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PERFORMANCE MANAGEMENT

Network Management: Accounting and Performance Strategies - Graphically Rich Book Network Management: Accounting and Performance Strategies by Benoit Claise - CCIE No. 2686; Ralf Wolter Publisher: Cisco Press Pub Date: June 20, 2007 Print ISBN-10: 1-58705-198-2

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PERFORMANCE MANAGEMENT

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  1. Network Management: Accounting and Performance Strategies - Graphically Rich Book Network Management: Accounting and Performance Strategies by Benoit Claise - CCIE No. 2686; Ralf Wolter Publisher: Cisco Press Pub Date: June 20, 2007 Print ISBN-10: 1-58705-198-2 Print ISBN-13: 978-1-58705-198-2 Pages: 672 PERFORMANCE MANAGEMENT

  2. Understanding the need for Performance Management • What is performance management? • Why do networks require performance management? • Which problems does performance management solutions solve? • What aspects make up performance monitoring (data collection, data analysis, reporting, billing, and so on)?

  3. Defining performancemanagement

  4. ITU-T definition (M.3400 and X.700, Definitions of the OSI Network Management Responsibilities): • Performance Management provides functions to evaluate and report upon the behavior of telecommunication equipment and the effectiveness of the network or network element. • Its role is to gather and analyze statistical data for the purpose of monitoring and correcting the behavior and effectiveness of the network, network elements, or other equipment and to aid in planning, provisioning, maintenance and the measurement of quality.

  5. ITU-T definition (M.3400 and X.700, Definitions of the OSI Network Management Responsibilities): Performancemanagement includes functions to: • gather Performancemanagement includes functions to: statistical information • maintain and examine logs of system state histories • determine system performance under natural and artificial conditions • alter system modes of operation for conducting performance management activities

  6. This process manages the SLAs and reports service performance to the customer. TMF definition: • The TMF defines performance and SLA management in the context of assurance. • The assurance process is responsible for the execution of proactive and reactive maintenance activities to ensure that services provided to customers are continuously available and to SLA or quality of service (QoS) performance levels. • It performs continuous resource status and performance monitoring to detect possible failures proactively, and it collects performance data and analyzes it to identify potential problems to resolve them without affecting the customer.

  7. TMF definition: • Related documents are • TMF 701, Performance Reporting Concepts & Definitions; • TMF GB917, SLA Management Handbook, which also refers to ITU M.3010; and • the FAB model of the eTOM.

  8. Figure 1-4. Performance Management Architecture

  9. Figure 1-5. Network Management Building Blocks

  10. Purposes of Performance Various performance scenarios: • Device Performance Monitoring • Network Performance Monitoring • Service Monitoring • Baselining

  11. Device Performance Monitoring • Network Element Performance Monitoring • System and Server Performance Monitoring Low-level service monitoring components: • - System: hardware and operating system (OS) • - Network card(s) • - CPU: overall and per system process • - Hard drive disks, disk clusters • - Fan(s) • - Power supply • - Temperature • - OS processes: check if running; restart if necessary • - System uptime High-level service monitoring components: • - Application processes: check if running; restart if necessary • - Server response time per application • - Optional: Quality of service per application: monitor resources (memory, CPU, network bandwidth) per CoS definition • - Uptime per application From a device perspective, we are mainly interested in device "health" data, such as overall throughput, per-(sub)interface utilization, response time, CPU load, memory consumption, errors, and so forth

  12. Figure 1-23. Catalyst 6500 NAM ART Measurement • A practical approach is to measure the server performance with the Cisco IP SLA or Cisco NAM card for the Catalyst switch. • The NAM leverages the ART MIB and provides a useful set of performance statistics if located in the switch that connects to the server farm

  13. Network Performance Monitoring: • Network response time • Utilization (device, network) • Packet loss • Network delay • Jitter (delay variation) • Transmission efficiency • Network throughput/capacity

  14. Service Monitoring From a service perspective, here are significant parameters to monitor: • Service availability • Service delay • Packet loss • Mean Opinion Score (MOS) in the case of voice • Jitter (delay variation) • Key Quality Indicators (KQI) • Key Performance Indicators (KPI)

  15. Service meaning • —A generic definition by Merriam-Webster declares: "A facility supplying some public demand...." More specifically, related to IT, we define a service as a function providing network connectivity or network functionality, such as the Network File System, Network Information Service (NIS), Domain Name Server (DNS), DHCP, FTP, news, finger, NTP, and so on. • Service • Service level • —The definition of a certain level of quality (related to specific metrics) in the network with the objective of making the network more predictable and reliable. • Service level agreement (SLA) • —A contract between the service provider and the customer that describes the guaranteed performance level of the network or service. Another way of expressing it is "An SLA is the formalization of the quality of the service in a contract between the Customer and the Service Provider.“ • Service level management —The continuously running cycle of measuring traffic metrics, comparing those metrics to stated goals (such as for performance), and ensuring that the service level meets or exceeds the agreed-upon service levels

  16. Table 1-8 provides some generic SLA examples.

  17. Baselining Baselining is the process of studying the network, collecting relevant information, storing it, and making the results available for later analysis. A general baseline includes all areas of the network, such as a connectivity diagram, inventory details, device configurations, software versions, device utilization, link bandwidth, and so on.

  18. Baselining tasks include the following: • device inventory information (physical as well as logical). This can be collected via SNMP or directly from the command-line interface (CLI)—for example, show version, show module, show run, show config all, and others. • Gather • Gather • statistics (device-, network-, and service-related) at regular intervals. • Document • the physical and logical network, and create network maps. • Identify • the protocols on your network, including

  19. Baselining tasks include the following: • the protocols on your network, including • Identify • - Ethernet, Token Ring, ATM • - Routing (RIP, OSPF, EIGRP, BGP, and so on) • - Legacy voice encapsulated in IP (VoIP) • - IP telephony • - QoS (RSVP) • - Multicast • - MPLS/VPN • - Frame Relay • - DLSW

  20. Baselining tasks include the following: • the applications on your network, including • Identify • - Web servers • - Mainframe-based applications (IBM SNA) • - Peer-to-peer applications (Kazaa, Morpheus, Grokster, Gnutella, Skype and so on) • - Backup programs • - Instant messaging • Monitor & study • statistics over time, • traffic flows.

  21. From a performance baselining perspective, we are primarily interested in performance-related subtasks • network device-specific details: • Collect • - CPU utilization • - Memory details (free system memory, amount of flash memory, RAM, etc.) • - Link utilization (ingress and egress traffic) • - Traffic per class of service • - Dropped packets • - Erroneous packets

  22. From a performance baselining perspective, we are primarily interested in performance-related subtasks • Gather • server- and (optionally) client-related details: • - CPU utilization • - Memory (main memory, virtual memory) • - Disk space • - Operation system process status • - Service and application process status • Gather • Service related information : • - Round-trip time • - Packet loss (delay variation—jitter) • - MOS (if applicable)

  23. Performance management is one example of a management area that benefits from performance monitoring and accounting, but also actively modifies the network and its behavior. both performance monitoring and accounting management gather usage data used as input for various management applications. • without performance monitoring you operate the network blindfolded. • Without accounting, you can hardly identify the cause of bottlenecks and outages identified by performance management.

  24. Figure 1-6. Complementary Solution The intersection between the two areas is typically the network monitoring part. This is a generic term for any data collection tasks that are common between accounting management and performance management.

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