Transcript Diapositiva 1

ENTERPRISE PRODUCTS
SWITCHES
OSI Seven Layer Model
• Layer 7 – Application (where Email, FTP, Telnet, etc. access the network) (data)
• Layer 6 – Presentation (Encoding of Mpeg / Jpeg / Ascii / Text) (data)
• Layer 5 – Session (allows applications to establish & end dialog) (data)
• Layer 4 – Transport (TCP / UDP – error corrects, Max Tx Unit) (segments)
• Layer 3 – Network Layer (IP /IPX addresses the data for WAN routing) (packets)
• Layer 2 – Data Link Layer (puts raw bits into frames, MAC Address) (frames)
• Layer 1 – Physical Layer (Cable type) (bits)
Connecting the Layer 1 cables –
Bus Topology (Obsolete)
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Each computer is connected to a co-ax
cable or “bus”
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Thin Ethernet used BNC connectors
50 ohm Terminators
prevents signal reflection
Mac Address
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As there may be many PCs on the same wire or “Sub net”, we must uniquely
identify each PC
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Every PC Ethernet interface is programmed with a “MAC address” at time of
manufacture. (MAC = Media Access Control).
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MAC address is unique to that Ethernet Interface, it can’t be changed
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The MAC address is 6 bytes (48 bit).
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It is written in Hex e.g.:
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00-00-cd-00-99-1f
00-00-f4-ae-d2-0b
00-a0-d2-1b-59-d3
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The first three bytes are reserved for the vendor ID (over 16 million)
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The last three bytes are reserved as a unit identifier (over 16 million)
How does Ethernet work? Layer 2
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CSMA/CD
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(Carrier Sense Multiple Access / Collision Detect)
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Protocol used by Ethernet
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Half Duplex on Single wire transmission medium
(Like Walkie Talkie only one person talks at a time)
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Full Duplex possible if separate transmit & receive paths available
(Both ends can talk at the same time)
CSMA/CD single wire transmission
• Station A wants to send data to B
• A Listens out (Carrier Sense)
• If nothing heard, A transmits
• Data received by all stations
• B matches MAC address in data to own MAC address
• B acts on data received
A
B
C
CSMA/CD single wire transmission
• Station A wants to send data
• Listens out (Carrier Sense)
• If nothing heard, it transmits
• All stations have equal entitlement to send data
• If station C listened at the same time, it could also transmit
• Ethernet can sense when this happens (Collision Detection)
A
B
C
CSMA/CD single wire transmission
• After collision all stations back off for random time period
• Listen out and Re transmit data
• Process repeated until successful (no collisions)
• More collisions in larger Bus networks as more
transmitting stations, and longer propagation times
A
B
C
Problems with Bus technology
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Expensive to terminate co-ax cable
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Two cables to each computer
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One break in the network will bring
entire network down
50 ohm Terminators
prevents signal reflection
Connecting the Layer 1 Cables - Star Topology
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Every computer connected to a central
hub using UTP cable & RJ45 connectors
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If a cable or computer disconnected the
network remains operational!
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System uses CSMA/CD protocol and
MAC addresses in the same way
Hub Operation
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Transmission from one device is
received by all other devices on
the network
Hub Operation cont’d
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If two devices transmit at the
same time a collision occurs on
those ports
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Hub transmits ‘Jam’ signal until
collision has cleared
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No other ports can transmit until
collision cleared
Jam
Collision
How does switch know where to
send data?
As data goes through the switch, it learns what MAC addresses are on which port
by looking at MAC address data coming in to each port.
Every time the switch gets data, it first studies its table to see if it has a record of
which port to send it out of. If there is no record in the table, it has to broadcast
the data like a hub.
Mac Address info lives in table for typically 300 seconds.
