Cisco Systems AS5800 manual Command Mode, Example

Page 28

Command Reference

Command Mode

Dial-peer configuration

Command History

Release

Modification

11.3(1)T

This command was introduced (Cisco 3600 series router).

 

 

11.3(3)T

Port-specific values for the Cisco 2600 were added.

 

 

11.3 MA

Port-specific values for the Cisco MC3810 were added.

 

 

12.0(3)T

Port-specific values for the Cisco AS5300 were added.

 

 

12.0(7)T

Port-specific values for the Cisco AS5800 were added.

 

 

Usage Guidelines

This command is used for calls incoming from a telephony interface to select an incoming dial peer and for calls coming from the VoIP network to match a port with the selected outgoing dial peer.

This command applies only to POTS peers.

Example

The following example associates a Cisco 3600 series router POTS dial peer 10 with voice port 1, which is located on subunit 0, and accessed through port 0:

dial-peer voice 10 pots port 1/0/0

The following example associates a Cisco MC3810 POTS dial peer 10 with voice port 0, which is located in slot 1:

dial-peer voice 10 pots port 1/0

The following example associates a Cisco AS5300 POTS dial peer 10 with voice port 0:D:

dial-peer voice 10 pots port 0:D

The following example associates a Cisco AS5800 POTS dial peer 10 with voice port 1/0/0:D

(T1 card):

dial-peer voice 10 pots port 1/0/0:D

The following example associates a Cisco AS5800 POTS dial peer 10 with voice port 1/0/0:1:D

(T3 card):

dial-peer voice 10 pots port 1/0/0:1:D

28Cisco IOS Release 12.0(7)T

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Contents Feature Overview Voice over IP for the Cisco AS5800Benefits Feature OverviewTwo-Stage-Dial Toll Bypass Pstn Voice-Traffic and Fax-Traffic Off load Benefits Two-Stage Dial Toll BypassRelated Features and Technologies Universally Accessible Voice-Mail and Fax-Mail ServicesRestrictions Related DocumentsSupported Platforms Supported Standards, MIBs, and RFCsStandards MIBsPrerequisites PrerequisitesConfiguring IP Networks for Real-Time Voice Traffic Configuration TasksConfiguration Tasks Configuring Voice Ports Configuring Custom Queuing and IP RTP ReserveConfiguring Voice Ports Step Command PurposeFine-Tuning Isdn Voice Ports Configuration Tasks Step Command PurposeTroubleshooting Tips Verifying Voice Port ConfigurationSecondsinfinity Configuring Dial Peers Inbound versus Outbound Dial PeersConfiguring Pots Peers Pots command is a tag that uniquely identifiesOutbound Dialing on Pots Peers Pots peer. The number value of the dial-peer voiceDirect Inward Dial for Pots Peers Incoming and Outgoing Pots Call LegsUsing the elements, the algorithm is as follows Distinguishing Voice and Modem Calls on the Cisco AS5800Configuring VoIP Peers Verifying Dial Peer ConfigurationConfiguring the Cisco AS5800 as an H.323 Gateway Configuring the Cisco AS5800 as an H.323 GatewayRouterconfig-if#h323-gateway voip interface Routerconfig-if#h323-gateway voip h323-idConfiguring the Cisco AS5800 for Interactive Voice Response Verifying Gateway Interface ConfigurationConfiguring IVR Router config# call application voice nameVerifying IVR Configuration Configuration ExampleConfiguration Example Configuring the Cisco 2600 as a Gateway Configuring the Cisco 3640 as a GatekeeperConfiguring the Cisco AS5800 as a Gateway New Commands Command ReferenceCommand Reference Modified Commands Codec Port Show csm Show voice port Voice-portDefaults Command ModesCodec Syntax DescriptionCommand History Related CommandsUsage Guidelines ExamplesDtmf-relay CommandDescription Default No port is configuredPort Cisco MC3810Command Mode ExampleShow csm Router# show csm voice 2/4/4/0 Explains the fields contained in both of these examples Specifies the T1 or E1 controllerShow csm voice Field Descriptions Field DescriptionCommand Reference Show csm voice Field Descriptions Show csm Tdmdspstream Related Commands Show voice port Syntax Description For the Cisco 2600/3600 seriesFor the Cisco AS5300 Access Server For the Cisco AS5800 Universal Access ServerFor the Cisco MC3810 Show voice portRouter# show voice port 1/0/0 Router# show voice port 1/2 Show voice port Field Descriptions Explains the fields in the sample outputSummary Show voice port Show voice port Field Descriptions for the Cisco AS5800 Command Reference Show voice port Field Descriptions5800# show voice port 1/0/0D Isdn 1/0/0D Show call active voice ReleaseModification Show vrm activecalls5800# show vrm activecalls Show vrm activecalls Show vrm vdevice Field DescriptionsCommand Reference Show vrm vdevice Field Descriptions Show vrm vdevices Show vrm vdevices5800# show vrm vdevices 6 Show vrm vdevices 5800# show vrm vdevices summary Summary of voice devices for all voice cardsShow vrm vdevice summary Field Descriptions CCCAPCODECG711U DSP# Show vrm activecalls Test vrm busyout Test vrm busyoutRouter# test vrm busyout 4 all Router# test vrm busyout 4 1 Router# test vrm busyout 4 1 channelTest vrm reset Following example resets DSP 4 on the VFC installed in slotTest vrm reset Router# test vrm reset 4Test vrm unbusyout Router# test vrm unbusyout 4 allRouter# test vrm unbusyout 4 1 Test vrm unbusyoutRouter# test vrm unbusyout 4 1 channel Voice-port Global configuration Voice-portDial-peer voice New Debug Commands Debug CommandsDebug Commands There are no arguments or keywords used in this command Debug vrm controlFormat for the Receive messages is as follows Format of the Send messages is as followsDebug vrm control Describes the fields in previous example Debug vrm control Field DescriptionsDebug vrm error Debug vrm errorVtspfail codec value not supported This error message notifies the VRM of a DSP alarm Possible state values are as follows = ResetDebug vrm error Field Descriptions Expains the field contained in the previous exampleDebug vrm control Debug vrm inout Debug vrm inoutGlossary GlossaryGlossary Glossary
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AS5800 specifications

