دورات هندسية

 

 

دورة سيسكو(ccna)

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  1. [21]
    هيفا
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    تاريخ التسجيل: May 2006
    المشاركات: 119
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    The IOS supports standard authentication packages for access to the router. These are RADIUS and TACACS+. Each security package requires unique user identification for access to the router. These security packages offer multilevel access to IOS command interface functions.
      1. Packaging The ordering of Cisco IOS software has been streamlined into feature sets. Prior to IOS Version 11.2 the IOS software was built based on the router requirements. A second enhancement to the delivery of IOS software is the use of feature packs. Feature packs allow you to order the IOS software images and a Windows 95 utility to load the image on the router.
        1. Feature Sets
    Each feature set contains a standard offering. However, options are provided to enable the IOS software to meet more specific needs. Each hardware platform has a feature set. For the most part, all the routers share the same feature sets. The sets are broken down into three categories. These are:
      • Basic: The basic feature set for the platform.
      • Plus: The basic feature set plus added features depending on the platform.
      • Encryption: 40-bit (Plus 40) or 56-bit (Plus 56) data encryption feature sets with the basic or plus feature set.
    The list of features and feature sets and the platforms supporting them are found in Appendix A.
        1. Feature Packs
    IOS Release 11.2 introduces software feature packs. Feature packs offer a means for receiving all materials including software images, loading utilities and manuals on CD-ROMs. Each feature pack contains two CD-ROMs. The software CD-ROM contains:
      • IOS software images
      • AS5200 modem software images
      • Windows 95 software installer program
    A second CD-ROM is included providing the Cisco IOS software documentation reference library. The remaining documentation provided by the feature pack includes an instruction manual for using the Windows 95 software installer program, release notes for the IOS release included on the software CD-ROM and the software license.
      1. Features Supported All the features found in the matrices of Appendix A are applicable to each router and access server platform. These features cross a wide range of services and functions to take into account old, current and future network configurations.
        1. Protocols
    Cisco IOS supports a wide array of networking protocols. Of these protocols, Transmission Control Protocol/Internet Protocol (TCP/IP) is by far the most widely used.
    TCP/IP
    Cisco IOS software supports TCP/IP features:
      • IP access lists
      • IP Security Option (IPSO)
      • IP accounting
      • Simple Network Management Protocol (SNMP)
      • Serial Line Interface Protocol (SLIP)
      • Address Resolution Protocol (ARP)
      • Reverse Address Resolution Protocol (RARP)
      • Domain Name System (DNS) support
      • Internet Common Message Protocol (ICMP)
      • Internet Group Management Protocol (IGMP)
      • User Datagram Protocol (UDP)
      • Telnet
      • TN3270
      • Trivial File Transfer Protocol (FTP)
    Release 10 and 10.3 of IOS introduced new features to already existing standards that have given Cisco routers the ability to provide higher level of security, greater availability, and increase network scalability. Among these features are:
      • Hot Standby Router Protocol (HSRP) and Multigroup HSRP
      • Next Hop Resolution Protocol (NHRP)
      • Department of Defense Intelligence Information System Network Security for Information Exchange (DNSIX) extended IPSO
      • Type of Service (TOS) queuing
      • Cisco Discovery Protocol (CDP)
      • Border Gateway Protocol (BGP) Communities
    With the introduction of release 11 and 11.1 the Cisco IOS software enhances router functionality in the areas of security, performance, and routing services. The major enhancements for these releases are:
      • Route Authentication with Message Digest 5 (MD5) encryption algorithm
      • IP Access Control List (ACL) Violation Logging
      • Policy based routing
      • Weighted fair queuing
      • NHRP on IPX
      • Fast Install for Static Routers
      • Fast Switched GRE
      • RIPV2
    Release 11.2 implements more routing protocol enhancements, IP address translation features and access control list usability. The major features introduced are:
      • On Demand Routing (ODR) for stub routers
      • OSPF On Demand Circuit (RFC1793)
      • OSPF Not-So-Stubby-Area (NSSA)
      • BGP4 enhancements
      • Soft Configuration
      • Multipath
      • Prefix filtering with inbound route maps
      • Network Address Translation (NAT)
      • Named IP access control list
      • Integrated routing and bridging (IRB)

