN 10053H)

10/100/1000 (UTP to 100m) SFP (PN 1070H)

SR4 at least 100 m OM3 MMF (PN 10319)

SR4 at least 125 m OM4 MMF (PN 10319)

LR4 at least 10 km SMF, LC (PN 10320)

LM4 140m MMF or 1kM SMF, LC (PN 10334)

Optics

Optics +

Fan-out

Fiber Cable

QSFP-SFPP-ADPTQSFP-SFPP-ADPT QSFP to SFP+ adapter

ER4 40km SMF, LC (PN 10335) Internal CWDM

transits four wavelengths over single fiber.

MPO to 4 x LC Fanout 10m (PN 10327) for use

with (PN 10326) MPO to 4 x LC duplex

connectors, SMF

LR4 Parallel SM, 10km SMF, MPO (PN 10326)

25/50/100G

CR10 > 10 m over copper cable (10x10 Gb/s /Twinax (7M))

SR10 > 100 m over OM3 MMF (10x10 Gb/s / Multimode (100M))

SR10 > 125 m over OM4 MMF (10x10 Gb/s/ (100M) Data Center)

LR4 > 10 km over SMF (4x25 Gb/s SMF/WDM (10km) Campus)

ER4 > 40 km over SMF (4x25 Gb/s SMF/WDM (40km) Metro)

Optics and DAC Cables

Extreme Networks will restrict the integration of non-qualified 3rd party optical devices within 40G and 100G product environments,

unless you purchase the EXOS 3rd Party 40G/100G Optics feature license to allow such integration.

Proprietary got you Keyed Optics

Model Number Description

10GB-LR271-SFPP 10Gb CWDM LR, SM, Channel 1271nm, LC

10GB-LR291-SFPP 10Gb CWDM LR, SM, Channel 1291nm, LC

10GB-LR311-SFPP 10Gb CWDM LR, SM, Channel 1311nm, LC

10GB-LR331-SFPP 10Gb CWDM LR, SM, Channel 1331nm, LC

MUX-CWDM-01 4 Channel O-Band CWDM Mux/Demux

MUX-RACK-01 Rack mount kit for MUX-CWDM-01

40GB-LR4-QSFP 40Gb 40GBASE-LR4, SM 10Km, LC

CWDM

MUX-CWDM-01

DACs

Notes:

vMAN untagged vMAN Tagged

I/O I/OPort Port

Content

Two Scheduling Algorithms

Strict Priority

CIR/PR bandwidth based control

Packet Classification

Any data field could be used to

classify the packet

Classify all packet types:

untagged, single-tagged or double

tagged

Carrier-Class Availability

H/W: 1:1 MSM

S/W: Hitless Failover/Upgrades

Network: EAPS

Flexible VLAN/vMAN handling (remapping/

translation) functionality

Ingress remapping

Egress translation

NNI translation

Video SourceVideo Source

HD TVTVoD, VoD

Video SourceVideo Source

Voice gateway

Voice/Video

Telephony

Data Center

Backup, ERP

Internet

Video SourceVideo Source

HD TVTVoD, VoD

Video SourceVideo Source

Voice gateway

Voice/Video

Telephony

Data Center

Backup, ERP

Internet

Simplicity may enable XYZ Account s next killer app

Today no single technology can drive this trillion dollar market forward

However, today s complex network environments delay the deployment of new technology while inflicting

more and more support cost each year.

The world is converging on IP & Ethernet.

After all technology convergence should produce simplicity.

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Multi-Switch LAG

MLAG Operation Looks like one big switch to remote sites. Extreme can deliver XYZ Account a networking

solution tp meet today s requirements of time, cost, security and service level?

Combine ports on two switches to form a single logical connection

The remote end of the connection can be either a server or a switch. Configured with a regular LAG (or

appropriate server port teaming) to form the port aggregation (e.g. no STP type of port blocking).

Basic operation requires 2 ExtremeXOS switches interconnected by an Inter-Switch connection (ISC)

Service

1

Service

2

ISCISCSwitch 1 Switch 2

XYZ Account

Services anywhere...

Multi-Switch LAG

MLAG Operation Looks like one big switch to remote sites. Extreme can deliver XYZ Account a networking

solution tp meet today s requirements of time, cost, security and service level?

