intelbras SC 5525 Series Campus Switches User Guide

intelbras SC 5525 Series Campus Switches

Product Overview

Intelbras SC 5525 Switch Series

Industry-leading high-performance, scalable 10GE access solution with modular dual power, fixed or modular uplinks (10GE/40GE/100GE), and IRF for resiliency. The series offers OSPF/BGP and multicast. The SC 5525 Switch Series includes the following models:

Features & Benefits

Green Technology

Intelbras SC 5525 series switches utilize the latest energy-saving chips and innovative architectural design solutions to achieve the lowest power consumption among gigabit switches, providing users with eco-friendly, cost- effective, and low-power network access products, and reducing user maintenance costs. At the same time, Intelbras SC 5525 series switches adopt a number of eco-friendly energy-saving designs, including automatic shutdown (automatic port power saving). If the interface status is always inactive for a period, the system will automatically stop the power supply to the interface and automatically enter the power-saving mode. Support the Efficient Ethernet (EEE) power-saving function on an Ethernet interface on RJ-45 ports and low- power operations for industry. If the port is down for a period of time, the system will set the port in power-saving mode, and when there is a packet to be sent and received, the port will be activated to resume services through the monitoring code sent regularly to achieve the power-saving effect. Meet EU RoHS standards for environmental protection and material safety

Professional Surge Protection Function

Intelbras SC 5525 series switches utilize built in professional surge protection technology and support industry-leading surge protection capability at service ports, which significantly reduces the rate of damage caused by equipment surges, even in harsh work environments.

High Density 10GE Forwarding

The switch offers high-density 10GE forwarding and can flexibly expand 10GE ports. It offers 48/24 auto-sensing 10/1GE SFP+ ports, six QSFP28 ports or two onboard QSFP28 or QSFP+ ports, and two expansion slots that support up to 11 module types ranging from GE to 10GE, 25GE, 40GE, 100GE, and Multigiga ports. Using a QSFP+ to SFP+ splitter cable, you can split
one QSFP+ port into four line rate 10GE SFP+ ports. Maxi mum of 72 10GE ports supported on a single switch.

Built-in Access Controller

The Intelbras SC 5525 implements the WLAN function by installing an AC feature pack on the main control unit, thus implementing both the wired function and the WLAN function in a single device. Embedded AC is a low-cost WLAN solution, that saves overall investment, improves forwarding capability, and realizes a true unified wired and wireless solution on Campus. Maximum of 256 APs supported on a single switch.

Intelbras Intelligent Resilient Framework 2 (IRF2)

The Intelbras Intelligent Resilient Framework 2 (IRF 2) virtualizes multiple SC 5525 switches into a single virtual switch and provides the following benefits:

• Scalability: The IRF 2 allows you to easily add devices to the IRF 2 system. It provides a single point of management, enables switch plug and play, and supports automatic software updates for software synchronization from the master to the new member devices. This brings agility to the business with a lower total cost of ownership, allowing new switches to be added to the infrastructure without changing the network topology as the business grows.
• High availability: Intelbras’ unique routing backup technology ensures redundancy and backup of all information in the control and data planes and continuous forwarding of Layer 3 data in an IRF 2 system. This also eliminates the single point of failure and ensures continuity of service.
• Redundancy and load balancing : Distributed link aggregation technology supports load sharing and mutual backup between multiple uplinks, which improves network redundancy and optimizes the use of link resources.
• Flexibility and resiliency: The switch uses standard GE ports instead of specialized ports for IRF links between IRF member devices. This allows customers to allocate bandwidth as needed between uplink, downlink, and IRF system connections.

