ATM n-to-one VCC cell transport (0x0009)
pseudowire (PW) type
used by LDP
for subset of ATM VCs over a pseudowire
transport............................................................527
ATM ports
changed to LOS state
and multiple VCs over a single
pseudowire.......................................................526
configuring cell concatenation parameters
requirements........................................................528
connectivity between two of them
emulated using multiple VCs transport
over a pseudowire..........................................524
not changed to LOS state
during a failure on the pseudowire..............526
ATM virtual circuits..............................................................525
adding MPLS Martini circuit configuration
for multiple VCs transport over a
pseudowire.......................................................525
and emulation of connectivity
between ATM ports...........................................524
based on RFC 4816
exception with subset of ATM cells
transport............................................................524
concatenation of multiple cells
requirements for configuring..........................528
configuring a subset of
using the mpls-relay atm vpi-range
command..........................................................525
configuring VPI/VCI ranges......................................525
hardware limitations of ATM LMs
and transport of multiple VCs over a
pseudowire.......................................................524
in Martini topologies
transportation over a single
pseudowire.......................................................524
received on an ATM port
opening VCs on the SAR scheduler.............524
transmission of a subset of ATM cells over a
pseudowire
deployment scenario........................................559
transmission of multiple cells over a
pseudowire
high availability and...........................................528
limit on total number of...................................528
performance impact ........................................528
unified ISSU and.................................................528
verifying cell concatenation...........................566
verifying VCI/VPI ranges..................................566
transmission of multiple VCs over a single
pseudowire
interoperation with cell relay on a
subinterface......................................................527
transport of multiple cells over a pseudowire
and ATM n-to-one VCC cell transport
(0x0009) pseudowire (PW) type ..........527
transportation of cells from multiple circuits
over a single pseudowire.................................524
transportation of multiple ATM cells
concatetation.......................................................526
atomic-aggregate, BGP..........................................................11
attribute-map keyword (aggregate-address)..............61
authentication
BGP.....................................................................................34
MPLS
LDP MD5.................................................................291
RSVP-TE................................................................294
auto-summary command...................................................34
autoconfiguration, LDP......................................................290
autonomous system. See AS
B
backdoor link, OSPF............................................................479
backdoor route, BGP............................................................137
backup tunnels, MPLS RSVP-TE...................................295
bandwidth command.........................................................283
baseline commands
baseline bgp statistics...............................................158
baseline bridge..............................................................610
baseline bridge interface...........................................610
baseline bridge interface vpls.................................610
baseline ip bgp ..............................................................157
baseline mpls interface....................................322, 561
baseline mpls label.....................................................323
baseline mpls next-hop...................................323, 324
BFD (Bidirectional Forwarding Detection)
BGP peer reachability detection.............................138
RSVP-TE, configuring for.........................................266
BGP (Border Gateway Protocol).........................................3
access lists.......................................................................82
administrative distance..............................................133
administrative shutdown............................................34
advertising networks in ASs......................................50
advertising routes conditionally................................61
advertising two best routes........................................52
aggregator path attribute..............................................11
Copyright © 2010, Juniper Networks, Inc.684
JunosE 11.2.x BGP and MPLS Configuration Guide
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