Avaya VoIP on Cisco Best Practices by PacketBase
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Avaya VoIP on Cisco Best Practice.
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Avaya VoIP on Cisco Best Practices by PacketBase
- 1. Avaya IP Communications Overview, Interoperability with Cisco Networks, and Best Practices Miguel Corteguera
- 9. Where to set codecs
- 14. WAN and Network Regions LAN/WAN PSTN C-LAN MedPro Subnet FROM (TO Address or Mask) NetReg 192.168.1.0 _ 24 1 192.168.2.0 _ 24 2 _._._._ _._._._ _ _._._._ _._._._ _ _._._._ _._._._ _ 192.168.1.0 192.168.2.0 G.711 G.729 Avaya Communication Manager Network Region Configuration Guide: http://support.avaya.com/elmodocs2/comm_mgr/r3/netw-region-tutorial-cm30-1005.pdf Network Region Job Aid: http://support.avaya.com/elmodocs2/intmgmt/r3/14_300283_2.pdf 1 2
- 15. Network Region Different configuration options for controlling calls between sites (Call Admission Control)…
- 16. Suggested IP-Network Region Assignment IP-Network Regions Usage Comments 01 - 199 Locations For media gateways, CLANs, MedPros, IP stations, VAL boards, port network cabinets (NR 1 assigned to fiber-pnc cabinets for IGAR processing) 200-202 Virtual Region Call Admission Control: A means to control the number of calls or bandwidth limits between NRs with limited WAN bandwidth. Could be used for a pool of directly connected CLANs if needed for IP phone registration. 203 - 248 Miscellaneous/Virtual Used for IP phones, CMAPI, Soft phones and other IP endpoints that need an IP Network Region different from its media gateway 249 <reset IP network-region x> Use NR 249 for systems at ACM 3.0 or earlier. ACM 3.1 adds a new option to the command at left, to reset IP phones. 250 Adjuncts and IP Trunk dedicated CLANs IP connected adjuncts: CMS, Intuity, CAS, SAT, dedicated IP trunk CLANs prior to CM 3.1, etc. Not connected to any other Network Regions, e.g., to avoid IP phones trying to use these resources.
- 20. Protocols and Ports Registration (H.225 RAS) = UDP 1719 Signaling (H.225 Q.921) = TCP 1720 Voice (RTP) = UDP 2048-65535 (configurable) Media Gateways (H.248) = TCP 2945 (TCP 1039 for encrypted communication) Port networks (“classic” media gateways) = TCP 5010 (5011 and 5012 as well for ESS) For additional information see Appendix B of the Implementation Guide: http://support.avaya.com/elmodocs2/comm_mgr/r3_1/pdfs/245600_4_3.pdf
- 24. Separate Voice / Data VLANs PSTN C-LAN Media Processor Untagged Packets Tagged and Untagged Packets Untagged Packets Tagged and Untagged Packets 802.1p/Q, DSCP, Port Range 802.1p/Q, DSCP, Port Range “ Data” VLAN = 10 “ Voice” VLAN = 100
- 30. LLDP TLV’s for Avaya IP Telephones
- 31. LLDP TLV’s for Avaya IP Telephones (continued) Note: Documented in the LAN Admin Guide for the 4600/9600 telephones.
- 45. IPSI Bandwidth BHCC Per PN Usage Per Station Average IPSI Bandwidth (Kbps) full duplex Average IPSI TCP/IP packets per second 1K Light Traffic 17.3 Kbps 21 2.5K 30.5 Kbps 37 5K Moderate Traffic 52.2 Kbps 61 7.5K 73.8 Kbps 85 10K Heavy Traffic 83.5 Kbps 107
- 46. IPSI Bandwidth Provisioning A general rule of thumb for IPSI Control traffic bandwidth allocation is to add an additional 64Kbps of signaling bandwidth to the minimum required bandwidth in order to manage peak (burst) traffic loads and either round up or down to nearest DS0. For example; for 5K busy hour calls using encrypted PPP links to control remote port networks, as described in the previous example, you would guarantee 128Kbps (69.3Kbps + 64Kbps) for IPSI signaling bandwidth across the WAN link. BHCC Ethernet PPP MLPPP Frame Relay 1K 64Kbps 64Kbps 64Kbps 64Kbps 1K w/ encryption 64Kbps 64Kbps 64Kbps 64Kbps 2.5K 128Kbps 128Kbps 128Kbps 128Kbps 2.5K w/ encryption 128Kbps 128Kbps 128Kbps 128Kbps 5K 128Kbps 128Kbps 128Kbps 128Kbps 5K w/ encryption 128Kbps 128Kbps 128Kbps 128Kbps >=7.5K 192Kbps 192Kbps 192Kbps 192Kbps >=7.5K w/ encryption 192Kbps 192Kbps 192Kbps 192Kbps
- 47. Voice Bearer Bandwidth Ethernet (on the wire) Codec Data Rate Packet Size Voice Sample Redncy. IP IPsec IP IP + 802.1Q IPsec + 802.Q FR ATM AAL5 PPP kbps ms Bytes Kbps Kbps Kbps Kbps Kbps Kbps Kbps Kbps SPEECH G.711 64 20 160 80.0 102.8 87.2 88.0 110.8 82.4 106.0 83.2 G.726 40 20 100 56.0 78.8 63.2 64.0 86.8 58.4 84.8 59.2 G.729 8 20 20 24.0 46.8 31.2 32.0 54.8 26.4 42.4 27.2 G.723 5.3 30 20 16.0 31.2 20.8 21.3 36.5 17.6 28.3 18.1 WIDE BAND G.722 64 10 80 96.0 141.6 110.4 112.0 157.6 100.8 127.2 102.4 G.722.1 24 20 60 40.0 62.8 47.2 48.0 70.8 42.4 63.6 43.2 Siren14 24 20 60 40.0 62.8 47.2 48.0 70.8 42.4 63.6 43.2 FoIP T.38 9.6 30 36 0 17.6 32.8 22.4 22.9 38.1 19.2 28.3 19.7 Fax Relay 9.6 30 36 0 20.3 35.5 25.1 25.6 40.8 21.9 28.3 22.4 Pass Thru 64 10 80 0 96.0 141.6 110.4 112.0 157.6 100.8 127.2 102.4
