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www.cisco.com/go/medianet Large Branch Medium Branch Campus With Services Module WAN/MAN Small Branch Teleworker Internet Edge Campus With Data Center and Internet Edge Internet Enterprise Medianet Foundation Blueprint Network Enabling Rich Media Collaboration Experience WAN Edge Core Campus Building Module (Visibility & Control) Campus Building Module (High Availability & Scalability) WAN Edge Core and/or and/or or I I IP IP IP IP and/or and/or and/or or Service Provider #2 Managed Service Private WAN and/or and/or Redundant paths provisioned through the private WAN for high availability. Performance Routing (PfR) can be implemented for optimal utilization of multiple paths. Hops within the private WAN should be minimized to decrease overall latency and jitter across the private WAN. Routing protocols tuned for rapid convergence in the event of a WAN link or router failure. Redundant circuits from separate service providers to redundant Cisco ISR routers provides high availability to the branch location. Egress queueing and rate limiting based on traffic class at the branch WAN interface protects each video traffic type from each other, as well as protecting data traffic from video traffic and vice-versa. Ingress edge of the branch Access Layer switch establishes the QoS trust boundary; provides classification & marking of various types of voice, video, and data traffic; and VLAN assignment. Branch bandwidth provisioning based on desired number of simultaneous video sessions supported, along with data and voice require- ments. Performance Routing (PfR) for optimal utilization of multiple circuits. Possible deploy- ment of local MCU resources for multipoint calls. Catalyst 6500 Sup-32 PISA Deep Packet Inspection (DPI) provides for per-port application profiling – allowing for an intelligent QoS trust boundary at the Access Layer. Netflow provides real-time monitoring for all application traffic flows – providing answers to who, what, where, when, and how network traffic is flowing. Cisco IPSLAs proactively verify network operations and accurately measure network performance. 10 Gbps Ethernet to the Distribution and Access Layers provides high capacity for video traffic. Catalyst 4500 with dual Sup-6E supervisors provides hardware redundancy for high availability; DSCP-based queueing; and up to 8 queues all the way to the Access Layer for more granular control of voice, video and data traffic. Dual Catalyst 6500E with Sup720 supervisors running Virtual Switching System (VSS) in the Distribution Layer provides simplified aggrega- tion, load balancing of traffic through multi-chassis EtherChannel, and high availability through hardware redundancy. 10 Gbps Ethernet to the Distribution and Access Layers provides capacity for video traffic. Redundant Catalyst 6500E series switches with dual Sup720 supervisors provides hardware high availability; Non-Stop Forwarding/Stateful SwitchOver (NSF/SSO) provides sub-second recovery; In-Service Software Upgrades (ISSU) provides enhanced platform availability and 10-Gigabit Ethernet linecards provide scalability for current and future video requirements. Dual Catalyst 6500E with Sup720 supervisors running Virtual Switching System (VSS) in the Distribution Layer provides simplified aggregation, load balancing of traffic through multi-chassis EtherChannel, and high availability through hardware redundancy. Campus Building Module (Baseline for Video) Catalyst 3750-E switch stack with Stackwise+ technology provides Layer 3 hardware redundancy for high availability, and routed access. Redundant Cisco ASR router platforms with built-in hardware and processor redundancy, In-Service Software Upgrade (ISSU), and Non-Stop Forwarding/ Stateful SwitchOver (SSO) provides high availability at the campus WAN aggregation point. and/or WAN bandwidth provisioning based on desired number of simultaneous video sessions supported, along wtih data and voice requirements. Enterprise QoS model can be extended across the private WAN ensuring granular control of video traffic. Queuing and rate limiting of traffic classes can be implemented in order to protect each video traffic type from each other; as well as protect data traffic from video traffic and vice-versa. Enterprise QoS classes need to be mapped to the service provider 4-class or 6-class QoS model. Egress