Wide Range of Advanced Features

The switch offers a wide range of features, including:

• Modular hardware and software design: The switch utilizes modular design, hot-swapping, and redundancy for hardware, including power modules and fan trays. The switch also utilizes a modular design for software, allowing for the installation and removal of features as needed. Refined physical architecture and optimized software workflows greatly reduce end-to-end packet processing delay.
• Virtual eXtensible LAN (VXLAN): A MAC-in-UDP technology that provides Layer 2 connectivity between distant network sites over an IP network. VXLAN enables long-distance mobility of virtual machines and data and is typically used in data centers and in the access layer of campus networks for multi-tenant services. Intelbras’ implementation of VXLAN supports the automatic establishment of VXLAN tunnels with EVPN.
• Ethernet Virtual Private Network (EVPN): A Layer 2 VPN technology that provides Layer 2 and Layer 3 connectivity between distant network sites over an IP network. EVPN uses MP-BGP in the control plane and VXLAN in the data plane. EVPN provides the following benefits: configuration automation; separation of the control plane and the data plane; routing and bridging (IRB) integration.
• In-Service Software Upgrade (ISSU) and Operation, Administration, and Maintenance (OAM) : Ensure business continuity and improve Ethernet manageability and maintenance.

Comprehensive Security Control Policies

The switch provides AAA authentications (including RADIUS authentication) and dynamic or static association of user identifiers such as user account, IP address, MAC address, VLAN, and port number, as well as 802.1x authentication and portal authentication. By using the switch in conjunction with Intelbras On-premise centralized software, you can manage and monitor online users in real-time and take immediate action against illegitimate behavior. The switch offers a large number of inbound and outbound ACLs and VLAN-based ACL assignment, which simplifies configurations and saves ACL resources.

MACsec

MACsec is a link-layer security protocol that is ideal for Ethernet networks, which are typically insecure. It provides the following services:

• • Data encryption : Encrypts data over the Ethernet link to protect against security issues such as eavesdropping.
  • Anti-replay : Prevents packets from being intercepted and modified en route to protect the network from unauthorized access.
  • Tamper Protection: Prevents packet tampering to protect data integrity.
  • MACsec offers the following deployments:
  • Customer-oriented: Secures the transmission of data over the link between the customer and their access device.
  • Device-oriented mode: Secures the transmission of data over the link between two interconnect devices.

High Availability

In addition to node and link protection, the switch offers the following hardware high-availability features:

• 1+1 power module redundancy and 1+1 fan tray redundancy.
• Hot-swappable interface modules.
• Automatic monitoring of power status and fan tray and alarm mechanisms.
• Automatic fan speed adjustment based on temperature change.
• Self-protection mechanisms that protect power modules from overcurrent, overvoltage, and overheating conditions.

Exceptional Manageability

The switch offers a variety of management features and is easy to administer. It offers the following device management features:

• Provision of multiple management interfaces, including the console port, out-of-band management Ethernet port, and USB port.
• Support configuration and management through the CLI or centralized Intelbras On-premise software.
• Support for multiple access methods, including SNMPv1/v2c/v3, Telnet, and SSH 2.0 and more secure SSL.
• Utilizes OAM to enhance system manageability.
• Supports FTP and TFTP for system upgrades.
• Multiple configuration files. Supports FTP and TFTP to backup and restore.

Multi-Chassis Link Aggregation Group (MLAG)

Intelbras SC 5525 series switches support M-LAG, which allows links from multiple switches to aggregate into a single link to implement device-level link backup. M-LAG is applicable to servers with dual connections to a pair of access devices for node redundancy.

• Simplified topology: M-LAG simplifies network topology and spanning tree configuration by virtualizing two physical devices into one logical device.
• Independent updating: DR member devices can be independently upgraded one by one to minimize the impact on traffic forwarding.
• High availability: The DR system uses a keepalive link to detect multi-asset collisions and ensure that only one member device forwards traffic after the DR system splits.

Visualization Capability

The Intelbras SC 5525 series switches support Telemetry technology, which can send the switch’s real-time resource information and alarm information to the O&M platform via the gRPC protocol. The platform can perform network quality tracking, troubleshooting, risk early warning, architecture optimization, and other functions to accurately ensure user experience by analyzing data in real time.

