QoS Configuration and Monitoring

Data Sheet

Quality of Service Deployments:
Cisco AutoQoS

Cisco AutoQoS represents innovative technology that simplifies network administration challenges, reducing Quality of Service (QoS) complexity, and deployment time and cost in Enterprise networks. Cisco AutoQoS incorporates value-added intelligence in Cisco IOS® Software and Cisco Catalyst® Operating System Software to provision and manage large-scale QoS deployments.

The first phase of Cisco AutoQoS offers straightforward capabilities to automate Voice over IP (VoIP) deployments for customers who want to deploy IP telephony, but who lack the expertise and/ or staffing to plan and deploy IP QoS and IP services.

Customers can more easily provision and manage successful QoS deployments using Cisco AutoQoS together with CiscoWorks QoS Policy Manager (Cisco QPM). Cisco AutoQoS provides QoS provisioning for individual routers and switches, simplifying deployment and reducing human error. Cisco QPM provides centralized QoS design, administration, and traffic monitoring that scales to large QoS deployments.

Quality of Service Deployment Overview

Cisco AutoQoS simplifies and shortens the Quality of Service deployment cycle. There are five major aspects of successful QoS deployments:

Each aspect presents challenges to the network manager.

Application Classification

The first step in deploying QoS is to identify and categorize the network traffic generated by each application. Access control lists (ACLs) are the most commonly used tool for identifying traffic. ACLs use information from Layer 3 (IP addresses) and Layer 4 (TCP/UDP port numbers) to identify traffic. However, using ACLs alone to deploy QoS rapidly increases the size and number of ACLs required in a network. Furthermore, they cannot easily identify all applications (ie: various kinds of http traffic).

Policy Generation

Developing the initial QoS policy often challenges customers, who must balance QoS policy variables (bandwidth, delay, jitter, and packet loss) to achieve the desired application performance. Cisco QoS empowers the network manager to set policies for delivering the desired application performance for the business; however, many customers lack the required expertise to arrive at a starting point for their QoS policies.

Configuration

Network devices need to be programmed with the right set of features and parameters to implement the policy. While QoS is rich in features, the process of effective implementation is time-consuming. Without automation, the QoS configuration challenge can be very complex.

Monitoring & Reporting

Customers are often deluged with mountains of data, but very little relevant information that helps them to identify the root of a problem or any important trends (ie: traffic patterns, exceptions). Obtaining the right information can be quite expensive, and it often arrives too late to be useful. A classic example is finding out "who" (ie: which user or IP address) is causing congestion or creating abnormal loads on a link. Without automation, it can take many months to establish an efficient monitoring process.

Consistency

Customers are faced with managing QoS policies consistent across multiple kinds of devices in the network, including IP phones, switches and routers. Varying devices and vendors often implement QoS functionality differently, creating a challenge for the network manager.

Cisco AutoQoS: A New Paradigm for Simplifying Quality of Service

Cisco AutoQoS provides a new paradigm for automating the delivery of network QoS. It simplifies the provisioning of network QoS with intelligence, and shortens the QoS deployment cycle. Customers can use Cisco AutoQoS to:

Cisco AutoQoS addresses the major elements of end-to-end QoS deployments, leveraging decades of networking experience, extensive lab performance testing, and input from a broad base of customer AVVID installations, to determine the optimal QoS configuration for typical Voice over IP (VoIP) deployments.

Cisco AutoQoS—Simplifying QoS Deployment

Cisco AutoQoS addresses the five key elements of QoS deployment.

Application Classification

Cisco AutoQoS leverages intelligent classification on routers, utilizing Cisco Network-Based Application Recognition (nBAR) to provide deep and stateful packet inspection. Cisco AutoQoS uses Cisco Discovery Protocol (CDP) for voice packets, ensuring that the device attached to the local area network (LAN) is really an IP phone.

Policy Generation

Cisco AutoQoS evaluates the network environment and generates an initial policy. It automatically determines WAN settings for fragmentation, compression, encapsulation, and Frame Relay-ATM interworking, eliminating the need to understand QoS theory and design practices in various scenarios. Customers can meet additional or special requirements by modifying the initial policy as they normally would.

The first release of Cisco AutoQoS provides the necessary AutoQoS-VoIP feature to automate QoS settings for VoIP deployments. This feature automatically generates interface configurations, policy maps, class maps, and ACLs. AutoQoS-VoIP will automatically employ Cisco nBAR to classify voice traffic, and mark it with the appropriate differentiated services code point (DSCP) value. AutoQoS-VoIP can be instructed to rely on, or trust, the DSCP markings previously applied to the packets.

Configuration

With one command, Cisco AutoQoS configures the port to prioritize voice traffic without affecting other network traffic, while still offering the flexibility to adjust QoS settings for unique network requirements. Not only will Cisco AutoQoS automatically detect Cisco IP Phones and enable QoS settings, it will disable the QoS settings when a Cisco IP phone is relocated or moved to prevent malicious activity.

Monitoring & Reporting

Cisco AutoQoS provides visibility into the classes of service deployed via system logging and Simple Network Management Protocol (SNMP) traps, with notification of abnormal events (ie: VoIP packet drops). Cisco QPM leverages the Cisco intelligent IP network to provide visibility into network operations. Users can measure traffic throughput for top applications and service classes; they can also troubleshoot problems with real-time and historical QoS feedback. Traffic and QoS statistics can be displayed as line or bar charts in bits or packets per second, per interface or policy. Cisco QPM enables a user to view graphs before and after QoS deployment, tied to traffic filters and policies, as well as results from QoS policy actions.

Cisco QPM enables users to view:

For additional information, please visit:

http://cisco.com/en/US/products/sw/cscowork/ps2064/products_data_sheet09186a0080091bcf.html

Cisco AutoQoS policies are designed to work in harmony with each other across Cisco devices, ensuring consistent end-to-end QoS.

Features and Benefits

Cisco AutoQoS simplifies deployment and speeds provisioning of Quality of Service technology over a Cisco network infrastructure. It reduces human error and lowers training costs. With AutoQoS-VoIP, you use just one command to enable QoS for VoIP across every Cisco router and switch. You can also modify an AutoQoS-generated policy to meet your specific requirements.

Tables 1 and 2 detail the initial Cisco AutoQoS features for Cisco IOS Software and Cisco Catalyst OS Software

CiscoWorks QoS Policy Manager

While Cisco AutoQoS allows a user to configure QoS at the device level, Enterprises will use Cisco QPM to cost effectively manage QoS in their IP network. This enables in-depth analysis, intelligent QoS design, and scalable deployment.

For additional information about CiscoWorks QoS Policy Manager 3.0, please visit:

http://www.cisco.com/en/US/products/sw/cscowork/ps2064/ps4622/index.html

Platform Support

Table 4 details platform support for the initial release of Cisco AutoQoS, which provides automatic, end-to-end quality of service provisioning for VoIP traffic.