Combine ports on two switches to form a single logical connection

The remote end of the connection can be either a server or a switch. Configured with a regular LAG (or

appropriate server port teaming) to form the port aggregation (e.g. no STP type of port blocking).

Basic operation requires 2 ExtremeXOS switches interconnected by an Inter-Switch connection (ISC)

Service

1

Service

2

ISCSwitch 1 Switch 2

XYZ Account

Services anywhere...

LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAGLAGLAGLAGLAGLAGLAGLAG LAG LAG LAG LAG LAG LAG LAG LAG LAG LAGLAGLAGLAG

LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAG LAGLAGLAGLAGLAGLAGLAGLAGLAG LAG LAG LAG LAG LAG LAG LAG LAG LAG LAGLAGLAGLAG

L2

L3

L2

L3

L2

L3

L2

L3

XYZ Account Design Requirements

Ensure business and operational continuity

(Ensure long term consistency).

Reduce overall costs (Ensure long term

investment protection).

Minimize transformation risks (Improve level of

service).

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Remote

Server

Single

SSID

Multi-Switch LAG

MLAG Operation Looks like one big switch to remote sites. Extreme can deliver XYZ Account a networking

solution tp meet today s requirements of time, cost, security and service level?

Combine ports on two switches to form a single logical connection

The remote end of the connection can be either a server or a switch. Configured with a regular LAG (or

appropriate server port teaming) to form the port aggregation (e.g. no STP type of port blocking).

Basic operation requires 2 ExtremeXOS switches interconnected by an Inter-Switch connection (ISC)

Service

1

Service

2

ISCSwitch 1 Switch 2

XYZ Account

Services anywhere...

LAG LAG LAG LAG LAG LAG LAG LAG LAG LAG LAGLAGLAGLAG

LAG LAG LAG LAG LAG LAG LAG LAG LAG LAG LAGLAGLAGLAG

L2

L3

L2

L3

XYZ Account Design Requirements

Ensure business and operational continuity

(Ensure long term consistency).

Reduce overall costs (Ensure long term

investment protection).

Minimize transformation risks (Improve level of

service).

Single SSID

10GbE Link

SummitStack-160SummitStack-160

This is where, X460s will be connected QSPF Direct

Attach Cables (DAC) for a total of 160GbE of

stacking.

Each switch would have a single 10GbE fiber

connection using either LR (10Km or less), ER

(40Km or less), or ZR (80Km or less) for ring

redundancy. A total of two (2) 10GbE links per

school built on a ring topology.

The X460-G2-10G supports IEEE 802.1 Audio Video

Bridging to enable reliable, real-time audio/

video transmission over Ethernet. AVB technology

delivers the quality of service required for

today s high-definition and time-sensitive

multimedia streams.

7The Summit X460-G2-10G supports SDN Openflow

in addition to NetFlow and IPFix.

Single SSID

10GbE Link

SummitStack-160

This is where, X460s will be connected QSPF Direct

Attach Cables (DAC) for a total of 160GbE of

stacking.

Each switch would have a single 10GbE fiber

connection using either LR (10Km or less), ER

(40Km or less), or ZR (80Km or less) for ring

redundancy. A total of two (2) 10GbE links per

school built on a ring topology.

The X460-G2-10G supports IEEE 802.1 Audio Video

Bridging to enable reliable, real-time audio/

video transmission over Ethernet. AVB technology

delivers the quality of service required for

today s high-definition and time-sensitive

multimedia streams.

7The Summit X460-G2-10G supports SDN Openflow

in addition to NetFlow and IPFix.

X460 Analytics lite Option 1)

Single SSID

10GbE Link

SummitStack-160

This is where, X460s will be connected QSPF Direct

Attach Cables (DAC) for a total of 160GbE of

stacking.

Each switch would have a single 10GbE fiber

connection using either LR (10Km or less), ER

(40Km or less), or ZR (80Km or less) for ring

redundancy. A total of two (2) 10GbE links per

school built on a ring topology.

The X460-G2-10G supports IEEE 802.1 Audio Video

Bridging to enable reliable, real-time audio/

video transmission over Ethernet. AVB technology

delivers the quality of service required for

today s high-definition and time-sensitive

multimedia streams.

