Cisco Systems OL-12518-01 Gigabit Ethernet Interface Configuration-PE1, VRF Configuration-PE1

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Chapter 4 FCIP over IP/MPLS Core

Testing Scenarios and Results

Gigabit Ethernet Interface Configuration—PE1

The following sample configuration is for the Gigabit Ethernet interface for PE1 in Figure 4-10.

interface GigabitEthernet0/0/0 ip vrf forwarding storage

ip address 11.11.11.2 255.255.255.0 no ip directed-broadcast load-interval 30

negotiation auto

VRF Configuration—PE1

The following are the VRF definitions on the PE1(7500-105) router:

ip vrf storage rd 105:106

route-target export 105:106 route-target import 105:106

!

MP BGP Configuration—PE2

MP-BGP between the two PEs carries the CE routing information. The PE router learns an IP prefix from a CE router through a BGP session with the CE router.

router bgp 65001

 

 

no synchronization

 

 

bgp log-neighbor-changes

 

 

neighbor 10.200.0.106 remote-as 65001

Remote PE

neighbor 10.200.0.106 update-source Loopback0

 

no auto-summary

 

 

!

 

 

address-family vpnv4

 

 

neighbor 10.200.0.106 activate

 

neighbor 10.200.0.106 send-community extended

 

exit-address-family

 

 

!

 

 

address-family ipv4 vrf storage

 

redistribute connected

redistribute the CE routes onto the storage VRF.

no auto-summary

no synchronization exit-address-family

!

Gigabit Ethernet Interface Configuration—PE2

The following sample configuration is for the Gigabit Ethernet interface of PE2.

!

interface GigabitEthernet0/0/0 ip vrf forwarding storage

ip address 12.12.12.2 255.255.255.0 no ip directed-broadcast load-interval 30

negotiation auto

!

 

Data Center High Availability Clusters Design Guide

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OL-12518-01

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Contents Overview A P T E RTypical Customer Requirements SAN Extension Through SP NetworkCompression Compression Support in Cisco MDS2shows a comparison of the Cisco compression solutions Compression Modes and RateCisco Compression Solutions SecurityCisco Encryption Solutions VPNSM-DES, 3DES MDS MPS-DES, 3DES, AES192Using Fcip Tape Acceleration Write AccelerationTCP Operations TCP ParametersTCP Maximum Bandwidth TCP Window SizeTCP Minimum Available Bandwidth Round Trip Time CiscoIPS Module Cisco MDS Cisco FcipMultiprotocol Services Module CPE Selection-Choosing between the 9216iQoS Requirements in Fcip Synchronous Replication ApplicationsAsynchronous Replication Service Offerings over Fcip Service Offering Scenario A-Disaster RecoveryService Offering Scenario B-Connecting Multiple Sites Fcip over SP IP/MPLS Core for Disaster Recovery SolutionsService Offering Scenario C-Host-based Mirroring SP MplsMpls VPN Core CPE Using VRF VPNs Mpls VPN for Storage ArchitectureLab Setup and Topology Testing Scenarios and ResultsTest Objectives VPN VRF-Specific Configurations MP BGP Configuration-PE1MP BGP Configuration-PE2 Gigabit Ethernet Interface Configuration-PE1VRF Configuration-PE1 Gigabit Ethernet Interface Configuration-PE2VRF Configuration-PE2 Scenario 1-MDS 9216i Connection to GSR Mpls CoreConfiguring TCP Parameters on CPE Cisco MDS Configuring the MTUScenario 2-Latency Across the GSR Mpls Core ThroughputScenario 3-Cisco MDS 9216i Connection to Cisco 7500 PE/GSR P Scenario 4-Impact of Failover in the Core Scenario 5-Impact of Core Performance17shows the MDS Fcip and compression latency Application Requirements Compression Ratio ComparisonsRemote Tape-Backup Applications Conclusion
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