Adapter Teaming Options and VLAN Overview Adapter Teaming Options ======================= NOTE: Teaming requires the use of Intel(R) Server Adapters. The Intel Server adapter provides several options for increasing throughput and fault tolerance when running Windows NT 4.0 or NetWare 4.1x and newer: Adapter Fault Tolerance (AFT) - creates a team of 2 - 8 adapters to provide automatic redundancy for your adapters. If the primary adapter fails, a secondary takes over. Adaptive Load Balancing (ALB) - creates a team of 2 - 8 adapters to increase transmission throughput. Also includes AFT. Works with any 100BASE-TX switch. Fast EtherChannel* (FEC) - creates a team of 2, 4, 6, or 8 adapters to increase transmission and reception throughput. Also includes AFT. Requires a Cisco switch with FEC capability. To set up an option, see one of the following: For Windows NT 4.0, see \INFO\MS\MSTEAM.TXT For NetWare 4.1x and higher, see \INFO\NETWARE\NWTEAM.TXT General Configuration Notes =========================== - Windows NT versions prior to 4.0 don't support Adapter Teaming options. - Windows NT 4.0 Service Pack 3 or later, with the NDIS driver hotfix (NDISFIXI, ndis.sys v.4, 7/22/97, 130384 bytes), is required for implementing Adapter Teaming properly. Install these prior to configuring Adapter Teaming. Support Sites for Microsoft Patches Service Pack 3: ftp://ftp.microsoft.com/bussys/winnt/winnt-public/fixes/usa /nt40/ussp3 NDIS Driver Hotfix: ftp://ftp.microsoft.com/bussys/winnt/winnt-public/fixes/usa/ nt40/hotfixes-postsp3/ndis-fix/ Adapter Fault Tolerance ======================= Adapter Fault Tolerance (AFT) is a simple, effective, and fail-safe approach to increase the reliability of server connections. AFT gives you the ability to set up link recovery to the server adapter in case of a cable, port, or network interface card failure. By assigning two to eight Intel Server adapters as a team, AFT enables you to maintain uninterrupted network performance. AFT is implemented with Intel Server adapters: a primary adapter and one or more backup, or secondary, adapters. During normal operation, the backup will have transmit disabled. If the link to the primary adapter fails, the link to the next backup adapter automatically takes over. Adaptive Load Balancing ======================= Adaptive Load Balancing (ALB) is a simple and efficient way to increase your server's transmission throughput. With ALB, as you add adapters to your server, you can group them in teams to provide up to a 800 Mbps transmit rate and a 100 Mbps receive rate, with a maximum of eight adapters. The ALB software continuously analyzes transmit loading on each adapter and balances the transmission across the adapters as needed. Adapter teams configured for ALB also provide the benefits of AFT. Receive rates remain at 100 Mbps. To use ALB, you must have two to eight Intel Server adapters installed in your server and all linked to the same network switch/segment. Cisco Fast EtherChannel ======================= Fast EtherChannel (FEC) is a performance technology developed by Cisco to increase your server's throughput. Unlike ALB, FEC can be configured to increase both transmission and reception channels between your server and switch. FEC works only with FEC-enabled Cisco switches such as the Catalyst 5000 series. With FEC, as you add adapters to your server, you can group them in teams, with a maximum of eight Intel Server adapters. The FEC software continuously analyzes loading on each adapter and balances network traffic across the adapters as needed. Adapter teams configured for FEC also provide the benefits of AFT. To use FEC, you must have 2, 4, 6, or 8 Intel Server adapters installed in your server and all linked to the same FEC-enabled Cisco switch. (Note that the switch must support more than 4 adapters in FEC in order for more than 4 adapters to work in FEC . Consult your switch documentation.) Copyright Intel Corporation 1999. All rights reserved. VLANs ===== A Virtual LAN (VLAN) is a logical grouping of network devices put together as a LAN regardless of their physical grouping or collision domains. VLANs let a user see and access only specified network segments. This increases network performance and improves network security. VLANs offer the ability to group users and stations together into logical work-groups. This can simplify network administration when connecting clients to servers that are geographically dispersed across the building, campus, or enterprise network. Typically, VLANs consist of co-workers within the same department but in different locations, groups of users running the same network protocol, or a cross-functional team working on a joint project. Joining workers with VLANs forms logical working groups. Normally, VLANs are configured at the switch and any computer can be a member of one VLAN per installed network adapter. The Intel Server adapter supersedes this by communicating directly with a switch, allowing multiple VLANs on a single adapter (up to 64 VLANs). To set up VLAN membership, your adapter must be attached to a switch with VLAN capability. * Brand, name, or trademark owned by another company.