index_L

[SYMBOL] [A] [B] [C] [D] [E] [F] [G] [H] [I] [J] [K] [L] [M] [N] [O] [P] [Q] [R] [S] [T] [U] [V] [W] [X]

LAGs (Logical Address Groups) 
LANE
    BUS (Broadcast and Unknown Server) 
        placement 
    configuration direct  2nd  3rd 
    configuring
        syntax  2nd 
    Control Direct 
    Control Distribute 
    Data Direct VCs
        building  2nd  3rd  4th  5th  6th  7th  8th  9th  10th 
    Dual-PHY  2nd  3rd 
    ELANs  2nd 
        LECs  2nd 
        VLAN numbers, mapping 
    example network  2nd 
    frame format  2nd 
    hard-coded addresses 
    LECs
        building 
    LECS
        building  2nd 
        well known NSAP  2nd 
    LECS (LAN Emulation Configuration Server) 
    LECs (LANE emulation clients) 
    LES
        configuring  2nd 
    MPCs
        global configuration 
        major interface configuration 
        subinterface configuration  2nd 
    MPOA  2nd  3rd  4th 
        client, monitoring  2nd 
        configuring  2nd  3rd 
        control flows  2nd 
        edge devices 
        host devices  2nd  3rd 
        MPS  2nd 
        sample configuration  2nd 
        troubleshooting 
    Multicast Forward 
    Multicast Send 
    NSAP addresses 
    NSAPs  2nd 
    services  2nd 
    SSRP (Simple Server Redundancy Protocol) 
    SSRP (SimpleServer Redundancy Protocol)  2nd 
    testing configuration  2nd  3rd  4th 
    traffic shaping 
LANE encapsulation  2nd  3rd  4th 
LANE V2  2nd 
LANs
    baseband technologies 
    bridged
        bandwidth 
LANS
    ELANs (emulated LANs) 
LANs
    Ethernet
        1000BaseT 
        addressing  2nd  3rd  4th 
        half-duplex transmission 
        slotTimes  2nd 
        trunks  2nd 
    extending
        repeaters 
    infrastructure
        selecting  2nd 
    MAC addresses 
        OUI 
    PLANs (physical LANs)  2nd 
    segmentation  2nd  3rd  4th  5th  6th  7th  8th  9th  10th 
        with repeaters  2nd 
    Token Ring 
        migrating to Ethernet 
LASER-based systems
    1000BaseSX 
    wavelengths 
late collisions 
latency
    ATM 
    ATM cells 
    Fast Ethernet 
    fragment-free switching 
    legacy networks 
Layer 2
    core
        designing  2nd  3rd  4th  5th 
    STP 
        BIDs 
        BPDUs  2nd  3rd  4th 
layer 2
    STP
        campus design  2nd  3rd  4th 
Layer 2
    STP
        Configuration BPDUs  2nd  3rd 
        convergence  2nd  3rd  4th  5th  6th  7th  8th  9th  10th  11th  12th  13th  14th  15th  16th  17th  18th  19th  20th  21st  22nd  23rd  24th  25th  26th  27th  28th  29th  30th  31st  32nd  33rd  34th  35th  36th  37th  38th  39th 
        Designated Ports  2nd 
        disabling  2nd 
        load balancing  2nd  3rd  4th  5th  6th  7th  8th  9th  10th  11th  12th  13th  14th  15th  16th  17th  18th  19th  20th  21st  22nd  23rd  24th  25th  26th  27th  28th  29th 
        maintenance guidelines  2nd  3rd  4th  5th 
        path cost  2nd 
        PVSP+  2nd  3rd 
        reachability  2nd  3rd 
        show commands  2nd 
        states  2nd  3rd 
        TCN BPDUs  2nd 
        timers  2nd  3rd  4th  5th  6th 
        traffic patterns 
Layer 2 loops
    reducing 
Layer 2 switches
    MDF 
Layer 2 triangles 
Layer 2 V's 
Layer 3
    core
        designing  2nd  3rd 
    deploying in VLANs  2nd  3rd 
layer 3
    multicast addresses 
Layer 3 switching  2nd  3rd  [See also routing]
    8500s 
        IDF Supervisor configuration  2nd  3rd 
        IP addressing 