Cisco Systems has long been a leader in the networking and telecommunications field, and its AS5800 series of routers exemplify this tradition. The AS5800, along with the AS5850, AS5350, AS5400, and AS5300, provides robust solutions for service providers and enterprise-level networking applications. Each of these models has distinct features and characteristics that cater to the evolving demands of internet traffic and data processing.

The Cisco AS5800 is designed for high-capacity routing and optimized for broadband services. It supports a wide range of services, including voice, data, and video applications, making it a versatile option for service providers looking to deliver integrated solutions. It is equipped with advanced quality of service (QoS) features that ensure bandwidth is allocated effectively, holding strong even under heavy traffic conditions.

In comparison, the AS5850 offers superior processing capabilities and is typically utilized in larger-scale implementations. This model supports high-density interfaces, allowing numerous connections without compromising performance. Its architecture includes enhanced MPLS (Multiprotocol Label Switching) support, enabling more efficient traffic management and better utilization of network resources.

The AS5350 is known for its scalability and energy efficiency, ideal for voice-over-IP (VoIP) and media gateway applications. It supports various telephony features, such as protocol interworking and transcoding, making it a preferred choice for organizations focusing on digital voice technologies. The AS5300, while slightly older, continues to be a valuable asset for less demanding networks, offering reliable performance with VoIP capabilities and basic data applications.

The AS5400 bridges the gap between high-performance routing and operational efficiency. It incorporates Cisco's proprietary technologies to ensure seamless connectivity and robust failover systems. This model is highly regarded for its security features, protecting network integrity and providing peace of mind for businesses relying on sensitive data transfer.

Overall, Cisco’s AS5800 series showcases a progressive evolution of routing capabilities with enhanced features tailored for resilience, scalability, and performance. These routers not only address the technical needs of modern networks but also strategically position organizations for future growth in an increasingly digital world. Each model, with its unique attributes, continues to support the varied demands of global communication infrastructures.