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  2. [22]
    هيفا
    هيفا غير متواجد حالياً
    عضو فعال


    تاريخ التسجيل: May 2006
    المشاركات: 119
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    The IOS supports standard authentication packages for access to the router. These are RADIUS and TACACS+. Each security package requires unique user identification for access to the router. These security packages offer multilevel access to IOS command interface functions.
      1. Packaging The ordering of Cisco IOS software has been streamlined into feature sets. Prior to IOS Version 11.2 the IOS software was built based on the router requirements. A second enhancement to the delivery of IOS software is the use of feature packs. Feature packs allow you to order the IOS software images and a Windows 95 utility to load the image on the router.
        1. Feature Sets
    Each feature set contains a standard offering. However, options are provided to enable the IOS software to meet more specific needs. Each hardware platform has a feature set. For the most part, all the routers share the same feature sets. The sets are broken down into three categories. These are:
      • Basic: The basic feature set for the platform.
      • Plus: The basic feature set plus added features depending on the platform.
      • Encryption: 40-bit (Plus 40) or 56-bit (Plus 56) data encryption feature sets with the basic or plus feature set.
    The list of features and feature sets and the platforms supporting them are found in Appendix A.
        1. Feature Packs
    IOS Release 11.2 introduces software feature packs. Feature packs offer a means for receiving all materials including software images, loading utilities and manuals on CD-ROMs. Each feature pack contains two CD-ROMs. The software CD-ROM contains:
      • IOS software images
      • AS5200 modem software images
      • Windows 95 software installer program
    A second CD-ROM is included providing the Cisco IOS software documentation reference library. The remaining documentation provided by the feature pack includes an instruction manual for using the Windows 95 software installer program, release notes for the IOS release included on the software CD-ROM and the software license.
      1. Features Supported All the features found in the matrices of Appendix A are applicable to each router and access server platform. These features cross a wide range of services and functions to take into account old, current and future network configurations.
        1. Protocols
    Cisco IOS supports a wide array of networking protocols. Of these protocols, Transmission Control Protocol/Internet Protocol (TCP/IP) is by far the most widely used.
    TCP/IP
    Cisco IOS software supports TCP/IP features:
      • IP access lists
      • IP Security Option (IPSO)
      • IP accounting
      • Simple Network Management Protocol (SNMP)
      • Serial Line Interface Protocol (SLIP)
      • Address Resolution Protocol (ARP)
      • Reverse Address Resolution Protocol (RARP)
      • Domain Name System (DNS) support
      • Internet Common Message Protocol (ICMP)
      • Internet Group Management Protocol (IGMP)
      • User Datagram Protocol (UDP)
      • Telnet
      • TN3270
      • Trivial File Transfer Protocol (FTP)
    Release 10 and 10.3 of IOS introduced new features to already existing standards that have given Cisco routers the ability to provide higher level of security, greater availability, and increase network scalability. Among these features are:
      • Hot Standby Router Protocol (HSRP) and Multigroup HSRP
      • Next Hop Resolution Protocol (NHRP)
      • Department of Defense Intelligence Information System Network Security for Information Exchange (DNSIX) extended IPSO
      • Type of Service (TOS) queuing
      • Cisco Discovery Protocol (CDP)
      • Border Gateway Protocol (BGP) Communities
    With the introduction of release 11 and 11.1 the Cisco IOS software enhances router functionality in the areas of security, performance, and routing services. The major enhancements for these releases are:
      • Route Authentication with Message Digest 5 (MD5) encryption algorithm
      • IP Access Control List (ACL) Violation Logging
      • Policy based routing
      • Weighted fair queuing
      • NHRP on IPX
      • Fast Install for Static Routers
      • Fast Switched GRE
      • RIPV2
    Release 11.2 implements more routing protocol enhancements, IP address translation features and access control list usability. The major features introduced are:
      • On Demand Routing (ODR) for stub routers
      • OSPF On Demand Circuit (RFC1793)
      • OSPF Not-So-Stubby-Area (NSSA)
      • BGP4 enhancements
      • Soft Configuration
      • Multipath
      • Prefix filtering with inbound route maps
      • Network Address Translation (NAT)
      • Named IP access control list
      • Integrated routing and bridging (IRB)
    • ارجو ان لا يكون للاخ flash_moh مانع في هذه الاضافة، او تكون قد قطعت تسلسل الموضوع .

