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

Ön Kayıt ve Fiyat Bilgi Formu

Tarih ve lokasyonlar

Bu eğitimi özel sınıf olarak kendi kurumunuzda talep edebilirsiniz.
Lütfen bizimle iletişime geçin:


+90 212 282 7700

Talep Formu
Eğitim Tipi ve Süresi

Eğitim Sağlayıcı ve Kategori

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.


  • 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


  • 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


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

Eğitim içeriğini PDF olarak indir