Note:

  • 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.

Category Archives: Cisco Other Certifications

10 May

200-155 DCICT Introducing Cisco Data Center Networking Technologies

Introducing Cisco Data Center Networking Technologies is the exam name of 200-155 DCICT test. There are 55-65 questions in real Cisco 200-155 DCICT exam, which will take the candidates 90 minutes to complete the test. The Associated Certification is CCNA Data Center. The available language is English. Candidates can register Cisco 200-155 DCICT exam at Pearson VUE testing center.

It is also important for the candidates to know Cisco 200-155 DCICT Introducing Cisco Data Center Networking Technologies exam topics below.

1.0 Unified Computing 25%

1.1 Describe common server types and connectivity found in a data center
1.2 Describe the physical components of the Cisco UCS
1.3 Describe the concepts and benefits of Cisco UCS hardware abstraction
1.4 Perform basic Cisco UCS configuration
1.4.a Cluster high availability
1.4.b Port roles
1.4.c Hardware discovery
1.5 Describe server virtualization concepts and benefits
1.5.a Hypervisors
1.5.b Virtual switches
1.5.c Shared storage
1.5.d Virtual Machine components
1.5.e Virtual Machine Manager

2.0 Network Virtualization 17%

2.1 Describe the components and operations of Cisco virtual switches
2.2 Describe the concepts of overlays
2.2.a OTV
2.2.b NVGRE
2.2.c VXLAN
2.3 Describe the benefits and perform simple troubleshooting of VDC STP
2.4 Compare and contrast the default and management VRFs
2.5 Differentiate between the data, control, and management planes

3.0 Cisco Data Center Networking Technologies 26%

3.1 Describe, configure, and verify FEX connectivity
3.2 Describe, configure, and verify basic vPC features
3.3 Describe, configure, and verify FabricPath
3.4 Describe, configure, and verify unified switch ports
3.5 Describe the features and benefits of Unified Fabric
3.6 Describe and explain the use of role-based access control within the data center infrastructure

4.0 Automation and Orchestration 15%

4.1 Explain the purpose and value of using APIs
4.2 Describe the basic concepts of cloud computing
4.3 Describe the basic functions of a Cisco UCS Director
4.3.a Management
4.3.b Orchestration
4.3.c Multitenancy
4.3.d Chargeback
4.3.e Service offerings
4.3.f Catalogs
4.4 Interpret and troubleshoot a Cisco UCS Director workflow

5.0 Application Centric Infrastructure 17%

5.1 Describe the architecture of an ACI environment
5.1.a Basic policy resolution
5.1.b APIC controller
5.1.c Spine leaf
5.1.d APIs
5.2 Describe the fabric discovery process
5.3 Describe the policy-driven, multitier application deployment model and its benefits
5.4 Describe the ACI logical model
5.4.a Tenants
5.4.b Context
5.4.c Bridge domains
5.4.d EPG
5.4.e Contracts

10 May

200-150 DCICN Introducing Cisco Data Center Networking

200-150 DCICN Introducing Cisco Data Center Networking is available now. There are 55-65 questions in real Cisco 200-150 DCICN exam, which will take the candidates 90 minutes to complete the test. The Associated Certification is CCNA Data Center. The available language is English. Candidates can register Cisco 200-150 DCICN exam at Pearson VUE testing center.

It is also helpful for the candidates to know Cisco 200-150 DCICN exam topics.

1.0 Data Center Physical Infrastructure 15%

1.1 Describe different types of cabling, uses, and limitations
1.2 Describe different types of transceivers, uses, and limitations
1.3 Identify physical components of a server and perform basic troubleshooting
1.4 Identify physical port roles
1.5 Describe power redundancy modes

2.0 Basic Data Center Networking Concepts 23%

2.1 Compare and contrast the OSI and the TCP/IP models
2.2 Describe classic Ethernet fundamentals
2.2.a Forward
2.2.b Filter
2.2.c Flood
2.2.d MAC address table
2.3 Describe switching concepts and perform basic configuration
2.3.a STP
2.3.b 802.1q
2.3.c Port channels
2.3.d Neighbor discovery
2.3.d [i] CDP
2.3.d [ii] LLDP
2.3.e Storm control

