The documentation set for this product strives to use bias-free language. For the purposes of this documentation set, bias-free is defined as language that does not imply discrimination based on age, disability, gender, racial identity, ethnic identity, sexual orientation, socioeconomic status, and intersectionality. Exceptions may be present in the documentation due to language that is hardcoded in the user interfaces of the product software, language used based on RFP documentation, or language that is used by a referenced third-party product. Learn more about how Cisco is using Inclusive Language.
Network management is a service consisting of a wide variety of tools, applications, and products to assist network system administrators in provisioning, operating, monitoring and maintaining new and existing network deployments. A network administrator faces many challenges when deploying and configuring network devices and when operating, monitoring, and reporting on the health of the network infrastructure and components such as routers, servers, switches and so forth. Network management helps system administrators monitor each network device and network activity so that they can isolate and investigate problems in a timely manner for better performance and productivity.
With the convergence of rich media and data, the need for unified management is greater than ever. The Cisco Prime Collaboration (Prime Collaboration) offers a set of integrated tools that help to test, deploy, and monitor Cisco Unified Communications and TelePresence systems. Prime Collaboration implements the various management phases to strategically manage the performance and availability of Cisco Unified Communications applications including voice, video, contact center, and rich media applications. The network management phases typically include: plan, design, implement, and operate (PDIO). Table 27-1 lists the PDIO phases and the major tasks involved with each phase.
This chapter provides the design guidance for the following management tools and products that fit into the implementation and operation phases of Cisco Unified Communications Management:
http://www.cisco.com/en/US/products/ps11480/index.html
http://www.cisco.com/en/US/products/ps11338/index.html
For information on which software versions are supported with Cisco Unified Communications Manager (Unified CM), refer to the Cisco Unified Communications Manager Software Compatibility Matrix, available at
http://www.cisco.com/en/US/docs/voice_ip_comm/cucm/compat/ccmcompmatr.html
Table 27-2 lists the topics that are new in this chapter or that have changed significantly from previous releases of this document.
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Cisco 1040 Sensor has reached End of Sale (EoS) and has been removed from this chapter |
For EoS details, see http://www.cisco.com/c/en/us/products/collateral/cloud-systems-management/prime-collaboration/eos-eol-notice-c51-731102.html |
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Cisco Prime Collaboration provides comprehensive voice and video network monitoring with diagnostics for the Cisco Collaboration systems, including the underlying transport infrastructure. Prime Collaboration is a converged application that eliminates the need to manage the video deployments separately from voice. It is delivered as two separate applications, Prime Collaboration Assurance and Prime Collaboration Provisioning, which are installed on separate virtual machines. Prime Collaboration is available in two modes: Standard and Advanced mode.
Prime Collaboration Assurance application provides:
Note Prime Collaboration Assurance Advanced also includes Prime Collaboration Analytics. If you have purchased the Prime Collaboration Analytics license, you can access the Prime Collaboration Analytics dashboards. Prime Collaboration Analytics helps you identify traffic trends, technology adoption trends, and over/under-utilized resources in your network. You can also track intermittent and recurring network issues and address service quality issues.
Prime Collaboration Provisioning application provides:
For information on the benefits and key features of Prime Collaboration and guidelines for deployment (white papers), refer to the Cisco Prime Collaboration documentation available at
http://www.cisco.com/go/primecollaboration
Prime Collaboration does not currently support failover. However, it can support Network Fault Tolerance when deployed on server platforms with dual Ethernet network interface cards (NICs) that support NIC teaming. This feature allows a server to be connected to the Ethernet through two NICs and, therefore, two cables. NIC teaming prevents network downtime by transferring the workload from the failed port to the working port. NIC teaming cannot be used for load balancing or for increasing the interface speed.
Prime Collaboration Assurance provides geographic redundancy through the use of VMware vSphere replication. It requires VMware activation at remote sites only.
Prime Collaboration runs only in a virtual environment and it requires a minimum of one virtual machine per component. If you want Assurance and Provisioning, you will need two virtual machines (one for each). For specific system requirements and capacity information, refer to the Cisco Prime Collaboration Quick Start Guide, available at
Cisco highly recommends that you enable Domain Name Service (DNS) in the network to perform a reverse lookup on the IP address of the device to get the hostname for the device. If DNS is not desired, then host files may be used for IP address-to-hostname resolution.
Network Time Protocol (NTP) must be implemented to allow network devices to synchronize their clocks to a network time server or network-capable clock. NTP is a critical network service for network operation and management because it ensures accurate time-stamps within all logs, traps, polling, and reports on devices throughout the network.
You should enable Cisco Discovery Protocol (CDP) within the network to ensure proper monitoring. Prime Collaboration's automated device discovery is based on a CDP table. Ping Sweep may be used instead of CDP, but IP phones discovered using Ping Sweep are reported in "unmanaged" state. Simple Network Management Protocol (SNMP) must also be enabled on network devices to allow Prime Collaboration to get information on network devices at configured polling intervals and to receive alerts and faults via trap notification sent by the managed devices.