7The Summit X460-G2-10G supports SDN Openflow

in addition to NetFlow and IPFix.

X460 Analytics lite Option 1)

Single SSIDSingle SSID

SSA Analytics (Option 2)

2-10GbE VSB Links

10GbE Link

Virtual Switch Bonding (VSB) for

Redundancy at the Edge. Advanced

Routing featuring LSNAT (Load Sharing

Network Address Translation) for load

balancing of clustered assets.

1 Million Flows of Unsampled NetFlow for

Data Analytics collection.

MACsec Encryption to maintain

confidentiality of transmitted data and to

take measures against frames transmitted

or modified by unauthorized devices.

SSA-180 at the XYZ Account Edge...

Single SSID

SSA Analytics (Option 2)

2-10GbE VSB Links

10GbE Link

Virtual Switch Bonding (VSB) for

Redundancy at the Edge. Advanced

Routing featuring LSNAT (Load Sharing

Network Address Translation) for load

balancing of clustered assets.

1 Million Flows of Unsampled NetFlow for

Data Analytics collection.

MACsec Encryption to maintain

confidentiality of transmitted data and to

take measures against frames transmitted

or modified by unauthorized devices.

SSA-180 at the XYZ Account Edge...

Single SSID

Industrial Edge w PoE (Option 3)

4- 1G SFP

8- 10/100 RJ-45 POE+

12 Port Switch

240 Watt PoE Budget

Single SSID

Industrial Edge w PoE (Option 3)

4- 1G SFP

8- 10/100 RJ-45 POE+

12 Port Switch

240 Watt PoE Budget

Single SSID

Wave 2 Multirate Edge w PoE++ (Option 4)

This is where: 10G on

existing copper Cat5e

and Cat6 extend the

life of the installed

cable plant. Great for

1:N Convergence.

X620 (1OG Copper or Fiber)

Speed Next Gen Edge

Lowered TCO via

Limited Lifetime Warrantee

Single SSID

Wave 2 Multirate Edge w PoE++ (Option 4)

This is where: 10G on

existing copper Cat5e

and Cat6 extend the

life of the installed

cable plant. Great for

1:N Convergence.

X620 (1OG Copper or Fiber)

Speed Next Gen Edge

Lowered TCO via

Limited Lifetime Warrantee

Single SSID

10GbE Link

SummitStack-160

This is where, X460s will be connected QSPF Direct

Attach Cables (DAC) for a total of 160GbE of

stacking.

Each switch would have a single 10GbE fiber

connection using either LR (10Km or less), ER

(40Km or less), or ZR (80Km or less) for ring

redundancy. A total of two (2) 10GbE links per

school built on a ring topology.

The X460-G2-10G supports IEEE 802.1 Audio Video

Bridging to enable reliable, real-time audio/

video transmission over Ethernet. AVB technology

delivers the quality of service required for

today s high-definition and time-sensitive

multimedia streams.

7The Summit X460-G2-10G supports SDN Openflow

in addition to NetFlow and IPFix.

X460 Analytics lite Option 1)

Single SSID

SSA Analytics (Option 2)

2-10GbE VSB Links

10GbE Link

Virtual Switch Bonding (VSB) for

Redundancy at the Edge. Advanced

Routing featuring LSNAT (Load Sharing

Network Address Translation) for load

balancing of clustered assets.

1 Million Flows of Unsampled NetFlow for

Data Analytics collection.

MACsec Encryption to maintain

confidentiality of transmitted data and to

take measures against frames transmitted

or modified by unauthorized devices.

SSA-180 at the XYZ Account Edge...

Single SSID

Industrial Edge w PoE (Option 3)

4- 1G SFP

8- 10/100 RJ-45 POE+

12 Port Switch

240 Watt PoE Budget

Single SSID

Wave 2 Multirate Edge w PoE++ (Option 4)

This is where: 10G on

existing copper Cat5e

and Cat6 extend the

life of the installed

cable plant. Great for

1:N Convergence.