3.0 Advanced Data Center Networking Concepts 23%

3.1 Basic routing operations
3.1.a Explain and demonstrate IPv4/IPv6 addressing
3.1.b Compare and contrast static and dynamic routing
3.1.c Perform basic configuration of SVI/routed interfaces
3.2 Compare and contrast the First Hop Redundancy Protocols
3.2.a VRRP
3.2.b GLBP
3.2.c HSRP
3.3 Compare and contrast common data center network architectures
3.3.a 2 Tier
3.3.b 3 Tier
3.3.c Spine-leaf
3.4 Describe the use of access control lists to perform basic traffic filtering
3.5 Describe the basic concepts and components of authentication, authorization, and accounting

4.0 Basic Data Center Storage 19%

4.1 Differentiate between file and block based storage protocols
4.2 Describe the roles of FC/FCoE port types
4.3 Describe the purpose of a VSAN
4.4 Describe the addressing model of block based storage protocols
4.4.a FC
4.4.b iSCSI

5.0 Advanced Data Center Storage 20%

5.1 Describe FCoE concepts and operations
5.1.a Encapsulation
5.1.b DCB
5.1.c vFC
5.1.d Topologies
5.1.d [i] Single hop
5.1.d [ii] Multihop
5.1.d [iii] Dynamic
5.2 Describe Node Port Virtualization
5.3 Describe zone types and their uses
5.4 Verify the communication between the initiator and target
5.4.a FLOGI
5.4.b FCNS
5.4.c active zone set

08 May

210-255 SECOPS Implementing Cisco Cybersecurity Operations

The full name of 210-255 SECOPS exam is Implementing Cisco Cybersecurity Operations. There are 55-60 questions in real Cisco 210-255 SECOPS exam, which will take the candidates 90 minutes to complete the test. The available language is English. The Associated Certifications is CCNA Cyber Ops. Candidates can register Cisco 210-255 SECOPS exam at Pearson VUE testing center.

It is also valuable for the candidates to know Cisco 210-255 SECOPS exam topics.

1.0 Endpoint Threat Analysis and Computer Forensics 15%

1.1 Interpret the output report of a malware analysis tool such as AMP Threat Grid and Cuckoo Sandbox
1.2 Describe these terms as they are defined in the CVSS 3.0:
1.2.a Attack vector
1.2.b Attack complexity
1.2.c Privileges required
1.2.d User interaction
1.2.e Scope
1.3 Describe these terms as they are defined in the CVSS 3.0
1.3.a Confidentiality
1.3.b Integrity
1.3.c Availability
1.4 Define these items as they pertain to the Microsoft Windows file system
1.4.a FAT32
1.4.b NTFS
1.4.c Alternative data streams
1.4.d MACE
1.4.e EFI
1.4.f Free space
1.4.g Timestamps on a file system
1.5 Define these terms as they pertain to the Linux file system
1.5.a EXT4
1.5.b Journaling
1.5.c MBR
1.5.d Swap file system
1.5.e MAC
1.6 Compare and contrast three types of evidence
1.6.a Best evidence
1.6.b Corroborative evidence
1.6.c Indirect evidence
1.7 Compare and contrast two types of image
1.7.a Altered disk image
1.7.b Unaltered disk image
1.8 Describe the role of attribution in an investigation
1.8.a Assets
1.8.b Threat actor

2.0 Network Intrusion Analysis 22%

2.1 Interpret basic regular expressions
2.2 Describe the fields in these protocol headers as they relate to intrusion analysis:
2.2.a Ethernet frame
2.2.b IPv4
2.2.c IPv6
2.2.d TCP
2.2.e UDP
2.2.f ICMP
2.2.g HTTP
2.3 Identify the elements from a NetFlow v5 record from a security event
2.4 Identify these key elements in an intrusion from a given PCAP file
2.4.a Source address
2.4.b Destination address
2.4.c Source port
2.4.d Destination port
2.4.e Protocols
2.4.f Payloads
2.5 Extract files from a TCP stream when given a PCAP file and Wireshark
2.6 Interpret common artifact elements from an event to identify an alert
2.6.a IP address (source / destination)
2.6.b Client and Server Port Identity
2.6.c Process (file or registry)
2.6.d System (API calls)
2.6.e Hashes
2.6.f URI / URL
2.7 Map the provided events to these source technologies
2.7.a NetFlow
2.7.b IDS / IPS
2.7.c Firewall
2.7.d Network application control
2.7.e Proxy logs
2.7.f Antivirus
2.8 Compare and contrast impact and no impact for these items
2.8.a False Positive
2.8.b False Negative
2.8.c True Positive
2.8.d True Negative
2.9 Interpret a provided intrusion event and host profile to calculate the impact flag generated by Firepower Management Center (FMC)