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  3. [23]
    محسن 9
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    عضو متميز
    الصورة الرمزية محسن 9


    تاريخ التسجيل: Apr 2006
    المشاركات: 3,101
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    شكرا لك اخت هيفا على الموضوع وهو تحت الدراسة الان وكل الشكر والتقدير للجميع

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  4. [24]
    محسن 9
    محسن 9 غير متواجد حالياً
    عضو متميز
    الصورة الرمزية محسن 9


    تاريخ التسجيل: Apr 2006
    المشاركات: 3,101
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    شكرا لك اخت هيفا على الموضوع وهو تحت الدراسة الان وكل الشكر والتقدير للجميع

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  5. [25]
    ياسين2999
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    عضو فعال جداً


    تاريخ التسجيل: Apr 2006
    المشاركات: 344
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    Talking

    السلام عليكم ,
    مشكورة الأخت هيفا على هذا المجهود ,جعله الله في ميزان حسناتك قولى امين ,
    تحية طيبة و السلام .

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  6. [26]
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    تاريخ التسجيل: May 2006
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    continue:
    Systems Interconnection (OSI) reference model implements the International Organization for Standardization (ISO) Connectionless Network Service (CLNS) as the network layer protocol. Cisco IOS fully supports the forwarding and routing of ISO CLNS. The ISO standards and Cisco implemented features supported by Cisco IOS are:
      • ISO 9542 End System-to-Intermediate System (ESIS) routing protocol
      • ISO 8473 Connectionless Network Protocol (CLNP)
      • ISO 8348/Ad2 Network Service Access Points (NSAP)
      • ISO 10589 Intermediate System-to-Intermediate System (IS-IS) routing protocol
      • DDR for OSI/CLNS
      • Connection-Mode Network Service (CMNS) for X.25 using NSAP
    DECnet Phase IV and Phase V
    Cisco routers have supported DECnet for sometime. IOS software has full functional support of local- and wide-area DECnet Phase IV and Phase V routing on all media types. Currently, Cisco IOS supports these enhanced DECnet features:
      • DECnet dial-on-demand (DDR)
      • Dynamic DECnet Route Advertisements
      • DECnet Host Name to Address Mapping
      • Target Address Resolution Protocol (TARP) support over SONET
    Novell IPX
    Since IOS release 10.0, Cisco IOS provides complete IPX support. Beginning with release 10.3, IOS enhancements for Novell have centered on performance, management, security and usability. These enhancements are:
      • Novell Link State Protoc0l (NLSP)
      • IPXWAN 2.0
      • IPX Floating Static Routes
      • SPX spoofing
      • Enhanced IGRP to NLSP Route Redistribution
      • Input Access Lists
      • Per-Host Load Balancing
      • NLSP Route Aggregation
      • Raw FDDI IPX encapsulation
      • IPS Header Compression
      • Display SAP by name
      • IPX ACL Violation logging
      • Plain English IPX Access Lists
    AppleTalk Phase 1 and Phase 2
    AppleTalk has been a long standing supported protocol on Cisco IOS software. Extended and non-extended networks under AppleTalk Phase 2 are supported. Cisco IOS routes AppleTalk packets over all media types. The AppleTalk features implemented by Cisco IOS are:
      • MacIP
      • IPTalk
      • SNMP over AppleTalk
      • Routing Table Maintenance Protocol (RTMP)
      • AppleTalk Update-Based Routing Protocol (AURP)
      • AppleTalk over Enhanced IGRP
      • Inter-Enterprise Routing
      • AppleTalk Name Binding Protocol (NBP) Filtering
      • AppleTalk Floating Static Routes
      • Simple Multicast Routing Protocol (SMRP)
      • AppleTalk load-balancing
      • SMRP fast switching
    Banyan VINES
    Banyan’s Virtual Integrated Network Service (VINES) is supported on all media types with Cisco IOS software. The VINES routing protocol itself automaticallydetermines a metric for delivering routing updates. This metric is based on the delay set for the interface. Cisco IOS enhances this metric by allowing you to customize the value for the metric. Other enhancements and features supported on Banyan VINES using Cisco IOS are:
      • Address resolution in response to address requests and broadcast propagation
      • MAC level echo support to Ethernet, IEEE 802.2, Token ring and FDDI
      • Name to address mapping for VINES host names
      • Access list filtering of packets to or from specific networks
      • Routing Table Protocol (RTP)
      • Sequenced Routing Update Protocol (SRTP)
      • VINES DDR
      • Floating static routes
    Xerox Network System (XNS)
    XNS is the foundation for Novell IPX protocol. As such, Cisco IOS supports a XNS routing protocol subset of the XNS protocol stack. XNS is supported on Ethernet, FDDI, Token Ring, point-to-point serial lines using HDLC, Link Access Procedure Balanced (LAPB), X.25 Frame relay and SMDS networks.
    Apollo Domain
    Apollo workstations use the Apollo Domain routing protocol. Cisco IOS supports packet forward and routing of this protocol on Ethernet FDDI, HDLC and X.25 encapsulation.
    HP Probe
    HP Probe is a protocol used by HP devices that provides machine name resolution to the physical IEEE 802.3 address. Cisco routers acting as HP Probe Proxy servers on IEEE802.3 LANs allows the router to resolve the machine name to IEEE 802.3 address eliminating the need for a separate server on each IEEE802.3 LAN saving corporate resources.

