HP Core/Distribution Network Technologies Using ProVision Software, Rev. 10.41 Eğitimi

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HP  » HP ASE Network Infrastructure Eğitimler

HP Core/Distribution Network Technologies Using ProVision Software, Rev. 10.41 (HK741)

Learn to design and implement converged networks based on HP E-Series ProVision ASIC switches.

In this course, you will gain the knowledge and skills necessary to configure HP E-Series switches supporting network redundancy at Layer 2 and Layer 3, networks supporting IPv4 and IPv6, OSPFv2 and OSPFv3, and IP multicast supported network systems. Through hands-on labs, you will learn to configure E-Series ProVision Application-Specific Integrated Circuit (ASIC) switches.

Certification:

  • HP ASE - Network Infrastructure [2011]
  • HP ASE - Wireless Networks [2011]

What You'll Learn

  • E-Series ProVision ASIC networking products and technologies
  • Providing redundant links and default gateways with MSTP/VRRP
  • Designing and implementing IPv4 networks
  • Designing and implementing OSPFv2 routing
  • Designing and implementing Layer 2 and Layer 3 QoS
  • Designing and implementing IGMP, PIM-Sparse, and PIM-Dense
  • Designing and implementing QinQ
  • Designing and implementing IPv6, OSPFv3, and DHCPv6

Who Needs to Attend

IT professionals who design and deploy SMB and enterprise-edge solutions based on HP technologies, including HP reseller systems engineers, customer IT staff, HP system engineers, and HP services field and call center support engineers

Prerequisites

  • HP Switching and Routing Technologies
  • HP Access Layer Network Technologies Using ProVision Software, Rev. 10.41 (HK651)

Follow-On Courses

There are no follow-ons for this course.

Course Outline

1. The Resilient, Adaptive Network

  • Convergence
  • Benefits of the "triple playnetwork
  • Convergence industry trends
  • IP telephony goals and design options
  • HP networking convergence strategy
  • Adaptive EDGE architecture
    • Intelligent convergence
  • HP networking
    • Convergence technologies
  • E-Series ProVision ASIC Switches
    • Convergence features
  • HP networking drives key IP telephony standards
  • Customer benefits of nonstop switching

2. Providing Redundant Links and Gateways

  • VRRP
  • Planning for redundant default gateways
  • VRRP with Spanning Tree
  • Ensure persistent path between master and backup
  • MSTP/VRRP redundancy solution
  • Configure and monitor MSTP
  • Define VLANs and assign ports
  • Troubleshoot MST configuration
  • Configure and monitor VRRP
  • Choose virtual router numbering scheme
  • Configure VRRP backup router

3. Designing and Configuring IP Networks

  • Organizing users into VLANs
  • Planning for the core-oriented solution
  • Issues with the core-oriented strategy
  • Implementing "control to the edge"
  • IP routing review
  • Edge routing
    • Determine total number of required VLANs
    • Assign user VLAN IDs
  • Defining loopback interfaces
  • Implementing edge routing
  • Configuring loopback interfaces
  • Enabling IP routing on the E3500
  • Routing switches and broadcast domains
  • Spanning tree and routed links
  • Overlapping broadcast domains
  • Impact of STP blocked links on IP routing

4. OSPF Routing in the Adaptive Network

  • OSPF routing protocol
  • Identifying and troubleshooting adjacency failure
  • Multiple OSPF areas
  • Area border routers (ABRs)
  • Defining range summaries
  • Providing additional resilience
  • OSPF external routes
  • OSPF area types
  • Concurrent support for OSPF, RIP, and static routes

5. Delivering Quality of Service (QoS)

  • Converged network requirements and challenges
  • Impact of congestion on data traffic
  • Prioritization techniques
  • E-Series ProVision ASIC default QoS support
  • Class of Service (CoS)
  • Layer 2 marking: IEEE 802.1p priority field
  • Queue scheduling
  • Traffic marking by an end station
  • Retaining priority between VLANs
  • Configurable QoS policies
  • QoS and the Adaptive EDGE architecture
  • Layer 3 marking
  • DiffServ compatibility with IP Precedence
  • DSCP, traffic class, and queue mapping
  • Prioritization over a WAN link
  • Classification, marking, and scheduling
  • Rate limiting on the ProVision ASIC switches
  • QoS policies and untrusted domains
  • Define policies and configure queues
  • Enabling rate limiting
  • Link Layer Discovery Protocol (LLDP)
  • Mandatory and optional TLVs
  • IP telephony solution: 802.1X, LLDP, and LLDP-MED
  • Configure multi-user 802.1X

6. Supporting IP Multicast

  • Video bandwidth and compression
  • Communication modes for video traffic
    • Multiple unicast streams
    • A single broadcast stream
    • A single multicast stream
  • IP multicast protocols
    • Example using a single router
  • Multicast addresses
  • IGMP message types
  • Multicast distribution tree
  • Comparing PIM dense and sparse modes
  • PIM sparse overview
  • Enable IP multicast routing and PIM sparse

7. QinQ or Provider Bridging

  • IEEE 802.1Q limitations
  • QinQ (IEEE 802.1ad)
  • QinQ VLAN types
  • S-VLAN operation and configuration
  • Configuring a provider switch for S-VLAN operation
  • Mixed VLAN operation and configuration
  • Configuring a provider switch for mixed VLAN operation

8. IPv6, OSPFv3, and DHCPv6

  • IPv6 deployment
    • ICMPv6 and neighbor discovery
    • IPv6 autoconfiguration of addresses
    • IPv6 security
    • IPv6 QoS
    • HP and IPv6
    • IPv6 address basics
    • IPv4 and IPv6
    • IPv6 notation
    • Interface ID
    • Hierarchical addressing
    • Simplified routing tables
    • IPv6 address types
    • Next-hop determination
    • Router advertisement
    • Address resolution
    • IPv6 autoconfiguration
    • IPv6 manual address configuration
    • Disabling IPv6 on a VLAN
    • IPv6 routing
  • OSPFv3
    • OSPFv2 vs. OSPFv3
    • OSPFv3 interface numbering
    • OSPFv2 and v3 packet headers
    • Configuring OSPFv3 routing
    • Configuring OSPFv3 on a routing switch
    • OSPFv3 routing configuration
    • OSPFv3 route display
    • OSPFv3 interfaces
    • OSPFv3 neighbors
  • DHCPv6
    • DHCPv4 and DHCPv6
    • DHCPv6 header format and message types
    • DHCPv6 and RA configuration flag settings
    • DHCPv6 message exchange
    • IPv6 address renewal
    • DHCPv6 server-initiated configuration
    • DHCPv6 client configuration
    • DHCPv6 relay configuration
  • IPv6 MLD snooping
  • IPv6 transition mechanisms
  • IPv6-over-IPv4 tunnels
  • ISATAP routing
  • Teredo routing

Labs

Lab 1: Configuring MSTP and VRRP

Lab 2: Configuring OSPF Routing

Lab 3: Configuring Multiple Area OSPF

Lab 4: Configuring QoS

Lab 5: Configuring PIM Dense

Lab 6: Configuring PIM Sparse

Lab 7: Configuring QinQ

Lab 8: Configuring IPv6 Autoconfig

Lab 9: Configuring Manual IPv6 Address

Lab 10: Configuring IPv6 Routing

Lab 11: Configuring OSPFv3 Routing

Lab 12: Configuring DHCPv6

Lab 13: Configuring Dual Stack IPv4 and IPv6



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