For more information on Cisco Unified Communications network requirements, see the chapter on Network Infrastructure.
Cisco Prime Collaboration Assurance is a comprehensive video and voice service assurance and management system with a set of monitoring, troubleshooting, and reporting capabilities that help ensure end users receive a consistent, high-quality video and voice collaboration experience. Prime Collaboration Assurance is available in two modes: Standard and Advanced.
Prime Collaboration Advanced provides all the features that enable integrated assurance management of applications and the underlying transport infrastructure. This includes real-time monitoring and troubleshooting of Cisco TelePresence solutions and the entire Unified Communications system.
Prime Collaboration Standard provides basic assurance features that help you manage Unified Communications and TelePresence components. The features include:
Prime Collaboration Standard also includes the following features to help you manage the Unified Communications and TelePresence components:
You can discover and manage endpoints that are registered to Cisco Unified Communications Manager (phones and TelePresence endpoints), Cisco TelePresence VCS, Cisco TelePresence Manager, and Cisco TelePresence Management Suite (TMS). As part of the discovery, the device details are also retrieved and stored in the Prime Collaboration database. After the discovery is complete, you can perform the following device management tasks:
Service operators need to quickly isolate the source of any service degradation in the network for all voice and video sessions in an enterprise. Prime Collaboration provides a detailed analysis of the service infrastructure and network-related issues.
Prime Collaboration periodically imports information from the managed devices based on the polling parameters you configure.
The Home page includes several pre-configured dashlets that help you monitor system performance, device status, device discovery, CTI applications, and voice messaging ports. These dashlets enable you to monitor a set of predefined management objects that monitor the health of the system. From the dashlets, you can launch contextual serviceability pages.
Prime Collaboration ensures near real-time quick and accurate fault detection. Prime Collaboration enables you to monitor the events that are of importance to you. You can set up Prime Collaboration to send notifications for alarms.
In addition to the faults that are present in the Cisco TelePresence Management System and Unified Communications applications, it also displays the custom tickets that are raised on Cisco TMS.
Using the Alarm browser, you can view the alarms and events in the system and initiate troubleshooting. You can also configure Prime Collaboration to send fault notifications, and you can view call connection/disconnection details related to the Cisco TMS applications in the Call Events UI.
Cisco Prime Collaboration Assurance provides a unified view of the entire Cisco Unified Communications infrastructure and presents the current operational status of each element of the Cisco Unified Communications network. Prime Collaboration also provides diagnostic capabilities for faster problem isolation and resolution. In addition to monitoring Cisco gateways, routers, and switches, Prime Collaboration continuously monitors the operational status of various Cisco Unified Communications elements such as:
Note Cisco Prime Collaboration Service Level View does not support multiple Cisco Unified Contact Center Enterprise (Unified CCE) deployments.
Note Cisco Prime Collaboration supports Unified Communications and TelePresence applications running in a virtualized environment but does not provide monitoring of VMware or hardware. Use vCenter for managing VMware hosts. For Unified Computing System (UCS) B-series Blade servers, UCS Manager provides unified, embedded management of all software and hardware components in the Cisco UCS. It controls multiple chassis and manages resources for thousands of virtual machines. For UCS C-series servers, the Cisco Integrated Management Controller provides the management service.
For more information on the supported products (particularly Cisco endpoints) and versions supported by Prime Collaboration, refer to the Cisco Prime Collaboration data sheet available at
http://www.cisco.com/en/US/products/ps11480/index.html
One protocol that Prime Collaboration uses to monitor the Unified Communications elements is Simple Network Management Protocol (SNMP). SNMP is an application-layer protocol using UDP as the transport layer protocol. There are three key elements in SNMP managed network:
The SNMP implementation supports three versions: SNMP v1, SNMP v2c, and SNMP v3. SNMP v3 supports authentication, encryption, and message integrity. SNMP v3 may be used if security is desired for management traffic. Prime Collaboration supports all three versions of SNNP. SNMP v1 and v2c read/write community strings or SNMP v3 credentials must be configured on each device for agent and manager to communicate properly. Prime Collaboration needs only SNMP read access to collect network device information.
For more information on SNMP, refer to the Cisco Prime Collaboration documentation available at
http://www.cisco.com/en/US/products/ps11480/index.html
Cisco Prime Collaboration interfaces with other devices in the network in the following ways:
Figure 27-1 shows the system-level overview of how Prime Collaboration leverages multiple interfaces with Unified CM to gather performance counters and alarms.
Figure 27-1 Prime Collaboration and Unified CM System-Level Integration
Cisco Prime Collaboration Assurance Advanced monitors the quality of calls on the Cisco Unified Communications network. It relies on Unified CM and Network Analysis Modules (NAMs) to monitor and gather quality statistics on real calls rather than simulated calls in the network. Then it compares the collected quality statistics against predefined thresholds.