3.0 Incident Response 18%

3.1 Describe the elements that should be included in an incident response plan as stated in NIST.SP800-61 r2
3.2 Map elements to these steps of analysis based on the NIST.SP800-61 r2
3.2.a Preparation
3.2.b Detection and analysis
3.2.c Containment, eradication, and recovery
3.2.d Post-incident analysis (lessons learned)
3.3 Map the organization stakeholders against the NIST IR categories (C2M2, NIST.SP800-61 r2)
3.3.a Preparation
3.3.b Detection and analysis
3.3.c Containment, eradication, and recovery
3.3.d Post-incident analysis (lessons learned)
3.4 Describe the goals of the given CSIRT
3.4.a Internal CSIRT
3.4.b National CSIRT
3.4.c Coordination centers
3.4.d Analysis centers
3.4.e Vendor teams
3.4.f Incident response providers (MSSP)
3.5 Identify these elements used for network profiling
3.5.a Total throughput
3.5.b Session duration
3.5.c Ports used
3.5.d Critical asset address space
3.6 Identify these elements used for server profiling
3.6.a Listening ports
3.6.b Logged in users/service accounts
3.6.c Running processes
3.6.d Running tasks
3.6.e Applications
3.7 Map data types to these compliance frameworks
3.7.a PCI
3.7.b HIPPA (Health Insurance Portability and Accountability Act)
3.7.c SOX
3.8 Identify data elements that must be protected with regards to a specific standard (PCI-DSS)

4.0 Data and Event Analysis 23%

4.1 Describe the process of data normalization
4.2 Interpret common data values into a universal format
4.3 Describe 5-tuple correlation
4.4 Describe the 5-tuple approach to isolate a compromised host in a grouped set of logs
4.5 Describe the retrospective analysis method to find a malicious file, provided file analysis report
4.6 Identify potentially compromised hosts within the network based on a threat analysis report containing malicious IP address or domains
4.7 Map DNS logs and HTTP logs together to find a threat actor
4.8 Map DNS, HTTP, and threat intelligence data together
4.9 Identify a correlation rule to distinguish the most significant alert from a given set of events from multiple data sources using the firepower management console
4.10 Compare and contrast deterministic and probabilistic analysis

5.0 Incident Handling 22%

5.1 Classify intrusion events into these categories as defined in the diamond model of intrusion
5.1.a Reconnaissance
5.1.b Weaponization
5.1.c Delivery
5.1.d Exploitation
5.1.e Installation
5.1.f Command and control
5.1.g Action on objectives
5.2 Apply the NIST.SP800-61 r2 incident handling process to an event
5.3 Define these activities as they relate to incident handling
5.3.a Identification
5.3.b Scoping
5.3.c Containment
5.3.d Remediation
5.3.e Lesson-based hardening
5.3.f Reporting
5.4 Describe these concepts as they are documented in NIST SP800-86
5.4.a Evidence collection order
5.4.b Data integrity
5.4.c Data preservation
5.4.d Volatile data collection
5.5 Apply the VERIS schema categories to a given incident

08 May

210-250 SECFND Understanding Cisco Cybersecurity Fundamentals

Understanding Cisco Cybersecurity Fundamentals is the full name of 210-250 SECFND test. There are 55-60 questions in real Cisco 210-250 SECFND exam, which will take the candidates 90 minutes to complete the 210-250 SECFND test. The Associated Certifications is CCNA Cyber Ops. The available language is English. Candidates can register Cisco 210-250 SECFND exam at Pearson VUE testing center.

It is useful for the candidates to know Cisco 210-250 SECFND exam topics.

