2014年7月10日星期四

The Naming Conventions of Huawei AR Routers

Do you know the Huawei AR router naming conventions? The answers will be shown as below.

AR150/ AR160/ AR200 series routers naming conventions

Figure 1 shows naming conventions of the AR150/160/200 series routers. Digits and letters are described in Table 1.

Figure 1 AR150/160/200 series routers naming conventions

Table 1 AR150/160/200 series routers naming conventions

Field	Meaning	Description
A	Product name	AR: application and access routers
B	Hardware platform type. The value can be 1 or 2.	1: four LAN interfaces
B	Hardware platform type. The value can be 1 or 2.	2: eight LAN interfaces
C	Combines with B to indicate different router series using the same hardware platform.	The following router series are available:
		15: 4*FE LAN interface series
		16: 4*GE LAN interface series
		20: 8*FE LAN interface series
D	Type of major or fixed uplink interfaces on the router	1: FE or GE
		6: ADSL-B/J
		7: ADSL-A/M
		8: G.SHDSL
		9: VDSL over POTS
E	Other interface types supported by the router. This field is optional.	E: enhanced major uplink interface (dual-uplink or two-wire/four-wire DSL enhanced)
		F: uplink GE combo interface
		G: uplink wireless interface (GPRS, 3G, or LTE)
		V: voice interface
		W: Wi-Fi access interface
F	Extended information about the router. This field is optional.	HSPA+7: WCDMA HSPA+7 3G standard
		C: CDMA2000 3G standard
	NOTE:	D: DC model
	This field starts with "-" and specifies supplementary interface descriptions or other possible configurations.	P: PoE supported
		L: FDD-LTE, a European standard

AR1200/ AR2200/ AR3200 series routers naming conventions

Figure 2 shows naming conventions of the AR1200/2200/3200 series routers. Digits and letters are described in Table 2.

Figure 2 AR1200/2200/3200 series routers naming conventions

Table 2 AR1200/2200/3200 series routers naming conventions

Field	Meaning	Description
A	Product name	AR: application and access routers
B	Hardware platform series code	Currently, three router series are available: 1, 2 and 3. A larger value indicates higher performance.
C	Hardware platform type	2: modular router
D	Maximum number of slots supported by the router	AR1200 series: D indicates the maximum number of SIC slots supported.
		AR2200/3200 series: D indicates the maximum number of XISC slots supported.

		NOTE:
		D can be 0, indicating the cost-effective router model with fixed uplink interfaces or reduced number of slots. E represents the number of fixed uplink interfaces and or reduced number of slots.

E	Fixed uplink interfaces on the router	1: FE/GE
		2: E1/SA
		4: four SIC slots

		NOTE:
		If E is 0, the device has no fixed uplink interface.

F	Other interface types supported by the router. This field is optional.	F: FE LAN interface
		L: simplified interface
		V: fixed voice interface
		W: fixed Wi-Fi access interface
G	Extended information about the router. This field is optional.	A: AC model (AC is the default configuration, and this field can be omitted in AC models.)
		D: DC model
	NOTE:	48FE: 48 fixed 100M switching ports
	This field starts with "-" and specifies supplementary interface descriptions or other possible configurations.

Huawei AR3200 Series Routers Specification

Huawei AR1200 Series Routers Specification

Huawei Router Purchase List – Component Selection Guide

End of Life Announcement for Some Huawei AR G3 Series Routers

2014年6月16日星期一

How to Configure IS-IS IPv6 for Huawei Routers

Applicability

This example applies to all Huawei AR routers of V200R002C00 and later versions.

Networking Requirements

As shown in Figure 1:

RouterA, RouterB, RouterC, and RouterD belong to the same AS. The four routers need to run IS-IS to implement IPv6 interworking.
RouterA, RouterB, and RouterC belong to Area 10, and RouterD belongs to Area 20.
RouterA and RouterB are Level-1 routers, RouterC is a Level-1-2 router, and RouterD is a Level-2 router.