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  7. [27]
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    تاريخ التسجيل: May 2006
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    Multiring
    Cisco IOS supports the framing of Layer 3 protocol packets in Source Route Bridging packets using the Multiring protocol. Multiring is primarily used for Token ring networks.
        1. Management Cisco IOS software supports the three network management schemas: SNMP, CMIP/CMIS and IBM NMVT. These network management schemas use by network management applications executing on workstations, minicomputers or mainframes. For the most part, they use a client/server type of architecture between the router and the management system.
          IOS release 11.2 introduced the ability to manage Cisco routers using HyperText Transfer Protocol (HTTP) from Web browsers. HTTP utilizes HyperText Markup Language (HTML) for navigating web pages from a browser. Cisco routers at release 11.2 or higher have the capability of presenting a home page to a web browser. The default home page allows you to IOS command line interface commands using Web-like hot links. This home page is modifiable to meet the needs of any router or organization.
          Specific to the Cisco 7200 series router is a logical representation of the router hardware configuration using HTTP. With this enhancement, the operator, using a pointing device such as a mouse, points to the logical view of a router interface and clicks on it to display the status or modify the interfaces configuration.
          Building on the ease of operation using Web-based interfaces, Cisco has implemented a Web-based application on the Cisco access product line called ClickStart. The ClickStart interface, beginning in release 11.0, presents at installation an initial setup form guiding the operator through router configuration. Once the router is configured and connected to the network it is manageable from any central location. ClickStart is available on the Cisco 700, 1000 and 1600 access routers
        2. Multimedia and QoS The advent of higher bandwidth and technologies enabling the integration of audio, video and data on the same network medium have given rise to the need for supporting multimedia applications with guaranteed service. Cisco IOS release 11.2 meets the quality of service (QoS) requirement of multimedia applications Resource Reservation Protocol (RSVP), Random Early Detection (RED) and Generic Traffic Shaping.
          RSVP is an IETF standard that enables applications to dynamically reserve network resources (i.e., bandwidth) from end-to-end. Video or audio feeds over the network can now co-exist with bursty data traffic without the needs for parallel networks. Each router or networking device used on the path between the two end resources requiring RSVP participate in delivering the QoS demanded by the multimedia application.
          Network congestion is monitored and managed through the implementation of Random Early detection (RED). During peak traffic loads, transmission volume can lead to network congestion. RED works in concert with RSVP to maintain end-to-end QoS during these peak loads by selectively dropping traffic at the source using TCP slowstart characteristics. Thus, the source stations feeding into the network slow down their feed until the network metrics defined for the low-water mark against RED are met.
