Institut Numància Formació

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Curso CCIE Cisco Systems

curso ccdaEn   Institut Numancia seguimos creciendo en nuestra rama de formación tecnológica, te preparamos para lograr tus metas ambicionas y por eso hemos tomado la decisión de aumentar nuestro catálogo de cursos y ser el único centro de formación en España y unos de los pocos en Europa de ofrecer el CCIE Routing and Switching v5.

Nuestro método es contundente, con clases 100% prácticas y aplicadas a entornos de producción reales y te preparamos tanto para el examen teórico como para el laboratorio que presentarás en Bruselas.

curso ccda 2

Contamos con excelentes instructuores que poseen una enorme experiencia en redes, los cuales te llevarán de la mano para lograr escalar el Everst del networking.

Empieza este camino y obtén con nosotros tu magic number y transfórmate en un profesional altamente cotizado mundialmente.


 

Bases teóricas

  • Describir la diferencias ente IOS y IOS XE
  • Control plane y forwarding plane
  • Impact to troubleshooting and performances
  • Excluding specific platform's architecture
  • Conceptos de Cisco express forwarding
  • RIB, FIB, LFIB, Adjacency table
  • Load balancing Hash
  • Concepto de Polarization y avoidance
  • Desafíos generales de la redes
  • Unicast flooding
  • Out of order packets
  • Enrutamiento asimétrico
  • Micro burst
  • Operaciones IP
  • ICMP unreachable, redirect
  • IPv4 options, IPv6 extension headers
  • IPv4 y IPv6 fragmentation
  • TTL
  • IP MTU
  • Operaciones TCP
  • IPv4 y IPv6 PMTU
  • MSS
  • Latency
  • Windowing
  • Bandwidth delay product
  • Global synchronization
  • TCP Options
  • Explain UDP operations
  • Starvation
  • Latency
  • RTP/RTCP concepts

Implementaciones de Red

  • Evaluar las propuestas para un cambio de red
  • Parámetros de los protocolos de enrutamiento
  • Migración parcial de la red hacia IPV6
  • Migración de protocolos de enrutamiento
  • Anadir soporte para trafico multicast
  •  Migración de spanning tree protocol
  • Evaluar el impacto del trafico en un existente modelo de QoS
  • Herramientas para tshoot de IOS
  • Debug, conditional debug
  • Ping, traceroute with extended options
  • Packet capture
  • Performance monitor
  • Apply troubleshooting methodologies
  • Diagnosticar las cusas de los problemas de una red [analizar síntomas, identificar y describir la causa]
  • Diseñar e implementar un diseño valido tomando en consideración las restricciones posibles de una red
  • Verificar y monitorizar las solución
  • Interpretar capturas de tráfico y paquetes
  • Wireshark trace analyzer
  • IOS embedded packet capture

