ALCATEL.
Table of Contents OmniSwitch 9000 Series _____________________________________________________ 3 Introduction __________________________________________________________________________ 3 The OmniSwitch 9000 Family ___________________________________________________________________ 4 OmniSwitch 9600___________________________________________________________________________ 5 OmniSwitch 9700___________________________________________________________________________ 5 OmniSwitch 9800___________________________
Module Priorities during Boot Sequence ___________________________________________________________ 43 Installing a New NI into a Running Chassis ________________________________________________________ 43 Auto negotiation Guidelines ____________________________________________________________________ 44 Valid Port Settings on OmniSwitch 9000 Series Switches _____________________________________________ 44 10/100/1000 Crossover Supported _______________________________________________________________ 44 10/1
OmniSwitch 9000 Series Introduction As Enterprises search for competitive advantages in the market place and become increasingly dependent on their networks to conduct business, new network requirements have rapidly emerged, exceeding the capabilities of successive technological advancements.
The OmniSwitch 9000 Family The OmniSwitch 9000 platforms provide high availability, embedded security, distributed intelligence, easy-to-manage, high performance, and high throughput designed mainly for enterprise core networks. These features are available in a compact form factor at an extremely aggressive price point 4.2.
OmniSwitch 9600 The OmniSwitch 9600 (OS9600) is Alcatel’s low-cost, entry-point LAN switch solution that provides the small enterprise the best performance-to-price available today. It also future proofs the investment since the network can be expanded to support a larger core inexpensively by reusing its current OS9000 cards in the larger chassis offered by the OS9700 and OS9800.
OmniSwitch 9800 For those applications where a much larger port density is required, the OS9800 doubles the OS9700 capabilities with 16 available slots supporting an aggregation of up to 768 Copper GigE ports, 384 Optical Fiber GigE ports or 96 10GigE ports along with two slots for control (Plus, the OS9800 has subcomponents such as the power supply unit (PSU), fan tray and network interface cards (NICs) that are all compatible and interchangeable with other OS9000s, reducing the cost of keeping spares and
Hardware Overview The OmniSwitch 9000 switches are available in three chassis configurations—the 18-slot OmniSwitch 9800 (OS9800), the 10-slot OmniSwitch 9700 (OS9700), and the 5-slot OmniSwitch 9600 (OS9600). The 18-slot OS9800 offers up to 384 Gigabit Ethernet ports and up to ninety-six 10-Gigabit Ethernet ports.
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OmniSwitch 9800 Chassis Technical Specifications The OmniSwitch 9800 is a 18-slot large enterprise core switch. The OmniSwitch 9800 offers up to 384 Gigabit Ethernet ports and can also be equipped with up to 32/96 (Fully-populated with 16 x OS9-XNI-U2 and/or OS9-XNI-U6 modules, with each XNI containing two or six XFPs) 10-Gigabit Ethernet ports.
OmniSwitch 9700 The OmniSwitch 9700 is a high performance switch offering eight slots for Ethernet, Gigabit Ethernet, and/or 10Gigabit Ethernet Network Interface (NI) modules. Additional two slots are reserved for primary and redundant Chassis Management Modules (CMMs). The OmniSwitch 9700 supports a maximum of three power supplies. Note. Power supply requirements are based on the number of NIs installed in the chassis.
OmniSwitch 9700 Chassis Technical Specifications The OmniSwitch 9700 is a 10-slot large enterprise core switch. The OmniSwitch 9700 offers up to 192 Gigabit Ethernet ports and can also be equipped with up to 16/48 (Fully-populated 8 x OS9-XNI-U2/OS9-XNI-U6 modules, with each XNI containing two or six XFPs) 10-Gigabit Ethernet ports.
OmniSwitch 9600 The OmniSwitch 9600 is a high performance switch offering four slots for Gigabit Ethernet and/or 10- gigabit Ethernet Network Interface (NI) modules. An additional one slot is reserved for the primary Chassis Management Module (CMM). The OmniSwitch 9600 supports a maximum of two load sharing power supplies on the front panel and there are optional power entry provisions, which consist of three DB-25 connectors mounted on the rear panel of the chassis for PoE applications.
OmniSwitch 9600 Chassis Technical Specifications The OmniSwitch 9600 is a 5-slot large enterprise core switch. The OmniSwitch 9600 offers up to 96 Gigabit Ethernet ports and can also be equipped with up to 8/24 (Fully-populated with 4 x OS9-XNI-U2/OS9-XNI-U6 modules, with each XNI containing two/six XFPs) 10-Gigabit Ethernet ports.