Specifications

Hardware Specifications

Item| SC 5525-24X-2HE| SC 5525-24X-2QE| SC 5525-48X-2HE| SC 5525-48X-2QE| SC 5525-48X-6H| SC 5525-24X-6H
---|---|---|---|---|---|---
Port switching capacity| 1680Gbps| 960Gbps| 2160Gbps| 1440Gbps| 2160Gbps| 1680Gbps
Packet forwarding rate| ****

705Mpps

| ****

705Mpps

| ****

1050Mpps

| ****

1050Mpps

| ****

600Mpps

| ****

600Mpps

System Switching Capacity| ****

2.56Tbps

Dimensions (H

× W × D)

EIA 19″

| ****

43.6 × 440 × 360 mm (1.72 × 17.32 × 14.17 in)

Weight| ≤7.4KG| ≤7KG| ≤ 7.6KG| ≤7.2KG| ≤6KG| ≤5.5KG
CPU| Dual Core, 1.6GHz
Flash| 1GB (dual boot image)
SDRAM| 2GB
Packet Buffer| 10M
Console port| 1 console port (RJ45)
Management Ethernet ports| 1
USB ports| 1
Item| SC 5525-24X-2HE| SC 5525-24X-2QE| SC 5525-48X-2HE| SC 5525-48X-2QE| SC 5525-48X-6H| SC 5525-24X-6H
---|---|---|---|---|---|---
SFP+| 24| 24| 48| 48| 48| 24
QSFP+| –| 2| –| 2| –| –
QSFP28| 2| –| 2| –| 6| 6
Auto- detection                   of cable                  type

(direct                      or cross-over) with                 auto- adjustment (auto MDI/MDIX)

for                  all

1000Base-T interfaces

|

Yes

|

Yes

|

Yes

|

Yes

|

Yes

|

Yes

Automatic and             manual setting                   of operating speed for all 1000Base-T interfaces|

Yes

|

Yes

|

Yes

|

Yes

|

Yes

|

Yes

Leds

Power, SYS, Link/Act and FAN

|

Yes

|

Yes

|

Yes

|

Yes

|

Yes

|

Yes

Expansion slots| 2| –

Expansion modules (do not follow the product                      by default)

| 10G SFP Plus 2-Port Ethernet Optical Interface Module 10G SFP Plus 4-Port Ethernet Optical Interface Module 10G MACSec SFP+ Interface Module with 8 Ports

1/2.5/5G BASE-T Ethernet Copper Interface Module with 8 Ports 1/2.5/5/10G BASE-T Ethernet Copper Interface Module with 8 Ports 28GE 25GE SFP2 Interface Module with 2 Ports

40GE QSFP+ Interface Module with 2 Ports

28GE 25GE SFP8 Interface Module with 8 Ports (for SC 5525-48X-2HE) 28GE 100GE QSFP2 Interface Module with 2 Ports (for SC 5525-48X-2HE)

|

N/A

Input Voltage Range

| Rated: 100 VAC to 240 VAC @ 50 Hz/60 Hz Max.: 90 VAC to 264 VAC @ 47 Hz to 63 Hz Rated voltage range: –48 to –60 VDC

Max voltage range: –36 to –72 VDC

| Rated voltage range: 100 to 240 VAC @ 50/60 Hz

Max voltage range: 90 to 264 VAC @ 47 to 63 Hz

Power Supply Slots (power supplies do not follow the product by default)|

2 slots

Item| SC 5525-24X-2HE| SC 5525-24X-2QE| SC 5525-48X-2HE| SC 5525-48X-2QE| SC 5525-48X-6H| SC 5525-24X-6H
---|---|---|---|---|---|---
Fan trays/Fan Slot (do not follow   the

product by default)

|

2

|

3

Idle        power consumption| Single                      AC: 38WDual AC: 43W| Single                       AC: 38WDual AC: 43W| Single AC: 44WDual AC: 49W|

