Kurs 20726 - Building Cisco Multilayer Switched Networks Part 2

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Kurs 20726 - Building Cisco Multilayer Switched Networks Part 2

  • Ziele - Identify features of transparent bridges. - Identify how Spanning Tree Protocol (STP) prevents bridging loops. - Identify the features of the BID that can be chosen as the root switch. - Identify Cisco enhancements to Spanning Tree Protocol (STP). - Identify the characteristics that apply to EtherChannel. - Identify the features of the Port Aggregation Protocol (PAgP) and Link Aggregation Control Protocol (LACP). - Identify features of Layer 3 switching. - Identify stages in the process of multilayer switch packet forwarding. - Identify features of Content Addressable Memory (CAM) tables.
  • Anforderungen Network administrators and technicians who are responsible for implementing or troubleshooting a multilayer switched network (MSN) in an enterprise environment. CCNP and CCDP candidates CCIE routing/switching candidates.
  • Titel Kurs 20726 - Building Cisco Multilayer Switched Networks Part 2
  • Inhalt Course Description

    This course covers network models, network switches, and switch deployment. It then goes on to teach about catalyst images and connectivity, as well as configuring VLANs and VTP.

    Deployment Options

    Self-Study

    Accreditation

    CEU credits: 0.80 CEUs

    Objectives

    Unit 1: STP

    - Identify features of transparent bridges.
    - entify how Spanning Tree Protocol (STP) prevents bridging loops.
    - Identify the features of the BID that can be chosen as the root switch.
    - Identify features of a Bridge Protocol Data Unit (BPDU).
    - Match spanning-tree port states with their descriptions. Sequence
    - the steps during topology change in a Spanning Tree Protocol (STP) network.
    - Identify the steps of a spanning-tree operation.
    - Identify the features that apply to Per VLAN Spanning Tree + (PVST+).
    - Identify commands used to configure a spanning tree.
    - Identify the commands that verify a spanning tree configuration.

    Unit 2: Enhancing STP

    - Identify Cisco enhancements to Spanning Tree Protocol (STP).
    - Identify the characteristics that apply to EtherChannel.
    - Identify the features of the Port Aggregation Protocol (PAgP) and Link Aggregation Control Protocol (LACP).
    - Identify features of STP in the Enterprise Composite Network model.
    - Identify the features of Rapid Spanning Tree Protocol (RSTP).
    - Identify the features of transitioning rapidly to the forwarding state.
    - Identify the actions that apply to notifying topology changes (TCs) with RSTP.
    - Identify features of Multiple Spanning Tree (MST).
    - Identify the benefits of applying RSTP in the Enterprise Composite Network model.
    - Identify commands to configure port-level tuning with PortFast.
    - Identify commands to configure UplinkFast and BackboneFast.
    - Identify commands to configure Multiple Spanning Tree (MST).
    - Identify commands to configure EtherChannel.
    - Identify the commands used to configure PAgP and LACP.
    - Identify options to configure EtherChannel load balancing.
    - Identify commands to configure Bridge Protocol Data Unit (BPDU) Guard.
    - Identify key aspects of Bridge Protocol Data Unit (BPDU) filtering and skewing.
    - Identify the function of Root Guard.
    - Identify commands to configure Unidirectional Link Detection (UDLD).
    - Identify commands to configure loop guard.
    - Identify differences between Loop Guard and Unidirectional Link Detection (UDLD).
    - Identify the protection features used in the Enterprise Composite Network model.
    - Identify potential Spanning Tree Protocol (STP) problems and their solutions.
    - Identify guidelines for troubleshooting Spanning Tree Protocol (STP).

    Unit 3: Implementing MLS

    - Identify features of Layer 3 switching.
    - Identify stages in the process of multilayer switch packet forwarding.
    - Identify features of Content Addressable Memory (CAM) tables.
    - Identify features of the Ternary Content Addressable Memory (TCAM) table.
    - Identify switch forwarding architectures on Cisco multilayer switches.
    - Identify features of Cisco Express Forwarding (CEF)-based Multilayer Switching (MLS).
    - Sequence the steps for Address Resolution Protocol (ARP) throttling.

    Course Access

    Each student has access to the course for a period of 6 months from the day of enrollment in the course.

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