Chassis Slot Numbering The term slot refers to the position at which a CMM or NI module is installed in chassis. CMM slot positions are designated as Slot A and Slot B. On OS9800 switches, NI slot numbers range from 1 to 16. On OS9700 switches, NI slot numbers range from 1 to 8. On OS9600 switches, NI slot numbers range from 1 to 4. Note. The OS9600 contains only one CMM slot. Power supply bays are also given specific slot numbers.
OS9000 Chassis Management Module (CMM) The Chassis Management Module (CMM) is the management unit for OmniSwitch 9000 Series switches.
CMM Slot Locations In a non-redundant (i.e., single CMM) configuration, the CMM module can be installed in either Slot A or Slot B of the chassis. In a redundant CMM configuration, a CMM module is installed in both Slot A and Slot B. Both non-redundant and redundant CMM configurations can be performed on OS9700 and OS9800 switches. Note. CMM redundancy is not supported on the OS9600 switch because it contains only one CMM slot. Note that the CMM slots are longer than the Network Interface (NI) slots.
Hot Swapping CMM Modules Hot swapping a CMM refers to the action of adding, removing, or replacing a CMM module while the switch is operating. You are not required to enter a CLI command in order to hot swap CMM modules. This function can be performed on the fly by simply removing the module from the switch chassis. Note. Hot Swapping the CMM module is not possible on the OS9600 because it contains only one CMM slot.
CMM Front Panel Alcatel-Lucent OmniSwitch 9000 Page 18
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OS9000 Network Interface Modules Several Gigabit Network Interface (GNI) modules and 10 Gigabit Network Interface (XNI) modules are currently available for OmniSwitch 9000 Series switches. These modules come in a variety of port speeds, including auto-sensing 10/100/1000Mbps Ethernet, Gigabit Ethernet (1Gbps), and 10 Gigabit Ethernet (10Gbps).
OS9-GNI-U24 Gigabit Ethernet Module Alcatel-Lucent OmniSwitch 9000 Page 21
OS9-GNI-U24 Technical Specifications Overview OS9-GNI-U24 Technical Specifications Overview 24 x 1000BASE- X Gigabit Ethernet SFP-MSA Hot Pluggable transceiver slots LC IEEE 802.3z; 1000BASE-X 1 Gigabit per second (full duplex) 9,216 bytes. OS9-GNI-U24 modules support jumbo frames (1,500 to 9,216 bytes) There are now two source learning modes available for the OmniSwitch 9000 Series switches: synchronized and distributed.
• • SFP MSA Specifications SFP-MSA Connector: The SFP connector consists of a 20-pin receptacle and a SFP housing cage. The 20-pin connector provides the interface for the hot Pluggable SFP module. Each SFP module contains a serial interface to provide identification information that describes the SFP capabilities, standard interfaces, manufacturer and other information. LC Connector: The LC connector is a fiber-optic cable connector that uses one-half the size of current industry standards.
Connections supported Fiber optic cable supported Wavelength Transmitter Average Output Optical Power Receiver Sensitivity Power Budget* Cable distances** Features Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Power Receiver Sensitivity Power Budget* Cable distances** Features Connector Type Standards supported Alcatel-Lucent OmniSwitch 9000 Compatible with ANSI specifications for Fiber Channel Compatible with FCC 47 CFR
Connections supported Fiber optic cable supported Wavelength Transmitter Average Output Optical Power Receiver Sensitivity Power Budget* Cable distances** Overview Features Function Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Power Receiver Sensitivity Power Budget* Cable distances** Features Connector Type Standards supported Connections supported Copper Cables supported Alcatel-Lucent OmniSwitch 9000 Compatible with SFP
Cable distances Features Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Average Output Optical Power Receiver Sensitivity Power Budget* Transmitter Average Output Optical Power Receiver Sensitivity Power Budget* Cable distances** SFP compatibility notes Features Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Alcatel-Lucent OmniSwitch 9000 ≈ 100m at 1000Mbps and full-duplex mode SFP-DUAL-MM
Transmitter Average Output Optical Power Receiver Sensitivity Power Budget* Transmitter Average Output Optical Power Receiver Sensitivity Power Budget* Cable distances** SFP compatibility notes Min: -9.5 dBm and Max: -3 dBm Min: 0 and Max: -22 dBm 12.5 dBm ( 22 – 9.5 = 12.5 dBm) 100BASE-LX Min: -15 dBm and Max: -8 dBm Min: 0 and Max: -28 dBm 13 dBm ( 28 – 15 = 13 dBm) 0.
Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Power Input Optical Power Power Budget* Cable distances** Features Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Power Input Optical Power Power Budget* Cable distances** Features Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Pow
Features Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Power Input Optical Power Power Budget* Cable distances** Features Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Power Input Optical Power Power Budget* Cable distances** Features Connector Type Alcatel-Lucent OmniSwitch 9000 SFP-GIG-55CWD60 Technical Specifications Eight (8) Wavelength CWDM Tr
Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Power Input Optical Power Power Budget* Cable distances** Features Connector Type Standards supported Connections supported Fiber optic cable supported Wavelength Transmitter Output Optical Power Input Optical Power Power Budget* Cable distances** Alcatel-Lucent OmniSwitch 9000 Supports operation for layer-2, and layer-3 forwarding IEEE 802.
OS9-GNI-C24 Gigabit Ethernet Module Alcatel-Lucent OmniSwitch 9000 Page 31
OS9-GNI-C24 Technical Specifications Overview Number of MiniGBIC ports Connector types Standards supported Data rate Maximum frame size MAC addresses supported 10Mbps Connections supported 100Mbps Connections supported 1000Mbps Connections supported 10Mbps Cables supported 100Mbps Cables supported 1000Mbps Cables supported Maximum Cable Distance Power consumption Alcatel-Lucent OmniSwitch 9000 OS9-GNI-C24 Technical Specifications Overview 24 x 1000BASE-T twisted Pair RJ-45 IEEE 802.3z; IEEE 802.
OS9-GNI-P24 Module Alcatel-Lucent OmniSwitch 9000 Page 33
OS9-GNI-P24 Technical Specifications Overview Number of MiniGBIC ports Connector types Standards supported Data rate Maximum frame size MAC addresses supported 10Mbps Connections supported 100Mbps Connections supported 1000Mbps Connections supported 10Mbps Cables supported 100Mbps Cables supported 1000Mbps Cables supported Maximum Cable Distance Power consumption Default amount of inline power allocated per switch slot Default amount of inline power allocated for each port Range of inline power allowed fo
XNI Modules OmniSwitch 9000 Series 10 Gigabit Network Interface (XNI) modules provide up to six 10000 Mbps (10Gbps) connections per module. In addition, XNI modules can be used in enterprise applications including backbone connections in networks where 10 Gigabit Ethernet is used as the backbone media. XNI modules are supported during CMM failover. The following wire-rate 10Gbps XNI modules are available: • OS9-XNI-U2. Provides two XFP slots: The OS9-XNI-U2 module provides two XFP slots.
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OS9-XNI-U6 Technical Specifications Overview OS9-XNI-U6 Technical Specifications Overview 6 x 10GBASE-X slots LC IEEE 802.3ae & 10-Gigabit Ethernet for 10GBASE-SR/-LR/-ER/-ZR 10 Gigabit per second (full duplex) 9,216 bytes. OS9-XNI-U2 modules support jumbo frames (1,500 to 9,216 bytes) There are now two source learning modes available for the OmniSwitch 9000 Series switches: synchronized and distributed.
OS9-XNI-U6 Module Alcatel-Lucent OmniSwitch 9000 Page 38
10Gbps Small Form Factor Pluggable (XFPs) 10Gbps Small Form Factor Pluggable (XFPs) are fiber-based optical transceivers. XFPs are fully hot-swappable and are available for both short-reach and long-reach applications. The following XFP types are available: • The XFP-10G-LR is a long-reach 10-gigabit optical transceiver that supports single mode fiber over 1310 nm wavelengths. It also supports 10 micron fiber up to a maximum distance of 10km.
XFP-10G Specifications XFP-10G-LR Technical Specifications ■ Compact form factor according to 10 Gigabit Small Form Factor Pluggable (XFP) Multi Source Agreement, Release 3.1 ■ Multiple rate and multiple protocol support —SMF: 10GE / 10GFC / SONET / SDH —MMF: 10GE / 10GFC ■ XFP MSA compliant management and diagnostic interface ■ Z-Axis hot-plug capability ■ XFI serial data Interface via 30-Pin, XFP connector ■ Support link spans up to 10km with single mode fiber and 300m with multimode fiber ■ IEEE 802.
XFP-10G-ER40 Technical Specifications Supports 9.95Gb/s to 10.7Gb/s bit rates • Hot-pluggable XFP footprint • Maximum link length of 40km • Temperature-stabilized EML transmitter • Duplex LC connector • Power dissipation <3.5W • Built-in digital diagnostic functions • Temperature range: -5°C to 70°C Standards Supported IEEE 802.
