Esame 300-160 DCID Designing Cisco Data Center Unified Computing v6.0

2017-01-18 - 600 parole - tempo di lettura 3 minuti

L’esame 300-160 DCID 6.0 è associato alla certificazione Cisco CCNP Data Center.

Questo esame testa le capacità di progettazione di infrastrutture dei data center relative ai requisiti di implementazione e le opzioni per la connettività di rete, le infrastrutture, la rete di storage, connettività della capacità di calcolo ed le relative risorse.

Domande: 60-70 Durata: 90 + 30 minuti per i non madrelingua inglese Costo: 228 euro Data ritiro: Status: ATTIVO Sostituito da:

1.0 Data Center Network Connectivity Design

24%

1.1 Evaluate options for Layer 2 connectivity to meet deployment requirements in the data center
  * 1.1.a Endpoint mobility
  * 1.1.b Redundancy / high availability
  * 1.1.c Convergence
  * 1.1.d Services insertion

1.2 Evaluate options for Layer 3 connectivity to meet deployment requirements in the data center

  * 1.2.a IP mobility
  * 1.2.b Redundancy / high availability

    * 1.2.b [i] Graceful restart / NSF


  * 1.2.c Convergence
  * 1.2.d Services insertion

    * 1.2.d [i] Load balancing
    * 1.2.d [ii] Security

2.0 Data Center Infrastructure Design

21%

2.1 Evaluate data center protocols to meet deployment requirements
  * 2.1.a Fabric Path
  * 2.1.b OTV
  * 2.1.c VXLAN
  * 2.1.d LISP
  * 2.1.e VPC/VPC+

2.2 Evaluate options for orchestration and management in a data center

  * 2.2.a Orchestration and automation
  * 2.2.b Out-of-band management network
  * 2.2.c License management

2.3 Evaluate options for device and routing virtualization in a data center

  * 2.3.a VDC
  * 2.3.b VRF

2.4 Evaluate options for interconnecting data centers

3.0 Data Center Storage Network Design

21%

3.1 Plan for iSCSI deployment in the data center
  * 3.1.a Multipathing
  * 3.1.b Addressing schemes

3.2 Evaluate QoS requirements in the data center

  * 3.2.a Fibre Channel
  * 3.2.b FCoE
  * 3.2.c FCIP
  * 3.2.d iSCSI

3.3 Determine FCoE/ Fibre Channel interface parameters based on data center requirements

  * 3.3.a Dedicated and shared mode
  * 3.3.b Port types
  * 3.3.c ISL
  * 3.3.d Oversubscription

3.4 Evaluate SAN Topology options in the data center

  * 3.4.a Fabric redundancy
  * 3.4.b NPV, NPIV, and FCF
  * 3.4.c Load balancing

4.0 Data Center Compute Connectivity Design

19%

4.1 Evaluate options for Ethernet connectivity to meet deployment requirements in a data center
  * 4.1.a Redundancy / high availability
  * 4.1.b Bandwidth

    * 4.1.b [i] Over subscription


  * 4.1.c Fabric interconnect operation mode

    * 4.1.c [i] Switch mode
    * 4.1.c [ii] End host mode

4.2 Evaluate options for storage connectivity to meet deployment requirements in a data center

  * 4.2.a Multipathing
  * 4.2.b Bandwidth

    * 4.2.b [i] Port channels
    * 4.2.b [ii] Oversubscription


  * 4.2.c Fabric interconnect operation mode

    * 4.2.c [i] Switch mode
    * 4.2.c [ii] End host mode


  * 4.2.d Direct-attached storage

    * 4.2.d [i] Appliance port
    * 4.2.d [ii] Fibre Channel storage port
    * 4.2.d [iii] FCoE port

5.0 Data Center Compute Resource Parameters Design

15%

5.1 Evaluate options for orchestration and automation in the data center
  * 5.1.a Service profile templates
  * 5.1.b vNIC templates
  * 5.1.c vHBA templates
  * 5.1.d Global policies vs local policies

5.2 Evaluate options for management network in a data center

  * 5.2.a In-band
  * 5.2.b Out-of-band

5.3 Evaluate options for network device virtualization in a data center

  * 5.3.a Cisco VIC adaptors

    * 5.3.a [i] Number of interfaces vs IOM uplinks
    * 5.3.a [ii] vCon placement policies
    * 5.3.a [iii] Ethernet adaptor policies
    * 5.3.a [iv] Fibre Channel policies