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Table Of Contents

Contents
Chapter 1: Introduction
- Purpose
- Related resources
- Support
Chapter 2: New in Release 4.0.50
- Features
- Other changes
Chapter 3: New in Release 4.0.40
- Features
- Other changes
Chapter 4: New in Release 4.0
- Features
- Other changes
Chapter 5: Network design fundamentals
Chapter 6: Hardware fundamentals and guidelines
- Supported hardware
- Platform considerations
- Hardware compatibility
- Supported optical devices
- Dispersion considerations for long reach
- 10/100BASE-X and 1000BASE-TX reach
- 10/100/1000BASE-TX Auto-Negotiation recommendations
- Auto MDIX
- CANA
Chapter 7: Optical routing design
- Optical routing system components
Chapter 8: Platform redundancy
- Power redundancy
- Input/output port redundancy
- Configuration redundancy
- Link redundancy
Chapter 9: Link redundancy
- Physical layer redundancy
- MultiLink Trunking
- 802.3ad-based link aggregation
Chapter 10: Layer 2 loop prevention
- Loop prevention and detection
- SLPP example scenarios
Chapter 11: Spanning tree
- Spanning tree and protection against isolated VLANs
- MSTP and RSTP considerations
Chapter 12: Layer 3 network design
- VRF Lite
- Virtual Router Redundancy Protocol
- Open Shortest Path First
- Border Gateway Protocol
- IP routed interface scaling
Chapter 13: SPBM design guidelines
- 802.1aq standard
- VLANs without member ports
- Provisioning
- Implementation options
- Reference architectures
- Solution-specific reference architectures
- Best practices
- SPBM restrictions and limitations
- IP multicast over SPBM restrictions
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
- DoS protection mechanisms
- Damage prevention
- Data plane security
- Control plane security
- Additional information
Chapter 16: QoS design guidelines
- QoS mechanisms
- QoS interface considerations
- Network congestion and QoS design
- QoS examples and recommendations
Chapter 17: Layer 1, 2, and 3 design examples
- Layer 1 example
- Layer 2 example
- Layer 3 example
Chapter 18: Software scaling capabilities
Chapter 19: Supported standards, RFCs, and MIBs
- Supported IEEE standards
- Supported RFCs
- Quality of service
- Network management
- MIBs
- Standard MIBs
- Proprietary MIBs
Glossary

Maximum number supported

e-BGP peers 12

e-BGP routes 16,000

Address Resolution Protocol (ARP) for each port,

VRF, or VLAN (IPv4)

6,000 entries total

Circuitless IP interfaces 64

Maximum B-MACs 1000

ECMP routes 1000

ECMP groups 512 groups with a maximum of 4 ECMP paths per

group

Note:

The maximum number of ECMP routes per

VSP 4000 system is 1,000.

So, for example, if 500 ECMP groups are

configured, the maximum number of ECMP

paths per group is 2 and if 250 ECMP groups

are configured, the maximum number of

ECMP paths per group is 4.

ECMP paths per route 4

FIB IPv4 routes 16,000

RIB IPv4 routes 16,000

IPv4 interfaces 256

Maximum VRFs 24

IPv4 CLIP interfaces 64

IP routing policies 500 for each VRF

5,000 for each system

IPv4 FTP sessions 4

IPv4 Rlogin sessions 8

IPv4 SSH sessions 8

IPv4 Telnet sessions 8

IPv4 VRF instances 24

Static ARP entries (IPv4) 200 for each VRF

1,000 for each system

Static routes (IPv4) 1,000 per VRF/per system

UDP/DHCP forwarding entries 128 for each system

VRRP interfaces (IPv4) 64

VRRP interfaces fast timers (200 ms) 24

Diagnostics

Software scaling capabilities

140 Network Design Reference for Avaya VSP 4000 Series December 2014

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