Availability Feature The switch provides a broad variety of Availability features. Availability features are hardware and software-based safeguards that help prevent the loss of data flow in the unlikely event of a subsystem failure. In addition, some Availability features allow you to maintain or replace hardware components without powering off your switch or interrupting switch operations.
Hardware Monitoring Automatic Monitoring Automatic monitoring refers to the switch’s inbuilt sensors that automatically monitor operations. The majority of automatic monitoring is provided by the CMM. If an error is detected (e.g., over-threshold temperature), the CMM immediately sends a trap to the user. The trap is displayed on the console in the form of a text error message. (In the case of an over-threshold temperature condition, the CMM displays an amber TEMP LED in addition to sending a trap.
Auto negotiation Guidelines Please note a link will not be established on any copper Ethernet port if any one of the following is true: • The local port advertises 100 Mbps full duplex and the remote link partner is forced to 100 Mbps full duplex. • The local port advertises 100 Mbps full duplex and the remote link partner is forced to 100 Mbps half duplex. • The local port advertises 10 Mbps full duplex and the remote link partner is forced to 10 Mbps full duplex.
The OmniSwitch 9000 Series Power Supply System The OmniSwitch 9800 switch provides space to support four load-sharing power supplies. A fully loaded OmniSwitch 9800 switch will operate normally with three power supplies; the fourth power supply can be installed for redundancy. The OmniSwitch 9700 switch provides space to support three load-sharing power supplies. A fully loaded OmniSwitch 9700 switch will operate normally with two power supplies; the third power supply can be installed for redundancy.
600Watt AC-to-DC Power Supply The OmniSwitch 9800 supports a total of four power supplies; the OmniSwitch 9700 supports a total of three power supplies; the OmniSwitch 9600 supports a total of two power supplies. The power supplies are installed in the power supply bays located at the right side of the chassis.
600Watt DC-to-DC Power Supply In addition to AC-to-DC power supplies, the OS9000 switches offer DC-to-DC power support (OS9-PS-0600D). The DC-to-DC power supplies are installed in the power supply bays located along the right side of the chassis.
Power Supply Specifications Chassis AC-to-DC Power Supply OmniSwitch 9000 Series of switches support an enclosed 600watts DC single output power supply for worldwide use as a maximum of up to N+1 power system configuration. The power supply is protected such that a short at the output to return will not result in a fire hazard, or shock hazard to the power supply. The power supply will recover automatically.
Chassis DC-to-DC (nominal -48 VDC input) Power Supply OmniSwitch 9000 Series of switches support an enclosed 600watts DC single output power supply for worldwide use as a maximum of up to N+1 power system configuration. The power supply is protected such that a short at the output to return does not result in a fire hazard, or shock hazard to the power supply. The power supply recovers automatically.
PoE AC-to-DC Power Supply OmniSwitch 9000 Series of switches support an enclosed 600-Watt single output AC-to-DC power supply for worldwide use as a maximum of up to N+1 power system configuration in support of PoE feature (IEEE 802.3af compliant). The power supply is protected such that a short at the output to return will not result in a fire hazard, or shock hazard to the power supply. The power supply will recover automatically.
OmniSwitch 9000 Series – Hardware & Software Features Overview Table C Chhaassssiiss TTeecchhnniiccaall SSppeecciiffiiccaattiioonnss Note: 1 inch = 2.54 centimeters & One Rack Unit = 1.75" & 1 kg = 2.2046 lbs & 1 watt ≈ 3.41214 BTU/hr.
OmniSwitch-9700 Dimensions & Weights Weight (fully loaded): < 60kg or 133lbs Dimensions: 17.400″ (W) x 19.250″ (H) x 17.312″ (D) 1 OmniSwitch-9600 Dimensions & Weights Weight (fully loaded): < 30kg or 66 lbs Dimensions: 19.00″ (W) x 9.575″ (H) x 14.432″ (D) OmniSwitch-9700 & OmniSwitch-9800 Shipping Box Dimensions Maximum Power Consumption per board Alcatel-Lucent OmniSwitch 9000 Backplane assembly: 14.675″ (W) x 15.022″ (H) x 0.25″ (thickness) & 7 lb or 3.17 kg Power supply: 3.725″ (W) x 13.
