Note:

  • CCIE Security 350-018 exam will be retired on January 30, 2017, the new exam is 400-251.
  • CCNA Data Center 640-911 DCICN exam will be retired on April 11, 2017.
  • CCNA Data Center 640-916 DCICT exam will be retired on April 11, 2017.
  • CCNP Data Center 642-035 DCUCT exam will be retired on July 3, 2017.
  • CCNP Data Center 642-980 DCUFT exam will be retired on July 3, 2017.
  • CCNP Data Center 642-996 DCUFD exam will be retired on July 3, 2017.
  • CCNP Data Center 642-997 DCUFI exam will be retired on July 3, 2017.
  • CCNP Data Center 642-998 DCUCD exam will be retired on July 3, 2017.
  • CCNP Data Center 642-999 DCUCI exam will be retired on July 3, 2017.
  • The new CCNP Data Center certification required exams are 300-180 DCIT, 300-165 DCII, 300-160 DCID, 300-175 DCUCI and 300-170 DCVAI exams.

Tag Archives: 300-320 test

24 Oct

300-320 ARCH Designing Cisco Network Service Architectures

Designing Cisco Network Service Architectures is the full name of 300-320 test, which is a required one for CCDP certification. There are 60-70 questions in real Cisco 300-320 ARCH exam, which will take the candidates 75 minutes to complete the test. The available language is English. Candidates can register Cisco 300-320 ARCH exam at Pearson VUE testing center.

Cisco 300-320 ARCH exam tests a candidate’s knowledge of the latest development in network design and technologies, including L2 and L3 infrastructures for the enterprise, WAN technologies, data center integration, network security and network services. It is also important for the candidates to know Cisco 300-320 ARCH exam topics.

1.0 Advanced Addressing and Routing Solutions for Enterprise Networks 22%

1.1 Create structured addressing designs to facilitate summarization
1.1.a Hierarchy
1.1.b Efficiency
1.1.c Scalability
1.1.d NAT
1.2 Create stable, secure, and scalable routing designs for IS-IS
1.3 Create stable, secure, and scalable routing designs for EIGRP
1.4 Create stable, secure, and scalable routing designs for OSPF
1.5 Create stable, secure, and scalable routing designs for BGP
1.5.a Transit prevention
1.5.b Basic route filtering
1.5.c Authentication
1.5.d Communities
1.5.e Basic traffic engineering (load distribution, creating path symmetry)
1.5.f Route reflectors
1.6 Determine IPv6 migration strategies
1.6.a Overlay (tunneling)
1.6.b Native (dual-stacking)
1.6.c Boundaries (IPv4/IPv6 translations)

2.0 Advanced Enterprise Campus Networks 20%

2.1 Design for high availability
2.1.a First Hop Redundancy Protocols
2.1.b Device virtualization
2.2 Design campus Layer 2 infrastructures
2.2.a STP scalability
2.2.b Fast convergence
2.2.c Loop-free technologies
2.3 Design multicampus Layer 3 infrastructures
2.3.a Convergence
2.3.b Load sharing
2.3.c Route summarization
2.3.d Route filtering
2.3.e VRFs
2.3.f Optimal topologies
2.4 Design a network to support network programmability
2.4.a Describe Application Centric Infrastructures (ACI)
2.4.b Select appropriate controller to meet requirements
2.4.c Identify and address key security issues with network programmability

3.0 WANs for Enterprise Networks 17%

3.1 Compare and contrast WAN connectivity options
3.1.a Dynamic Multipoint VPN (DMVPN)
3.1.b Layer 2 VPN
3.1.c MPLS Layer 3 VPN
3.1.d IPsec
3.1.e Generic Routing Encapsulation (GRE)
3.1.f Private lines
3.2 Design site-to-site VPNs
3.2.a DMVPN
3.2.b Layer 2 VPN
3.2.c MPLS Layer 3 VPN
3.2.d IPSec
3.2.e Group Encrypted Transport VPN (GETVPN)
3.3 Design for a resilient WAN strategy
3.3.a Single-homed
3.3.b Multi-homed
3.3.c Backup connectivity
3.3.d Failover
3.4 Design Extranet connectivity
3.4.a VPN
3.4.b Private lines
3.4.c Multitenant segmentation
3.5 Design Internet edge connectivity
3.5.a DMZ
3.5.b NAT
3.5.c Proxy functionality
3.5.d Resiliency
3.5.e Basic traffic engineering techniques (outbound/inbound load distribution, active/failover, symmetric outbound traffic flows)

4.0 Enterprise Data Center Integration 17%

4.1 Describe a modular and scalable data center network
4.1.a Top-of-rack
4.1.b End-of-row
4.1.c Multitenant environments
4.1.d Multitier topologies
4.2 Describe network virtualization technologies for the data center
4.2.a VPC
4.2.b VSS
4.2.c VDCs
4.2.d VRFs
4.2.e Multichassis EtherChannel
4.2.f VXLAN
4.2.g TRILL / Fabric Path
4.3 Describe high availability in a data center network
4.3.a VPC
4.3.b VSS
4.3.c Multichassis EtherChannel
4.4 Design data center interconnectivity
4.4.a OTV
4.4.b Private Line
4.4.c L2 vs. L3
4.4.d VPLS
4.4.e A-VPLS
4.5 Design data center and network integration
4.5.a Traffic flow
4.5.b Bandwidth
4.5.c Security
4.5.d Resiliency

5.0 Security Services 13%

5.1 Design firewall and IPS solutions
5.1.a Modes of operation
5.1.b Clustering
5.1.c High availability techniques
5.1.d IPS functionality and placement
5.1.e Multiple contexts
5.2 Design network access control solutions
5.2.a 802.1x
5.2.b TrustSec
5.2.c EAP
5.2.d Authentication services
5.2.e RBAC
5.2.f Basic denial of service mitigation techniques
5.3 Design infrastructure protection
5.3.a Infra structure ACLs
5.3.b CoPP
5.3.c Layer 2 / Layer 3 security considerations

6.0 Network Services 11%

6.1 Select appropriate QoS strategies to meet customer requirements
6.1.a DiffServ
6.1.b IntServ
6.2 Design end-to-end QoS policies
6.2.a Classification and marking
6.2.b Shaping
6.2.c Policing
6.2.d Queuing
6.3 Describe network management techniques
6.3.a In-band vs. out-of-band
6.3.b Segmented management networks
6.3.c Prioritizing network management traffic
6.4 Describe multicast routing concepts
6.4.a Source trees, shared trees
6.4.b RPF
6.4.c Rendezvous points
6.5 Design multicast services
6.5.a SSM
6.5.b PIM bidirectional
6.5.c MSDP


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