LAN switching techonologies

  • Implementación y tshoot de switching
  • MAC address table
  • Errdisable recovery
  • L2 MTU
  • Implementar y hacer tshoot de layer 2 protocols
  • CDP, LLDP
  • UDLD
  • VLAN
  • Access ports
  • VLAN database
  • Normal, extended VLAN, voice VLAN
  • Implementación y tshoot de trunking
  • VTPv1, VTPv2, VTPv3, VTP pruning
  • Dot1Q
  • Native VLAN
  • Manual pruning
  • Implementación y tshoot de EtherChannel
  • LACP, PAgP, manual
  • Layer 2, layer 3
  • Load-balancing
  • Etherchannel misconfiguration guard
  • Spanning-tree
  • PVST+/RPVST+/MST
  • Switch priority, port priority, path cost, STP timers
  • Port fast, BPDUguard, BPDUfilter
  • Loopguard, rootguard
  • SPAN, RSPAN, ERSPAN
  • Chassis virtualization y aggregation technologies
  • Multichassis
  • VSS concepts
  • Alternative to STP
  • Stackwise
  • Spanning-tree concepts
  • Compatibilidad entre MST y RSTP
  • STP dispute, STP bridge assurance
  • IGMPv1, IGMPv2, IGMPv3
  • IGMP snooping
  • IGMP querier
  • IGMP filter
  • IGMP proxy
  • MLD
  • PIM snooping
  • Layer 2 WAN circuit technologies
  • HDLC
  • PPP
  • Authentication [PAP, CHAP]
  • PPPoE
  • MLPPP
  • WAN rate-based ethernet circuits
  • Metro y WAN Ethernet
  • Rate-limited WAN ethernet services
  •  Addressing technologies
  •  IPv4 addressing y subnetting
  • Address types, VLSM
  • ARP
  • IPv6 addressing y subnetting
  • Unicast, multicast
  • EUI-64
  • ND, RS/RA
  • Autoconfig/SLAAC, temporary addresses [RFC4941]
  • Global prefix configuration
  • DHCP protocol operations
  • SLAAC/DHCPv6 interaction
  • Stateful, stateless DHCPv6
  • DHCPv6 prefix delegation
  • Layer 3 multicast
  • Troubleshoot reverse path forwarding
  • RPF failure
  • RPF failure con tunnel interface
  • IPv4 protocol independent multicast
  • PIM dense mode, sparse mode, sparse-dense mode
  • Static RP, auto-RP, BSR
  • BiDirectional PIM
  • Source-specific multicast
  • Group to RP mapping
  • Multicast boundary
  • Multicast source discovery protocol
  • Intra-domain MSDP [anycast RP]
  • SA filter
  • IPv6 multicast
  • IPv6 multicast addresses
  • PIMv6

Fundamental routing concepts

  • Static routing
  • Default routing
  • Distance vector
  • Link state
  • Path vector
  • Administrative distance
  • Passive interface
  • VRF lite
  • Redistribución entre cualquier protocolo de enrutamiento
  • Manual y auto sumarización con cualquier protocolo de enrutamiento
  • Policy-based routing
  • Sub-optimal routing
  • Bidirectional forwarding detection
  • Loop prevention mechanisms
  • Route tagging, filtering
  • Split horizon
  • Route poisoning
  • Routing protocol authentication
  • MD5
  • Key-chain
  • EIGRP HMAC SHA2-256bit
  • OSPFv2 SHA1-196bit
  • OSPFv3 IPsec authentication
  • RIP [v2 and v6]
  • Implement and troubleshoot RIPv2
  • RIPv6 [RIPng]
  • EIGRP
  • Packet types [hello, query, update, and such]
  • Route types [internal, external]
  • Implement and troubleshoot neighbor relationship
  • Multicast, unicast EIGRP peering
  • OTP point-to-point peering
  • OTP route-reflector peering
  • OTP multiple service providers scenario
  • loop free path selection
  • RD, FD, FC, successor, feasible successor
  • Classic metric
  • Wide metric
  • General operations
  • Topology table, update, query, active, passive
  • Stuck in active
  • Graceful shutdown
  • EIGRP stub
  • Stub
  • Leak-map
  • Load-balancing
  • Equal-cost
  • Unequal-cost
  • Add-path
  • Implement EIGRP [multi-address] named mode
  • IPv4 address-family
  • IPv6 address-family
  • EIGRP convergence and scalability
  • Fast convergence requirements
  • Control query boundaries
  • IP FRR/fast reroute [single hop]
  • Summary leak-map
  • Summary metric
  • OSPF
  • Packet types
  • LSA types [1, 2, 3, 4, 5, 7, 9]
  • Route types [N1, N2, E1, E2]
  • Relaciones de Vecindad
  • OSPFv3 address-family support
  • IPv4 address-family
  • IPv6 address-family
  • Network types, area types and router types
  • Point-to-point, multipoint, broadcast, non-broadcast
  • LSA types, area type: backbone, normal, transit, stub, NSSA, totally stub
  • Internal router, ABR, ASBR
  • Virtual link
  • Path preference
  • Graceful shutdown
  • GTSM [Generic TTL Security Mechanism]
  • OSPF convergence and scalability
  • Metrics
  • LSA throttling, SPF tuning, fast hello
  • LSA propagation control [area types, ISPF]
  • IP FRR/fast reroute [single hop]
  • LFA/loop-free alternative [multi hop]
  • OSPFv3 prefix suppression
  • BGP
  • Peer relationships
  • Peer-group, template
  • Active, passive
  • States, timers
  • Dynamic neighbors
  • IBGP y EBGP
  • 4 bytes AS number
  • Private AS
  • Attributes y best-path selection
  • Routing policies
  • Manipulación de atributos
  • Conditional advertisement
  • Outbound route filtering
  • Communities, extended communities
  • Multi-homing
  • Scalability
  • Route-reflector, cluster
  • Confederations
  • Aggregation, AS set
  • Multiproctocol BGP
  • IPv4, IPv6, VPN address-family
  • AS path manipulations
  • Local AS, allow AS in, remove private AS
  • Prepend
  • Regexp
  • Other features
  • Multipath
  • BGP synchronization
  • Soft reconfiguration, route refresh
  • Describe BGP fast convergence features
  • Prefix independent convergence
  • Add-path
  • Next-hop address tracking
  • ISIS
  • Basic ISIS network
  • Single area, single topology
  • Neighbor relationship
  • Network types, levels and router types
  • NSAP addressing
  • Point-to-point, broadcast
  • Operations
  • Optimization features
  • Metrics, wide metric