1.0 Network Concepts 12%

1.1 Describe the function of the network layers as specified by the OSI and the TCP/IP network models
1.2 Describe the operation of the following
1.2.a IP
1.2.b TCP
1.2.c UDP
1.2.d ICMP
1.3 Describe the operation of these network services
1.3.a ARP
1.3.b DNS
1.3.c DHCP
1.4 Describe the basic operation of these network device types
1.4.a Router
1.4.b Switch
1.4.c Hub
1.4.d Bridge
1.4.e Wireless access point (WAP)
1.4.f Wireless LAN controller (WLC)
1.5 Describe the functions of these network security systems as deployed on the host, network, or the cloud:
1.5.a Firewall
1.5.b Cisco Intrusion Prevention System (IPS)
1.5.c Cisco Advanced Malware Protection (AMP)
1.5.d Web Security Appliance (WSA) / Cisco Cloud Web Security (CWS)
1.5.e Email Security Appliance (ESA) / Cisco Cloud Email Security (CES)
1.6 Describe IP subnets and communication within an IP subnet and between IP subnets
1.7 Describe the relationship between VLANs and data visibility
1.8 Describe the operation of ACLs applied as packet filters on the interfaces of network devices
1.9 Compare and contrast deep packet inspection with packet filtering and stateful firewall operation
1.10 Compare and contrast inline traffic interrogation and taps or traffic mirroring
1.11 Compare and contrast the characteristics of data obtained from taps or traffic mirroring and NetFlow in the analysis of network traffic
1.12 Identify potential data loss from provided traffic profiles

2.0 Security Concepts 17%

2.1 Describe the principles of the defense in depth strategy
2.2 Compare and contrast these concepts
2.2.a Risk
2.2.b Threat
2.2.c Vulnerability
2.2.d Exploit
2.3 Describe these terms
2.3.a Threat actor
2.3.b Run book automation (RBA)
2.3.c Chain of custody (evidentiary)
2.3.d Reverse engineering
2.3.e Sliding window anomaly detection
2.3.f PII
2.3.g PHI
2.4 Describe these security terms
2.4.a Principle of least privilege
2.4.b Risk scoring/risk weighting
2.4.c Risk reduction
2.4.d Risk assessment
2.5 Compare and contrast these access control models
2.5.a Discretionary access control
2.5.b Mandatory access control
2.5.c Nondiscretionary access control
2.6 Compare and contrast these terms
2.6.a Network and host antivirus
2.6.b Agentless and agent-based protections
2.6.c SIEM and log collection
2.7 Describe these concepts
2.7.a Asset management
2.7.b Configuration management
2.7.c Mobile device management
2.7.d Patch management
2.7.e Vulnerability management

3.0 Cryptography 12%

3.1 Describe the uses of a hash algorithm
3.2 Describe the uses of encryption algorithms
3.3 Compare and contrast symmetric and asymmetric encryption algorithms
3.4 Describe the processes of digital signature creation and verification
3.5 Describe the operation of a PKI
3.6 Describe the security impact of these commonly used hash algorithms
3.6.a MD5
3.6.b SHA-1
3.6.c SHA-256
3.6.d SHA-512
3.7 Describe the security impact of these commonly used encryption algorithms and secure communications protocols
3.7.a DES
3.7.b 3DES
3.7.c AES
3.7.d AES256-CTR
3.7.e RSA
3.7.f DSA
3.7.g SSH
3.7.h SSL/TLS
3.8 Describe how the success or failure of a cryptographic exchange impacts security investigation
3.9 Describe these items in regards to SSL/TLS
3.9.a Cipher-suite
3.9.b X.509 certificates
3.9.c Key exchange
3.9.d Protocol version
3.9.e PKCS

4.0 Host-Based Analysis 19%

4.1 Define these terms as they pertain to Microsoft Windows
4.1.a Processes
4.1.b Threads
4.1.c Memory allocation
4.1.d Windows Registry
4.1.e WMI
4.1.f Handles
4.1.g Services
4.2 Define these terms as they pertain to Linux
4.2.a Processes
4.2.b Forks
4.2.c Permissions
4.2.d Symlinks
4.2.e Daemon
4.3 Describe the functionality of these endpoint technologies in regards to security monitoring
4.3.a Host-based intrusion detection
4.3.b Antimalware and antivirus
4.3.c Host-based firewall
4.3.d Application-level whitelisting/blacklisting
4.3.e Systems-based sandboxing (such as Chrome, Java, Adobe reader)
4.4 Interpret these operating system log data to identify an event
4.4.a Windows security event logs
4.4.b Unix-based syslog
4.4.c Apache access logs
4.4.d IIS access logs