Single AC: 39W

| Single                   AC:

29WDual                 AC: 36W

| Single                   AC:

29WDual                 AC: 35W

Max.      power consumption| Single                         AC:

197WDual                         AC:

200W

| Single                         AC:

179WDual                         AC:

183W

| Single AC: 249W Dual AC: 251W| Single AC: 231W Dual AC: 234W| Single AC: 163W Dual AC: 162W| Single AC: 131W Dual AC: 134W

Operating temperature

| 0ºC to 45ºC (32ºF to 113ºF)

Altitude from -60m to 5000m: From 0m, the maximum operating temperature decreases by 0.33°C for every 100m increase in altitude.

Storage temperature| -40°C to 70°C(-40°F to 158°F)
Operating     & storage humidity|

5% RH to 95% RH, non-condensing

MTBF(Year)/ Mean       Time Between Failures(years

)

|

63.4

|

62.8

|

60.8

|

60.2

|

60.8

|

63.4

Software Specifications

Virtualization

| Intelligent Resilient Framework 2 (IRF2) Distributed Device Management Distributed Link Aggregation Distributed Resilient Routing

Stacking via standard Ethernet ports (supported, stacking devices with different port densities) Local Device Stacking, and Remote Device Stacking

LACP, BFD, and ARP-based multi-active detection (MAD)

Link aggregation

| 32 Instances and 8 groups of Ethernet interfaces via IEEE 802.3ad Link Aggregation10GE/40GE/100GE Port Aggregation

Static Aggregation Dynamic Aggregation

Jumbo frame /Jumbo package| Supports

MAC address table

| Static MAC Address

Blackhole MAC Address

VxLAN

| VXLAN L2 switching VXLAN L3 Routing VXLAN VTEP

IS-IS+ENDP Distributed Control Plane MP-BGP+EVPN Distributed Control Plane

OpenFlow+Netconf Centralized Control Plane

VLAN

| Port-Based VLAN (up to 4094 VLANs) Guest-VLAN

Private-VLAN Voice VLAN

Multicast-VLAN (Ipv4/IPv6) QinQ and QinQ Flexible VLAN Mapping

PVST+ and RPVST+ (16 instances)

Traffic monitoring| slow
LLDP| LLDP/LLDP-MED

DHCP IPv4 & IPv6

| DHCP Client Snooping de DHCP

DHCP Relay (8 instances and 2 servers per instance) DHCP Server

DHCP Snooping Option 82 / DHCP Relay Option 82

ARP

| Full ARP table management Static Input

Free ARP

Common ARP Proxy and Local ARP Proxy Dynamic ARP Inspection

ARP Anti-Attack

ARP Source Suppression

ARP detection based on DHCP Snooping security entries, 802.1X entries, and IP/MAC static association entries

Routing

| IPV4 Routing and IPV6 Routing, Dual StackReverse Path Forwarding (uRPF) Unicast Feature for protection in case of “Spoofed IP Source Address”

IPV6 Routing

IPv6: Ping, Traceroute, Telnet, SSH, SNMP, DNS, and switch management. IPv4/IPv6 Static Routing

Dynamic Routing as RIP v1/2 and RIPng Policy-Based Routing (PBR)

Equal-Cost Path Routing (ECMP)

OSPFv1/v2/v3 – authentication via simple password and md5. BGP/BGP4+ for IPv6

IS-IS/IS-ISv6

GRE/IPv4 tunnel GRE/IPv6 tunnel

Default MTU Value 1500 bytes

IPv6

| Neighbor Discovery (ND) PMTU

ICMP v6, Telnet v6, SFTP v6, SNMP v6, BFD v6, VRRP v3

Portal IPv6

IPv6 over IPv4 tunnel Policy-Based Routing (PBR)