X620 (1OG Copper or Fiber)

Speed Next Gen Edge

Lowered TCO via

Limited Lifetime Warrantee

Policies:

QoS,

VLAN,

802.1X

LLDP,

CDPv2

PBXL3

EAPS

XYZ Account Preparation

XYZ Account Operation

Convergence 1.0

(Milliseconds)

Ethernet w ATM like QoS

low latency (.1ms),

low jitter (.01ms)

zero packet loss

Performance with features

turned on (L3 built-in).

Direct Ethernet

Provider connects to

Customer in POP

FTTH, DSL,

Cable

Customer

Equipment

Customer

Edge

Provider Edge Provider

Core

M/C

CPE PEM/C

M/C

M/C

PCM/C

Loop Detection: ELRP CLI

Summit

Switch D

Spanning Tree Protocol

Summit

Summit

STP the Algorithm to avoid

I'm the Root

Because MY

ID is Lesser

Im the root?

No, Im the root

No, Im the root?

How will

the loop

converge?

Block here!

Timing associated with STP:

Blocking - 20 Sec Or No Limits

Listening - 15 Sec.

Learning - 15 Sec.

Forwarding - No Limits.

Master Node

Data Traffic

Control Traffic

10G EAPS

Summit Summit

Summit Summit

Summit Summit

Summit Summit

Sub 50ms Restoration

Scale from 1 to 40G EthernetSummit

Summit

Fiber

Fiber

Fiber

Fiber

Metro Demarcation

LAG

EAPS

Blocked

EAPS

RFC 3619

Ethernet Ring Protection Switching (ERPS) is an

effort at ITU-T under G.8032 Recommendation to

provide sub-50ms protection and recovery

switching for Ethernet traffic in a Ring topology

and at the same time ensuring that there are no

loops formed at the Ethernet Layer.

G.8032v1 supports a single ring topology.

G.8032v2 supports multiple rings/ladder

topology.

XYZ Account Design challenges

Pervasive connectivity (Service elasticity with a

future requirement for IPv6 support).

Explosion of interconnections (Support growth of

virtual environment).

Converged, automated infrastructure (Security

and compliance).

Heading

XYZ Account 2016 DesignE

xtre

me

Ed

ge

PoE Ex

tre

me C

ore

10G

2016 Design

1G 2.5G/5G 10G 40G

Jeff Green

2016

Rev. 1

Florida

Lege

nd

Le

ge

nd

PoE

802.3at (PoE+)

Cat5e

30W

30W30W

60W

UPOE

No Cabling Change from PoE+

Cat5e

NBASE-T Alliance Copper Max Distances

Cat 7 Shielded 100 m

Cat 6a Shielded 100 m

Cat 6a Unshielded 100 m

Cat 6 Shielded** 100 m

Cat 6 Unshielded** 55 m

Need Correct

UTP, Patch Panel

and Adapter.

known as IEEE 802.3bz

Greenfield - Cat 6a (2.5, 5G & 10G) 100m

Cat 6 (2.5G, 5G & 10G) 55m

Brownfield - Cat 5e (2.5&5G) 100M

Requires X620 or

X460 Switch for

Multi-rate Support

plus Client that

supports Multi-rate.

10G Passive (PN 10306 ~ 5m, 10307~ 10M)

10G SFP+ Active copper cable (upto 100m)

40G Passive (PN 10321 ~3m, 10323~ 5m)

40G Active (PN 10315~10M, 10316 ~20m, 10318~ 100m)

40G Fan-out (PN 10321 ~3m, 10322 ~5m, PN 10GB-4-

F10-QSFP ~10m, PN 10GB-4-F20-QSFP ~20m, )

10G Passive (PN 10304 ~1m, 10305~3m, 10306~5m)

SFP+ DAC Cables

QSFP+ DAC Cables

10 LRM 220m (720ft/plus mode conditioning) (PN 10303)

10GBASE-T over Class E Cat 6 (55M) (10G)

10GBASE-T over Class E Cat 6a or 7 (100M) (10G)

10 SR over OM3 (300M) or OM4 (400M) (PN 10301)

10 LR over single mode (10KM) 1310nm (PN 10302)

10 ER over single mode (40KM) 1550nm (PN 10309)

10 ZR over single mode (80KM) 1550nm (PN 10310)

802.3bz 10GBASE-T (100M) for Cat 6 (5G)