Power Consumption example for OmniSwitch 9800 Power Consumption & Heat Dissipation examples for the OmniSwitch 9800 Note: for all practical situations, all heat dissipation calculations are based on Maximum Power Consumption (Max Power Draw) Alcatel-Lucent OmniSwitch 9000 Power consumption calculation methodology: (One OS9800 chassis + the fan-tray) + 2 x OS9800-CMM + 16 x OS9-GNI-U24; Total System Power (“load”): 80watts + 2 x 40watts + 16 x 55watts = 1040watts Total AC input power required is: 1,386.
Power Consumption example for OmniSwitch 9700 Power Consumption & Heat Dissipation examples for the OmniSwitch 9700 Note: for all practical situations, all heat dissipation calculations are based on Maximum Power Consumption (Max Power Draw) Alcatel-Lucent OmniSwitch 9000 Power consumption calculation methodology: (One OS9700 chassis + the fan-tray) + 2 x OS9700-CMM + 8 x OS9-GNI-U24; Total System Power (“load”): 80watts + 2 x 27watts + 8 x 55watts = 574watts Total AC input power required is: 765.
Power Consumption example for OmniSwitch 9600 Heat Dissipation example for the OmniSwitch 9600 Note: for all practical situations, all heat dissipation calculations are based on Maximum Power Consumption (Max Power Draw) Power consumption calculation methodology: (One OS9600 chassis + the fan-tray) + 1 x OS9600-CMM + 4 x OS9-GNI-U24; Total System Power (“load”): 42watts + 1 x 27watts + 4 x 55watts = 289watts Total AC input power required is: 385.
AC-to-DC Power Supply Input & Output Electrical Parameters Chassis AC-to-DC Power Supply Input Parameters OS9-PS-0600A This power supply is common between OS9600, OS9700 chassis and the OS9800 chassis OS9-PS-0600A single AC-to-DC power supply rated input electrical parameters: Input Power: 800 watts (600 watts / 75%) Input Voltage: 85 to 270VAC auto-ranging (Agency approved unit is indicated as 100 to 240VAC) P/S rating as indicated on the unit: 100VAC input voltage @ 8.
Input Current: 6.96 Amps AC @110VAC and 3.48 Amps AC @220VAC Input electrical parameters for the following OmniSwitch 9600 configuration example: Chassis AC-to-DC Power Supply Output Parameters OS9-PS-0600A Alcatel-Lucent OmniSwitch 9000 (One OS9600 chassis + the fan-tray) + 1 x OS9600-CMM + 4 x OS9-GNI-U24; Total System Power (“load”): 42watts + 1 x 27watts + 4 x 55watts = 289watts Total AC input power required is: 385.
DC-to-DC Power Supply Input & Output Electrical Parameters Chassis DC-to-DC Power Supply Input Parameters OS9-PS-0600D This power supply is common to OS9600, OS9700 and the OS9800 chassis Chassis DC-to-DC Power Supply Output Parameters OS9-PS-0600D Alcatel-Lucent OmniSwitch 9000 OS9-PS-0600D single DC-to-DC power supply rated input electrical parameters: Input Power: 800 watts Input Voltage Range: -40 to –72 VDC or Agency Approved: -41 to –60VDC Nominal Input Voltage: -48VDC (Minus 48 VDC.
Output electrical parameters for the following OmniSwitch-9600 configuration example: (One OS9600 chassis + the fan-tray) + 1 x OS9600-CMM + 4 x OS9-GNI-U24; Total System Power (“load”): 42watts + 1 x 27watts + 4 x 55watts = 289watts Output Power: 289watts DC Output Voltage: 24VDC Output Current: 12.04 Amps DC To meet the required power consumption for the above configuration, two 600 watts DC output power supplies are recommended (one P/S is required based on the “load”).
System Requirements Connections to the Chassis Chassis Management Module (CMM) OS9600-CMM: Chassis Management Module for the OS9600 & OS9700 OS9700-CMM: Chassis Management Module for the OS9600 & OS9700 OS9800-CMM: Chassis Management Module for the OS9800 CMM Redundancy 4.2.5 Chassis Management Module (CMM) LEDs Alcatel-Lucent OmniSwitch 9000 Memory Requirements: • OmniSwitch 9000 Series Release 6.1.3.R01 requires 256 MB of SDRAM and 128MB of flash memory. This is the standard configuration shipped.