Tunneling

  • MPLS operations
  • Label stack, LSR, LSP
  • LDP
  • MPLS ping, MPLS traceroute
  • Basic MPLS L3VPN
  • L3VPN, CE, PE, P
  • Extranet [route leaking]
  • Encapsulation
  • GRE
  • Dynamic GRE
  • LISP encapsulation principles supporting EIGRP OTP
  • DMVPN [single hub]
  • NHRP
  • DMVPN with IPsec using preshared key
  • QoS profile
  • Pre-classify
  • IPv6 tunneling techniques
  • 6in4, 6to4
  • ISATAP
  • 6RD
  • 6PE/6VPE
  • Basic layer 2 VPN —wireline
  • L2TPv3 general principals
  • ATOM general principals
  • basic L2VPN — LAN services
  • MPLS-VPLS general principals
  • OTV general principals
  • Encryption
  • IPsec with preshared key
  • IPv4 site to IPv4 site
  • IPv6 in IPv4 tunnels
  • Virtual tunneling Interface [VTI]
  • GET VPN
  • Device security
  • IOS AAA using local database
  • Device access control
  • Lines [VTY, AUX, console]
  • SNMP
  • Management plane protection
  • Password encryption
  • Control plane policing
  • Describe device security using IOS AAA with TACACS+ and RADIUS
  • AAA with TACACS+ and RADIUS
  • Local privilege authorization fallback