- 49. DSP Resource Capacity Audio FoIP & MoIP Board Code Name DSP Channels G.711 G.729 G.723 G.726 T.38 Fax Relay Pass Throu TN2303AP HW3 Prowler 8 DSP, 1 Core ea (8 channels/core) 64 64 32 32 N/A 16 16 64 TN2303AP HW11+ Cruiser 2 DSP, 4 Cores ea (8 channels/core) 64 64 32 32 N/A 16 16 64 MM760 2 DSP, 4 Cores ea (8 channels/core) 64 64 32 32 32 16 16 64 G700's VoIP 2 DSP, 4 Cores ea (8 channels/core) 64 64 32 32 32 16 16 64 G350's VoIP 2 DSP, 2 Cores ea (8 channels/core) 32 32 16 16 16 8 8 32 G250's VoIP 2 DSP, 2 Cores ea (8 channels/core) 10 10 10 10 10 TN2602 Crossfire 4 DSP, 4 Cores ea (20 channels/core) 320 320 320 N/A 320 320 320 320
- 57. Conference Rates ● Audio pool The audio pool contains bandwidth for all audio calls, including the audio-component of multimedia calls. ● Normal video pool The normal video pool contains bandwidth for the video portion of a call made by a normal (non-priority) video user. You can set this pool to be shared. When this pool is shared, audio-only calls are allowed to borrow bandwidth from this pool. ● Priority video pool The priority video pool contains bandwidth that is dedicated to priority video users only. Audio calls and normal video users are not allowed to borrow bandwidth from this pool. However, if all of the priority video pool bandwidth is currently in use, priority video users can borrow bandwidth from the normal video pool, if available.
- 58. Avaya IP Telephony on a Cisco Infrastructure Sung Moon
- 62. Core, Distribution, Access Architecture
- 63. Cisco Network Security Features – Application Agnostic These Network Features Work with both the Cisco and Avaya IP Telephony Solutions
- 72. Other Cisco Network Features Some That We Don’t Need or Want Some That Interfere with Our Signaling One That We Do Want
- 77. Avaya IP Telephones Dual-VLAN Environment
- 79. Dual-VLAN Implementation vlan 10 vlan 20 1/1 v10,v20
- 88. IEEE 802.1X Authentication 46xx H.323 firmware R2.6 96xx H.323 firmware R1.1
- 97. Single-Supplicant Switch vlan 10 vlan 20
- 100. Multi-Supplicant Switch (not quite there yet) vlan 10 vlan 20
- 105. Power over Ethernet Pretty Stable Now
- 106. 802.3af Power Requirements Class Usage Minimum Power Levels Output at the PSE Maximum Power Levels at the PD 0 Default 15.4W 0.44 to 12.95W 1 Optional 4.0W 0.44 to 3.84W 2 Optional 7.0W 3.84 to 6.49W 3 Optional 15.4W 6.49 to 12.95W
- 109. Avaya Servers and IP Boards Server-Class Devices
- 117. Avaya Media Gateways L2/L3 Switches
- 119. Switch to Switch Connectivity – Multiple VLANs
- 130. End to End QoS Host Tags (802.1p) and Marks (DSCP) Network Classifies and Prioritizes
- 141. Avaya IP Support Services
- 143. Maintenance Agreement and Proactive IP Support/RMS IPT Proactive real-time monitoring of the communications environment: Media Servers, Gateways and Data Infrastructure (everything in the blue squares is monitored by Avaya) Network LAN Switch Router LAN Switch Server Server Workstations Media Server Workstations Media Server IP Media Gateway Router Customer Branch Location Customer Main Location INADs Modem INADs Modem DCP Media Gateway
- 145. Appendix: LLDP / LLDP–MED 46xx H.323 firmware R2.6
- 148. LLDP/LLDP-MED to Avaya Parameters Mapping The following TLV Changes this IP Telephone Parameter IEEE 802.1 Organization Specific Port VLAN ID PHY2VLAN IEEE 802.1 Organization Specific VLAN Name L2Q=1, L2QVLAN Avaya/Extreme Proprietary Call Server IP Address MCIPADD Avaya/Extreme Proprietary File Server TLSSRVR, HTTPSRVR, TFTPSRVR Avaya/Extreme Proprietary 802.1Q Framing L2Q Avaya/Extreme Proprietary PoE Conservation Level Request Power conservation mode enabled/disabled
Notes de l'éditeur
- The recommended configurations for IP sets is that they use a separate VLAN for voice traffic. This segments broadcasts/multicasts and allows for a certain level of security through ACL’s. The telephone uses a single cable to the Ethernet switch and takes advantage of 802.1q to send data traffic on the native VLAN and voice traffic tagged.
- Linear
- Monitoring performance of endpoints, data network and applications Performance monitoring quality of voice calls, i.e. latency, jitter, and delay Identification of cause of low voice quality Identification and notification about applications on the network that are causing degradation of voice quality Automatic correlation of voice and data alarms to quickly identify root cause and quickly remediate the problem Security monitoring of alarms on IPT Media Servers Fault management and performance reports available via Web Portal Software release management to ensure IPT platforms keep at current updates