Component LEDs NI Modules Installation OS9-GNI-C24 Module (10/100/1000BASE-T module) OS9-GNI-C24 Module LEDs (10/100/1000BASE-T module) OS9-GNI-U24 Module (1000BASE-X module) OS9-GNI-U24 Module LEDs OS9-GNI-P24 Module (10/100/1000BASE-T module with PoE) OS9-GNI-P24 Module LEDs (10/100/1000BASE-T module with PoE) Alcatel-Lucent OmniSwitch 9000 • CMM fabric status (FABRIC) • Chassis ambient air temperature (TEMP) • Fan status (FAN) • Power Supply Unit (PSU) status (PSU) • Ethernet management port (LINK
OS9-XNI-U2 Module (2 x 10-Gigabit Ethernet XFP NI module) OS9-XNI-U2 LEDs Module (2 x 10-Gigabit Ethernet XFP NI module) OS9-XNI-U6 Module (6 x 10-Gigabit Ethernet XFP NI module) OS9-XNI-U6 Module LEDs (6 x 10-Gigabit Ethernet XFP NI module) 10-Gigabit Ethernet XFP XFP-10G-ER40 XFP-10G-LR XFP-10G-SR Alcatel-Lucent OmniSwitch 9000 OS9-XNI-U2: 2 x XFP 10-GigEth ports Each 10 GigEth port supports industry standard XFP based 10GigE SMF 10GBASE-LR, MMF 10GBASE-SR, SMF 10GBASE-ER, and SMF 10BASE-ZR optic
XFP-10G-ZR80 SFP-GIG-47CWD60 SFP-GIG-49CWD60 SFP-GIG-51CWD60 SFP-GIG-53CWD60 SFP-GIG-55CWD60 SFP-GIG-57CWD60 SFP-GIG-59CWD60 SFP-GIG-61CWD60 SFP-GIG-EXTND SFP-GIG-LH40 SFP-GIG-LH70 SFP-GIG-LX SFP-GIG-SX SFP-GIG-T SFP-DUAL-MM SFP-DUAL-SM10 Supports multimode fiber over 850nm wavelength (nominal) with an LC connector. Typical reach of 300m on 50/125µm MMF.
SFP-DUAL-MM - Dual Speed 100Base-FX or 1000Base-X Ethernet optical transceiver. SFP-DUAL-SM10 - Dual Speed 100Base-FX or 1000Base-X Ethernet optical transceiver (SFP MSA) SFP-100-BX20LT - 100Base-BX SFP bi-directional transceiver. SFP-100-BX20NU - 100Base-BX SFP bi-directional transceiver. SFP-100-LC-MM - 100Base-FX SFP transceiver. SFP-100-LC-SM15 - 100Base-FX SFP transceiver. SFP-100-LC-SM40 - 100Base-FX SFP transceiver.
Connector type Connectivity Connections supported Cable supported Maximum cable distance IEEE Standards Supported Data rates Ports Supported 4.2.9 Switching/Routing Support Backbone Support Port Mirroring Support 802.1Q Hardware Tagging Maximum Transfer Unit -- MTU Alcatel-Lucent OmniSwitch 9000 10/1000/1000BASE-T copper ports without PoE: RJ-45 10/100/1000BASE-T copper ports with PoE: RJ-45 Dual Speed 100BASE-FX or 1000BASE-X SFP ports: LC w/ Removable/Pluggable trans.
Inter-Frame Gap Interface Alias (Port Alias) Peak Flood Rate Configuration Flow Control Trap Port Link Messages Per port rate limiting Per-port L2/L3 multicast & broadcast flood limit is supported. Re-settable Statistics Counters Duplex Mode support Auto-negotiation Crossover Alcatel-Lucent OmniSwitch 9000 physical long-frame-size of the egress port as the MTU.
Verifying Ethernet Port Configurations Setting the crossover configuration to auto will configure the interface or interfaces to automatically detect crossover settings. Setting crossover configuration to mdix will configure the interface or interfaces for MDIX (Media Dependent Interface with Crossover), which is the standard for hubs and switches. Setting crossover to mdi will configure the interface or interfaces for MDI (Media Dependent Interface), which is the standard for end stations.
Architecture Note: All NI Modules support local switching. OS9800 Backplane Arch. & Backplane Capacity: capable of 1.92Tbps Backplane capacity of 1.92Tbps -Today, we use 4 lanes going in each direction, to each fabric, out of 8 -Each lane is running at 3.75GHz - 3.75GHz x 4 = 15GHz (15Gbps) - 8B/10B encoding => 12Gbps efficient -If we are running ALL lanes at that speed then: -Each lane, is going to each CMM, in each direction, on 16 slot @ 3.75Gbps - 8 x 2 x 2 x 16 x 3.75 = 1.