          Generic traffic shaping works in a similar fashion to RED. However, generic traffic shaping, also called interface independent traffic shaping, reduces the flow of outbound traffic to the network backbone. This takes effect when a router connecting to a network backbone composed of Frame Relay, SMDS or Ethernet, receives Layer 2 type congestion packets from down stream network transport devices. Generic traffic shaping throttles back the outbound traffic entering the backbone network at the source of entry.
        3. Secure Data Transmission Security, privacy and confidentiality over public or untrusted IP networks are paramount for using Virtual Private Networks (VPN). Cisco IOS release 11.2 reduces the exposure by enabling the ability to provide router authentication and network–layer encryption. Router authentication enables two routers to exchange a two-way Digital Signature Standard (DSS) public keys before transmitting encrypted traffic over VPNs using generic routing encapsulation (GRE). The exchange is performed once to authenticate the routers by comparing the hash signature of the keys.
          Network-layer encryption uses Diffie-Hellman keys for security. These keys form a Data Encryption Standard (DES) 40- or 56-bit session key. The keys are configurable and set a "crypto-map" that use extended IP access lists to define network, subnet, host and/or protocol pairs requiring encryption between routers.
        4. Support for IBM networking environments
    Cisco has been the leader in providing SNA and NetBIOS support over IP networks. Cisco IOS has several means for transporting IBM type traffic, specifically SNA, over router backbone networks. The basis for the transport is encapsulation. Cisco IOS has five different encapsulation techniques and supports full APPN functionality in its native form. The five-encapsulation techniques are:
      • Remote Source Route Bridging (RSRB)
      • Serial Tunneling (STUN)
      • Data Link Switching Plus (DLSw+)
      • Frame Relay RFC 1490
      • Native Client Interface Architecture (NCIA)
    Along with the five-encapsulation techniques, Cisco IOS supports SDLC –to-LLC2 (SDLLC) conversion. This allows SNA devices suing IBM SDLC protocol to attach serially to the router, as if the router were functioning as an IBM front-end processor. SDLLC converts the SDLC frame into a LLC2 frame for transmission using RSRB or DLSw+ to the mainframe.
    IBM configuration and connectivity are also enhanced using Cisco IOS as TN3270 Server and as a Downstream Physical Unit (DSPU). TN3270 is an IETF RC standard that allows non- –SNA devices to act as IBM 3270 terminals. Routers using Cisco IOS can act as a TN3270 Server for these devices and present their representation to the mainframe as IBM 3270 terminals attached to IBM 3174 Control Units. The DSPU feature allows a Cisco router to have up to 255 logical SNA physical units attached to it and representing all of them as a single IBM SNA physical unit.
    Direct connectivity to the mainframe from a Cisco router is using a Channel Interface Processor (CIP). The CIP can connect the Cisco 7x00 router series to the mainframe using ESCON or block multiplexing channel connectivity. The CIP provides for SNA, TCP/IP services for connecting to the mainframe.
    Two management enhancements for supporting IBM SNA over Cisco routers enable SNA network management and performance. Cisco IOS now supports IBM NMVT command set for sending alerts to the mainframe network management system (i.e., NetView) when SNA devices defined to the router have outages or errors. The IOS also has a Response Time Reporter (RTR) feature allowing operators to analyze SNA response time problems on each leg of the path to the mainframe form the end user device. This is extremely important to determine bottlenecks in the Cisco router network affecting SNA response time problems