Prime Collaboration Assurance Advanced is also responsible for sending voice quality information to Cisco Prime Analytics (available only with Prime Collaboration Advanced) so that Analytics can perform call data analysis and generate reports.
Note A set of global call quality thresholds can be defined as one per supported codec type. Different thresholds can be grouped together based on the Unified CM cluster being monitored.
Voice quality is the qualitative and quantitative measure of the sound and conversational quality of the IP phone call. Voice quality measurement describes and evaluates the clarity and intelligibility of voice conversations. Prime Collaboration uses the Network Analysis Module (NAM) and Unified CM to monitor and report voice quality information.
Unified CM stores end-of-call video and audio information and metrics in its call detail records (CDRs) and call management records (CMRs). The CMRs and CDRs are transferred to Prime Collaboration via Secure File Transfer Protocol (SFTP) every 60 seconds. To integrate with Unified CM, Prime Collaboration must be configured as a Billing Application Server in the Unified CM Unified Serviceability configuration web page. Up to three Billing Application Servers can be configured per Unified CM cluster. The following settings must be configured for the Billing Application Server:
Note Cisco Jabber and endpoints running Cisco CE or TE software do not generate end-of-call audio and video information. Thus, there are no CMRs for these endpoints.
Prior to Cisco Collaboration System Release (CSR) 11.0, the emphasis was on using the Cisco Voice Transmission Quality (CVTQ) algorithm as one means to monitor voice quality. CVTQ is based on the Klirrfaktor (K-factor) method to estimate the MOS value of voice calls. With Cisco CSR 11.0 and later releases, packet counts, concealment ratios, and concealment second counters represent primary statistics because they can alert the network operator before network impairment has an audible impact or is visible through MOS. Table 27-3 describes these counters as well as metrics computed from them.
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Measures packet (frame) loss and its effect on voice quality in an impaired network |
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Number of seconds when there is some concealment (might not be audible) |
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As noted in Table 27-3 , SCSR represents a measure of voice quality and is used by Prime Assurance to grade calls. For calls less than 20 seconds in duration, the following SCSR values are used to estimate call quality:
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For calls of 20 seconds or longer in duration, the following SCSR values are used to estimate call quality:
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Cisco NAM is a traffic analysis module that leverages Remote Monitoring (RMON) and some SNMP Management Information Bases (MIBs) to enable network administrators to view all layers of the Unified Communications infrastructure to monitor, analyze, and troubleshoot applications and network services such as QoS for voice and video applications. Voice instrumentation added in Cisco NAM 4.0 enables NAM integration with Prime Collaboration for call metrics through NAM-embedded data collection and performance analysis.
The Cisco NAM complements Prime Collaboration to deliver an enterprise-wide voice management solution. The NAM Appliances come with a graphical user interface for troubleshooting and analysis, and they provide a rich feature set for voice quality analysis with RTP and voice control and signaling monitoring.
Cisco Prime Collaboration polls the NAM every 60 seconds for voice quality metrics. It then does a MOS calculation on the data. This enables Prime Collaboration to correlate CDR and call stream reports from the NAM for enhanced analysis.
For more information on Cisco NAM, refer to the following site:
Unified CM call quality (CDRs and CMRs) and NAM complement each other and provide a total solution for voice quality measurement. The following list notes key differences between voice quality monitoring with Unified CM and Cisco NAM:
Even if Unified CM call quality metrics are not used, Prime Collaboration uses Unified CM CDR information to correlate with the NAM report for the following information:
Cisco Prime Collaboration provides real-time Unified CM trunk utilization performance graphs. It is also tightly integrated with Cisco Prime Analytics in order to provide the call information it collects to Analytics for long-term trending and reporting purposes. The call information is provided from the CDR and CMR records Prime Collaboration gathers from Unified CM.
The Unified CM publisher server is responsible for transferring CDR and CMR files to Prime Collaboration via SFTP. If the publisher server is unavailable, there is no failover mechanism for Prime Collaboration to obtain the new CDR and CMR files that contain MOS values of calls in the Unified CM cluster.
Cisco Prime Collaboration supports the following voice quality monitoring capacities:
– 5,000 sensor-based RTP streams per minute (with NAM modules)
– 1,600 Unified CM calls per minute
– 1,500 RTP streams and 666 Unified CM calls per minute
Note When Cisco Prime Collaboration is operating at full capacity, its projected database growth (for Syslog, CDR, and CMR files) is estimated to be about 2.4 GB per day.
Table 27-4 lists the ports used by the various protocol interfaces for Cisco Prime Collaboration for Assurance. Cisco recommends opening these ports in the corporate internal firewalls (if applicable) to allow communication between Prime Collaboration and other devices in the network
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Note The Cisco NAM is accessed remotely over HTTPS with a non-default port. Prime Collaboration will authenticate with each Cisco NAM and maintain the HTTP/S session.