The OmniSwitch 9700 fully loaded supports up to 192 Gigabit Eth ports at wire-speeds: 192 * 1,488,095.23 pps = 285,714,284.2pps (285.7Mpps) Throughput Performance Or Forwarding Rate Per Module The OmniSwitch 9800 fully loaded supports up to 384 Gigabit Eth ports at wire-speeds: 384 * 1,488,095.23 pps = 571,428,568.3pps (571.4Mpps) The OS9-GNI-C24 module (24-port 10/100/1000BASE-T RJ45 module) supports up to 24 GigE ports at wire-speeds: 24 * 1,488,095.23 pps = 35,714,285.52pps (35.
In a dual synchronized CMM environment, if a user executes the “takeover” command, then only the processor module of the previous primary CMM would go down and the fabric module would still remain up. This would result in no packet drop.
• • Max. no. of 1x1 STP instances supported per system VLAN Maximum VLANs 4.2.15 VLAN Stacking VLAN Tag Translation (aka “VLAN Tag Overlapping”) Maximum number of BPDUs the switch can handle MAC Address Table L2 MAC Address Table Size Enhancement AOSv6.1.
Max number of configured VLANs per system Max number of system wide Rules Max number of Link Aggregate 4.2.11 DHCP DHCP Option-82 description Auto-negotiation Traffic Control Spanning Tree Port Monitoring Max number of Port Mirroring sessions Port Mapping (aka.
STP convergence time (flat, 1x1, 802.1s) 802.1w rapid reconfiguration Learned MAC addresses per port Learned MAC addresses per system Layer-2 forwarding on Ethernet ports Layer-2 forwarding GigE, known MAC Broadcast per Ingress port Loopback Interface User Definable Loopback Interface Sever Load Balancing (SLB) every port. This feature greatly minimizes the number of VLANs required. Port mapping feature is supported on OS6800/6850/9000. Following are the limitations for the feature.
IP Routing Maximum number of IP route entries (Layer-3 Routing Table Size) (Maximum Routing Information Base – RIB) Max number of IP Router interfaces per system – Single mode Max number of IP routes Max number of IP static routes RIPv1&v2 OSPFv2 Specifications ECMP BGP Routing Limitations Alcatel-Lucent OmniSwitch 9000 • Maximum number of IPv4 routes that can be held in the software routing table: 96K • Maximum number of IPv6 routes that can be held in the software routing table: 5K • Maximum number o
ARP Table: Max number of ARP entries per system Layer-3 forwarding, known IP@64 bytes pkt Layer-3 forwarding, known IP@1518 bytes pkt Layer-3 forwarding, known IP@ Jumbo pkt Trunking 2 VLANs, 64 Bytes pkt Trunking 2 VLANs, 1518 Bytes pkt RIP Learning Rate OSPF Learning Rate Route Convergence for OSPF IPv4 redistribution Groups Multicast support 4.2.
Network Protocols VRRPv3 Large L3 table support IP Routing Maximum number of IP route entries (Layer-3 Routing Table Size) (Maximum Routing Information Base – RIB) Max number of IP Router interfaces per system – Single mode IPv6 routes Max number of IPv6 static routes IPv6 routing interfaces IPv6 prefixes per routing interface IPv6 global unicast addresses per routing interface A 6to4 tunnel RIPng NDP Table: Max number of NDP entries per system OSPFv3 Specifications Alcatel-Lucent OmniSwitch 9000 Gen
Layer-3 forwarding, known IP@64 bytes pkt Layer-3 forwarding, known IP@1518 bytes pkt Layer-3 forwarding, known IP@ Jumbo pkt Trunking 2 VLANs, 64 Bytes pkt Trunking 2 VLANs, 1518 Bytes pkt RIP Learning Rate OSPF Learning Rate Route Convergence for OSPF IPv6 REDISTRIBUTION Multinetting This feature allows IP traffic from multiple subnets to coexist on the same VLAN. A network is said to be multinetted when multiple IP subnets are brought together within a single broadcast domain (VLAN).
Routing In Multinetting Multicast Routing In Multinetting Routes IPX Routing QoS / ACLs QoS Conditions & Actions supported Priority Queues Traffic Prioritization Alcatel-Lucent OmniSwitch 9000 the same scope (the one for the primary interface) With VRRP and Multinetting, you can still configure multiple instances to load balance the master role among the sub-netted interfaces. Routing protocols (RIP, OSPF, and BGP) are supported in a multinetted environment.
