Index[A] [B] [C] [D] [E] [F] [G] [H] [I] [L] [M] [N] [O] [P] [Q] [R] [S] [T] [U] [V] [W] [Z] TCO (total cost of ownership), outsourcing decisions TCP (Transmission Control Protocol) TDM (time-division multiplexer) 2nd TE (traffic engineering) 2nd technologies benefits of MPLS DiffServ Layer 2 VPNs 2nd Layer 3 VPNs label stack role peer-to-peer model topologies VRF MPLS application QoS (quality of service) DiffServ multicast service development TE (traffic engineering) temporal gambling, network scalability time to market (TTM) time-division multiplexer (TDM) 2nd topologies, Layer 3 VPNs total cost of ownership (TCO), outsourcing decisions traffic DiffServ queuing traffic engineering application delay-sensitive traffic Inter-AS TE Intra-Area TE QoS IETF standards IP network operation IGP (Interior Gateway Protocol) packet forwarding tunnel signaling MPLS TE multicast scalability MPLS technologies tunnel operations link failures node protection path protection scalability usage scenarios Traffic Engineering with MPLS traffic specification (Tspec) traffic-engineered voice models, MPLS QoS Transmission Control Protocol (TCP) transmission, traffic troubleshooting network design trust, VPN bridge case study Tspec (traffic specification) TTM (time to market) tunnel mode QoS tunnels LSP failures protection operations link failures node protection path protection scalability usage scenarios TE (traffic engineering), signaling |