Multicast

| IGMP Snooping v1/v2/v3 256 groups IGMP Snooping Quick Start

IGMP Snooping Group Policy

PIM-DM, PIM-SM and PIM-SSM (IPv4/IPv6) PIM BFD

Snooping PIM

MVRP (Analogous GVRP) MFF

Enhanced Layer 3 Multicast MSDP

MPLS

| MPLS support

MCE support (“VRF-Light” – vpn-instance, 255 routing instances) Support MPLS VPN, VPLS

Zero configuration

| DHCP Automatic Configuration

CWMP-TR069

Broadcast/Multicast/Unicast storm suppression/Multicast/Unicast

| Storm Suppression Based on Port Bandwidth Percentage PPS-Based Storm Suppression

BPS-Based Storm Suppression

Loop-free     redundant                       Layer               2 topology

| Spanning Tree STP/RSTP/MSTP (up to 64 instances) /PVST/PVST+ Root Guard

BPDU Guard

BPDU Protection BPDU Filter Loop Guard

TC Guard Flap Guard

Edged-port (When the link to a port comes up and 802.1W detects that the port is an Edge port, that port instantly goes into a forwarding state)

Link Detection (UDLD)

Digital Diagnostic Monitor (DDM) G.8032 Ethernet Ring Protection (ERPS)

QoS/ACL

| Rate Limit for Receiving and Transmitting Packets with a Minimum Granularity of 01 Mbps

CAR per port

Flexible queue scheduling algorithms based on both port and queue, including SP, WDRR, WRR, WFQ, and SP+WRR

802.1p Priority and DSCP Priority Layer 2 to Layer 4 Packet Filtering

Traffic Classification Based on Source MAC, Destination MAC, Source IP, Destination IP, Port, Protocol, and VLAN, applied to inbound and outbound directions of the interfaces

ACL counters implemented in hardware and software Time range-based ACL

WRED

Mirroring

| Stream Mirroring

Port Mirroring up to 7 sessions

Layer 2 – Local Port Mirroring (SPAN) and Remote Port Mirroring (RSPAN)Layer 3 – Remote Port Mirroring (ERSPAN)

Policy-Based Mirroring Traffic Mirroring

Security

| Hierarchical User Management and Password Protection 256 local users

MAC-Based Authentication

802.1X (Port Method – MAC-based, Port-based) With the port-based method, after the first user of a port passes authentication, all other users of the port can access the network without authentication, and when the first user goes offline, all other users also go offline at the same time. With the MAC-based method, each user on a port must be authenticated separately, and when an authenticated user goes offline, no other users are affected.

Port-based access control

If an 802.1X Auth-Fail VLAN is available, the device assigns the port to the Auth-Fail VLAN. All users on this port can access only resources in the Auth- Fail VLAN.

MAC-based access control

If an 802.1X Auth-Fail VLAN is available, the device remaps the MAC address of the user to the Auth-Fail VLAN. The user can access only resources in the Auth-Fail VLAN.

802.1x max-user max-number – default is 4294967295 Storm Restraint

AAA Authentication

RADIUS Authentication (COA Support) HWTACACS

SSH2.0 (up to 32 concurrent sessions) SSH2.0 enable by default

SSH1 is disabled by default. Is possible to enable ssh1 compatibility by command SSH public key

Secure Copy Port Isolation

IP/Port/MAC Binding IP Origin Guard

Public Key Infrastructure (PKI) CPU Protection

Control Plane Protection (CoPP), Wireless Intrusion Prevention System (WIPS)

Flexible queue scheduling algorithms based on both port and queue, including SP, WDRR, WRR, WFQ, and SP+WRR

802.1p Priority and DSCP Priority Layer 2 to Layer 4 Packet Filtering

Traffic Classification Based on Source MAC, Destination MAC, Source IP, Destination IP, Port, Protocol, and VLAN, applied to inbound and outbound directions of the interfaces

