Design Reference
Table Of Contents
- Contents
- Chapter 1: Introduction
- Chapter 2: New in Release 4.0.50
- Chapter 3: New in Release 4.0.40
- Chapter 4: New in Release 4.0
- Chapter 5: Network design fundamentals
- Chapter 6: Hardware fundamentals and guidelines
- Chapter 7: Optical routing design
- Chapter 8: Platform redundancy
- Chapter 9: Link redundancy
- Chapter 10: Layer 2 loop prevention
- Chapter 11: Spanning tree
- Chapter 12: Layer 3 network design
- Chapter 13: SPBM design guidelines
- Chapter 14: IP multicast network design
- Multicast and VRF-Lite
- Multicast and MultiLink Trunking considerations
- Multicast scalability design rules
- IP multicast address range restrictions
- Multicast MAC address mapping considerations
- Dynamic multicast configuration changes
- IGMPv3 backward compatibility
- IGMP Layer 2 Querier
- TTL in IP multicast packets
- Multicast MAC filtering
- Guidelines for multicast access policies
- Multicast for multimedia
- Chapter 15: System and network stability and security
- Chapter 16: QoS design guidelines
- Chapter 17: Layer 1, 2, and 3 design examples
- Chapter 18: Software scaling capabilities
- Chapter 19: Supported standards, RFCs, and MIBs
- Glossary
Figure 61: RPR QoS internetworking
Routed traffic
If you route traffic over the core network, VLANs are not kept separate.
If you configure the port to core, you assume that, for all incoming traffic, the QoS configuration is
properly marked. All core switch ports simply read and forward packets. The switch does not re-
mark or classify the packets. The customer device or the edge devices perform all initial QoS
markings.
The following figure shows the actions performed on three different routed traffic flows (that is VoIP,
video conference, and email) at access and core ports throughout the network.
QoS examples and recommendations
December 2014 Network Design Reference for Avaya VSP 4000 Series 133
Comments? infodev@avaya.com