|
|
LRE Devices
|
Catalyst 2950ST-8 LRE
|
Catalyst 2950ST-24 LRE
|
Catalyst 2950ST-24 LRE 997
|
|---|---|---|---|
|
Cisco 575 LRE CPE
|
Yes
|
Yes
|
No
|
|
Cisco 576 LRE 997 CPE
|
No
|
No
|
Yes
|
|
Cisco 585 LRE CPE
|
Yes
|
Yes
|
No
|
Front-Panel Description:
The switch front panel contains the ports, the LEDs, and the Mode button.
Other than the Catalyst 2950ST-24 LRE 997 switch, the front panel of the Catalyst 2950 LRE switches also contain the console port and AC power connector. On the Catalyst 2950ST-24 LRE 997 switch, the front panel contains a DC power connector (also referred to as the terminal block header), a DC ground lug, and an RJ-45 console port.
For more information about the power connectors on the LRE switches, see the "Power Connectors" section. For more information on the console port on these switches, see the Console Port section.
Figure 1 to Figure 14 show the switches
Figure 1: Catalyst 2950-12 Switch
Figure 2: Catalyst 2950-24 Switch
Figure 3: Catalyst 2950C-24 Switch
Figure 4: Catalyst 2950G-12-EI Switch
Figure 5: Catalyst 2950G-24-EI Switch
Figure 6: Catalyst 2950G-24-EI-DC Switch
Figure 7: Catalyst 2950G-48-EI Switch
Figure 8: Catalyst 2950ST-8 LRE Switch
Figure 9: Catalyst 2950ST-24 LRE Switch
Figure 10: Catalyst 2950ST-24 LRE 997 Switch
Figure 11: Catalyst 2950SX-24 Switch
Figure 12: Catalyst 2950T-24 Switch
Figure 13: Catalyst 2950SX-48-SI Switch
Figure 14: Catalyst 2950T-48-SI Switch
10/100 Ports:
The 10/100 ports use RJ-45 connectors and twisted-pair cabling. The ports can connect to these devices:
-
10BASE-T devices, such as workstations and hubs, through standard RJ-45 connectors and two twisted-pair cabling. end-user can use Category 3, 4, or 5 cabling.
-
100BASE-TX devices, such as high-speed workstations, servers, hubs, routers, and other switches, through standard RJ-45 connectors and two or four twisted-pair, Category 5 cabling.
The 10/100 ports can be explicitly set to operate in any combination of half duplex, full duplex, 10 Mb/s, or 100 Mb/s. They can also be set for speed and duplex autonegotiation, compliant with IEEE 802.3U. In all cases, the cable length from a switch to an attached device cannot exceed 328 feet (100 meters).
When set for autonegotiation, a port senses the speed and duplex settings of the attached device and advertises its own capabilities. If the attached device supports autonegotiation, the port negotiates the best connection (that is, the fastest line speed that both devices support and full-duplex transmission, if the attached device supports it) and configures itself accordingly.
10/100/1000 Ports:
The 10/100/1000 ports on Catalyst 2950T-24, Catalyst 2950T-48-SI, and Catalyst 2950 LRE switches use RJ-45 connectors and twisted-pair cabling. The ports can connect to these devices:
-
10BASE-T devices, such as workstations and hubs, through standard RJ-45 connectors and two or four twisted-pair, Category 5 cabling.
-
100BASE-TX devices, such as high-speed workstations, servers, hubs, routers, and other switches, through standard RJ-45 connectors and two or four twisted-pair, Category 5 cabling.
-
1000BASE-T devices, such as high-speed workstations, servers, hubs, routers, and other switches, through standard RJ-45 connectors and four twisted-pair, Category 5 cabling.
- When connecting the switch to a 1000BASE-T device, be sure to use a four twisted-pair, Category 5 cable.
- When connecting the switch to workstations, servers, and routers, be sure to use a twisted-pair straight-through cable. When connecting the switch to hubs or other switches, use a twisted-pair crossover cable.
The 10/100/1000 ports on the Catalyst 2950T-24 switch can be explicitly set to operate at 10, 100, or 1000 Mb/s, but only in full-duplex mode. The 10/100/1000 ports on the Catalyst 2950T-48-SI and Catalyst 2950 LRE switches can be explicitly set to operate at 10 or 100 Mb/s in full- or half-duplex mode or at 1000 Mb/s in full-duplex mode.