queueing, re-marking, and rate limiting of traffic from the enterprise to the service provider classes in order to protect each video traffic type from each other, as well as protect data traffic from video and vice versa. SLA from the service provider to meet the packet loss, jitter, latency, and burst requirements of each class of video traffic. Performance Routing (PfR) can be implemented at the enterprise WAN routers for optimal utilization of the dual service provider paths. Catalyst 3750-E switch stack with Stackwise+ technology at the Distribution Layer provides scalability, Layer 3 hardware redundancy for high availability, and routed access. Ingress queueing may be performed to prioritize traffic inbound to the switch. Enterprise traffic classes mapped to egress queues in order to provide necessary class of service treatment for all types of voice, video, and data traffic. Catalyst 3750-E switch stack with Stackwise+ technology provides scalability, Layer 3 hardware redundancy for high availability, and routed access. Ingress queueing may be performed to prioritize traffic inbound to the switch. Enterprise traffic classes mapped to egress queues in order to provide necessary class of service treatment for all types of voice, video, and data traffic. Ingress edge of the branch switch stack establishes the QoS trust boundary; provides classification & marking of various types of voice, video, and data traffic; and VLAN assignment. Egress queueing and rate limiting based on traffic class at the branch WAN interface protects each video traffic type from each other as well as protecting data traffic from video traffic and vice-versa. Redundant circuits from separate service providers to Cisco ISR router provides high availability to the branch location. Redundant services from separate service providers to each campus location provides high availability for managed service WAN deployments. RFC 4594 Based Enterprise 12-Class QoS Model OAM Call Signaling Real-Time Interactive Transactional Data Multimedia Conferencing VoIP Telephony Application Class Bulk Data AF2 CS3 CS4 AF4 EF CS2 AF1 Scavenger CS1 Best Effort default Broadcast Video CS5 Multimedia Streaming AF3 PHB Network Control CS6 Required Required Required Required Recommended Admission Control BW Queue BW Queue (Optional) PQ BW Queue + DSCP WRED Priority Queue (PQ) Queueing & Dropping BW Queue + DSCP WRED Min BW Queue (deferential) Default Queue + RED (Optional) PQ BW Queue + DSCP WRED BW Queue BW Queue + DSCP WRED SNMP, SSH, Syslog SCCP, SIP, H.323 Cisco TelePresence Cisco WebEx, Cisco MeetingPlace, ERP Apps Cisco IP Phones Application Examples Cisco Unified Personal Communicator YouTube, iTunes, BitTorrent, Xbox Live Default Class Traffic Cisco IP Video Surveillance, Cisco Enterprise TV Cisco Digital Media System (VoD) EIGRP, OSPF, BGP, HSRP, IKE Email, FTP, Backup Apps, Content Distribution Dual Catalyst 6500E with Sup720 supervisors running Virtual Switching System (VSS) in the Distribution Layer provides simplified aggregation, load balancing of traffic through multi-chassis EtherChannel, and high availability through hardware redundancy. Branch bandwidth provisioning based on desired number of simultaneous video sessions supported, along with data and voice requirements. Performance Routing (PfR) for optimal utilization of multiple circuits. Possible deployment of local MCU resources for multipoint calls. WAN bandwidth provisioning based on desired number of simultaneous video sessions supported, along wtih data and voice requirements. Redundant services from separate service providers to each campus location provides high availability for managed service WAN deployments. Redundant circuits from separate service providers to each campus location provides high availability for private WAN deployments. Redundant Cisco ASR router platforms with built-in hardware and processor redundancy, In-Service Software Upgrade (ISSU), and Non-Stop Forwarding/ Stateful SwitchOver (SSO) provides high availability at the campus WAN aggregation point. Redundant circuits from separate service providers to each campus location provides high availability for private WAN deployments. Enterprise 12-Class QoS Model Mapping Onto a 6-Class Service Provider Model Cisco Unified Border Element Internet Service Provider #1 Service Provider #1 Cisco Session Border Controller Cisco WebEx delivers a robust