Broadcom Teaming Services: Broadcom NetXtreme II® Network Adapter User Guide
file:///C|/Users/Nalina_N_S/Documents/NetXtremeII/English/teamsvcs.htm[9/5/2014 3:45:08 PM]
HSRP
Hot Standby Router Protocol
ICMP
Internet Control Message Protocol
IGMP
Internet Group Management Protocol
IP
Internet Protocol
IPv6
Version 6 of the IP Protocol
iSCSI
Internet Small Computer Systems Interface
L2
Layer 2. Used to describe network traffic that is not offloaded, and where hardware only performs
Layer 2 operations on the traffic. Layer 3 (IP) and Layer 4 (TCP) protocols are processed in software.
L4
Layer 4. Used to describe network traffic that is heavily offloaded to the hardware, where much of the
Layer 3 (IP) and Layer 4 (TCP) processing is done in the hardware to improve performance.
LACP
Link Aggregation Control Protocol
Link Aggregation
(802.3ad)
Switch-dependent load balancing and failover type of team with LACP in which the intermediate driver
manages outgoing traffic and the switch manages incoming traffic.
LOM
LAN on Motherboard
MAC
media access control
NDIS
Network Driver Interface Specification
NLB
Network Load Balancing (Microsoft)
PXE
Preboot Execution Environment
RAID
redundant array of inexpensive disks
Smart Load
Balancing™ and
Failover
Switch-independent failover type of team in which the primary team member handles all incoming and
outgoing traffic while the standby team member is idle until a failover event (for example, loss of link
occurs). The intermediate driver (BASP) manages incoming/outgoing traffic.
Smart Load
Balancing (SLB)
Switch-independent load balancing and failover type of team, in which the intermediate driver
manages outgoing/incoming traffic.
TCP
Transmission Control Protocol
TOE
TCP Offload Engine. This is the hardware that is capable of handling stateful fastpath offloading of TCP
and IP processing.
UDP
User Datagram Protocol
WINS
Windows name service
WLBS
Windows Load Balancing Service
Teaming Concepts
Network Addressing
Teaming and Network Addresses
Description of Teaming Types
TOE Teaming
The concept of grouping multiple physical devices to provide fault tolerance and load balancing is not new. It has been around
for years. Storage devices use RAID technology to group individual hard drives. Switch ports can be grouped together using
technologies such as Cisco Gigabit EtherChannel, IEEE 802.3ad Link Aggregation, Bay Network Multilink Trunking, and
Extreme Network Load Sharing. Network interfaces on Dell servers can be grouped together into a team of physical ports
called a virtual adapter.
Network Addressing
To understand how teaming works, it is important to understand how node communications work in an Ethernet network. This
document is based on the assumption that the reader is familiar with the basics of IP and Ethernet network communications.
The following information provides a high-level overview of the concepts of network addressing used in an Ethernet network.
Every Ethernet network interface in a host platform, such as a computer system, requires a globally unique Layer 2 address
and at least one globally unique Layer 3 address. Layer 2 is the Data Link Layer, and Layer 3 is the Network layer as defined
in the OSI model. The Layer 2 address is assigned to the hardware and is often referred to as the MAC address or physical
address. This address is pre-programmed at the factory and stored in NVRAM on a network interface card or on the system
motherboard for an embedded LAN interface. The Layer 3 addresses are referred to as the protocol or logical address
