Datasheet
Alcatel-Lucent Page 64
OmniSwitch 9000
SFP-DUAL-MM - Dual Speed
100Base-FX or 1000Base-X Ethernet optical
transceiver.
Un-supported Un-supported Supported Supported
SFP-DUAL-SM10 - Dual Speed
100Base-FX or 1000Base-X Ethernet optical
transceiver (SFP MSA)
Un-supported Un-supported Supported Supported
SFP-100-BX20LT - 100Base-BX
SFP bi-directional transceiver.
Un-supported Un-supported Supported Un-supported
SFP-100-BX20NU - 100Base-BX
SFP bi-directional transceiver.
Un-supported Un-supported Supported Un-supported
SFP-100-LC-MM - 100Base-FX
SFP transceiver.
Un-supported Un-supported Supported Un-supported
SFP-100-LC-SM15 - 100Base-FX
SFP transceiver.
Un-supported Un-supported Supported Un-supported
SFP-100-LC-SM40 - 100Base-FX
SFP transceiver.
Un-supported Un-supported Supported Un-supported
Hardware Architecture
Network Interface
All modules are hot swappable and can be used in any available NIs slot 4.2.7
24--port 1000BaseX (SFP)
24-port 10/100/1000 BASE-T (RJ45)
24-port PoE 10/100/1000BaseT (RJ45)
2-port 10GBaseX (XFP)
6-port 10GBaseX (XFP)
MAC Address Table In synchronized mode (default), up to 16K MAC Addresses is supported per system
In Distributed mode, up to 64 K MAC Addresses is supported per system (no more than 16K per NI).
1K (authenticated / mobile users) per system
Latency: <10µsec
Learned Port Security –
What is the maximum number of MAC addresses a
port can learn?
For the OmniSwitch 9000 family, the learned port security feature of the Alcatel.Lucent Operating
System allows up to 100 MAC addresses per port to be learned and acted upon.
IP Address Table Routes 40K routing table
12K forwarding LPM entries, 8K hosts entries per module
Latency: <10µsec
Manufacturing MAC Address Assignments Manufacturing will allocate a group of MAC addresses from the Alcatel.Lucent range of IEEE
registered MAC addresses for each OS9000 backplane built. The block is a set of 32 consecutive MAC
addresses for each newly built OS9000 system. These MAC addresses are stored on the backplane
EEPROMs.
The Ethernet Management Port (EMP) uses a MAC address taken from the backplane PROMs.
CPU Motorola/Free-scale MPC8540/MPC8541 Power PC.
BUS FBUS+; between the Fabric Board and the NIs. Each FBUS+ allowing 12Gbps full duplex
Memory 256MB (DRAM) per CMM
Flash 128MB per CMM
Note: the OS9000 will use USB (future release) to provide expandable flash memory.
Switching MAC ASIC BCM5650
Main Switching Fabric ASIC On the CMM: BCM5675 and on each NI: BCM56504s and BCM5650s
The BCM5675 single chip fabric provides eight queues for each egress port on that chip. Because, the
BCM5675 has eight fabric ports, one for each of the eight NI/line card slots (OS9700 chassis), the
fabric has 8x8=64 unicast queues. Each of the eight egress queues represents a different class of
service (COS) or priority. Various strict priority and round-robin bandwidth control options can be
configured to provide for DiffServ PHBs (per hop behavior).
10-Gigabit Ethernet Interface 10-Gigabit Ethernet XAUI interface
PHY On the OS9-GNI-C24 & OS9-GNI-P24 NIs: BCM5464R
Packet Buffer Size per NI 2MB
RS-232 Console Port RJ-45 connector (please refer to the section “Pin-Outs” for further details.
EEPROM Up to 2K
Front Panel LED Each NI Module and Power Supply supports appropriate Status type LEDs.
Temperature Sensor Temperature Sensor is supported
Power Supply AC-to-DC and DC-to-DC N+1 redundant Power Supplies are supported. 4.2.8
OS9600 chassis type supports up to 2 such power supplies.
OS9700 chassis type supports up to 3 such power supplies.
OS9800 chassis type supports up to 4 such power supplies.
Ethernet Specifications
Connectors/ Cabling • Management: 1 RJ-45 console interface configured as DCE/DTE for operation, diagnostics, status,
and configuration information. Ship kit includes RJ-45 to DB-9 connector adaptor
• AC power connector