The 10/100/1000 ports can also be set for speed autonegotiation, compliant with IEEE 802.3AB. In all cases, the cable length from a switch to an attached device cannot exceed 328 feet (100 meters).
Within each logical port, end-user can use only the copper or the fiber-optic port at one time. If a Catalyst 2950 LRE switch senses more than two connections for both logical ports, the switch chooses the fiber-optic connections over the copper connections in default operation.
100BASE-FX and 1000BASE-SX Ports:
The 100BASE-FX and 1000BASE-SX ports both use 50/125- or 62.5/125-micron multimode fiber-optic cabling. The 100BASE-FX ports operate only at 100 Mb/s in full-duplex mode, and the 1000BASE-SX ports operate only at 1000 Mb/s in full-duplex mode.
In full-duplex mode, the cable length from a 100BASE-FX port on a switch to an attached device cannot exceed 6562 feet (2 kilometers). The cable length from a 1000BASE-SX port on a switch to an attached device cannot exceed 1804 feet (550 meters).
end-user can connect a 100BASE-FX or 1000BASE-SX port to an SC or ST port on a target device by using one of the MT-RJ fiber-optic patch cables listed in Table 2-1. Use the Cisco part numbers in Table 2-1 to order the patch cables that end-user need.
LRE Port:
The LRE port (shown in Figure 1-8) uses one RJ-21 connector to connect up to 24 Cisco LRE CPE devices through structured or unstructured wiring, such as existing telephone lines. The link between the LRE switch port and each CPE device can reach speeds of up to 15 Mb/s (full duplex) over distances of up to 4921 feet (1500 meters).
Certain Catalyst 2950 LRE switches support certain Cisco LRE CPE devices. Table 1 shows which LRE switches support which CPE devices.
End-user can connect the Cisco 575 LRE CPE and Cisco 585 LRE CPE devices to LRE ports on the same Catalyst 2950ST-8 LRE or 2950ST-24 LRE switch. end-user can connect the Cisco 576 LRE CPE 997 device only to LRE ports on a Catalyst 2950ST-24 LRE 997 switch. end-user can hot swap the CPE devices without powering down the switch or disrupting the other switch ports.
The default mode for each LRE port is speed autosensing and half-duplex operation. For information about configuring the LRE ports, see the switch software configuration guide.
If telephone services, such as voice or an Integrated Services Digital Network (ISDN), use the same cabling as LRE traffic, the LRE port must be connected to the patch panel through a plain old telephone service (POTS) splitter. The splitter routes LRE data (high-frequency) and voice (low-frequency) traffic from the telephone line to the switch and private branch exchange (PBX) switch or public switched telephone network (PSTN).
If the other telephone services are connected through a PBX switch, a non-homologated POTS splitter, such as the Cisco LRE 48 POTS Splitter, can be used. The PBX routes voice traffic to private telephone networks and the PSTN. For more information about the Cisco LRE 48 POTS Splitter (PS-1M-LRE-48), see the Installation and Warranty Notes for the Cisco LRE 48 POTS Splitter.
If the installation does not have a PBX, a certified, homologated POTS splitter is required to connect directly to the PSTN.
If a connection to a telephone network is not required, a splitter is not needed, and the switch can connect directly to the patch panel.
For more information about the Cisco LRE CPE devices, see the Cisco LRE CPE Hardware Installation Guide.
GBIC Module Ports:
The GBIC module slots support these modules:
-
1000BASE-SX GBIC module for fiber-optic connections that cannot exceed 1804 feet (550 meters).
-
1000BASE-LX/LH GBIC module for fiber-optic connections that cannot exceed 32,810 feet (10 kilometers).
-
1000BASE-ZX GBIC module for fiber-optic connections that cannot exceed 328,100 feet (100 kilometers).
-
1000BASE-T GBIC module for copper connections that cannot exceed 328 feet (100 meters).
-
CWDM GBIC module for single-mode fiber-optic connections that cannot exceed 393,719 feet (120 kilometers).
-
GigaStack GBIC module for creating a 1-Gb/s stack configuration of up to nine supported switches. The GigaStack GBIC supports one full-duplex link (in a point-to-point configuration) or up to nine half-duplex links (in a stack configuration) to other Gigabit Ethernet devices. Using the required Cisco proprietary signaling and cabling, the GigaStack GBIC-to-GigaStack GBIC connection cannot exceed 3 feet (1 meter).