Switches – Complete Offer
• Unmanaged
• Web Smart
• Managed
Top L3
Switches
– L2 switches
– L3 switches
Strong
L2/L2+
Managed
portflio
Fast and
Giga
Ethernet
Unmanaged
Web Smart
Telsey Switch Selector
Telsey
Switches
Layer 2
Layer 2
UNMANAGED
FS100 series
MANAGED
WEB-MANAGED
(SMART)
Fast
Gigabit
Gigabit
Layer 2
Layer 2+
Layer 3
Ethernet
Ethernet
Ethernet
Fast Ethernet
Gigabit Ethernet
Gigabit Ethernet
GS100 series
GS500 series
FM1000 series
GM1000 series
GM6000 series
&
SM6000 series
Basic Switch Selector
Product
Stackability
10/100Tx
ports
10/100/1000Tx
10/100/1000Tx or 10GbE XFP
ports
SFP slots SFP Shared ports
slots
Layer
Managability
FS105
FS108
FS116
FS124
FS126
GS105
GS108
GS116
GS124
L2
Unmanaged
5
L2
Unmanaged
8
L2
Unmanaged
16
L2
Unmanaged
24
L2
Unmanaged
24
L2
Unmanaged
5
L2
Unmanaged
8
L2
Unmanaged
16
L2
Unmanaged
24
GS516
GS524
L2
Web-Managed
14
2
L2
Web-Managed
22
2
FM1016/1xG
FM1024S/2xG
FM1048S/2xG
FM1024SPoE/2xG
L2
Managed
L2
Managed
L2
2
16
1
1
Stackable
24
2
2
Managed
Stackable
28
2
2
L2
Managed
Stackable
24 PoE
2
2
GM1024S
L2+
Managed
GM6024S
GM6048S
SM6024/2x10G
GM6048S/2x10G
L3
Managed
Stackable
20
L3
Managed
Stackable
44
L3
Managed
L3
Managed
24
4
4
20
Stackable
44
4
2
4
2
L2 Unmanaged Switches
FS100= FastEthernet Switches Unmanaged
GS100= GigabitEthernet Switches Unmanaged
www.telsey.com – [email protected]
Unmanaged Switches
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All switches in robust metal housing
Compliant with Ethernet Standards
Plug an play
Wire speed switching
Long life
Limited life time warranty
Unmanaged Fast Ethernet Switches
10/100Mbps Unmamaged
• FS105
5x 10/100T, ext. P.S.
• FS108
8 x 10/100T, ext. P.S.
• FS116
16x 10/100T, int. P.S. 19“
• FS124
24x 10/100T , int. P.S. 19“
• FS126
24x 10/100T + 2x 1000T
int. P.S. 19“
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Unmanaged
Store and Forward
Switching Method
VLAN transparent
Metal case
No Fan
• Applications
• SOHO
• Schools
• Offices
Unmanaged Gigabit Switches
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1Gbps Unmanaged
• GS105
5x 10/100/100T , ext. P.S.
• GS108
8x 10/100/100T , ext. P.S.
• GS116
16x 10/100/100T , int. P.S. 19“
• GS124
24x 10/100/100T , int. P.S. 19“
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Unmanaged
Store and Forward
Switching Method
VLAN transparent
Metal case
No Fan
• Applications
• SOHO
• Schools
• Offices
L2 Managed Switches
www.telsey.com – [email protected]
Overview of Managed Switches
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L2 FE Switches
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FM1024S/2xG
L2 Stackable 24x10/100TX + 2x active SFP bays + 2x 10/100/1000T Ports (RJ-45)
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FM1048S/2xG
L2 Stackable 48x10/100TX + 2x active SFP bays + 2x 10/100/1000T Ports (RJ-45)
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FM1016/1xG
L2 Standalone 16x10/100TX + 1x active SFP bay + 1x 10/100/1000T Ports (RJ-45)
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FM1024SPoE/2xG
L2 Stackable 24x10/100TX PoE ports + 2x active SFP bays + 2x 10/100/1000T Ports (RJ-45)
L2+ GE Switches
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GM1024S
L2+ Stackable 24x10/100/1000BASE-T + 2 SFP bays
L3 GE Switches
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GM6024S
L3 Stackable 24x10/100/1000BASE-T + 4x shared SFP bays
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GM6048S
L3 Stackable 48x10/100/1000BASE-T + 4x shared SFP bays
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SM6024/2x10G
L3 Standalone 24x SFP ports + 4x shared 10/100/1000BASE-T ports + 2 x 10GbE Modules
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GM6048S/2x10G
L3 Stackable 48x10/100/1000BASE-T + 4x shared SFP bays + 2 x 10GbE Modules
Functionality and Speed of Managed Switches
Functionality
GM6048S/2x10G
GM6048S
Layer 3
SM6024/2x10G
GM6024S
Layer 2+
Layer 2
GM1024S
FM1048S/2xG
FM1024SPoE/2xG
FM1024S/2xG
FM1016/1xG
Fast Ethernet
Port Density & Speed
Gigabit Ethernet
Features we expect from
Layer 2 Managed Switches
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Allows configuration of
– Port speed & duplex
– VLANs
– Spanning Tree Rapid Spanning Tree
– Port Mirroring
– Port Trunking
– Port Security
– CoS
– SNMP / remote management
– IGMP Snooping (for multicasting TV)
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Provide ongoing operational statistics
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Simplifies troubleshooting
L2 Managed Switch Technology
VLANs in action
No traffic passes between the two departments
Untagged port – eg pvid 10
L2 Switch
Floor II
Tagged link
carries both
VLANs
Tagged port
L2 Switch
Floor I
2 VLans look like
2 NIC cards when
configuring
VLAN1 & 2
Server
VLAN 1
Sales Department
VLAN 2
Accounts Department
Types of VLANs
• Port Based
• 802.1Q
– Port based
– MAC Based
– IP Based
– Protocol Based
• QinQ, Double Tagging, VMAN, Native
VLANs ….