10G Fiber

10G Copper

802.3bz 10GBASE-T (100M) for Cat 5e (2.5G)

OM3 50 m (550m/SX) Laser, LC (PN 10051H)

OM1 62.5 m (FDDI 220m/OM1, LC (PN 10051H)

OM2 62.5 m (ATM 275m/OM2), LC (PN 10051H)

OM4 50 m (550m/SX) 2Km, LC (PN 10051H)

1G Fiber (50 m)

1G Fiber (62.5 m)

Single-fiber

transmission uses

only one strand of

fiber for both

transmit and

receive (1310nm

and 1490nm for

1Gbps; 1310nm and

1550nm for

100Mbps)

LX (MMF 220 & 550m), SMF 10km, LC (PN 10052H)

ZX SMF 70km, LC (PN 10053H)

10/100/1000 (UTP to 100m) SFP (PN 1070H)

SR4 at least 100 m OM3 MMF (PN 10319)

SR4 at least 125 m OM4 MMF (PN 10319)

LR4 at least 10 km SMF, LC (PN 10320)

LM4 140m MMF or 1kM SMF, LC (PN 10334)

Optics

Optics +

Fan-out

Fiber Cable

QSFP-SFPP-ADPTQSFP-SFPP-ADPT QSFP to SFP+ adapter

ER4 40km SMF, LC (PN 10335) Internal CWDM

transits four wavelengths over single fiber.

MPO to 4 x LC Fanout 10m (PN 10327) for use

with (PN 10326) MPO to 4 x LC duplex

connectors, SMF

LR4 Parallel SM, 10km SMF, MPO (PN 10326)

25/50/100G

CR10 > 10 m over copper cable (10x10 Gb/s /Twinax (7M))

SR10 > 100 m over OM3 MMF (10x10 Gb/s / Multimode (100M))

SR10 > 125 m over OM4 MMF (10x10 Gb/s/ (100M) Data Center)

LR4 > 10 km over SMF (4x25 Gb/s SMF/WDM (10km) Campus)

ER4 > 40 km over SMF (4x25 Gb/s SMF/WDM (40km) Metro)

Optics and DAC Cables

Extreme Networks will restrict the integration of non-qualified 3rd party optical devices within 40G and 100G product environments,

unless you purchase the EXOS 3rd Party 40G/100G Optics feature license to allow such integration.

Proprietary got you Keyed Optics

Model Number Description

10GB-LR271-SFPP 10Gb CWDM LR, SM, Channel 1271nm, LC

10GB-LR291-SFPP 10Gb CWDM LR, SM, Channel 1291nm, LC

10GB-LR311-SFPP 10Gb CWDM LR, SM, Channel 1311nm, LC

10GB-LR331-SFPP 10Gb CWDM LR, SM, Channel 1331nm, LC

MUX-CWDM-01 4 Channel O-Band CWDM Mux/Demux

MUX-RACK-01 Rack mount kit for MUX-CWDM-01

40GB-LR4-QSFP 40Gb 40GBASE-LR4, SM 10Km, LC

CWDM

MUX-CWDM-01

DACs

Notes:

Managed Services WAN (Cat 1 Spending)

SSA-180 at the XYZ Account Edge...Preparation Netsite Operation

XYZ Account

architectural models

Example of Extreme

simplified architecture.

wire-speed non- blocking,

ultra low latency

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

XYZ Account Next generation design

Full or almost full network virtualization (Automation

of vMotion across DC). SAN synchronization over

Ethernet connections, removing the requirement for

separate infrastructures for example Ethernet

switches and FC switches.

Collapsed (1- or 2- tier L2 designs) No distribution

layer, no STP.

VxLAN logical switching (Create a platform for

advanced service management Optimize for cloud

and virtualized environments).

XYZ Account Simplified architecture

1- or 2- tier architecture with broad simplification and

virtualization (Automation of moving of virtual servers

to underutilized hardware in other data centers to

balance power and cooling requirements).

Reduced number of network devices, Balanced

between legacy (optimized and next generation).

Partial but relevant virtualization, reduced physical

constraints (virtualization creates uniform virtual

hardware profiles irrespective of server hardware).