5.0 Security Monitoring 19%

5.1 Identify the types of data provided by these technologies
5.1.a TCP Dump
5.1.b NetFlow
5.1.c Next-Gen firewall
5.1.d Traditional stateful firewall
5.1.e Application visibility and control
5.1.f Web content filtering
5.1.g Email content filtering
5.2 Describe these types of data used in security monitoring
5.2.a Full packet capture
5.2.b Session data
5.2.c Transaction data
5.2.d Statistical data
5.2.f Extracted content
5.2.g Alert data
5.3 Describe these concepts as they relate to security monitoring
5.3.a Access control list
5.3.b NAT/PAT
5.3.c Tunneling
5.3.d TOR
5.3.e Encryption
5.3.f P2P
5.3.g Encapsulation
5.3.h Load balancing
5.4 Describe these NextGen IPS event types
5.4.a Connection event
5.4.b Intrusion event
5.4.c Host or endpoint event
5.4.d Network discovery event
5.4.e NetFlow event
5.5 Describe the function of these protocols in the context of security monitoring
5.5.a DNS
5.5.b NTP
5.5.c SMTP/POP/IMAP
5.5.d HTTP/HTTPS

6.0 Attack Methods 21%

6.1 Compare and contrast an attack surface and vulnerability
6.2 Describe these network attacks
6.2.a Denial of service
6.2.b Distributed denial of service
6.2.c Man-in-the-middle
6.3 Describe these web application attacks
6.3.a SQL injection
6.3.b Command injections
6.3.c Cross-site scripting
6.4 Describe these attacks
6.4.a Social engineering
6.4.b Phishing
6.4.c Evasion methods
6.5 Describe these endpoint-based attacks
6.5.a Buffer overflows
6.5.b Command and control (C2)
6.5.c Malware
6.5.d Rootkit
6.5.e Port scanning
6.5.f Host profiling
6.6 Describe these evasion methods
6.6.a Encryption and tunneling
6.6.b Resource exhaustion
6.6.c Traffic fragmentation
6.6.d Protocol-level misinterpretation
6.6.e Traffic substitution and insertion
6.6.f Pivot
6.7 Define privilege escalation
6.8 Compare and contrast remote exploit and a local exploit

26 Apr

New 400-101 Dumps Available

Share good news with you, Cisco 400-101 exam dumps have been updated, which are the latest version in the market. With this latest version, you can pass the test easily.

Share some Cisco 400-101 exam sample questions below.

Which two statements about redistribution are true? (Choose two)
A.When BGP traffic is redistributed into OSPF eBGP and iBGP routes are advertised.
B.When EIGRP routes on a CE are redistributed through a PE into BGP, the Cost Community POI is set automatically.
C.When EIGRP traffic is redistributed into BGP, a default metric is required.
D.When BGP traffic is redistribute into OSPF the metric is set to 1 unless the metric is defined.
E.iBGP routes automatically redistribute into IGP if the routes are in the routing table.
F.When OSPF traffic is redistributed into BGP internal and external routes are redistributed.
Answer: B、D

For which two conditions is Cisco Express Forwarding recursion disables by default when the BGP Prefix independent Convergence functionality is enabled? (Choose two)
A.next hops that are directly connected
B.next hops learned with any mask shorter than /32
C.next hops learned with a /32 mask
D. next hops learned with a /24 mask
Answer: AC

02 Mar

500-052 UCCXD Deploying Cisco Unified Contact Center Express

Deploying Cisco Unified Contact Center Express is the full name of 500-052 UCCXD exam. There are 45-55 questions in real Cisco 500-052 UCCXD exam, which will take the candidates 60 minutes to complete the test. The available language is English. Candidates can register Cisco 500-052 UCCXD exam at Pearson VUE testing center.

Knowing Cisco 500-052 UCCXD exam topics are also valuable in your preparation. Below are the details.

