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Management Information Bases (MIBs), 101
managing queuing, 200
mapping
L-LSP vs. E-LSP, 203–204
ToS bits to Exp or FECs in Riverstone routers, 216–221
marketing
approaches to, 232
case example, 236
end-user concerns, 225
equipment/hardware vendors, 226
fronts, 234
introduction to MPLS VPN, 224
MPLS technology, 235
one-stop carrier shop, 229
selling MPLS services, 236
service providers, 226
tiers and areas, 229
VPN, 230–231
Martini draft protocols, 165–167
Mean Opinion Score (MOS), quality of service, 189
measuring aspect, traffic engineering, 109–111
mesh VPN networks, 142, 152
methods
failure detection, 81–83
triggered mode, 11
modeling aspect, traffic engineering, 109–111
monitoring network traffic, 200
MOS QoS scale, inverse proportion to load, 194
moving aspect, traffic engineering, 109–111
MP3s, downloading, 201
MPLambdaS (MP?S) and GMPLS, 128–131
MPLS (multiprotocol label switching)
creating and enabling on new interface, 40–41
data flow (exercise), 13–17
delivering IP over, 174–179
end-to-end QoS, 214–216
and IP traffic, 22
label range commands, 12
LER table with three criteria, 6–7
and LMP, 136
marketing. See marketing
network components, 8
network reliance. See MPLS network reliance and recovery
networks. See MPLS networks
OPNET network design solutions, 119
and packet marking, 197
with pre-marked packets, 210
protocol analyzers, 17–19
protocol described, 2
Qos in, without markings, 209
shim header, 3
technology, 232
traffic engineering, 108–125
VPN topologies, 154
MPLS network reliance and recovery
error detection, 88–89
failure detection methods, 81–83
introduction, 80
network protection, 84–87
MPLS networks
data flow in, 9–11
extending RSVP for, 59
QoS in, 201–216
with FECs, 8
with four routers, 28
traffic control in, 51–58
MPLS signaling, 50
MPLS tunnels, 148–149
multiprotocol label switching. See MPLS
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