Preparation Netsite Operation

XYZ Account

architectural models

Example of Extreme

simplified architecture.

wire-speed non- blocking,

ultra low latency

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

XYZ Account Next generation design

Full or almost full network virtualization (Automation

of vMotion across DC). SAN synchronization over

Ethernet connections, removing the requirement for

separate infrastructures for example Ethernet

switches and FC switches.

Collapsed (1- or 2- tier L2 designs) No distribution

layer, no STP.

VxLAN logical switching (Create a platform for

advanced service management Optimize for cloud

and virtualized environments).

XYZ Account Simplified architecture

1- or 2- tier architecture with broad simplification and

virtualization (Automation of moving of virtual servers

to underutilized hardware in other data centers to

balance power and cooling requirements).

Reduced number of network devices, Balanced

between legacy (optimized and next generation).

Partial but relevant virtualization, reduced physical

constraints (virtualization creates uniform virtual

hardware profiles irrespective of server hardware).

Managed Services WAN (Cat 1 Spending)

SSA-180 at the XYZ Account Edge...Preparation Netsite Operation

XYZ Account

architectural models

Example of Extreme

simplified architecture.

wire-speed non- blocking,

ultra low latency

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

2-10GbE VSB Links

10GbE Link

XYZ Account Next generation design

Full or almost full network virtualization (Automation

of vMotion across DC). SAN synchronization over

Ethernet connections, removing the requirement for

separate infrastructures for example Ethernet

switches and FC switches.

Collapsed (1- or 2- tier L2 designs) No distribution

layer, no STP.

VxLAN logical switching (Create a platform for

advanced service management Optimize for cloud

and virtualized environments).

XYZ Account Simplified architecture

1- or 2- tier architecture with broad simplification and

virtualization (Automation of moving of virtual servers

to underutilized hardware in other data centers to

balance power and cooling requirements).

Reduced number of network devices, Balanced

between legacy (optimized and next generation).

Partial but relevant virtualization, reduced physical

constraints (virtualization creates uniform virtual

hardware profiles irrespective of server hardware).

Traditional control

LDAP NAC DHCP Radius Captive

PortalDNS MDMLDAP NAC DHCP Radius Captive

PortalDNS MDM

XYZ Account ServicesUser Repositories or Corporate Control

LDAP NAC DHCP Radius Captive

PortalDNS MDM

XYZ Account ServicesUser Repositories or Corporate Control

NAC

Analytics

Netsite

Extreme (Wired and wireless) Control

Cloud Based control

On-prim / off-prim

Traditional control

LDAP NAC DHCP Radius Captive

PortalDNS MDM

XYZ Account ServicesUser Repositories or Corporate Control

NAC

Analytics

Netsite

Extreme (Wired and wireless) Control

Cloud Based control

On-prim / off-prim

XYZ Account (911 LLDP MED Design)

XYZ Account Reference Design Notes: 802.1X/Access control multiple supplicants with

Auto-sensing of IP phones (LLDP, LLDP-MED). Create dynamic profiles, Switch applies profiles

based on standard LLDP-MED discovery protocols, One Device Profile per port Profile

action

Deep Rate-limiting with upto 8 queues per port with consistent queue policing

Weighted-round robin

Weight fair queuing

WRED

Topology maps are created in OneView with the assistance of link and device discovery

protocols (e.g. Link Layer Discovery Protocol) that aid in the creation of these maps by

automatically identifying and drawing the physical links between network devices. It is

necessary for the link layer protocol to be enabled on each device within the

infrastructure for discovery to take place. Once the appropriate devices have been

discovered, a network administrator can arrange the corresponding device icons in a

logical manner that best represents the network infrastructure.

XYZ Account Endpoint move detection and reporting. In this case, Cisco phones must be

individually provisioned (through the phone interface) with their voice VLAN information.

Both LLDP-MED and Cisco Discovery Protocol support this capability. LLDP-MED provides finer

control of the network policy by allowing separate control for signaling and bearer

applications. However, from a practical point of view, the critical capability is the VLAN

configuration, and it is supported by both Cisco Discovery Protocol and LLDP-MED.