All the management traffic (SNMP) originating from Prime Collaboration or managed devices is marked with a default marking of DSCP 0x00 (PHB 0). The goal of network management systems is to respond to any problem or misbehavior in the network. To ensure proper and reliable monitoring, network management data must be prioritized. Implementing QoS mechanisms ensures low packet delay, low loss, and low jitter. Cisco recommends marking the network management traffic with an IP Precedence of 2, or DSCP 0x16 (PHB CS2), and providing a minimal bandwidth guarantee. The DSCP value must be configured in the Windows Operating System.
If managed devices are behind a firewall, the firewall must be configured to allow management traffic. Prime Collaboration has limited support in a network that uses Network Address Translation (NAT). It must have IP and SNMP connectivity from the Prime Collaboration server to the NAT IP addresses for the devices behind the NAT. Prime Collaboration contains static NAT support.
Prime Collaboration polls the managed devices for operational status information at every configured interval, and it has the potential to contain a lot of important management data. Bandwidth must be provisioned for management data, especially if you have many managed devices over a low-speed WAN. The amount of traffic varies for different types of managed devices. For example, more management messages may be seen when monitoring Unified CM as compared to monitoring a Cisco Voice Gateway. Also, the amount of management traffic will vary if the managed devices are in a monitored or partially monitored state and if any synthetic tests are performed.
Cisco Prime Collaboration Analytics provides many additional benefits to Prime Assurance. It provides trending to identify degradation over time. It can also utilize trending to provide capacity planning and quality of service (QoS) information. The capacity planning feature allows administrators to plan for growth and also to identify over- or under-utilized resources (for example, TelePresence endpoints) in their network. Analytics can generate automated reports that provide actionable information to CIOs and IT planners. Reports can be customized to meet unique business needs.
Analytics supports the following predefined dashboards:
Custom dashboards and dashlets can also be created if desired.
The Technology Adoption dashboard provides visibility into the progress of your voice and video deployment by showing devices deployed and minutes used. This information allows for more intelligent technology investment decisions based on current adoption analysis.
The Asset Usage dashboard shows long-term utilization trends for collaboration network resources. It provides information such as least used and most used resources such as endpoints.
The Traffic Analysis dashboard provides a means to analyze long-term service quality issues and identify voice and video traffic patterns. It offers options to show the top N callers, top N dialed numbers, top N off-net traffic locations, and top N call traffic locations.
The Capacity Analysis dashboard provides options that allow tracking of unused or under-utilized voice and video assets such as conferencing devices, call admission control bandwidth, and trunks. The information provided can assist in optimizing equipment and network costs.
The Service Experience dashboard helps identify call quality issues in the collaboration deployment. It can show top N endpoints with quality issues or allow filtering based on quality level. It also provides a means to analyze call failures, identify service usage by group of users or endpoints, and help effectively allocate the IT expense.
For detailed information on feature support and functionality, refer to the Cisco Prime Collaboration Analytics product documentation available at http://www.cisco.com.
Note Currently there is no redundancy or failover support with Analytics.
Analytics is included in the Prime Assurance OVA and runs on the same virtual machine. Note that Analytics does require a separate license.
Prime Collaboration Provisioning is available in the following forms:
Prime Collaboration Provisioning Standard is a simplified version of Cisco Prime Collaboration Provisioning. It provides simplified provisioning across all collaboration services. You can provision all services including phones, voicemail clients, and video endpoints. Provisioning support is available for a single Unified Communications cluster with limited authorization roles.
Advanced Provisioning provides more advanced features such as delegation to individual domains, template support for configuring infrastructure instances, advanced batch provisioning, and so on. Table 27-5 lists the features available in Prime Collaboration Provisioning Standard and Advanced.
Cisco Prime Collaboration provides a simplified web-based provisioning interface for both new and existing deployments of Cisco Unified Communications Manager (Unified CM), Cisco Unified Communications Manager Express (Unified CME), Cisco Unity, Cisco Unity Connection, and Cisco Unity Express. Prime Collaboration provides provisioning for both the infrastructure and subscribers for Day 1 and Day 2 needs. Day 1 needs include configuring new deployments and adding more sites or locations; Day 2 needs include services for ongoing moves, adds, and changes on various components of the Cisco Unified Communications solution.
Cisco Prime Collaboration also exposes northbound APIs to allow Cisco and third parties to integrate with external applications such as HR systems, custom or branded user portals, other provisioning systems, and directory servers.
For details on Prime Collaboration system requirements and installation steps, provisioning users and the infrastructure of supported components, and capacity information, refer to the Cisco Prime Collaboration documentation available at
http://www.cisco.com/en/US/products/ps11480/index.html
To provide a better understanding of how Prime Collaboration can be used as a network management solution for provisioning various Cisco Unified Communications components, the next section presents some of the basic concepts of Prime Collaboration.