- Cisco-approved CWDM GBIC modules have a serial EEPROM that contains the module serial number, the vendor name and ID, a unique security code, and cyclic redundancy check (CRC). When a GBIC module is inserted in the switch, the switch software reads the EEPROM to check the serial number, vendor name, and vendor ID and recomputes the security code and CRC. If the serial number, the vendor name or ID, security code, or CRC is invalid, the switch places the interface in an error-disabled state.
- If end-user are using a non-Cisco approved CWDM GBIC module, remove the module from the switch, and replace it with a Cisco-approved module.
For more information about these GBIC modules, see end-userr GBIC module documentation.
SFP Module Slots:
On the Catalyst 2950 LRE switch, the SFP module slots support the SFP modules listed in the Catalyst 2950 LRE switch release notes.
The Catalyst 2950 LRE switch has four physical input ports that are logically bundled as two ports. Each logical port consists of a copper 10/100/1000 port and a fiber-optic SFP module slot. These ports appear as a vertical column on the front panel and are labeled Uplink Port 1 and Uplink Port 2.
Within each port, end-user can use only one of the two physical ports, either the SFP module port or the 10/100/1000 port. For example, end-user can connect to either the SFP module port or the 10/100/1000 port on Uplink Port 1. If end-user connect to both, in default operation, the SFP module port has priority over the 10/100/1000 port. Using this example, a valid configuration would be connecting to the fiber-optic port on Uplink Port 1 and the copper port on Uplink Port 2.
For more information about the media-type {sfp | rj45 | auto-select} command, see the switch command reference.
SFP Modules:
The LRE switches use Ethernet SFP modules to establish uplink connections to other devices. The SFP modules are inserted into SFP module slots on the front of the Catalyst 2950 LRE switches. These transceiver modules are field-replaceable.
End-user should use fiber-optic cables with LC or MT-RJ connectors to connect to fiber-optic SFP modules. End-user should use Category 5 cable with RJ-45 connectors to connect to 1000BASE-T SFP modules.
The SFP modules support nominal wavelengths from 850 to 1550 nanometers (nm). See the Catalyst 2950 LRE switch release notes for the list of supported SFP modules.
When determining where to place the switch, be sure to observe these requirements:
-
For 10/100/1000 ports, including 1000BASE-T SFP module ports, cable lengths from the switch to connected devices are up to 328 feet (100 meters).
-
Table 1-2 lists the cable specifications for 1000BASE-SX, 1000BASE-LX, and 1000BASE-ZX fiber-optic SFP module connections. Each port must match the wave-length specifications on the other end of the cable, and for reliable communications, the cable must not exceed the stipulated cable length.
Table 2 Fiber-Optic SFP Module Port Cabling Specifications
|
SFP Module
|
Wavelength (nanometers)
|
Fiber Type
|
Core Size (micron)
|
Modal Bandwidth (MHz/km)
|
Cable Distance
|
|---|---|---|---|---|---|
|
1000BASE-SX
|
850
|
MMF
|
62.5
62.5
50
50
|
160
200
400
500
|
220 m (722 ft)
275 m (902 ft)
500 m (1640 ft)
550 m (1804 ft)
|
|
1000BASE-LX/LH
|
1300
|
MMF (1)
SMF
|
62.5
50
50
9/10
|
500
400
500
—
|
550 m (1804 ft)
550 m (1804 ft)
550 m (1804 ft)
10 km (32,810 ft)
|
|
1000BASE-ZX
|
1550
|
SMF
|
9/10
|
—
|
43.4 to 62 miles (70 to 100 km) (2)
|
-
A mode-conditioning patch cord is required. Using an ordinary patch cord with MMF, 1000BASE-LX/LH SFP modules, and a short link distance can cause transceiver saturation, resulting in an elevated bit error rate (BER). When using the LX/LH SFP module with 62.5-micron diameter MMF, end-user must also install a mode-conditioning patch cord between the SFP module and the MMF cable on both the sending and receiving ends of the link. The mode-conditioning patch cord is required for link distances greater than 984 feet (300 m).
-
1000BASE-ZX SFP modules can send up to 62 miles (100 km) by using dispersion-shifted SMF or low-attenuation SMF; the distance depends on the fiber quality, the number of splices, and the connectors.