XYZ Account VoWLAN management application or an LIS (Location Information Server)

programs the location identification into network using SNMP and the LLDP-MED MIB

Every port may advertise a unique coordinate, civic, and/or ELIN location value

Network infrastructure advertise periodic LLDP-MED frames containing location TLV

Endpoint has location information to use immediately in the call setup

XYZ Account signaling topology layers (CDPv2) - Once the Layer 1 is Active CDP Sends the

information to its neighbor. It can be used for Layer 1, layer 2, layer 3 troubleshooting.

Information

Logical Address (if define).

Hostname (given by hostname command).

Hardware Platform.

IOS Version.

Interface Type and Interface Number of local and remote device connected.

1

Cisco VOIP

VoIP phone advertise

CDP packets

Switch responds to phone

request with Voice VLAN

and QoS info

2

Configure Voice VLAN

Configure QoS

Advertise PoE

CDPv2 for VOIP setup

CDP Advertisement are send through all

the ports by default. Global CDP

information:

Sending CDP packets every 60 seconds

Sending a hold time value of 180

seconds

Advertisement are send via multicast.

XYZ Account signaling topology layers (CDPv2) - Once the Layer 1 is Active CDP Sends the

information to its neighbor. It can be used for Layer 1, layer 2, layer 3 troubleshooting.

Information

Logical Address (if define).

Hostname (given by hostname command).

Hardware Platform.

IOS Version.

Interface Type and Interface Number of local and remote device connected.

1

Cisco VOIP

VoIP phone advertise

CDP packets

Switch responds to phone

request with Voice VLAN

and QoS info

2

Configure Voice VLAN

Configure QoS

Advertise PoE

CDPv2 for VOIP setup

CDP Advertisement are send through all

the ports by default. Global CDP

information:

Sending CDP packets every 60 seconds

Sending a hold time value of 180

seconds

Advertisement are send via multicast.

LLDP-MED provides several technical advantages for XYZ Account ECS location. VoWLAN

Location Considerations, For WLAN devices capable of higher accuracy Smart clients

could compute relative position, using TOA or triangulation, from nearby APs

AP could advertise client specific location using reliable multicasts or via the Presence

Parameters information element (11v), in addition to LLDP-MED location

Emergency Services, Some Thoughts ...

Wireless client would quickly discover new physical location on roaming

Switches need physical location configuration anyway, to support wired IP phones

AP could auto-discover it s physical location via LLDP from wired network

Information Exchanged is in the form of

TLVs and includes mandatory and

optional information such as:

System name and description

Port name and description

IP management address

VLAN name

System capabilities (switching,

routing, etc.)

MAC/PHY information

MDI power

Link aggregationLLDP-MED provides several technical advantages for XYZ Account ECS location. VoWLAN

Location Considerations, For WLAN devices capable of higher accuracy Smart clients

could compute relative position, using TOA or triangulation, from nearby APs

AP could advertise client specific location using reliable multicasts or via the Presence

Parameters information element (11v), in addition to LLDP-MED location

Emergency Services, Some Thoughts ...

Wireless client would quickly discover new physical location on roaming

Switches need physical location configuration anyway, to support wired IP phones

AP could auto-discover it s physical location via LLDP from wired network

Information Exchanged is in the form of

TLVs and includes mandatory and

optional information such as:

System name and description

Port name and description

IP management address

VLAN name

System capabilities (switching,

routing, etc.)

MAC/PHY information

MDI power

Link aggregation

Cisco Discovery Protocol - If you have ever worked or studied Cisco on any level you will already

be aware of Cisco Discovery Protocol (CDP), and what it is and does. Invented at Cisco by Keith

McCloghrie and Dino Farinacci, Cisco Discovery Protocol was initially introduced on Cisco products

in 1994. This protocol now operates on tens of millions of Cisco devices throughout the world. It

initially supported a limited set of attributes that were used mainly for device discovery. These

attributes are based on type, length, and value descriptions, referred to as TLVs

XYZ Account (911 LLDP MED Design)

XYZ Account Reference Design Notes: 802.1X/Access control multiple supplicants with

Auto-sensing of IP phones (LLDP, LLDP-MED). Create dynamic profiles, Switch applies profiles

based on standard LLDP-MED discovery protocols, One Device Profile per port Profile

action

Deep Rate-limiting with upto 8 queues per port with consistent queue policing

Weighted-round robin

Weight fair queuing

WRED

Topology maps are created in OneView with the assistance of link and device discovery

protocols (e.g. Link Layer Discovery Protocol) that aid in the creation of these maps by

automatically identifying and drawing the physical links between network devices. It is

necessary for the link layer protocol to be enabled on each device within the

infrastructure for discovery to take place. Once the appropriate devices have been

discovered, a network administrator can arrange the corresponding device icons in a

logical manner that best represents the network infrastructure.