ACL counters implemented in hardware and software Time range-based ACL

WRED

Mirroring

| Stream Mirroring

Port Mirroring up to 7 sessions

Layer 2 – Local Port Mirroring (SPAN) and Remote Port Mirroring (RSPAN)Layer 3 – Remote Port Mirroring (ERSPAN)

Policy-Based Mirroring Traffic Mirroring

Security

| Hierarchical User Management and Password Protection 256 local users

MAC-Based Authentication

802.1X (Port Method – MAC-based, Port-based) With the port-based method, after the first user of a port passes authentication, all other users of the port can access the network without authentication, and when the first user goes offline, all other users also go offline at the same time. With the MAC-based method, each user on a port must be authenticated separately, and when an authenticated user goes offline, no other users are affected.

Port-based access control

If an 802.1X Auth-Fail VLAN is available, the device assigns the port to the Auth-Fail VLAN. All users on this port can access only resources in the Auth- Fail VLAN.

MAC-based access control

If an 802.1X Auth-Fail VLAN is available, the device remaps the MAC address of the user to the Auth-Fail VLAN. The user can access only resources in the Auth-Fail VLAN.

802.1x max-user max-number – default is 4294967295 Storm Restraint

AAA Authentication

RADIUS Authentication (COA Support) HWTACACS

SSH2.0 (up to 32 concurrent sessions) SSH2.0 enable by default

SSH1 is disabled by default. Is possible to enable SSH1 compatibility by commanding SSH public key

Secure Copy Port Isolation

IP/Port/MAC Binding IP Origin Guard

Public Key Infrastructure (PKI) CPU Protection

Control Plane Protection (CoPP), Wireless Intrusion Prevention System (WIPS)

Performance Specifications

Model| SC 5525-24X- 2QE| SC 5525-48X- 2QE| SC 5525-24X- 2HE| SC 5525-48X- 2HE| SC 5525-24X- 6H| SC 5525-48X- 6H
---|---|---|---|---|---|---
MAC address entries(max)| 131,072| 131,072| 131,072| 131,072| 131,072| 131,072
VLAN table| 4094| 4094| 4094| 4094| 4094| 4094
Active vlan| 4094| 4094| 4094| 4094| 4094| 4094
VLAN interface| 1024| 1024| 1024| 1024| 1024| 1024
IPv4 unicast routing entries (total) Including/

RIP/RIPv2/OSPFv2/ISIS/BGP

| ****

65,536

| ****

65,536

| ****

65,536

| ****

65,536

| ****

65,536

| ****

65,536

IPv4 ARP entries(max)| 65,536| 65,536| 65,536| 65,536| 65,536| 65,536
IPv4 ACL entries| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256
IPv4 L2 multicast entries| 4000| 4000| 4000| 4000| 4000| 4000
IPv4 L3 multicast entries| 4000| 4000| 4000| 4000| 4000| 4000
IPv6 unicast routing entries (total) Including/RIP/RIPv2/OSPFv3

/ISISv6/BGP+

| ****

32,768

| ****

32,768

| ****

32,768

| ****

32,768

| ****

32,768

| ****

32,768

QOS forward queues| 8| 8| 8| 8| 8| 8
IPv6 ACL entries| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256| Ingress:2048Egr ess:256
IPv6 ND entries| 32,768| 32,768| 32,768| 32,768| 32,768| 32,768
IPv6 L2 multicast entries| 2000| 2000| 2000| 2000| 2000| 2000
IPv6 L3 multicast entries| 2000| 2000| 2000| 2000| 2000| 2000
Jumbo frame length| 10000| 10000| 10000| 10000| 10000| 10000
Max Stacking Ports| 9| 9| 9| 9| 9| 9
Max Stacking Bandwidth| 480Gbps| 480Gbps| 480Gbps| 480Gbps| 480Gbps| 480Gbps
Model| SC 5525-24X- 2QE| SC 5525-48X- 2QE| SC 5525-24X- 2HE| SC 5525-48X- 2HE| SC 5525-24X- 6H| SC 5525-48X- 6H
---|---|---|---|---|---|---
Maximum number of links per group| 32| 32| 32| 32| 32| 32
Maximum number of groups| 128| 128| 128| 128| 128| 128