Layer 2 Resilience
Spanning Tree Protocol
• Resilient link is added switch 1 to switch 2.
• What happens if a link fails?
• A loop in the network will create a
Broadcast storm
• STP activates standby path.
• ST calculates which link to close
Work Station B
Work Station C
Work Station A
Switch 1
Path 1
Path 2
Loop
Switch 3
Switch 2
Server A
Server B
Work Station D
Layer 2 resilience
Spanning Tree Protocol
• Force Root Bridge
– At default all switches have same bridge priority
– If all switches same priority, lowest MAC address becomes Root Bridge
– Network will configure itself lowest number of hops to Root Bridge
• Ensure OS are updated
• Only enable ports that need STP to minimise convergence time
• Understand what STP should be doing
– Watch it at work on the network - Alliedware – “show stp port=25,26”
– Listening, learning forwarding / blocking
• Test STP configuration by pulling links.
Layer 2 Resilience - Spanning Tree Protocol
Spanning Tree (IEEE 802.1d)
Default Failover Time 40 seconds
Three lots of Hello timer, two lots of Listen / Learn timer.
Default timers can be adjusted to reduce failover down to 15 sec
(dependent on network design). Don’t mess with them unless you fully
understand the effect you will have!
Rapid Spanning Tree (IEEE 802.1w)
Failover Time 1 second
(Knows where it will fail over to, and can therefore fail over quicker)
MSTP (Multiple Spanning Tree) IEEE 802.1s
STP / RSTP
VLAN1
MSTP
VLAN2
VLAN3
STP / RSTP wastes
potential bandwidth
Forwarding
Blocked
L2 Managed Switch Technology
Stacking Advantages
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To make several switches appear as one switch to the network
To be able to manage the entire stack from one console
In good systems one command acts on all switches simultaneously
In good systems you can update all switches in the stack simultaneously
Stacking Switch
Stacking Switch
Stacking Switch
Stacking Switch
L2 Managed Switch Technology - QoS - Quality of
Service
What Applications need high priority (Low Latency)
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Voice over IP
Citrix – thin Client Applications (business critical)
Broadcast Video (TV)
Video on Demand (Film)
What Applications should be assigned low priority?
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Web access
Email
FTP
L2 Managed Switch Technology
QoS – Quality of Service
Terms
• Latency
- measurement of delay through the network
• Jitter
- measurement of inconsistent delay through the network
• Robustness - measurement of dropping of packets
What QoS required for what Application ?
• Low Latency - important for VoIP, not important for TV & film
• Low Jitter - important for VoIP, not important for TV & film
• Robustness - important for Video, not important for VoIP
How the L2 switches reduce QoS problems ?
• Latency
- jump time sensitive data to the front of the buffer
• Jitter
- jump time sensitive data to the front of the buffer
• Robustness - jump data to the front of the buffer, buffer rear end drops
Layer 2 Switch Technology
Port Trunking – IEEE 802.3ad
• Can trunk using 10/100,
1000BaseT or GBICs
• Some servers support 802.1ad port
trunking to increase bandwidth
Switched 10/100 Mbps
Floor 2
Copper
• Port Trunking provides Resilience
Gigabit Ethernet
• Port Trunking provides additional
bandwidth
Floor 3
Fibre
Switched 10/100 Mbps
• Some switches allow 4 ports in
one port trunk
Switched 10/100 Mbps
Floor 1
Gigabit Ethernet
Server
Farm
802.1x – Encrypted port security /
VLAN Authentication
“Authentication Server”
(Radius server)
Server
Server
2
“Supplicant”
(802.1x built into
Windows XP)
3
Authenticator (switch)
1
4
1. Supplicant tries to access network, Authenticator sends back challenge,
Supplicant answers with username/password or offers digital certificate.