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  8. [28]
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    تاريخ التسجيل: May 2006
    المشاركات: 119
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        1. IP Routing Protocols
    Cisco IOS supports a variety of routing protocols. Two of these are Cisco developed and therefore considered proprietary. All other routing protocols are international standards. The two Cisco routing protocols are Interior Gateway Protocol (IGRP) and Enhanced (IGRP).
    IGRP supports IP and ISO CLNS networks. IGRP has its roots in distance vector transport routing schemas with enhancements for determining the best route based on bandwidth along the route. In this decision process, IGRP assumes that the route with the least amount of hops and the higher bandwidth should be the preferred route. However, it does not take into account bandwidth utilization and can therefore itself overload a route and cause congestion. Enhanced IGRP utilizes the Diffusing Update Algorithm (DUAL) along with its roots in link state routing protocols to determine the best path between two points. Enhanced IGRP merges the best of distance vector and link state routing algorithms to provide greater route decision making control. Enhanced IGRP has support for routing IP, AppleTalk and IPX natively.
    The following list provides the remaining open standard routing protocols available for use on Cisco routers:
      • Routing Information Protocol (RIP)
      • RIP2
      • Exterior Gateway Protocol (EGP)
      • Border Gateway Protocol (BGP)
      • BGP4
      • Protocol Independent Multicast (PIM)
      • Intermediate System – Intermediate System (IS-IS)
      • Next Hop Routing Protocol (NHRP)
        1. Bridging
    Independent Local Area Networks (LANs) have traditionally been bridged together to expand their size and reach. There are two bridging techniques that all others are based on: Transparent and Source Route. Transparent bridging is also known as a learning bridge. This type of bridge is the type typically found bridging Ethernet LANs. Cisco IOS supports the following Transparent bridging features:
      • IEEE 802.1(d) Spanning-Tree Protocol
      • IEEE 802.10 virtual LANs
      • DEC spanning tree
      • Bridging over X.25 and Frame Relay networks
      • Remote bridging over synchronous serial lines
    Source Route bridging provides the path between session partners within the frame itself. Transparent bridging has been coupled with Source Route bridging to allow both techniques to be operable on the same interface. This bridging technique is known as Source Route Transparent (SRT) bridging. Another type of bridging that enables the passing of LAN frames from an Ethernet to a Token Ring LAN is called Source Route/Translational Bridging (SR/TLB). This bridging technique, for example, enables SNA devices on an Ethernet to communicate with the mainframe off a Token ring LAN.
        1. Packet Switching
    Packet switching has its foundation in X.25 networks. Today, the most wide spread use of packet switching is considered to be frame relay. Cisco provides packet switching for frame relay, SMDS, and X.25 for corporate network support. The most comprehensive of these is frame relay. Cisco IOS supports the following functions and enhancements to frame relay networking:
      • Virtual interface
      • TCP/IP header compression
      • Broadcast queue
      • Frame Relay switching
      • RFC 1490-multiprotocol encapsulation
      • RFC 1293-Frame Relay Inverse ARP for IP, IPX, AppleTalk, and DECnet
      • Discard eligible (DE) or tagged traffic bit support
      • LMI, ANSI Annex D, and CCITT Annex A support
      • Dial backup
      • Frame Relay over ISDN
      • Autoinstall over Frame Relay
      • RFC1490 - Transparent bridging
      • Frame Relay dial backup per DLCI
      • Fast Switched Frame Relay bridging
      • DLCI Prioritization
      • Frame Relay Switched Virtual Circuit (SVC) support
      • Dynamic modification of network topologies with any-to-any connectivity
      • Dynamic network bandwidth allocation or bandwidth-on-demand
      • Backup for PVC backbones.
      • Resources allocated only when the connection is required to transfer data in private networks.
      • Traffic shaping over Frame Relay
      • Rate enforcement on a per VC basis
      • Per VC backward explicit congestion notification (BECN) support
      • VC level priority/custom/weighted-fair queuing (PQ/CQ/WFQ) support
        1. NetFlow Switching Details of session flows through the router network used to be an elusive quest for the network management team. Cisco IOS NetFlow Switching provides "call detail recording" of traffic through the network on both the network and transport layers. This allows Cisco IOS to manage traffic on a per-user, per application basis. It does this using a connection-oriented model of the end-to-end flows, applying relevant services to the flow of data. What makes NetFlow even more attainable it is accomplished in software without added hardware features on the Cisco 7500 and 7000 series routers using Route Switch Processor (RSP) or Versatile Interface Processor (VIP) boards.