Compliance with Standards and Protocols

IEEE

| 802.1x Port-based Network Access Control Protocol
802.1ab Link Layer Discovery Protocol
Provider Bridges 802.1ad
MVRP and MRP 802.1ak protocols
802.1ax Link Aggregation
802.1d Media Access Control Bridges
802.1p priority
802.1q VLANs
Multiple Spanning Trees 802.1s
802.1ag Connectivity Fault Management
VLAN Classification by Protocol and 802.1v Port
Fast 802.1w Spanning Tree Reconfiguration
1 Gigabit Ethernet 802.3ab
802.3ad Link Aggregation Control Protocol
Ethernet on the First Mile 802.3ah
Full Duplex and 802.3x Flow Control
Organization| Standards and Protocols
---|---
| 1000BASE-X 802.3z
10 Gigabit Ethernet 802.3ae
10 Gigabit 802.3an Base-T Ethernet
25 Gigabit Ethernet 802.3by
40/100 Gigabit Ethernet 802.3ba

IETF

| RFC 1305: Network Time Protocol (Version 3)
RFC 2328: OSPFV2
RFC 2374: An IPv6 Aggregatable Global Unicast Address Format
RFC 2453: RIPv2
RFC 2460: IPv6 Specification
RFC 2464: Transmission of IPv6 over Ethernet Networks
RFC 2570: Simple Network Management Protocol version 3
RFC 2571: SNMP Framework MIB
RFC 2572: SNMP-MPD MIB
RFC 2573: SNMP-Notification MIB
RFC 2574: SNMP USM MIB
RFC 2710: Multicast Listener Discovery (MLD) for IPv6.
RFC 2711: IPv6 Router Alert Option.
RFC 2737: Entity MIB (Version 2)
RFC 2819: Remote Network Monitoring Management Information Base
RFC 2787: Managed Object Definitions for the Redundant Virtual Router Protocol.
RFC 2918: Route Update Capability for BGP-4.
RFC 2925: Managed Object Definitions for Remote Ping, Traceroute, and Lookup Operations.
RFC 2934: Protocol-Independent Multicast MIB for IPv4.
RFC 3101: OSPF Not-So-Stupid Area Option. (OSPF NSSA)
Organization| Standards and Protocols
---|---
| RFC 3019: MIB MLDv1.
RFC 3046: DHCP Embossing Agent Option.
RFC 3056: Connecting IPv6 Domains via IPv4 Clouds.
RFC 3065: Autonomous System Confederation for BGP.
RFC 3137: OSPF sFlow Stub Router Advertisement.
RFC 3376: IGMPv3.
RFC 3414: SNMP-User based-SM MIB
RFC 3415: SNMP-View based-ACM MIB
RFC 3416: SNMP Protocol Operations v2.
RFC 3417: SNMP Transport Mappings.
RFC 3418: Management Information Base for Simple Network Management Protocol (SNMP).
RFC 3484: Default Address Selection for IPv6.
RFC 3509: Alternative Implementations of OSPF Area Routers.
RFC 3580: IEEE 802.1X Remote Dial-In Authentication Service (RADIUS) Guidelines for Use.
RFC 3587: IPv6 Global Unicast Address Format
RFC 3623: Graceful Restart of OSPF.
RFC 3768: Virtual Router Redundancy Protocol (VRRP).
RFC 3810: Multicast Listener Discovery Version 2 (MLDv2) for IPv6.
RFC 3973: Dense PIM Mode.
RFC 4022: MIB for TCP.
RFC 4113: MIB for UDP.
RFC 4213: Basic Transition Mechanisms for IPv6 Hosts and Routers.
RFC 4251: Secure Shell Protocol (SSH).
RFC 4252: SSHv6 Authentication.
RFC 4253: SSHv6 Transport Layer.
Organization| Standards and Protocols
---|---