- When using shorter distances of single-mode fiber cable, end-user might need to insert an inline optical attenuator in the link to avoid overloading the receiver. When the fiber-optic cable span is less than15.43 miles (25 km), end-user should insert a 5-decibel (dB) or 10-dB inline optical attenuator between the fiber-optic cable plant and the receiving port on the 1000BASE-ZX SFP module at each end of the link. Use only Cisco-approved SFP modules on the Catalyst 2950 LRE switch.
- Cisco-approved SFP modules have a serial EEPROM that contains the module serial number, the vendor name and ID, a unique security code, and cyclic redundancy check (CRC). When an SFP module is inserted in the switch, the switch software reads the EEPROM to check the serial number, vendor name, and vendor ID and recomputes the security code and CRC. If the serial number, the vendor name or ID, security code, or CRC is invalid, the switch places the interface in an error-disabled state.
- If end-user are using a non-Cisco approved SFP module, remove the module from the switch, and replace it with a Cisco-approved module.
For more information about these SFP modules, see end-userr SFP module documentation.
LEDs:
End-user can use the LEDs to monitor switch activity and performance. The locations and numbers of the LEDs vary among switch models. The location of the Mode button that end-user uses to select the port mode also varies by model. See these figures:
-
Figure 15 for the Catalyst 2950-12, 2950-24, 2950C-24, 2950SX-24, and 2950T-24 switches
-
Figure 16 for the Catalyst 2950G-12-EI, 2950G-24-EI, and 2950G-24-EI-DC switches
-
Figure 17 for the Catalyst 2950G-48-EI, Catalyst 2950SX-48-SI, and Catalyst 2950T-48-SI switches
-
Figure 18 for the Catalyst 2950ST-8 LRE and 2950ST-24 LRE switches
-
Figure 19 for the Catalyst 2950ST-24 LRE 997 switches
All LEDs (except the utilization meter [UTIL]) are visible through the GUI management applications—the Network Assistant application for multiple switches and the device manager for a single switch. The switch software configuration guide describes how to use the command-line interface (CLI) to configure and to monitor individual switches and switch clusters.
Figure 15: LEDs on Catalyst 2950-12, 2950-24, 2950C-24, 2950SX-24, and 2950T-24 Switches
Figure 16: LEDs on Catalyst 2950G-12-EI, 2950G-24-EI, and 2950G-24-EI-DC Switches
Figure 17: LEDs on Catalyst 2950G-48-EI, 2950SX-48-SI, and 2950T-48-SI Switches
Figure 18: LEDs on Catalyst 2950ST-8 LRE and 2950ST-24 LRE Switches
Figure 19: LEDs on Catalyst 2950ST-24 LRE 997 Switches
System LED:
The system LED shows whether the system is receiving power and functioning properly. Table 3 lists the LED colors and meanings.
|
Color
|
System Status
|
|---|---|
|
Off
|
System is not powered up.
|
|
Green
|
System is operating normally.
|
|
Amber
|
System is receiving power but is not functioning properly.
|
RPS LED:
The RPS LED shows the RPS status. Table 1-4 lists the LED colors and meanings.
|
Color
|
RPS Status
|
|---|---|
|
Off
|
RPS is off or is not installed.
|
|
Solid green
|
RPS is connected and ready to provide back-up power.
|
|
Flashing green
|
RPS is connected but is unavailable because it is providing power to another device (redundancy has been allocated to a neighboring device).
|
|
Solid amber
|
RPS is in standby mode or in a fault condition. Press the Standby/Active button on the RPS, and the LED should turn green. If it does not, the RPS fan could have failed. Contact Cisco Systems.
|
|
Flashing amber
|
The internal power supply in a switch has failed, and the RPS is providing power to the switch (redundancy has been allocated to this device).
|
Port Mode and Port Status LEDs:
To select or change the port mode, press the Mode button (see Figure 15 to Figure 18) to highlight the mode that end-user want. Release the button to enable the highlighted mode.
Each port has a port status LED, also called a port LED. These LEDs, as a group or individually, display information about the switch and the individual ports. The port modes (see Table 5) determine the type of information displayed.
|
Mode LED
|
Port Mode
|
Description
|
|---|---|---|
|
STAT
|
Port status
|
The port status. This is the default mode.
|
|
UTIL(1)
|
Switch utilization
|
The bandwidth in use by the switch.
|
|
DUPLX
|
Port duplex mode
|
The port duplex mode: half duplex or full duplex.
|
|
SPEED
|
Port speed
|
The port operating speed: 10 or 100 Mb/s for 10/100 ports and 10, 100, or 1000 Mb/s for 10/100/1000 ports.
|
-
A Catalyst 2950 LRE switch does not have a UTIL or a DUPLX LED.