Figure 1 Networking diagram of configuring IS-IS IPv6

Procedure

1. Configure RouterA.

sysname RouterA

ipv6 //Enable IPv6 unicast forwarding.

isis 1 //Enable IS-IS process 1.

is-level level-1 //Set the router as a Level-1 router.

network-entity 10.0000.0000.0001.00 //Set the NET for IS-IS process 1.

ipv6 enable topology standard //Enable the IPv6 capability for IS-IS process 1.

interface GigabitEthernet1/0/0

ipv6 enable //Enable IPv6 on the interface.

ipv6 address 10:1::2/64 //Configure a global unicast IPv6 address for the interface.

isis ipv6 enable 1 //Enable the IPv6 capability for IS-IS process 1 on the interface.

Return

2. Configure RouterB.

sysname RouterB

ipv6

isis 1

is-level level-1

network-entity 10.0000.0000.0002.00 //Set the NET for IS-IS process 1.

ipv6 enable topology standard

interface GigabitEthernet1/0/0

ipv6 enable

ipv6 address 10:2::2/64 //Configure a global unicast IPv6 address for the interface.

isis ipv6 enable 1

return

3. Configure RouterC.

sysname RouterC

ipv6

isis 1

network-entity 10.0000.0000.0003.00 //Set the NET for IS-IS process 1.

ipv6 enable topology standard

interface GigabitEthernet0/0/0

ipv6 enable

ipv6 address 30::1/64 //Configure a global unicast IPv6 address for the interface.

isis ipv6 enable 1

isis circuit-level level-2 //Set the circuit type as Level-2, allowing only Level-2 adjacencies to be established on the interface.

interface GigabitEthernet1/0/0

ipv6 enable

ipv6 address 10:1::1/64 //Configure a global unicast IPv6 address for the interface.

isis ipv6 enable 1

interface GigabitEthernet2/0/0

ipv6 enable

ipv6 address 10:2::1/64 //Configure a global unicast IPv6 address for the interface.

isis ipv6 enable 1

return

4. Configure RouterD.

sysname RouterD

ipv6

isis 1

is-level level-2 //Set the router as a Level-2 router.

network-entity 20.0000.0000.0004.00 //Set the NET for IS-IS process 1.

ipv6 enable topology standard

interface GigabitEthernet1/0/0

ipv6 enable

ipv6 address 30::2/64 //Configure a global unicast IPv6 address for the interface.

isis ipv6 enable 1

interface GigabitEthernet2/0/0

ipv6 enable

ipv6 address 20::1/64 //Configure a global unicast IPv6 address for the interface.

isis ipv6 enable 1

return

5. Verify the configuration.

Run the display isis route command on each router to view IS-IS routes.

Interfaces on RouterA, RouterB, RouterC, and RouterD can successfully ping each other.

Configuration Notes

IPv6 must be enabled in the system view and interface view.
The IPv6 capability must be enabled for IS-IS on interfaces.
When using the network-entity command to set a NET for an IS-IS process, configure the same area ID for routers in an area.

The more information about technical support you can consult with our technician - Bill, and his e-mail address is as below:

bill@huanetwork.com

2014年5月23日星期五

Example for Configuring Communication Between VLANs Using VLANIF Interfaces

Huawei AR150&160&200&1200&2200&3200 Series Enterprise Routers Configuration Guide - Example for Configuring Communication Between VLANs Using VLANIF Interfaces

Networking Requirements

As shown in Figure 1, Ethernet 2/0/1 of the Router is connected to the uplink interface of SwitchA.

On SwitchA, the downlink interface Ethernet 2/0/1 is added to VLAN 10 and the downlink

interface Ethernet 2/0/2 is added to VLAN 20.

PC1 in VLAN 10 and PC2 in VLAN 20 need to communicate with each other

Figure 1 Network diagram for communication between VLANs through VLANIF interfaces

Configuration Roadmap

The configuration roadmap is as follows:

1. Add Ethernet interfaces to the VLAN.

2. Configure VLANIF interfaces.

Procedure

Step 1 Configure the Router.

