Cisco Certified Network Professional (CCNP) - Service Provider-Implementing Cisco Service Provider Next-Generation Core Network service (SPCORE)

Description

SPCORE Implementing Cisco Service Provider Next-Generation Core Network Services exam. This exam tests a candidate's knowledge of the concepts and implementation of MPLS technology and MPLS-TE services. It also validates the understanding of technology principles of basic Quality of Service, and Quality of Service with Multi Protocol Label Switching (MPLS) to implement advanced features and functions. Candidates can prepare for this exam by taking the Implementing Cisco Service Provider Next-Generation Core Network Services (SPCORE) course.

Benefit

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Content

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Course

1.1 Describe the DiffServ and IntServ QoS models 1.2 Describe the QoS mechanisms (classification and marking, congestion management and avoidance, traffic policing and shaping) 1.3 Describe IPv6 Flow Label 1.4 Describe trust boundaries in enterprise and SP environments 1.5 Describe Cisco MQC for QoS configurations 1.6 Describe hierarchical QoS configurations 1.7 Describe the Cisco NBAR feature for discovering network protocols and for packets classifications 1.8 Describe the typical Edge PE routers and Core P routers QoS requirements 1.9 Implement classification and marking in an inter-domain network using QPPB on Cisco IOS-XR and IOS-XE 1.10 Implement class-based markings on Cisco IOS-XR and IOS-XE 1.11 Implement QoS pre-classify on tunnel interface on Cisco IOS-XR and IOS-XE 1.12 Implement CB-WFQ on Cisco IOS-XR and IOS-XE 1.13 Implement LLQ on Cisco IOS-XR and IOS-XE 1.14 Implement WRED on Cisco IOS-XR and IOS-XE 1.15 Implement traffic policing on Cisco IOS-XR and IOS-XE 1.16 Implement traffic shaping on Cisco IOS-XR and IOS-XE 1.17 Describe LPTS and hardware rate limiters on Cisco IOS-XR routers 1.18 Describe MPLS EXP bits 1.19 Describe MPLS QoS implementation concepts and models 1.20 Implement MPLS DiffServ tunneling on Cisco IOS-XR and IOS-XE 1.21 Troubleshoot QoS IOS-XR and IOS-XE configuration errors

2.1 Describe the CEF, FIB, LFIB and LIB tables on Cisco routers 2.2 Describe MPLS labels and label stack operations on Cisco routers 2.3 Describe LDP operations in Cisco routers 2.4 Describe MPLS OAM (MPLS LSP ping and MPLS traceroute) 2.5 Describe MPLS applications in service provider environment 2.6 Implement LDP on Cisco IOS-XR and IOS-XE 2.7 Implement LDP high availability features on Cisco IOS-XR and IOS-XE 2.8 Troubleshoot LDP on IOS-XR and IOS-XE configuration errors

3.1 Describe MPLS traffic engineering (TE) concepts 3.2 Describe MPLS TE constraint-based path computations 3.3 Describe the details of MPLS TE tunnels, including path setup procedures and path maintenance 3.4 Describe methods of assigning traffic into MPLS TE tunnels 3.5 Implement MPLS TE tunnels on Cisco IOS-XR and IOS-XE 3.6 Implement MPLS TE bandwidth control on Cisco IOS-XR and IOS-XE 3.7 Implement MPLS TE link and node protections on Cisco IOS-XR and IOS-XE

4.1 Describe the SP core transition from ATM/SONET/SDH based backbone to packet based IP/MPLS backbone 4.2 Implement 10/40/100 Gigabit Ethernet Interfaces on Cisco IOS-XR routers 4.3 Describe DWDM, IPoDWDM and ROADM 4.4 Implement IPoDWDM controller/interface on Cisco IOS-XR routers

Methodology

1
• Presentation • Discussion • Practice Activities • Case Studies

Evaluation

1
• Pre test • Post test

Duration

5 Days

Target Audience

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Schedule

Nov 2017
06-10