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CCDA TRAINING IN BANGALORE

Networkers Champ is one of the leanding CCDA design networking training in Bangalore India.

1.0 Design Methodologies

  • 1.1 Describe the Cisco Design lifecycle – PBM (plan, build, manage)
  • 1.2 Describe the information required to characterize an existing network as part of the planning for a design change
  • 1.3 Describe the use cases and benefits of network characterization tools (SNMP, NBAR, NetFlow)
  • 1.4 Compare and contrast the top-down and bottom-up design approaches

2.0 Design Objectives

  • 2.1 Describe the importance and application of modularity in a network
  • 2.2 Describe the importance and application of hierarchy in a network
  • 2.3 Describe the importance and application of scalability in a network
  • 2.4 Describe the importance and application of resiliency in a network
  • 2.5 Describe the importance and application of concept of fault domains in a network

3.0 Addressing and Routing Protocols in an Existing Network

  • 3.1 Describe the concept of scalable addressing
  • 3.1.a Hierarchy
  • 3.1.b Summarization
  • 3.1.c Efficiency
  • 3.2 Design an effective IP addressing scheme
  • 3.2.a Subnetting
  • 3.2.b Summarization
  • 3.2.c Scalability
  • 3.2.d NAT
  • 3.3 Identify routing protocol scalability considerations
  • 3.3.a Number of peers
  • 3.3.b Convergence requirements
  • 3.3.c Summarization boundaries and techniques
  • 3.3.d Number of routing entries
  • 3.3.e Impact of routing table of performance
  • 3.3.f Size of the flooding domain
  • 3.3.g Topology
  • 3.4 Design a routing protocol expansion
  • 3.4.a IGP protocols (EIGRP, OSPF, ISIS)
  • 3.4.b BGP (eBGP peering, iBGP peering

4.0 Enterprise Network Design

  • 4.1 Design a basic campus
  • 4.1.a Layer 2/Layer 3 demarcation
  • 4.1.b Spanning tree
  • 4.1.c Ether channels
  • 4.1.d First Hop Redundancy Protocols (FHRP)
  • 4.1.e Chassis virtualization
  • 4.2 Design a basic enterprise network
  • 4.2.a Layer 3 protocols and redistribution
  • 4.2.b WAN connectivity
  • 4.2.b(i) Topologies (hub and spoke, spoke to spoke, point to point, full/partial mesh)
  • 4.2.b(ii) Connectivity methods (DMVPN, get VPN, MPLS Layer 3 VPN, Layer 2 VPN, static IPsec, GRE,VTI)
  • 4.2.b(iii) Resiliency (SLAs, backup links, QoS)
  • 4.2.c Connections to the data center
  • 4.2.d Edge connectivity
  • 4.2.d(i) Internet connectivity
  • 4.2.d(ii) ACLs and firewall placements
  • 4.2.d(iii) NAT placement
  • 4.3 Design a basic branch network
  • 4.3.a Redundancy
  • 4.3.a(i) Connectivity
  • 4.3.a(ii) Hardware
  • 4.3.a(iii) Service provider
  • 4.3.b Link capacity
  • 4.3.b(i) Bandwidth
  • 4.3.b(ii) Delay

5.0 Considerations for Expanding an Existing Network

  • 5.1 Describe design considerations for wireless network architectures
  • 5.1.a Physical and virtual controllers
  • 5.1.b Centralized and decentralized designs
  • 5.2 Identify integration considerations and requirements for controller-based wireless networks
  • 5.2.a Traffic flows
  • 5.2.b Bandwidth consumption
  • 5.2.c AP and controller connectivity
  • 5.2.d QoS
  • 5.3 Describe security controls integration considerations
  • 5.3.a Traffic filtering and inspection
  • 5.3.b Firewall and IPS placement and functionality
  • 5.4 Identify traffic flow implications as a result of security controls
  • 5.4.a Client access methods
  • 5.4.b Network access control
  • 5.5 Identify high-level considerations for collaboration (voice, streaming video, interactive video) applications
  • 5.5.a QoS (shaping vs. policing, trust boundaries, jitter, delay, loss)
  • 5.5.b Capacity
  • 5.5.c Convergence time
  • 5.5.d Service placement
  • 5.6 Describe the concepts of virtualization within a network design
  • 5.7 Identify network elements that can be virtualized
  • 5.7.a Physical elements (chassis, VSS, VDC, contexts)
  • 5.7.b Logical elements (routing elements, tunneling, VRFs, VLANs)
  • 5.8 Describe the concepts of network programmability within a network design
  • 5.8.a APIs
  • 5.8.b Controllers
  • 5.8.c Application Centric Infrastructure (ACI)
  • 5.9 Describe data center components
  • 5.9.a Server load balancing basics
  • 5.9.b Blocking vs. non-blocking Layer 2
  • 5.9.c Layer 2 extension

Course Fee

CCDA Courses Regular Track Fast Track Super Fast Track Week End's Cost in Indian Rupees
200-310 DESGN 1.5 Months (2hrs) 20 Days (4hrs) 10 Days (8hrs) 6 Weeks (3hrs) 16,000/-

Exam Fee

CCDA Exam Subjects Cost in USD
200-310 DESGN Designing for Cisco Internetwork Solutions (DESGN) v3.0 $ 250.00

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