# Create VLANs.

<Huawei> system-view

[Huawei] sysname Router

[Router] vlan batch 10 20

# Add interfaces to the VLANs.

[Router] interface ethernet 2/0/1

[Router-Ethernet2/0/1] port link-type trunk

[Router-Ethernet2/0/1] port trunk allow-pass vlan 10 20

[Router-Ethernet2/0/1] quit

# Assign IP addresses to the VLANIF interfaces.

[Router] interface vlanif 10

[Router-Vlanif10] ip address 10.10.10.1 24

[Router-Vlanif10] quit

[Router] interface vlanif 20

[Router-Vlanif20] ip address 20.20.20.1 24

[Router-Vlanif20] quit

Step 2 Configure SwitchA.

# Create VLANs.

<Huawei> system-view

[Huawei] sysname SwitchA

[SwitchA] vlan batch 10 20

# Add interfaces to the VLANs.

[SwitchA-Ethernet2/0/1] port link-type access

[SwitchA-Ethernet2/0/1] port default vlan 10

[SwitchA-Ethernet2/0/1] quit

[SwitchA] interface ethernet 2/0/2

[SwitchA-Ethernet2/0/2] port link-type access

[SwitchA-Ethernet2/0/2] port default vlan 20

[SwitchA-Ethernet2/0/2] quit

[SwitchA] interface ethernet 2/0/3

[SwitchA-Ethernet2/0/3] port link-type trunk

[SwitchA-Ethernet2/0/3] port trunk allow-pass vlan 10 20

[SwitchA-Ethernet2/0/3] quit

Step 3 Verify the configuration.

On PC1 in VLAN 10, configure the default gateway address as the IP address of VLANIF 10 (in this example: 10.10.10.1/24).

On PC2 in VLAN 20, configure the default gateway address as the IP address of VLANIF 20 (in this example: 20.20.20.1/24).

After the configuration is complete, PC1 in VLAN 10 can communicate with PC2 in VLAN 20.

----End

Configuration Files

Configuration file of the Router

sysname Router

vlan batch 10 20

interface Vlanif10

ip address 10.10.10.1 255.255.255.0

interface Vlanif20

ip address 20.20.20.1 255.255.255.0

interface Ethernet2/0/1

port link-type trunk

port trunk allow-pass vlan 10 20

return

Configuration file of SwitchA

sysname SwitchA

vlan batch 10 20

interface Ethernet2/0/1

port link-type access

port default vlan 10

interface Ethernet2/0/2

port link-type access

port default vlan 20

interface Ethernet2/0/3

port link-type trunk

port trunk allow-pass vlan 10 20

Return

2014年5月13日星期二

Applications for Huawei S5300 Switches

Huawei S5300 Switches Applications

Application on Large-Scale Enterprise Networks

The S5300HI functions as the access device and aggregation device on large-scale enterprise networks and improves network reliability by link binding, dual-homing, and ringing.

Application in Data Centers

The S5300 can be used in a data center to access the gigabit server and connect to upper-layer devices by link aggregation. If multiple servers are available, you can use the stacking technology to improve network reliability.

CPE and UPE

The S5306TP-LI can be used as a CPE switch and the S5300HI can be used as a UPE switch.

The S5306 and the S5300HI can provide high-quality leased line for enterprises by using powerful hardware OAM.

More related topics:

Huawei 5300 switch basic configuration

Huawei S5300 new software version V200R003C00 release

The applications of Huawei S5300 series switches

Huawei S2300 vs S3300 vs S5300 vs S9300

Huawei S series switches stack connection topology

2014年4月29日星期二

S2700/S3700/ S5700 Switch PoE Power Supply

What Are the Differences Between a PoE Power Supply Unit and a Common Power Supply Unit on a Quidway S2700/S3700/ S5700 Huawei Switch?

Answer:

On a S2700/S3700/S5700 switch, a PoE power supply unit and a common power supply unit differ in their appearance and functions.

l Figure 1-1, Figure 1-2, and Figure 1-3 show their appearance. A PoE power supply unit

has a fan, but a common power supply unit does not.

Figure 1-1 Common power supply unit

Figure 1-2 250 W PoE power supply unit

Figure 1-3 500 W PoE power supply unit

A PoE power supply unit can provide power for both the entire device and the PDs, whereas a common power supply unit can provide power for only the entire device.