Network security

  • Switch security features
  • VACL, PACL
  • Stormcontrol
  • DHCP snooping
  • IP source-guard
  • Dynamic ARP inspection
  • Port-security
  • Private VLAN
  • Router security features
  • IPv4 access control lists [standard, extended, time-based]
  • IPv6 traffic filter
  • Unicast reverse path forwarding
  • IPv6 first hop security
  • RA guard
  • DHCP guard
  • Binding table
  • Device tracking
  • ND inspection/snooping
  • Source guard
  • PACL
  • Describe 802.1x
  • 802.1x, EAP, RADIUS
  • MAC authentication bypass
  • System management
  • Device management
  • Console and VTY
  • telnet, HTTP, HTTPS, SSH, SCP
  • [T]FTP
  • SNMP v2c, v3
  • Logging
  • Local logging, syslog, debug, conditional debug
  • Timestamp
  • Quality of service
  • end-to-end QoS
  • CoS and DSCP mapping
  • QoS using MQC
  • Classification
  • Network based application recognition [NBAR]
  • Marking using IP precedence, DSCP, CoS, ECN
  • Policing, shaping
  • Congestion management [queuing]
  • HQoS, sub-rate ethernet link
  • Congestion avoidance [WRED]
  • Describe layer 2 QoS
  • Queuing, scheduling
  • Classification, marking
  • Network services
  • First-hop redundancy protocols
  • HSRP, GLBP, VRRP
  • Redundancy con IPv6 RS/RA
  • Network time protocol
  • NTP master, client, version 3, version 4
  • NTP Authentication
  • IPv4 and IPv6 DHCP
  • DHCP client, IOS DHCP server, DHCP relay
  • DHCP options
  • DHCP protocol operations
  • SLAAC/DHCPv6 interaction
  • Stateful, stateless DHCPv6
  • DHCPv6 prefix delegation
  • IPv4 network address translation
  • Static NAT, dynamic NAT, policy-based NAT, PAT
  • NAT ALG
  • Describe IPv6 network address translation
  • NAT64
  • NPTv6

Optimización de la Red

  • ICMP, UDP, Jitter, VoIP
  • Tracking object
  • Tracking object, tracking list
  • Tracking different entities [e.g. interfaces, routes, IPSLA, and such]
  • Netflow
  • Netflow v5, v9
  • Local retrieval
  • Export [configuration only]
  • Embedded event manager
  • EEM policy using applet
  • Performance routing [PfR]
  • Basic load balancing
  • Voice optimization
  • Cloud
  • Public, private, hybrid y multicloud design
  • Infrastructure, platform, and software as a service (XaaS)
  • Performance, scalability, and high availability
  • Security implications, compliance, and policy
  • Workload migration
  • Cloud infrastructure and operations
  • Compute virtualization (containers and virtual machines)
  • Connectivity (virtual switches, SD-WAN and SD-Access)
  • Virtualization functions (NFVi, VNF, and L4/L6)
  • Automation and orchestration tools (CloudCenter, Cisco DNA-center, and Kubernetes)
  • Network programmability (SDN)
  • Describe architectural and operational considerations for a programmable network
  • Data models and structures (YANG, JSON and XML)
  • Device programmability (gRPC, NETCONF and RESTCONF)
  • Controller based network design (policy driven configuration and northbound/ southbound APIs)
  • Configuration management tools (agent and agentless) and version control systems (Git and SVN)
  • Internet of things (IoT)
  • Describe architectural framework and deployment considerations for IoT
  • IoT technology stack (IoT Network Hierarchy, data acquisition and flow)
  • IoT standards and protocols (characteristics within IT and OT environment)
  • IoT security (network segmentation, device profiling, and secure remote)

Certificado Oficial CCIE de Cisco Systems una vez superado el éxamen final.

Curso que también te puede interesar: CCNP Routing & Switching  -  CCNA Security  -  CCNA 6.0 Routing & Switching -  CCDA (Cisco Certified Design Associate)

Localización Barcelona

C/ Numància 22 - 08029 Barcelona
Cómo llegar en transporte público:
 Líneas <L3><L5> parada <Sants-Estació>
 Líneas 27, 32, 54, 66, 78, 109, 115, H10, V7

Horario: de lunes a viernes de 09:00 a 21:00h y sábabos de 09:00 a 14:00h.

Localización Sabadell

C/ Jardí 23, 1ª Planta - 08202 Sabadell
Cómo llegar en transporte público:
ferrocarils Plaza Mayor  rodalies Sabadell Centre
 Líneas 1, 2, 3, 4, 5, 11, 44, 55, 80

Horario: de lunes a viernes de 09:30 a 14:00h y de 15:00 a 21:00h.