Cisco Prime Collaboration serves as a provisioning interface for the following components of a Cisco Unified Communications system:
– Cisco Unified Communication Manager (Unified CM)
– Cisco Unified Communications Manager Express (Unified CME)
– Cisco VG224, VG204, and VG202 Analog Voice Gateways
Note For more information on component version compatibility, refer to the Prime Collaboration information at http://www.cisco.com/en/US/products/ps11480/index.html.
The following sections describe some of the Prime Collaboration concepts involved in configuring those components.
Domains are used for administrative purposes to create multiple logical groups within a system. Domains have the following characteristics:
Service areas represent offices. Service areas determine the dial plans and other voice-related configuration settings in the domain. In reality, each office may have multiple service areas. The service area determines attributes such as device group, route partition, and calling search space used within Unified CM. Service areas have the following characteristics:
When deploying a new site or making moves, adds and changes to an existing site, users make all changes to the underlying systems through a two-stage process of creating an order and then processing that order. You can set policies for both of these stages. For example, you can configure the system so that one group of users can only create and submit orders, while another group of users can view and perform processing-related activities. Prime Collaboration contains an automation engine that performs the order processing, including service activation and business flow, based on how Prime Collaboration is configured.
The workflow coordinates activities of the ordering process (approval, phone assignment, shipping, and receiving).
Prime Collaboration enables you to configure Unified CM, Unified CME, Cisco Unity, Cisco Unity Express, and Cisco Unity Connection in a consistent way through the use of configuration templates. You can use these templates to configure any of these products, to perform an incremental rollout on these existing products, and to deploy a new service across existing customers.
Creating users and provisioning their services can also be done automatically through batch provisioning for rolling out a new office or transitioning from legacy systems.
The following best practices and guidelines apply when using Prime Collaboration to provision Cisco Unified Communications components for any new and/or existing deployments:
The following basic tasks help support these best practices:
The following design considerations apply to Prime Collaboration for provisioning:
– Create a single domain for multiple sites, with multiple call processors and multiple message processors.
– Create a domain for each site, consisting of one call processor and zero or more optional message processors.
– Create multiple domains if different administrators are required to manage a subset of the subscribers.
– Prime Collaboration communicates with Unified CM over an IPv4 link. The Prime Collaboration user configuration interface allows users to enter only IPv4 IP addresses because Unified CM has SOAP AXL interfaces in IPv4 only. Therefore, Prime Collaboration must use IPv4 addresses to communicate with the AXL interfaces on Unified CM.
– Prime Collaboration handles the IPv6 addresses contained in SIP trunk AXL response messages.
– Support of IPv6-aware functions does not affect support for current Cisco Unified Communications Manager Express, Cisco Unity, Cisco Unity Express, and Cisco Unity Connection devices.
If Prime Collaboration fails in the middle of the configuration process, changes made to the configured devices from the Prime Collaboration GUI might not be saved and cannot be restored. Administrators must use manual steps to continue the configuration process by using other tools such as telnet or login (HTTP) to the managed devices until Prime Collaboration comes back live. Manually added configuration changes to the managed device will not automatically show up in the Prime Collaboration dashboard or database unless you also perform synchronization from Prime Collaboration for the call processors (Unified CM and/or Unified CME), message processors (Cisco Unity, Unity Connection, and/or Unity Express), and domains.
Table 27-6 lists the ports used by the various protocol interfaces for Prime Collaboration. Cisco recommends opening those ports in the corporate internal firewalls (if applicable) to allow communication between Prime Collaboration and other devices in the network.
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HTTPS 2 |
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SSH3 |
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Telnet 3 |
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Database4 |
Cisco TelePresence Management Suite (TMS) supports scheduling of video endpoint and conferencing devices. Scheduling ensures endpoint and port resource availability and provides convenient methods to connect to TelePresence conferences. Most organizations already use calendaring applications to schedule conferences. In this case, calendaring integration enables users to schedule conferences with their existing calendaring client.
Calendaring integration gives users the ability to schedule video conferences and invite participants directly from their calendaring application while viewing availability information of resources regardless of where meetings are created. Calendaring options include:
Allows conference organizers to schedule conferences using their Microsoft Outlook client. For more information on Cisco TMSXE, refer to the product documentation available at
http://www.cisco.com/en/US/products/ps11472/tsd_products_support_series_home.html
Allows conference organizers to schedule conferences using their IBM Lotus Notes client. For more information on Cisco TMSXN, refer to the product documentation available at
http://www.cisco.com/en/US/products/ps11472/tsd_products_support_series_home.html
Allows conference organizers to schedule conferences using additional groupware calendaring systems through API integration. For more information on Cisco TMSBA, refer to the TMSBA Programing Reference Guide located at
http://www.cisco.com/en/US/products/ps11472/tsd_products_support_series_home.html
Allows users or administrators to schedule conferences through a web-based interface. This is part of the Cisco TMS core application and does not require additional installation or integration.
Cisco highly recommends integrating your corporate calendaring application with the scheduling and management platform chosen by your organization. However, you may also choose to schedule conferences using the TMS web interfaces.