        MDF Supervisor configuration 
        practical applications  
        server farms 
        Spanning Tree  2nd 
        trunks 
        VLAN design 
        VTP 
    ATM
        practical applications  2nd 
    campus networks  2nd 
    case study  2nd  3rd  4th  5th  6th  7th  8th  9th  10th  11th  12th  13th  14th  15th  16th  17th  18th  19th  20th  21st  22nd  23rd  24th  25th  26th  27th  28th 
    Catalyst 6000
        MSFC 
        MSM 
    HSRP
        load balancing  2nd 
    IRB
        practical applications 
    load balancing 
    MLS
        comparing to switching routers  2nd  3rd  4th  5th  6th  7th  8th 
        design scenario  2nd  3rd 
        hardware selection  2nd 
        IDF Supervisor configuration  2nd  3rd  4th  5th  6th  7th 
        IP addressing  2nd 
        IPX addressing 
        load balancing 
        MDF Supervisor configuration  2nd  3rd  4th  5th  6th  7th  8th  9th 
        practical applications 
        Spanning Tree  2nd 
        trunks 
        VLAN design 
        VTP server mode 
    modularity  2nd 
    MPOA  2nd 
    multicast traffic 
    router peering 
    router-on-a-stick
        one-link-per-VLAN  2nd 
        trunking  2nd  3rd  4th  5th  6th 
    router-on-a-switch 
layers
    ATM stack 
layers (OSI model)
    troubleshooting  2nd  3rd 
learning process
    bridging 
    EARL (Encoded Address Recognition Logic) 
    source-route switching 
Learning state (STP)  2nd  3rd  4th 
leave messages
    Fast Leave processing (CGMP) 
LECS
    building 
LECs
    building  2nd 
LECS
    building 
    database
        configuring  2nd 
    NSAP
        adding to ATM switch 
    placement 
LECs
    placing in ELANs  2nd 
LECS
    well-known NSAP  2nd 
LECS (LAN Emulation Configuration Server) 
LECs (LANE clients) 
LECs (LANE emulation clients) 
Legacy Ethernet  2nd 
legacy Ethernet
    addressing 
    bandwidth 
legacy networks
    access lists 
    bandwidth utilization 
    broadcast distribution 
    broadcast domains  2nd  3rd 
    latency 
    security  2nd  3rd 
    termination points  2nd  3rd 
    user mobility  2nd 
LES
    building  2nd 
    placement 
limiting
    routing peers 
    SPT size  2nd  3rd 
line rates
    EtherChannel  2nd 
links
    trunk links 
        Ethernet  2nd 
    trunks
        cost-effectiveness 
LISs
    comparing to LAGs 
LISs (logically independent IP subnets  2nd  3rd 
Listening state (STP)  2nd  3rd  4th 
LLC
    comparing to Ethernet frames  2nd 
load balancing
    ATM 
    campus networks  2nd  3rd 
    EtherChannel  2nd 
    HSRP  2nd 
        enabling 
    IP routing protocols 
    Layer 3 switching 
    MHSRP  2nd  3rd  4th 
    MLS
        design scenario 
    requirements  2nd 
    SPT 
        Root Bridge placement  2nd 
    STP  2nd  3rd 
        bridge priority  2nd  3rd  4th 
        port/VLAN cost  2nd  3rd  4th  5th  6th  7th  8th 
        port/VLAN priority  2nd  3rd  4th  5th  6th  7th  8th  9th 
        PVST+  2nd  3rd  4th  5th 
        Root Bridge placement  2nd  3rd  4th  5th 
load distribution
    routers 
    VLANs  2nd  3rd 
load sharing
    Ethernet 
locating
    Designated Ports 
logging 
    STP events  2nd 
logging synchronous command 
logical configuration
    VLANs  2nd 
logical structure
    campus-wide VLANs 
logical topology
    SPT 
logistics
    VLAN user mobility  2nd  3rd 
loop-free core (multilayer model)  2nd  3rd 
loops
    broadcast loops  2nd 
    Layer 2
        minimizing