XYZ Account Endpoint move detection and reporting. In this case, Cisco phones must be

individually provisioned (through the phone interface) with their voice VLAN information.

Both LLDP-MED and Cisco Discovery Protocol support this capability. LLDP-MED provides finer

control of the network policy by allowing separate control for signaling and bearer

applications. However, from a practical point of view, the critical capability is the VLAN

configuration, and it is supported by both Cisco Discovery Protocol and LLDP-MED.

XYZ Account VoWLAN management application or an LIS (Location Information Server)

programs the location identification into network using SNMP and the LLDP-MED MIB

Every port may advertise a unique coordinate, civic, and/or ELIN location value

Network infrastructure advertise periodic LLDP-MED frames containing location TLV

Endpoint has location information to use immediately in the call setup

XYZ Account signaling topology layers (CDPv2) - Once the Layer 1 is Active CDP Sends the

information to its neighbor. It can be used for Layer 1, layer 2, layer 3 troubleshooting.

Information

Logical Address (if define).

Hostname (given by hostname command).

Hardware Platform.

IOS Version.

Interface Type and Interface Number of local and remote device connected.

1

Cisco VOIP

VoIP phone advertise

CDP packets

Switch responds to phone

request with Voice VLAN

and QoS info

2

Configure Voice VLAN

Configure QoS

Advertise PoE

CDPv2 for VOIP setup

CDP Advertisement are send through all

the ports by default. Global CDP

information:

Sending CDP packets every 60 seconds

Sending a hold time value of 180

seconds

Advertisement are send via multicast.

LLDP-MED provides several technical advantages for XYZ Account ECS location. VoWLAN

Location Considerations, For WLAN devices capable of higher accuracy Smart clients

could compute relative position, using TOA or triangulation, from nearby APs

AP could advertise client specific location using reliable multicasts or via the Presence

Parameters information element (11v), in addition to LLDP-MED location

Emergency Services, Some Thoughts ...

Wireless client would quickly discover new physical location on roaming

Switches need physical location configuration anyway, to support wired IP phones

AP could auto-discover it s physical location via LLDP from wired network

Information Exchanged is in the form of

TLVs and includes mandatory and

optional information such as:

System name and description

Port name and description

IP management address

VLAN name

System capabilities (switching,

routing, etc.)

MAC/PHY information

MDI power

Link aggregation

Cisco Discovery Protocol - If you have ever worked or studied Cisco on any level you will already

be aware of Cisco Discovery Protocol (CDP), and what it is and does. Invented at Cisco by Keith

McCloghrie and Dino Farinacci, Cisco Discovery Protocol was initially introduced on Cisco products

in 1994. This protocol now operates on tens of millions of Cisco devices throughout the world. It

initially supported a limited set of attributes that were used mainly for device discovery. These

attributes are based on type, length, and value descriptions, referred to as TLVs

Heading

XYZ Account 2016 DesignE

xtre

me

Ed

ge

PoE Ex

tre

me C

ore

10G

2016 Design

1G 2.5G/5G 10G 40G

Jeff Green

2016

Rev. 1

Florida

Lege

nd

Le

ge

nd

PoE

802.3at (PoE+)

Cat5e

30W

30W30W

60W

UPOE

No Cabling Change from PoE+

Cat5e

NBASE-T Alliance Copper Max Distances

Cat 7 Shielded 100 m

Cat 6a Shielded 100 m

Cat 6a Unshielded 100 m

Cat 6 Shielded** 100 m

Cat 6 Unshielded** 55 m

Need Correct

UTP, Patch Panel

and Adapter.

known as IEEE 802.3bz

Greenfield - Cat 6a (2.5, 5