2. Authenticator passes info to Authentication Server for verification in Radius format
3. Authentication Server informs authenticator of VLAN to access (or not)
4. If granted access, session may be encrypted with rotating WEP keys
Easy Web Management
of Complex Devices
In addition to the market standard CLI Telsey managed switches
have excellent Web interface!
What additional facilities can we expect
from Layer 2+ managed switches?
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Spanning Tree Enhancements – Multiple STP
Classifiers & IP Filters
Port Security Enhancements – 802.1x Authenticated VLANs
Virus Quarantining
DoS Attack prevention
Private VLANs (Hotel & Managed Office Applications)
Secure Management SSH / SSL
SNMP V3
L2 WEB-Managed Switches
• GS516
• GS524
www.telsey.com – [email protected]
Web Smart Switches
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Easy Web Management
16 and 24 x 10/100/100 + 2 x SFP
VLANs, 802.1Q VLAN tagging
Broadcast Storm Control
QoS
Packet Filtering
Port Aggregation
Mirroring
• Applications:
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Education
Hospitality
Government offices
ISP access for FTTB
L2 WEB-Managed Switches
Gigabit L2 WEB-Smart Switches
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GS516
16x10/100/1000T + 2x shared SFP bays,
802.1q VLAN tagging, metal case 1U, 19"
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GS524
24x10/100/1000T + 2x shared SFP bays,
802.1q VLAN tagging, metal case 1U, 19"
Ports
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24 10/100/1000M RJ45 Ports with NWAY and Auto MDI/MDI-X
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2 shared Gigabit SFP slots,
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Auto-Negotiation between cooper ports and optical slots
Other characteristics
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Support IEE802.3x Flow Control for full-duplex mode, and
back pressure flow control for half-duplex mode
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Backplane bandwidth up to 48 Gbps, support Nonblocking
Full Wire-Speed throughput
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Store and forward architecture, 5K MAC Address Table
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Static MAC Address Table management supported
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Port bandwidth control, 64kbps
QoS, Port Security, BSCI, Port Mirroring
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QoS, 4 Priority Queues
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Port Security Control, support Port MAC address aging,
learning, binding, 128 MAC Addresses binding per port
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Broadcast Strom Intelligent Control, broadcast type
control, broadcast setting supported
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Port Mirroring
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Support IP address setting of Fixed IP or DHCP client
automatic distributing
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Web-Managed, Multi-Language Supported
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Support Firmware upgrade based on HTTP
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Cable diagnose
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Support Flow Static, dynamic display packet storing ,
filtering and transferring of port and switch
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Internal power supply, Standard 19-inch rack-mountable
Steel Case, 1 U height
VLAN, Port trunking
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Support Port-based VLAN of up to 24 groups, IEE802.1q,
Tag-based VLAN, VLAN ID from 1-4094
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Support Port Trunking of up to 4 groups, each group
includes up to 4 ports
L2 Managed Switches
• FM1024S/2xG
• FM1048S/2xG
• FM1024SPoE/2xG
• FM1016/1XG/1xG
www.telsey.com – [email protected]
Managed L2/L2+ Switches
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Stackable and standalone devices for the
access in Enterprise and ISP networks
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PoE models for IP Phones, Web Cameras
and other from the network powered devices
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Robust design guarantees more then
250000 hours MTBF!