suite of on-demand collaborative applications that dramatically increase business efficiencies. WebEx applications are delivered on demand over the Cisco WebEx Collaboration Cloud Network, a private, global network purpose- built for real-time communication. Cisco Session Border Controller (SBC) provides SIP back-to-back user agent (B2BUA) and media relay capabilities for secure business-to-business (B2B) TelePresence deployments. IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP IP CUV-M Desktop Clients CUV-M Desktop Clients CUV-M Desktop Clients CUV-M Desktop Clients or or CUV-M Desktop Client or Cisco WebEx Clients Cisco WebEx Clients Cisco WebEx Clients Cisco WebEx Clients Cisco WebEx Clients CUV-M Desktop Clients Cisco WebEx Client HDTV HDTV HDTV Video Portal Client Video Portal Clients Video Portal Clients Video Portal Clients Video Portal Client Edge ACNS WAE Edge ACNS WAE Edg WAAS WAE Video Portal Clients Edge ACNS WAE Edge WAAS WAE Cisco Edge ACNS WAE running as an appliance or network module integrated within the ISR branch router can be used to pre-position video content to the branch. Edge WAAS WAE Services Module Edge ACNS WAEs Data Center with Services Module M TelePresence CUCM Cluster M Voice / Video CUCM Cluster Video Portal Server Netflow Collector CUV-M Server Web Server / Content Repository Streaming Servers Core ACNS WAEs and/or Virtual Matrix Monitor Operations Manager Viewer Cisco Unified MeetingPlace Media Server Core WAAS WAEs Network Management Servers Core WAAS WAEs FC FC FC File Servers, Application Servers, Directory Servers, Email/Calendaring Servers, etc... Cisco Unified Videoconferencing MCUs Edge WAAS WAEs M Voice / Video CUCM Cluster CUV-M Server Cisco Unified MeetingPlace Media Server Cisco Unified Videoconferencing MCUs Synchronous Replication to Secondary Data Center. Synchronous replication between disk arrays using the metro DWDM connection provided by the Cisco ONS 15454. Cisco ONS 15454 Series The Cisco ONS 15454 provides metro dense wavelength division multiplexing (DWDM) connectivity between data center locations. Multicast can be deployed throughout the campus for scale and reduced bandwidth use for video traffic flows. Layer 2 multicast controls include IGMP Snooping with IGMP v2, and v3 support; and PIM Snooping Layer 3 multicast controls include Source Specific Multicast (SSM); PIM Sparse Mode, and Egress Stream Replication on the Catalyst 6500 Multicast HA optimizations include Stateful Multicast Switchover (MMLS), which provides sub-second failover of designated router and triggered RPF check for rapid convergence Network Virtualization may be deployed through VRF-Lite End-to-End, VRF-Lite + GRE, or Campus-Based MPLS VPN in order to restrict security and control systems to authorized personnel, prevent hacking of publicly visible media, and prohibit access by guests/contractors to confidential video . Web Server / Content Repository Scientific Atlanta Encoder Digital Media Systems Components Video Camera Content Distribution Manager Digital Media Manager Cisco Digital Media Encoder 1100 or 2200 Core or Edge ACNS WAE Video Portal Client Flat Panel Display Digital Media Player 4300 or 4400 Video Portal Server Streaming Server Legend Cisco Video Surveillance Operations Manager Cisco Video Surveillance Media Server Analog Camera IP Camera IP Video Surveillance Components Cisco Video Surveillance Virtual Matrix Standalone Encoder Operations Manager Viewer Virtual Matrix Monitor Storage Server Cisco Catalyst 3750-E Series Cisco Catalyst 6500E Series Cisco IOS Router WAN Connection Cisco ASA 5500 Cisco Catalyst 4500 Series Desktop Video Collaboration Components Cisco Catalyst 1440 VSS WLAN Controller or WISM Cisco Unified Video Conferencing MCU M Cisco Unified Communications Manager Cisco Unified Presence Server Cisco Unified MeetingPlace Application Server IP Cisco IP Phone Cisco Unified Video Advantage H.323 Video Conferencing Unit Cisco Unified Personal Communicator Cisco IP 7985G Phone Cisco Unified MeetingPlace Integration Server Cisco WebEx Client CUV-M Desktop Client Cisco Unified Videoconferencing Manager (CUV-M) Server LAN Connection Network Components Core or Edge WAAS WAE Network Management Server Cisco Unified MeetingPlace Media Server Cisco ACE Application Switch Module or Appliance Cisco ACE XML Gateway Cisco MDS 9500 Series Cisco Wireless Router with Integrated Switch Fibre Channel Array Cisco ONS 15454 Series DWDM Ring Optical Fiber Cisco TelePresence Components CTS Manager CTS-3000 CTS-500 CTS-1000 Cisco TelePresence Multipoint Switch Cisco Session Border Controller or Cisco Unified Border Element MXE 3000 – Cisco Media Experience Engine CTS-3200 Cisco ASR 1000 Series Cisco ASR 1000 Series with WebEx Node www.cisco.com/go/designzone Approximate Bandwidth Requirements Per Video Stream Cisco Unified Border Element (CUBE) along with Cisco Adaptive Security Appliances (ASA 5500 Series) helps enable secure Business-to-Business (B2B) video, such as inter-company TelePresence meetings. MXE 3000 – Cisco Media Experience Engine MXE 3000 – Cisco Media Experience Engine Cisco Media Experience Engine (MXE) provides on the fly media adaptation and post production capabilities for any media on any device, anywhere. Cisco Media Experience Engine (MXE) provides on the fly media adaptation and post production capabilities for any media on any device, anywhere. WLAN Access Point Cisco Nexus 7000 Series Fibre Channel over Ethernet (FCoE) Fibre Channel Tape Array Cisco Nexus 5000 Series Redundant Catalyst 6500E series switches with dual Sup720 supervisors provides hardware high availability; Non-Stop Forwarding/Stateful SwitchOver (NSF/SSO) provides sub-second recovery; In-Service Software Upgrades (ISSU) provides enhanced platform availability, and 10-Gigabit Ethernet linecards provide scalability for current and future video requirements. HDTV HDTV HDTV Cisco Edge WAAS WAE – running as an appliance or network module integrated within the ISR branch router – can optimize WebEx delivery as well as bandwidth utilization. Edge stream splitting with Windows Media Streaming can additionally offset the need to support multicast to the branch. Content can be pre-positioned for the Digital Media System (DMS) via CIFS. I I IP IP IP IP and/or HDTV IP IP Internet Service Provider #2 Cisco WebEx Node deployed within the ASR 1000 Series can provide the following benefits: Optimizes bandwidth by decreasing web meeting traffic on the WAN, proxies, and/or firewall. Improves user-experience for on-premise WebEx meetings, VoIP, or video; since traffic is switched at the WebEx Node. Improves security, since all meeting traffic flows between the WebEx Data Center and the WebEx Node running on the ASR 1000. Provides high availability through automatic failover of the meeting to the WebEx Data Center. MP MP MP Web QFP Scavenger Transactional Data Call Signaling OAM Multimedia Conferencing Network Control Application Class Bulk Data CS2 CS3 EF AF4 -> AF2 CS6 AF2 -> AF3 AF1 Best Effort default CS1 Broadcast Video CS5 -> CS2 Real-Time Interactive CS4 -> CS5 PHB Multimedia Streaming AF3 -> AF2 VoIP Telephony Application Class AF1 AF2 CS6 AF3 CS5 CS2 CS1 default EF CS3 SP Critical-Data 1 (TCP) SP Best Effort SP Critical-Data 2 (TCP) SP Scavenger SP Real-Time (RTP/UDP) SP Control Class IP IP IP IP HDTV HDTV HDTV MP MP MP MP MP Web HDTV HDTV HDTV I I IP IP IP IP HDTV HDTV HDTV HDTV IP IP MP MP MP Web QFP MP MP MP Web IP IP IP IP IP IP Cisco 4000 Series HD Cameras – H.264 Mode CUVA and CUPC CTS-3000/CTS-3200 1080p Resolution Cisco IP 7985G Phone CTS-500/CTS-1000 720p Resolution Standard Definition VoDs and Live Specific Video Application WebEx Conference via Webcam (Video Only) Cisco 2500 Series Cameras – MPEG-4 Mode Standard Definition VoDs and Live CTS-500/CTS-1000 1080p Resolution CTS-3000/CTS-3200 720p Resolution High Definition VoDs and Live ~4 Mbps Typical 50 Kbps – 1.5 Mbps >384 Kbps Recommended 11.7 Mbps – 20.4 Mbps Up to 768 Kbps 2.1 Mbps – 8.7 Mbps 200 Kbps – 1.5 Mbps Approximate Bandwidth Per Stream/Participant 32 Kbps – 284 Kbps (Max. of Six Streams) ~1 Mbps Typical 1.5 Mbps – 5 Mbps 4.5 Mbps – 10.8 Mbps 4.5 Mbps – 14.1 Mbps 8 Mbps – 25 Mbps IP Video Surveillance Desktop Video Collaboration Cisco Telepresence Desktop Video Video Category Digital Signage Enterprise TV IP IP IP IP IP IP © 2009 Cisco Systems, Inc. All rights reserved. Cisco, the Cisco logo, and Cisco Systems are registered trademarks or trademarks of Cisco Systems, Inc. and/or its affiliates in the United States and certain other countries. All other trademarks mentioned in this document or Website are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Cisco and any other company. (0903R) C82-540542-00 06/09 Cisco medianet Solutions Engineering Team [email protected]