When deploying Cisco TMS calendar integration as your corporate calendaring application, choose the appropriate extension for your environment. For example, if Microsoft Exchange is the existing calendaring application, use TMSXE. TMSXE is installed on a standalone server, and TMSXN is installed on the Lotus Domino server. The integration software is installed separately from Cisco TMS and communicates with your calendaring server using HTTP or HTTPS.
Cisco recommends having your video conferencing resources (Cisco TelePresence Video Communication Server or Cisco MCU) dedicated for either scheduled or permanent/instant conferences. This is because permanent or instant conferences could consume scheduled resources, which would result in undesirable consequences on the scheduled conferences, such as scheduled video participants being unable to join or joining as audio-only due to lack of resources on the server.
Cisco TMS provides various types of reporting and analysis functionality, including:
However, some of these functions work only in certain deployments. For example, when an endpoint such as the Cisco TelePresence TX9000 or Cisco TelePresence System EX90 is registered to Cisco Unified Communications Manager (Unified CM), Cisco TMS cannot generate reports for that endpoint. Cisco TMS can generate only call history and call detail record (CDR) reports for an endpoint registered to the Cisco TelePresence Video Communication Server (VCS). For those endpoints that are registered to Unified CM, CDRs can be downloaded from Unified CM.
Organizations that require more customized reports, business knowledge, and integration with Business Intelligence Applications can use the Cisco TelePresence Management Suite Analytics Extension (TMSAE), which is an online analytical processing system for Cisco TMS that provides advanced reporting functionality for your video network. For more information on Cisco TMSAE, refer to the product documentation available at
http://www.cisco.com/en/US/products/ps11472/tsd_products_support_series_home.html
The main functions of management in the TelePresence environment include: provisioning, monitoring, maintenance, and resource management. Cisco TelePresence Management Suite (Cisco TMS) enables management of the TelePresence environment, along with a scheduling interface that it supports in a TelePresence environment.
Cisco TMS can manage endpoints registered to both Cisco VCS and Cisco Unified CM. There are two types of device management: direct managed and provisioned.
Direct-managed devices are manually added into the Cisco TMS system navigator. Cisco TMS supports 5,000 direct-managed devices. Cisco TMS communicates with the endpoints directly via HTTP or SNMP protocols. When a direct-managed endpoint is registered to Unified CM, Unified CM handles most management capabilities such as software upgrades. When a direct-managed endpoint is registered to Cisco VCS, Cisco TMS handles management and provisioning of the endpoint, including capabilities such as software upgrades.
Cisco TMS can also directly manage infrastructure devices such as Cisco VCS, Cisco TelePresence Server, Cisco MCU's, and others. Currently Cisco TMS supports scheduling and management of conferencing devices registered with Cisco VCS only.
Provisioned endpoints are not in the TMS system navigator, but rather are provisioned by Cisco TMS through the Cisco TMS Provisioning Extension (TMSPE). Cisco TMS supports 100,000 provisioned devices. The provisioning method dramatically increases the scale that Cisco TMS can support. It also simplifies the procedure for a bulk deployment because there is no need to add the systems manually. However, Cisco TMS has less control on provisioned endpoints compared to direct-managed endpoints. In addition, scheduling is not supported for provisioned endpoints.
Cisco TMS provides the functionality of phone books for direct-managed endpoints registered to Cisco VCS as well as provisioned endpoints. Phone books provide ease of locating users and dialing out.
Cisco TMS also provides interfaces to monitor both scheduled and instant video conferences.
For more information, refer the latest version of the Cisco TelePresence Management Suite Administrator Guide, available at
http://www.cisco.com/en/US/products/ps11338/prod_maintenance_guides_list.html
The Cisco TMS Provisioning Extension (TMSPE) is a provisioning application for Cisco TMS and Cisco VCS. Cisco TMSPE enables video conferencing network administrators to create and manage large deployable video conferencing solutions. Cisco TMSPE is an add-on replacement for the TMS agent on the Cisco TMS server, and it provides the following main features:
For further information, refer to the latest version of the Cisco TelePresence Management Suite Provisioning Extension Deployment Guide, available at
http://www.cisco.com/en/US/products/ps11338/products_installation_and_configuration_guides_list.html
Phone books help users maintain their contacts and dial them. Cisco TMS phone books can be created and populated from different sources such as Microsoft Active Directory (AD), Cisco Unified CM, an H.350 server, and gatekeepers.
There are two types of phone books: local phone books and global phone books. Local phone books (also called favorites) are a file stored on an endpoint specific to the end user. Contacts can be added, modified, and deleted as desired by the user.
Global or corporate phone books are pushed from Cisco TMS to the endpoints. They cannot be modified from the endpoint because they are automatically populated from AD, an H.350 server, or the local Cisco TMS database. Administrators can select the phone books for specific users and push them to the appropriate endpoints.