| RFC 4254: SSHv6 Connection.
RFC 4271: Border Gateway Protocol 4 (BGP-4).
RFC 4273: Managed Object Definitions for BGP-4.
RFC 4291: Internet Protocol Version 6 (IPv6) Addressing Architecture.
RFC 4292: IP Forwarding Table MIB.
RFC 4293: Management Information Base for Internet Protocol (IP).
RFC 4360: BGP Extended Communities Attribute.
RFC 4419: Key Exchange for SSH.
RFC 4443: ICMPv6.
RFC 4456: BGP Route Reflection: An Alternative to Full Mesh IBGP.
RFC 4486: Subcodes for BGP Termination Notification Message.
RFC 4502: Remote Network Monitoring Management Information Base Version 2
RFC 4541: IGMP and MLD Snooping Switch.
RFC 4552: Authentication/Confidentiality for OSPFv3.
RFC 4601: PIM Sparse Mode.
RFC 4607: IP-Specific Multicast.
RFC 4724: Elegant Restart Mechanism for BGP.
RFC 4750: OSPFv2 MIB (partial support, no SetMIB).
RFC 4760: Multiprotocol Extensions to BGP-4.
RFC 4861: IPv6 Neighbor Discovery.
RFC 4862: IPv6 Stateless Address Automatic Configuration.
RFC 4940: IANA Considerations for OSPF.
RFC 5059: BSR Mechanism for PIM.
RFC 5065: Autonomous System Confederation for BGP.
RFC 5095: Deprecation of Type 0 Routing Headers in IPv6.
Organization| Standards and Protocols
---|---
| RFC 5176 Dynamic Authorization Extensions to Remote Authentication Dial-In User Service (RADIUS)
RFC 5187: Graceful Restart of OSPFv3.
RFC 5340: OSPFv3 for IPv6.
RFC 5424: Syslog Protocol.
RFC 5492: Capability Advertising with BGP-4.
RFC 5519: Multicast Group Membership Discovery MIB (MLDv2 only).
RFC 5798: Virtual Router Redundancy Protocol (VRRP) (excluding Acceptance Mode and sub-second timer).
RFC 5880: Bidirectional Forwarding Detection.
RFC 5905: Network Time Protocol Version 4 Protocol and Algorithm Specification.
RFC 6620: SAVI FCFS.
RFC 6987: OSPF Stub Router Advertisement.
RFC 6020: YANG – A Data Modeling Language for the Network Configuration Protocol (NETCONF).
RFC 7348: Extended Virtual LAN Network (VXLAN): A Framework for Overlaying Virtualized Layer 2 Virtual Networks on Layer 3 Networks.
RFC 7432: BGP-Based Ethernet VPN with MPLS.
RFC 4664: Framework for Layer 2 Virtual Private Networks (L2VPNs).
RFC 4665: Service Requirements for Layer 2 Provider Virtual Private Networks.
RFC 4761: Virtual Private LAN Service (VPLS) Using BGP for Automatic Discovery and Signaling.
RFC 4762: Virtual Private LAN Service (VPLS) Using the Label Distribution Protocol (LDP) for Signaling.
RFC 5120: M-ISIS Routing in Multi-Topology Intermediate Systems.
RFC 5280: Public Key Infrastructure on the Internet X.509 Certificate Profile and Certificate Revocation List (CRL).
RFC 5308: IPv6 Routing with IS-IS.
RFC 5381: Experience in Implementing NETCONF over SOAP.
RFC 5415: Control and Delivery of Wireless Access Points (CAPWAP) Protocol Specification.

ITU

| ITU-T Y.1731
ITU-T Rec G.8032/Y.1344 Mar. 2010

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