When end-user change the port mode, the meanings of the port LED colors change. Table 6 explains how to interpret these colors for the non-LRE switches. Table 7 explains how to interpret the colors for the LRE switches. The port LEDs are off when the MODE is set to SPEED.
-
On an LRE switch, the LEDs for Uplink Port 1 and Uplink Port 2 correspond either to the SFP module port or to the 10/100/1000 port, depending on which is active.
-
If an LRE switch senses connections to both ports, by default, the switch chooses the fiber-optic connection over the copper connection.
For more information about GBIC LEDs, see end-userr GBIC module documentation.
Figure 20 to Figure 24 show the bandwidth utilization percentages displayed by the right-most LEDs.
If all LEDs on a Catalyst 2950-12, 2950-24, 2950C-24, 2950SX-24, or 2950T-24 switch are green (no amber showing), the switch is using 50 percent or more of the total bandwidth. If the far-right LED is off, the switch is using more than 25 but less than 50 percent of the total bandwidth, and so on. If only the far-left LED is green, the switch is using less than 0.0488 percent of the total bandwidth. (See Figure 20 and Figure 21.)
Figure 20: Bandwidth Utilization on Catalyst 2950-12 Switches
Figure 21: Bandwidth Utilization on Catalyst 2950-24, 2950C-24, 2950SX-24, and 2950T-24 Switches
If all LEDs on a Catalyst 2950G-12-EI switch are green (no amber showing), the switch is using 50 percent or more of the total bandwidth. If the LED for GBIC module slot 2 is off, the switch is using more than 25 but less than 50 percent of the total bandwidth. If LEDs for both GBIC module slots are off, the switch is using less than 25 percent of the total bandwidth, and so on. (See Figure 22.)
Figure 22: Bandwidth Utilization on Catalyst 2950G-12-EI Switches
If all LEDs on a Catalyst 2950G-24-EI or 2950G-24-EI-DC switch are green (no amber showing), the switch is using 50 percent or more of the total bandwidth. If the LED for GBIC module slot 2 is off, the switch is using more than 25 but less than 50 percent of the total bandwidth. If LEDs for both GBIC module slots are off, the switch is using less than 25 percent of the total bandwidth, and so on. (See Figure 23.)
Figure 23: Bandwidth Utilization on Catalyst 2950G-24-EI and 2950G-24-EI-DC Switches
If all LEDs on a Catalyst 2950G-48-EI, 2950SX-48-SI, or 2950T-48-SI switch are green, the switch is using 50 percent or more of the total bandwidth. If the LED for GBIC module slot 2 is off, the switch is using more than 25 but less than 50 percent of the total bandwidth. If LEDs for both GBIC module slots are off, the switch is using less than 25 percent of the total bandwidth, and so on. (See Figure 24.)
Figure 24: Bandwidth Utilization on Catalyst 2950G-48-EI, 2950SX-48-SI, and 2950T-48-SI Switches
Rear-Panel Description:
Other than the Catalyst 2950G-24-EI-DC switch and the Catalyst 2950 LRE switches, the rear panel of a Catalyst 2950 switch has an AC power connector, an RPS connector, and an RJ-45 console port. (See Figure 25 and Figure 26.)
The rear panel of the Catalyst 2950G-24-EI-DC switch has a DC power connector (also referred to as the terminal block header), a DC ground lug, an RPS connector, and an RJ-45 console port. (See Figure 27.)
The rear panel of the Catalyst 2950ST-8 LRE, 2950ST-24 LRE, and 2950ST-24 LRE 997 switches has only an RPS connector. (See Figure 28.)
Figure 25: Catalyst 2950 Switch Rear Panel
Figure 26: Catalyst 2950G-48-EI, Catalyst 2950SX-48-SI, and Catalyst 2950T-48-SI Switch Rear Panel
Figure 27: Catalyst 2950G-24-EI-DC Switch Rear Panel
Figure 28: Catalyst 2950ST-8 LRE Switch, Catalyst 2950ST-24 LRE, and Catalyst 2950ST-24 LRE 997 Switch Rear Panel
Power Connectors:
End-user can provide power to a switch by using the AC internal power supply, the DC-input power source, or the Cisco RPS.