Cisco TMS has a Software Manager repository where the software images of endpoints and infrastructure devices can be added and then used to upgrade matching endpoints and infrastructure devices registered with Cisco VCS. Administrators can select a number of devices and upgrade them from Cisco TMS at one time. Cisco TMS provides the status of the upgrade. Using Cisco TMS to do upgrades is more convenient and easier than upgrading the endpoints and infrastructure devices manually.
Cisco TMS also provides monitoring capabilities for conferences. Cisco TMS lists all scheduled conferences, and the state of the conference (for example, Active) is displayed in TMS's Conference Control Center, with details of packet loss per participant for active conferences. Errors are displayed in TMS's Ticketing Service; for example, if there are configuration errors, Cisco TMS discovers them and opens a ticket associated with the appropriate device. Each ticket has an ID and severity level.
The Cisco Collaboration System Release incorporates the Cisco Prime License Manager (Cisco Prime LM), which provides centralized license management. Customers purchase licenses and install them on the Cisco Prime LM application. The Cisco Prime LM application then collects requirements from all the applications, aggregates them, and compares them with the total available licenses.
The following Unified Communications applications use Cisco Prime LM:
When these applications are deployed as part of Cisco Business Edition 6000 or 7000, they also use Cisco Prime LM.
Following license purchase, the licenses are registered (through electronic fulfillment on Cisco Prime LM or manually at the Product License Registration Portal at https://tools.cisco.com/SWIFT/LicensingUI/Home), and then installed on Cisco Prime License Manager. Cisco Prime LM is connected to the application instances under license management, and it polls the applications. When polled, a subscribing application sends its license requirements to Prime LM, and Prime LM compares the application's requirements to the available licenses. If the application's requirements, totaled for all application instances, are within the available license count, then Prime LM returns a status of in compliance. Similarly, if license requirements exceed available licenses, then Prime LM returns a status of not in compliance.
An application is allowed 60 days of non-compliance, during which administrators can make changes if there are insufficient licenses or if the Prime LM node has lost communication with the application node. After 60 days of non-compliance, the Unified Communications Manager application(s) will no longer allow administrative changes; however, the application(s) will continue to function (call control) with no loss of service. After 60 days of non-compliance, the Unity Connection application(s) will allow administrative changes, but the application(s) will not continue to function (users will not have access to voice messaging).
For more information on Cisco Unified Communications licensing, refer to the information at
http://www.cisco.com/go/uclicensing
Prime LM is installed automatically on the same virtual machine as the Unified CM (including SME) and Unity Connection applications when they are installed. You may choose to use Prime LM on one of these virtual machines in a co-resident configuration, as the active managing Prime LM, or you may opt to run Prime LM in a standalone configuration where Prime LM is installed on a dedicated virtual machine.
In the co-resident configuration, Prime LM consumes only a very small amount of resources and hence is considered to have no impact to the virtual machine sizing. For example, no additional vCPUs would need to be added to the virtual machine configuration because of the Prime LM service. In the co-resident configuration, Cisco Prime LM is supported for use on any of the applications’ OVA virtual machine configurations.
In a standalone configuration the Prime LM resides on a separate virtual machine created and managed specifically for, or dedicated to, the Prime LM application. In the standalone configuration, the Prime LM is installed as a separate virtual machine using the Prime LM OVA.
The main considerations for choosing between co-resident and standalone deployments center around administration and management. The main benefits of deploying Prime LM in a standalone configuration are as follows:
The trade-off, however, with a standalone configuration is that it requires a separate virtual machine to be created and managed.
– Run Prime LM on a separate virtual machine. This approach provides more administration and management flexibility but requires a separate virtual machine for Prime LM.
– Run a single Prime LM co-resident with one application virtual machine if you want license pooling and/or centralized management but you are unwilling to dedicate a virtual machine for running Prime LM.
– Run a different Prime LM on each application instance if you do not need license pooling and do not desire centralized license management.
Cisco Prime LM may be deployed in any of the following ways:
As the description implies, one Prime LM instance can support an entire enterprise or global deployment. This model provides the most simplicity by utilizing one common centralized license pool for all the Unified Communications applications connected to the Prime LM.
For an enterprise that has multiple Unified Communications deployments across the globe, multiple Prime LM instances can be configured per region or lines of business (for example, one for North America, a second for EMEA, and a third for APAC). This model enables an enterprise to account more easily for the costs of licenses across differing fiscal boundaries.
For those customers requiring even more granularity, a Prime LM instance can be configured for each Unified Communications application. For example, if a customer has three Cisco Unified CM clusters, three Prime LM instances can be configured. This scenario is useful for customers who operate along more granular accounting lines and prefer multiple smaller license pools in order to better manage operating costs and other expenses.
Prime LM is deployed as a non-redundant application. In the event that the Prime LM application becomes unavailable (for example, if the Prime LM virtual machine is experiencing operating system issues and it cannot boot up), the customer has 60 days to restore the Prime LM application before license enforcement occurs. The applications will run for a period of 60 days without communication with the Prime LM.