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  9. [29]
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    تاريخ التسجيل: May 2006
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    1. ATM
    Cisco IOS is fully compliant with all the ATM standards. Cisco itself is very active in establishing the ATM standards and as such has a complete feature set. Cisco IOS supports all the ATM standards including the following:
      • ATM Point-to-Multipoint Signaling
      • ATM Interim Local Management Interface (ILMI)
      • RFC 1577-Classical IP and ARP over ATM
      • SVC Idle Disconnect
      • Bridged ELANs
      • LANE (LAN Emulation) MIBs
      • SSRP (Simple Server Redundancy Protocol) for LANE
      • HSRP for LANE
      • DECnet routing support for LANE
      • UNI 3.1 signaling
      • Rate queues for SVCs per subinterface
      • AToM MIB
        1. Dial-on-demand Routing
    As mentioned earlier, Cisco support dial-on-demand services that enhances the availability and performance of internetworks. Dial-on-demand routing (DDR) uses switched circuit connections through public telephone networks. Using these switched circuits allows Cisco routers to provide reliable backup and bandwidth optimization between locations. The features supported by Cisco DDR include:
      • POTS via an external modem
      • SW56 via an external CSU
      • ISDN (BRI and PRI) via integrated ISDN interfaces or external terminal adapters
      • Dial backup
      • Supplementary bandwidth
      • Bandwidth-on-demand
      • Snapshot routing
      • Multiprotocol routing and transparent bridging over switched circuits
      • ISDN fast switching
      • Asynchronous ISDN access
        1. Access Server
    Cisco routers that function primarily as devices for remote users to access the network are referred to as access servers. These access servers support all the features of dial-on-demand with enhancements to support terminal types, connection protocols, security, management, and virtual private networks over the Internet. Access servers provide the following services and features:
      • Asynchronous terminal services - includes X.25 packet assembler/disassembler (PAD), TN3270, Telnet, and rlogin.
      • Remote node access over a telephone network using Point-to-Point Protocol (PPP, IPCP, and IPXCP), Xremote, SLIP, and compressed SLIP (CSLIP), AppleTalk Remote Access (ARA) protocol versions 1 and 2 and MacIP
      • Multichassis Multilink PPP (MMP) – an aggregate methodology for sharing B channels transparently across multiple routers or access servers
      • Asynchronous routing - IP, IPX, and AppleTalk routing
      • TN3270 enhancements
      • PPP/SLIP on protocol translator virtual terminals
      • TACACS+
      • TACACS+ single connection
      • TACACS+ SENDAUTH function
      • ATCP for PPP
      • Asynchronous mobility – connects users to private networks through public networks, e.g., Internet.
      • Asynchronous callback – router recognizes a callback request and initiates the callback to the caller
      • Asynchronous master interfaces – template of standard interface configuration for multiple asynchronous interfaces on the access server
      • ARAP and IPX on virtual asynchronous interfaces
      • Local IP Pooling – pool of reusable IP addresses assigned arbitrarily to asynchronous interfaces
      • Remote node NetBEUI – uses PPP Network Control Protocol (NCP) for NetBEUI over PPP called NetBIOS Frames Control Protocol (NBFCP)
      • Modem auto-configuring – auto-discovery and auto-identification of attached modems allowing for automatic modem configuration
      • NASI (Novell Asynchronous Services Interface)
      • RFC 1413 Ident
      • RADIUS (Remote Authentication Dial-In User Service)
      • Virtual Private Dial-up Network (VPDN)
      • Dialer profiles
      • Combinet Packet Protocol (CPP)
      • Half bridge/half router for CPP and PPP
        1. LAN Extension
    Cisco central site routers, like the 7x00 series, can extend their LAN connectivity over a WAN link using Cisco IOS LAN Extension. The central site router configures LAN Extension services to a multilayer switch at the remote site in a hub-and-spoke configuration. This connection provides a logical extension of the central sites LAN to the remote.
    LAN extension is a practical use of Cisco’s CiscoFusion architecture. CiscoFusion describes the combined use of Layer 2 switching or bridging with Layer 3 switching or routing. This combination provides transparent connectivity under LAN extension supporting IP, IPX, AppleTalk, DECnet, VINES and XNS protocols. Since LAN extension supports functions of Layer 2 and 3, MAC address filtering and protocol filtering and priority queuing are accomplished over the WAN links for efficient use of bandwidth.

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    تاريخ التسجيل: May 2006
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    This is the end of chapter 1.

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