Internal Power Supply Connector:
The internal AC power supply is an autoranging unit that supports input voltages between 100 and 240 VAC. Other than for the Catalyst 2950G-24-EI-DC and the Catalyst 2950ST-24 LRE 997 switches, use the supplied AC power cord to connect the AC power connector to an AC power outlet.
End-user can order these L-shaped AC power cords from end-userr Cisco sales representative:
-
CAB-NP1200-AC-AR=
-
CAB-NP1200-AC-AU=
-
CAB-NP1200-AC-CH=
-
CAB-NP1200-AC-EU=
-
CAB-NP1200-AC-IT=
-
CAB-NP1200-AC-JP=
-
CAB-NP1200-AC-UK=
-
CAB-NP1200-AC-US=
DC Power Connector:
The Catalyst 2950G-24-EI-DC and Catalyst 2950ST-24 LRE 997 switches have an internal DC-power converter. It has dual feeds (A and B) that are diode-OR-ed into a single power block.
Cisco RPS Connector:
Specific Cisco RPS models support specific Catalyst 2950 switches:
-
Cisco RPS 300 (model PWR300-AC-RPS-N1)
-
Cisco RPS 675 (model PWR675-AC-RPS-N1=)
Cisco RPS 300:
The Cisco RPS 300 has two output levels: -48 V and 12 V with a total maximum output power of 300 W. Use the supplied RPS connector cable to connect the RPS to the switch.
The RPS is a 300 W redundant power system that can support six external network devices and provides DC power to one failed device at a time. It automatically senses when the internal power supply of a connected device fails and provides power to that device, preventing loss of network traffic
For more information, see the Cisco RPS 300 documentation.
Cisco RPS 675:
The Cisco RPS 675 has two output levels: -48 V and 12 V with a total maximum output power of 675 W. Use the supplied RPS connector cable to connect the RPS to the switch.
The RPS is a 675 W redundant power system that can support six external network devices and provides DC power to one failed device at a time. It automatically senses when the internal power supply of a connected device fails and provides power to that device, preventing loss of network traffic.
For more information, see the Cisco RPS 675 documentation.
Console Port:
End-user can connect a switch to a PC through the console port and the supplied RJ-45-to-DB-9 adapter cable. If end-user wants to connect a switch to a terminal, end-user needs to provide an RJ-45-to-DB-25 female DTE adapter. End-user can order a kit (part number ACS-DSBUASYN=) with that adapter from Cisco.
Management Options:
Catalyst 2950 switches offer these management options:
-
Network Assistant
The Network Assistant is a GUI-based application that end-user can install and run on end-userr desktop; end-user do not need a web browser to run it. end-user can use Network Assistant to manage and monitor switch clusters or standalone devices. For more information, see the Getting Started with Cisco Network Assistant guide and the Network Assistant online help.
-
Device Manager
End-user can use the device manager, which is in the switch memory, to manage individual and standalone switches. Use the device manager to perform basic switch configuration and monitoring. End-user can access the device manager from anywhere in the network through a web browser.
To launch the Device Manager, enter the switch IP address in the web browser, and press Enter. The device manager page appears.
Refer to the device manager online help for more information.
-
Cisco IOS CLI
End-user can manage switches by using command-line entries. To access the CLI, connect a PC or a terminal directly to the console port on the switch. If the switch is attached to the network, end-user can use a Telnet connection to manage the switch from a remote location. For more information, see the switch command reference.
-
CiscoView application
End-user can use the CiscoView device-management application to set configuration parameters and to view switch status and performance information. This application, which end-user purchases separately, can be a standalone application or part of an Simple Network Management Protocol (SNMP) network-management platform. For more information, see the documentation that came with the CiscoView application.
-
SNMP network management
End-user can manage switches by using an SNMP-compatible management station running platforms such as HP OpenView and SunNet Manager. The switch supports a comprehensive set of management information base (MIB) extensions and MIB II, the IEEE 802.1D bridge MIB, and four Remote Monitoring (RMON) groups. For more information, see the documentation that came with the SNMP application.
-
Cisco Intelligence Engine 2100 (IE2100)
The Cisco IE200 Series Configuration Registrar is a network management device that works with embedded Cisco Networking Services (CNS) agents in the switch software. End-user can automate initial configurations and configuration updates by generating switch-specific configuration changes, sending them to the switch, executing the configuration change, and logging the results.
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