For restoration of the Prime LM application, another installed Prime LM application (such as a co-resident instance) can be created by re-adding the product inventory to the new Prime LM application. Since the MAC address of the virtual machine running the new Prime LM application would be different, transferring the registration of the license file to this new Prime LM would be required. Alternatively, Prime LM can be restored from a Disaster Recovery System (DRS) backup. In this case, configure the same MAC address on the new and original Prime LM virtual machines, otherwise the license registration will have to be transferred to the new virtual machine. If license additions or changes have been made since the DRS backup, a new license file will have to be requested. A Prime LM co-resident backup can be restored only to a co-resident Prime LM application, and a standalone backup can be restored only to a standalone Prime LM.
In addition to the network management tools mentioned above, the following tools also provide troubleshooting and reporting capabilities for Cisco Unified Communications systems:
Cisco Unified Analysis Manager is included with the Cisco Unified Communications Manager Real-Time Monitoring Tool (RTMT). RTMT runs as a client-side application and it uses HTTPS and TCP to monitor system performance, device status, device discovery, and CTI applications for Unified CM. RTMT can connect directly to devices via HTTPS to troubleshoot system problems.
Unlike the other RTMT functions, Unified Analysis Manager is unique in that it supports multiple Unified Communications elements instead of just one. When the Unified Analysis Manager is launched, it collects troubleshooting information from your Unified Communications system and provides an analysis of that information. You can use this information to perform your own troubleshooting operations, or you can send the information to Cisco Technical Assistance Center (TAC) for analysis.
Unified Analysis Manager supports the 8. x and later versions of the following Unified Communications elements:
Unified Analysis Manager provides the following key features and capabilities:
For more details on the report options, refer to the information about the Cisco Unified Analysis Manager in the Cisco Unified Real-Time Monitoring Tool Administration Guide, available at
http://www.cisco.com/en/US/docs/voice_ip_comm/cucm/service/8_5_1/rtmt/RTMT.html
The Cisco Unified Reporting web application generates reports for troubleshooting or inspecting Cisco Unified Communications Manager cluster data. It is a convenient tool that you can access from the Unified Communications Manager console. The tool facilitates gathering data from existing sources, comparing the data, and reporting irregularities. For example, you can view a report that shows the hosts file for all servers in the cluster. The application gathers information from the publisher server and each subscriber server. Each report provides data for all active cluster nodes that are accessible at the time the report is generated.
For example, the following reports can be used for general management of a Unified CM cluster:
The following report can be used for debugging a Unified CM cluster:
The following report can be used for maintenance of a Unified CM cluster:
For more information on the report options, refer to the latest version of the Cisco Unified Reporting Administration Guide, available at
http://www.cisco.com/en/US/products/sw/voicesw/ps556/prod_maintenance_guides_list.html
This section discusses how to deploy Cisco Unified Network Management applications in various Cisco Unified Communications deployment models. For detailed information on the deployment models, see the chapter on Collaboration Deployment Models.
In the campus model, Cisco Unified Network Management applications, along with call processing agents, are deployed at a single site (or campus) with no telephony services provided over an IP WAN. An enterprise would typically deploy the single-site model over a LAN or metropolitan area network (MAN). Figure 27-2 illustrates the deployment of Cisco Unified Network Management applications in the single-site model.
The following design characteristics and recommendations apply to the single-site model for deploying Prime Collaboration:
The multisite WAN model with centralized call processing is really an extension of single-site model, with an IP WAN between the central site and remote sites. The IP WAN is used to transport voice traffic between the sites and call control signaling between the central site and the remote sites. Figure 27-3 illustrates the deployment of Cisco Unified Network Management applications in a multisite WAN model with centralized call processing.
Figure 27-3 Multisite WAN Deployment with Centralized Call Processing
The following design characteristics and recommendations apply to the multisite model for deploying Prime Collaboration with centralized call processing:
The multisite WAN model with distributed call processing consists of multiple independent sites, each with its own call processing agent connected to an IP WAN. Figure 27-4 illustrates the deployment of Cisco Unified Network Management applications in a multisite WAN model with distributed call processing.
Figure 27-4 Multisite WAN Deployment with Distributed Call Processing
A multisite WAN deployment with distributed call processing has many of the same requirements as a single site or a multisite WAN deployment with centralized call processing in terms of deploying Prime Collaboration. Follow the best practices and recommendations from these other models in addition to the ones listed here for the distributed call processing model:
Clustering over the WAN refers to a single Cisco Unified CM cluster deployed across multiple sites that are connected by an IP WAN with QoS features enabled. This deployment model is designed to provide call processing resiliency if the IP WAN link fails. Figure 27-5 illustrates the deployment of Cisco Unified Network Management applications with clustering over the WAN.
Figure 27-5 Clustering over the WAN
Note There is no native high-availability or redundancy support for Prime Collaboration with this model.
The following design characteristics and recommendations apply when deploying Prime Collaboration with clustering over the WAN: