• 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.
  • The last day to test Cisco 810-403 OUTCOMES exam is December 29, 2017.
  • The last day to test Cisco 820-424 BTASBVA exam is December 29, 2017.
11 Sep

400-201 CCIE SP CCIE Service Provider

CCIE Service Provider is the exam name of 400-201 CCIE SP test. The associated certification is CCIE Service Provider. There are 90-110 questions in real Cisco 400-201 exam, which will take the candidates 120 minutes to complete the test. The available language is English. Candidates can register Cisco 400-201 CCIE SP exam at Pearson VUE testing center.

The Cisco CCIE Service Provider Written Exam (400-201) validates professionals who have the expertise to design, implement, diagnose, and troubleshoot complex Service Provider highly available network infrastructure and services based on dual stack solutions (IPv4 and IPv6); understand how the network and service components interoperate; and understand the functional requirements and translate into specific device configurations.

It is also important for the candidates to know Cisco 400-201 CCIE SP exam topics.

1.0 Service Provider Architecture and Evolution 10%

1.1 Service Provider Architecture Concepts
1.1.a Describe network architecture component and Service Provider network domain, for example, PE, P, CE, Metro Ethernet Core, and Aggregation
1.1.b Describe platform architecture components, for example, RP, Line Cards, and Fabric Crossbar
1.1.c Describe Cisco IOS-XR Software architecture components, for example, System Manager and XR Kernel
1.2 Virtualization Concepts
1.2.a Describe basic physical router virtualization, for example, SDR and nV
1.2.b Describe basic network function virtualization, for example, XRv/CSR1000v
1.3 Mobility Concepts
1.3.a Describe basic Service Provider network mobility infrastructure, for example, RAN, Backhaul, and Core

2.0 Core Routing 23%

2.1 Interior Gateway Protocol (IGP)
2.1.a Describe, implement, and troubleshoot IS-IS
2.1.b Describe, implement, and troubleshoot OSPFv2 and OSPFv3
2.1.c Describe and optimize IGP scale and performance
2.2 Border Gateway Protocol (BGP)
2.2.a Describe, implement, and troubleshoot IBGP, EBGP, and MP-BGP
2.2.b Describe, implement, and troubleshoot BGP route policy enforcement
2.2.c Describe BGP path attribute
2.2.d Describe and optimize BGP scale and performance
2.2.e Describe, implement, and troubleshoot advanced BGP features, for example, add-path and BGP LS
2.3 Multiprotocol Label Switching (MPLS)
2.3.a Describe MPLS forwarding and control plane mechanisms
2.3.b Describe, implement, and troubleshoot LDP
2.3.c Describe and optimize LDP scale and performance
2.4 MPLS Traffic Engineering
2.4.a Describe, implement, and troubleshoot RSVP
2.4.b Describe, implement, and troubleshoot ISIS and OSPF extensions
2.4.c Describe, implement, and troubleshoot MPLS TE policy enforcement
2.4.d Describe MPLS TE attributes
2.4.e Describe and optimize MPLS TE scale and performance
2.4.f Describe MPLS advanced features, for example, Segment Routing, G-MPLS, MPLS-TP, and MPLS-TE Inter-AS
2.5 Multicast
2.5.a Describe, implement, and troubleshoot PIM (PIM-SM, PIM-SSM, and PIM-BIDIR)
2.5.b Describe, implement, and troubleshoot RP (Auto-RP, BSR, Static, Anycast RP, and MSDP)
2.5.c Describe, implement, and troubleshoot mLDP (including mLDP profiles from 0 to 9)
2.5.d Describe P2MP TE
2.5.e Describe and optimize multicast scale and performance
2.6 Quality of Service (QoS)
2.6.a Describe, implement, and troubleshoot classification and marking
2.6.b Describe, implement, and troubleshoot congestion management and scheduling, for example, policing, shaping, and queuing
2.6.c Describe, implement, and troubleshoot congestion avoidance
2.6.d Describe, implement, and troubleshoot MPLS QoS models (MAM, RDM, Pipe, Short Pipe, and Uniform)
2.6.e Describe, implement, and troubleshoot MPLS TE QoS (CBTS, PBTS, and DS-TE)

3.0 Service Provider Based Services 23%

3.1 Carrier Ethernet
3.1.a Describe, implement, and troubleshoot E-LINE, for example, VPWS
3.1.b Describe, implement, and troubleshoot E-LAN and E-TREE, for example VPLS and H-VPLS
3.1.c Describe EVPN (EVPN-VPWS and PBB EVPN)
3.1.d Describe IEEE 802.1ad (Q-in-Q), IEEE 802.1ah (Mac-in-Mac), and ITU G.8032 (REP)
3.2 L3VPN
3.2.a Describe, implement, and troubleshoot L3VPN
3.2.b Describe, implement, and troubleshoot Inter-AS L3VPN
3.2.c Describe, implement, and troubleshoot Multicast VPN
3.2.d Describe, implement, and troubleshoot Unified MPLS and CSC
3.2.e Describe, implement, and troubleshoot shared services, for example, Extranet and Internet access
3.3 Overlay VPN
3.3.a Describe, implement, and troubleshoot L2TPv3
3.3.b Describe, implement, and troubleshoot LISP
3.3.c Describe, implement, and troubleshoot GRE and mGRE based VPN
3.4 Internet Service
3.4.a Describe, implement, and troubleshoot Internet Peering and Transit
3.4.b Describe, implement, and troubleshoot IPv6 transition mechanism, for example, NAT44, NAT64, 6RD, and DS Lite
3.4.c Describe, implement, and troubleshoot Internet peering route and transit policy enforcement

4.0 Access and Aggregation 17%

4.1 Transport and Encapsulation Technologies
4.1.a Describe transport technologies, for example, optical, xDSL, DOCSIS, TDP, and GPON
4.1.b Describe, implement, and troubleshoot Ethernet technologies
4.1.c Describe link aggregation techniques
4.2 PE-CE Connectivity
4.2.a Describe, implement, and troubleshoot PE-CE routing protocols, for example, static, OSPF, and BGP
4.2.b Describe, implement, and troubleshoot route redistribution
4.2.c Describe, implement, and troubleshoot route filtering
4.2.d Describe, implement, and troubleshoot loop prevention techniques in Multihomed environments
4.2.e Describe, implement, and troubleshoot end-to-end fast convergence
4.2.f Describe, implement, and troubleshoot Multi-VRF CE
4.2.g Describe Broadband Forum TR-101, for example, Trunk N:1 and Trunk 1:1
4.3 Quality of Service (QoS)
4.3.a Describe, implement, and troubleshoot classification and marking
4.3.b Describe, implement, and troubleshoot congestion management and scheduling, for example, policing, shaping, and queuing
4.3.c Describe, implement, and troubleshoot congestion avoidance
4.3.d Describe Link Fragmentation (LFI), cRTP, and RTP
4.4 Multicast
4.4.a Describe, implement, and troubleshoot IGMP and MLD
4.4.b Describe, implement, and troubleshoot PIM
4.4.c Describe, implement, and troubleshoot RP
4.4.d Describe and optimize multicast scale and performance

5.0 High Availability and Fast Convergence 10%

5.1 System Level HA
5.1.a Describe Multichassis/clustering HA
5.1.b Describe, implement, and troubleshoot SS0/NSF, NSR, and GR
5.1.c Describe, implement, and troubleshoot IGP-LDP Sync
5.1.d Describe, implement, and troubleshoot LDP Session Protection
5.2 Layer 1/2/3 Failure Detection Techniques
5.2.a Describe Layer 1 failure detection
5.2.b Describe, implement, and troubleshoot Layer 2 failure detection
5.2.c Describe, implement, and troubleshoot Layer 3 failure detection
5.3 Routing/Fast Convergence
5.3.a Describe, implement, and optimize IGP convergence
5.3.b Describe, implement, and optimize BGP convergence
5.3.c Describe, implement, and optimize IP FRR and TR FRR

6.0 Service Provider Security, Service Provider Operation and Management 17%

6.1 Control Plane Security
6.1.a Describe, implement, and troubleshoot control plane protection techniques (LPTS and CoPP)
6.1.b Describe, implement, and troubleshoot routing protocol security, for example, BGP-TTL security and protocol authentication
6.1.c Describe, implement and troubleshoot BGP prefix suppression
6.1.d Describe, implement and troubleshoot LDP security, for example, authentication and label allocation filtering
6.1.e Describe, implement, and troubleshoot BGP prefix based filtering
6.1.f Describe BGPsec
6.2 Management Plane Security
6.2.a Describe, implement, and troubleshoot device management, for example, MPP, SSH, and VTY
6.2.b Describe, implement, and troubleshoot logging and SNMP security
6.2.c Describe backscatter Traceback
6.3 Infrastructure Security
6.3.a Describe, implement, and troubleshoot uRPF
6.3.b Describe Lawful-intercept
6.3.c Describe, implement, and troubleshoot iACL
6.3.d Describe, implement, and troubleshoot RTBH
6.3.e Describe BGP Flowspec
6.3.f Describe DDoS mitigation techniques
6.4 Timing and Synchronization
6.4.a Describe, implement, and troubleshoot timing protocol, for example, NTP, 1588v2, and SyncE
6.5 Network Monitoring and Troubleshooting
6.5.a Describe, implement, and troubleshoot syslog and logging functions
6.5.b Describe, implement, and troubleshoot SNMP traps, RMON, EEM, and EPC
6.5.c Describe, implement, and troubleshoot port mirroring protocols, for example, SPAN, RSPAN, and ERSPAN
6.5.d Describe, implement and troubleshoot NetFlow and IPFIX
6.5.e Describe, implement, and troubleshoot IP SLA
6.5.f Describe, implement, and troubleshoot MPLS OAM and Ethernet OAM
6.5.g Describe network event and fault management
6.5.h Describe performance management and capacity procedures
6.6 Network Configuration and Change Management
6.6.a Describe maintenance, operational procedures
6.6.b Describe network inventory management process
6.6.c Describe network change, implementation, and rollback
6.6.d Describe incident management process based on ITILv3 framework

08 Sep

810-403 Selling Business Outcomes

Selling Business Outcomes is the full name of 810-403 exam. There are 60-70 questions in real Cisco 810-403 exam, which will take the candidates 90 minutes to complete the test. The available languages are English and Japanese. Candidates can register Cisco 810-403 exam at Pearson VUE testing center. The associated certification is Business Transformation.

Cisco 810-403 Free Online Test Share Here

Cisco 810-403 exam tests a candidate’s knowledge and skills related to selling technology services and solutions with a business outcome focus. It is important for the candidates to know Cisco 810-403 exam topics.

13% 1.0 Business Outcomes Sales Approach

1.1 Identify concepts and elements of business outcome-based sales approach
1.2 Explain the value of business outcome-based sales
1.3 Identify new skills for business outcome-based sales
1.4 Explain the difference between product and business outcome-based sales
1.5 Describe the three types of outcomes

20% 2.0 Customer Business Environment

2.1 Identify key customer stakeholders
2.2 Identify business outcome-based opportunities across industry verticals
2.3 Describe the business impact from emerging products and services
2.4 Describe the link between Cisco solutions and services to business outcomes
2.5 Describe the importance of Key Performance Indicators (KPIs)
2.6 Describe the importance of Critical Success Factors (CFSs)

25% 3.0 Customer Business Context, Challenges, and Opportunities

3.1 Analyze stakeholder expectations and their approach for technology purchases and adoption
3.2 Apply the stakeholder power/influence grid to identify and manage stakeholders
3.3 Identify business outcomes that are based on the customer business context and business requirements
3.4 Describe how business outcome-based sales impacts the customer value proposition
3.5 Apply the business model canvas to define the customer environment, business model, and motivators for change
3.6 Interpret the financial impact on business value, opportunities, and challenges in business outcome-based selling
3.7 Describe the four types of requirements for the customer’s business

25% 4.0 Outcome-Based Opportunity for Customer Impact

4.1 Identify customer priorities for required business outcomes
4.2 Identify required consumption models
4.3 Describe Cisco solutions and services that will enable business outcomes for the customer
4.4 Identify business outcome-based opportunities from licensing models
4.5 Define customer decision criteria and key performance indicators to measure business outcomes
4.6 Interpret benefits and costs from a business outcome-based sales approach

17% 5.0 Manage and Communicate with Stakeholders

5.1 Describe the process for communicating with stakeholders
5.2 Describe the Cisco sales enablement resources to enhance the business outcome-based experience for the stakeholders
5.3 Determine a business outcome-based sales plan that is aligned with stakeholders need
5.4 Apply the Seven Elements Framework for communicating and negotiating with stakeholders
5.5 Articulate the business value of the proposed solution to stakeholders
5.6 Describe the components of the process to gain stakeholder support


05 Sep

400-201 CCIE SP Online Test-CCIE Service Provider

Currently, our 400-201 CCIE SP online test only provide 20 questions. Answer one question correctly, you can get 5 points. The content of these questions are the latest exam content. Please feel free to test your skill level.

If you have some opinions or suggestions about our online test, please leave your message, we will improve it step by step.

Now, begin to test:

Which three modes are the operating of HDLC? (Choose three)


IP over DWDM management models (Choose two.)


Which three of these are optical channel data unit (ODU) overhead fields? (Choose three)


What is one of the primary overhead fields associated with the Optical Payload Unit (OPU)?


In optical channel transport unit overhead (OTU OH), what are general communication channels 1 and 2 (GCC1/GCC2) used for?


What is the minimum hardware configuration of the multishelf Cisco CRS-1 system?


Cisco IOS XR software is partitioned into three planes: control, data, and management. Which three of these belong to the data plane? (Choose three.)


Which statement about Software Maintenance Upgrade is true?


Cisco IOS XR has implemented a nonstop routing feature so that when RP failover occurs, the routing information can be recovered locally. Which protocol does not support the NSR feature?


Which three components are included in the Cisco IOS XR infrastructure? (Choose three.)


All secure domain routers (SDRs) have shared attribute and resources. Which three resources are shared all SDRs? (Choose three.)


Which three statements about the secure domain router are true? (Choose three.)


There are two cabling schemes to choose from when implementing a Cisco CRS-1 multi shelf system: single module cabling and multi module cabling. What is the maximum capacity of the LCCs that are supported in multi module cabling?


Process-level redundancy is implemented by a system manager process that creates the standby process. What two functions are provided by the system-level process called Qnet Symlink Manager (QSM)? (Choose two.)


When will the primary processor core dump run in case of a switchover?


CRS-1 single shelf maximum capacities?


Which of the following processes in IOS XR run exclusively on the Route Processor? (Choose two.)


What three major tasks are performed by a Designated Intermediate System in an ISIS pseudonode environment? (Choose three.)


What bit should be set in the link state PDUs in an IS-IS level-1-2 router to indicate that they are a potential exit point out of the area?


The Attribute field within the IS-IS LSP header contains which of the following flags? (Choose four)


Question 1 of 20





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