• Applications:
• Government networks
• Education
• NSP access
L2 Managed
FastEthernet Switches
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FM1024S/2xG
24x10/100TX + 2x10/100/1000T + 2x SFP bays
Stackable
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FM1048S/2xG
48x10/100TX + 2x10/100/1000T + 2x SFP bays
Stackable
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FM1024SPoE/2xG
24x10/100TXPoE + 2x10/100/1000T + 2xSFP bays
Stackable
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FM1016/1XG/1xG
16x10/100TX + 1x10/100/1000T + 1xSFP bays
Standalone
Key Advantages
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Carrier Platform from Marvell
Heating Sensors
Fan Rotation Sensors
CLI, Web, SNMP detection of the problem
Supported Firmware Functionality
Port Attribution:
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24/48 10/100BASE-T auto-sensing Fast Ethernet switching ports
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Additional 2 Copper GbE ports PLUS 2 optional Fiber GbE via SFP transceivers
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Integrated Copper GbE ports provide resilient stacking
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Auto-negotiation for speed, duplex mode and flow control
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Auto MDI/MDIX
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Port mirroring
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Broadcast storm control
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Power-Over-Ethernet (IEEE 802.3af) with port prioritization up to 15.4W per port
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Power-Over-Ethernet supported across all 24 ports without additional hardware (native 370W
power available for PoE functionality)
Performance
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Switch Fabric Capacity 12.8 Gb/s
Forwarding Rate 9.5 Mpps
Up to 8,000 MAC Addresses
VLAN
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VLAN support for tagging and port-based as per IEEE 802.1Q
Up to 256 VLANs supported
Dynamic VLAN with GVRP support
Quality of Service
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Layer 2 Trusted Mode (IEEE 802.1p tagging)
Layer 3 Trusted Mode (DSCP)
4 Priority Queues per Port
Multicast
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Static IP multicast
IGMP snooping for IP Multicast Support
Other Switching
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Link Aggregation with support for
up to 8 aggregated links per switch and
up to 8 member ports per
Aggregated link (IEEE 802.3ad)
LACP support (IEEE 802.3ad)
Management
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Web-based management interface
Industry-standard CLI accessible via Telnet or local serial port
SNMPv1, SNMPv2c and SNMPv3 supported
4 RMON groups supported (history, statistics, alarms and events)
TFTP transfers of firmware and configuration files
Dual firmware images on-board
Multiple Configuration file upload/download supported
Statistics for error monitoring and performance optimization including port summary tables
BootP/DHCP IP address management supported
Syslog remote logging capabilities
Temperature sensors for environmental monitoring
Virtual Cable Tester by MarvellTM and fiber transceiver diagnostics for advanced troubleshooting
Stacking support, max 192 stacking ports
Security
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IEEE 802.1x based edge authentication
Switch access password protection
User-definable settings for enabling or disabling Web, SSH, Telnet, SSL management access
Port-based MAC Address alert and lock-down
IP Address filtering for management access via Telnet, HTTP, HTTPS/SSL, SSH and SNMP
RADIUS and TACACS+ remote authentication for switch management access
SSLv3 and SSHv2 encryption for switch management traffic
Availability
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Spanning Tree (IEEE 802.1D) and Rapid Spanning Tree (IEEE 802.1w) with Fast Link support
Multiple Spanning Trees (IEEE 802.1s)
External redundant power support with PowerConnect RPS-600 (sold separately)
Virtual Cable Tester provided by MarvellTM for providing cable diagnostics
Optical transceiver diagnostics
GM1024S L2+
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L3 chipset
24 ports 10/100/1000BASE-T L2 switch
with 4 SFP bays (unpopulated)
VLAN support for tagging and portbased as per IEEE
802.1Q
Up to 256 VLANs supported
IEEE 802.1x authentication support
Switch access password protection
User-definable settings for enabling or
disabling Web,
Telnet management access
RADIUS remote authentication for
switch management access
Access Control Lists (ACLs) for Traffic
and Management
……
L3 Managed
Gigabit Switches
• GM6024S
• GM6048S
• GM6048S/2x10G
• SM6024S/2x10G
www.telsey.com – [email protected]
What is L3?
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Routing
IP
XyLAN
L2 separates VLAN
L3 routes traffic
between them
• Separates IP sub
networks
• Possible to filter the
traffic
L3 Switches
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Aggregation that provides QoS for mission
critical applications
Provides security within the LAN
Traffic switching between the work groups
(VLANs) across the enterprise network
(routing)
Large number of abbreviations supported
(OSPF, IGMP, VRRP etc.)