Traffic redirection Bandwidth Management Queue Management Queuing Scheme and Servicing Mode Queue Mapping Table Congestion Avoidance Power over Ethernet Max number of Rules Max number of Actions Max number of Conditions Max number of Policy Services Max number of Policy Groups Max number of Queues Filtering or ACL Throughput Rule logging Egress Bandwidth Shaping Alcatel-Lucent OmniSwitch 9000 Policy-based routing Server load balancing (including health monitoring of servers) Flow Based bandwidth manag
Ingress Max Bandwidth Policing VLAN Ingress Filtering to prevent VLAN leakage VLAN CoS preservation VLAN CoS differentiation Untrusted Ports and Packet Priority Trusted Ports and Packet Priority 802.1p/TOS/DSCP Stamping/Mapping policies Alcatel-Lucent OmniSwitch 9000 Shaping limits the bandwidth on the egress port. Shaping implies that the shaping function controls the rate at which the egress port sends the packets, regardless of egress queues. The granularity is 64Kbps.
Policy Rules with Multiple Actions QoS Precedence with Multiple Policy Rules IPv6 Classification & Combinations IPv6 Actions Switch accessibility under DoS Attack Alcatel-Lucent OmniSwitch 9000 • Map 802.1p to DSCP • Map ToS to 802.1p • Map ToS to TOS • Map ToS to DSCP • Map DSCP to 802.1p • Map DSCP to TOS • Map DSCP to DSCP Stamping/mapping policies change the internal priority of the packets: • Internal Priority is always based on the new 802.
• • Denial of Services (DOS) attacks IP security enhancement Traffic Filtering User Authentication Switch protocol security Switch management 802.1X/Device Authentication Alcatel-Lucent OmniSwitch 9000 IP multicast protocol (IGMP...) ARP (both request and reply) ARP To prevent an ARP attack, the system limits at 500 pps the number of arp packets sent to CPU (flooding of arp on the network is not limited).
ACLMAN 4.2.16 Maximum number of non-supplicant users per port: 1024 Maximum number of supplicant users per port: 253 Maximum combined number of supplicant and non-supplicant users per port: 1024 The system supports up to 1024 authenticated/mobile Mac-addresses. Supported/non-supported mobile rule on device authentication: 1. Support rule per tagged/untagged packet type.
Using the WebView Port Disable SNMP Traps Ethernet Services OAM SFLOW 4.2.17 SFLOW Back-off Algorithm Alcatel-Lucent OmniSwitch 9000 together to provide the image rollback resiliency feature. Image rollback allows the switch to return to a prior “last known good” version of software in the event of a system software problem. The /flash/working directory is intended for software that is still being configured for your network. Changes made while configuring your switch are saved to the boot.
keep backing-off up to 2,147,483,647 and stay fixed at this value until the traffic generation is halted or reduced. That is even running only one 1G interface at wire rate on the OS6850 will back-off to 2147483647 and stay at this (maximum, safe) sampling rate.
Max power per blade • OS9000 lanpower is load-shared among all of the GNI-P24 NIs in the chassis, each NI having 210W max per blade for lanpower. Up to 4 power supplies (525W x 4) of 2100W max in the power shelf is available for the entire chassis (please note that up to 2400watts of PoE power will be supported in a future release).
SSiim mpplliiffiieedd M Maannaaggeeaabbiilliittyy ecognizing a great demand in the marketplace and customers expectation for a level of synergism in the network management, Alcatel.Lucent has developed a comprehensive, unified, and simplified network and switch management solutions for its full array of networking products including the AOS OmniSwitch product family. The OS9000 switch and network management industry proven features offers the network administrators ease-of-use and ease of management.
Authentication Servers ACE/Server RADIUS Servers Lightweight Directory Access Protocol (LDAP) Policy Servers (Policy Server Management) Alcatel-Lucent OmniSwitch 9000 RFC 2251–Lightweight Directory Access Protocol (v3) RFC 2252–Lightweight Directory Access Protocol (v3): Attribute Syntax Definitions RFC 2253–Lightweight Directory Access Protocol (v3): UTF-8 String Representation of Distinguished Names RFC 2254–The String Representation of LDAP Search Filters RFC 2256–A Summary of the X.
The Lightweight Directory Access Protocol (LDAP) is a standard directory server protocol. The LDAP policy server client in the switch is based on RFC 2251. Currently, only LDAP servers are supported for policy management. The switch communicates with the LDAP server to download and manage LDAP policies. When the policy server is connected to the switch, the switch is automatically configured to communicate with the server to download and manage policies created by the PolicyView application.