Stackable and standalone solutions
• Applications:
• Government networks
• NSP access
Communicating between VLANs
• External router could route between
VLANs…
– Require a physical interface per VLAN
– Routers are WAN devices
– 10 & 20 Mbps packet forwarding by a
CPU, a bottleneck on LAN
Layer 2
Switch
Router
How to build a simple L3 network
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Low cost L2 switches at the edge
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Layer 3 switch at the core
L2 Switch
L2 Switch
L2 Switch
Gig L3 Switch
L2 Switch
L2 Switch
L2 Switch
L2 Switch
Server
WAN Router
L3 Managed Gigabit Switches
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GM6024S
24x10/100/1000TX + 4x shared SFP bays
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GM6048S
48x10/100/1000TX + 4x shared SFP bays
L3 Managed Gigabit switches
with 10Gbps Uplinks
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GM6048S/2x10G
48x10/100/1000TX + 4x shared SFP bays
+ 2x10GbE Modules
Stackable
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SM6024S/2x10G
24xSFP bays + 4x shared 10/100/1000TX
+ 2x10GbE Modules
Standalone
Supported Firmware Functionality
Port Attributes:
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24/48 10/100/1000BASE-T auto-sensing Gigabit Ethernet switching ports (+ 2x10GbE )
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4 SFP combo ports for fiber media support
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10 Gigabit Ethernet uplink modules (optional)
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48Gbps Stacking module (optional)
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Auto-negotiation for speed, duplex mode and flow control
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Auto MDI/MDIX
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Port mirroring
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Flow-based port mirroring
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Broadcast storm control
Performance, Availability
Performance:
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Up to 16,000 MAC Addresses
Availability:
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Spanning Tree (IEEE 802.1D) and Rapid Spanning Tree (IEEE 802.1w) with Fast Link
Support:
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Multiple spanning trees (IEEE 802.1s)
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Supports Virtual Redundant Routing Protocol (VRRP)
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External redundant power support
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Cable diagnostics
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Optical transceiver diagnostics
Layer 3 Features and Routing Protocols
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Static routes
Routing Information Protocol (RIP) v1/v2
Open Shortest Path First (OSPF) v1/v2/v3
Classless Inter-Domain Routing (CIDR)
ICMP Router Discover Protocol (IRDP)
Virtual Redundant Routing Protocol (VRRP)
Internet Group Management Protocol (IGMP) v2
Distance-Vector Multicast Routing Protocol (DVMRP)
DHCP – Helper/Relay
VLANs
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VLAN support for tagging and port-based as per IEEE 802.1Q
Double VLAN tagging (QinQ)
Up to 4096 VLANs supported
Dynamic VLAN with GVRP support
Quality of Service
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Layer 2 Trusted Mode (IEEE 802.1p tagging)
Layer 3 Trusted Mode (DSCP)
Layer 4 Trusted Mode (TCP/UDP)
Layer 2/3/4 flow-based Policies
8 Priority Queues per Port
Adjustable Weighted-Round-Robin (WRR) and Strict Queue Scheduling
Port-based QoS Services Mode
Flow-based QoS Services Mode
Multicast
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Static IP Multicast
Dynamic Multicast Support – 256 Multicast groups supported in IGMP Snooping
IGMP snooping for IP multicast support
IGMP Querier
Protocol Independent Multicast (PIM-DM, PIM-SM)
Management and Monitoring
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Web-based management interface
Command Line Interface (CLI) accessible via Telnet or Local Serial Port
SNMPv1 support
SNMP v2c support
SNMPv3 support
4 RMON groups supported (history, statistics, alarms and events)
TFTP transfers of firmware and configuration files
Dual Firmware images on-board
Multiple Configuration file upload/download support
Statistics for error monitoring and performance optimization including port summary
tables
BootP/DHCP IP address management supported
Syslog remote logging capabilities
Temperature sensors for environmental monitoring
Other Features
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Link Aggregation with support for up to 8 aggregated links per switch and up
to 8 member ports per aggregated link; LACP support (IEEE 802.3ad)
Security
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IEEE 802.1x based edge authentication (single and multiple host access, guest
access, voice authorization, and Microsoft Active Directory)
Switch access password protection
User-definable settings for enabling or disabling Web, SSH, Telnet, SSL management
access
Port-based MAC Address alert and lock-down
IP Address filtering for management access via Telnet, HTTP, HTTPS/SSL, SSH and
SNMP
RADIUS and TACACS+ remote authentication for switch management access
Access Control Lists (ACLs) support;
SSLv3 and SSHv2 encryption for switch management traffic
Management access filtering via Management Access Profiles
SOHO Router
• FM600400//2XA
www.telsey.com – [email protected]
FM600400//2XA
Special Router/Switch with VoIP
• All in one device for SOHO or
branch offices
•
•
•
•
•
•
Ethernet or ADSL2+ WAN
4port LAN switch
4x FXS ports for VoIP
No PBX needed
Firewall protection
VPN support etc.
• Applications:
• NSP CPE
• Enterprise branch office
device
Ongoing Process - Roadmap
•
•
•
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Managed media converters
Protocol converters
Optical switches
10 GE aggregators
FM600400//2XA
Special Router/Switch with VoIP
WAN Network Interfaces:
1 Ethernet 10/100 BaseT
1 ADSL2+
LAN Data interfaces:
4 Ethernet switch
Analog/ISDN
Telephone
interfaces
Cooperation
•Data Centers
•Metro Ethernet
•High-demanding enterprize
•BGP for NSPs
•Highest density of GE and 10 GE
today!
Q&A
Thank You for Your attention!