32% 1.0 Design a Cisco Unified Contact Center Express System Deployment

1.1 Perform customer capacity planning
1.2 Determine customer required features
1.3 Evaluate and recommend different configuration options
1.4 Identify available configuration and ordering tools

40% 2.0 Implement a Cisco Unified Contact Center Express System

2.1 Describe the process for installing Cisco UCCX software and hardware
2.2 Describe the process to configure Cisco UCCX software and the provisions users need to meet customer requirements
2.3 Describe the process of using the Cisco UCCX Application Editor
2.4 Examine the Cisco Business Edition 6000 competitive landscape

28% 3.0 Operate a Cisco Unified Contact Center Express System

3.1 Identify basic Cisco UCCX user tasks
3.2 Identify processes and tools available for troubleshooting Cisco UCCX
3.3 Identify processes and tools available for monitoring system operations in Cisco UCCX
3.4 Identify processes and tools available for patching, upgrading systems, and license additions for Cisco UCCX

01 Mar

500-052 UCCXD Online Test-Deploying Cisco Unified Contact Center Express

Currently, our 500-052 UCCXD online test only provide 10 questions. Answer one question correctly, you can get 10 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:

1. In a high availability over WAN deployment, which option cannot be located across the WAN from the active Cisco Unified Contact Center Express site?

 
 
 
 

2. You should perform which three steps when troubleshooting a Cisco Unified Contact Center Express engine “Java out of memory” crash? (Choose three )

 
 
 
 
 
 

3. Which subsystem processes connections between the Cisco Unified Contact Center Express server and the enterprise databases?

 
 
 
 

4. What is the maximum number of agents that Cisco Unified Contact Center Express supports when it is deployed with Cisco Unified Communications Manager?

 
 
 
 

5. What is the maximum number of CTI ports that a Cisco Unified Contact Center Express Standard deployment supports?

 
 
 
 

6. What are the peripheral variables in the Set Enterprise Call Info step related to?

 
 
 
 

7. During runtime, when a valid SQL query in a DB Read step returns 0 rows, which branch of the step is executed?

 
 
 
 

8. Which step library is included in the license for Cisco Unified Contact Center Express Standard?

 
 
 
 

9. What is the maximum number of concurrent agent web chat sessions that are supported on the highest class server?

 
 
 
 

10. Which three operations can be performed within the Cisco Finesse IP Phone Age (IPPA)? (Choose three.)

 
 
 
 
 

Question 1 of 10

 

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27 Feb

400-251 CCIE Security Online Test-CCIE Security Written Exam (v5.0)

Currently, our 400-251 CCIE Security online test only provide 10 questions. Answer one question correctly, you can get 10 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:

Please go to 400-251 CCIE Security Online Test-CCIE Security Written Exam (v5.0) to view the test

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15 Oct

400-151 CCIE Data Center Written Exam

Knowing Cisco 400-151 exam information is valuable in your preparation. There are 90-110 questions in real Cisco 400-151 exam, which will take the candidates 120 minutes to complete the test. The Associated Certification is CCIE Data Center. The available language is English. Candidates can register Cisco 400-151 exam at Pearson VUE testing center.

It is also important for the candidates to know Cisco 400-151 exam topics.

1.0 Cisco Data Center L2/L3 Technologies 24%

1.1 Design Implement and Troubleshoot Complex Layer 2 Technologies
1.1.a Design, Implement and Troubleshoot Highly Available and redundant topologies for example vPC, fabricpath, STP
1.1.b Design, Implement and Troubleshoot Data Center Layer 2 overlays for example VXLAN, OTV, EVPN
1.1.c Design, Implement and Troubleshoot Network management protocols for example PTP, NTP, DNS, DHCP
1.1.d Design, Implement and Troubleshoot Traffic management for example queuing, policing, shaping
1.1.e Design, Implement and Troubleshoot layer 2 security features for example port security, MACsec, ACL, private vlans
1.2 Design, Implement and Troubleshoot Complex Layer 3 Technologies
1.2.a Design, Implement and Troubleshoot Routing Protocols and features for example OSPF, ISIS, MBGP, IBGP, PBR, BFD
1.2.b Design, Implement and Troubleshoot Layer 3 Overlay Protocols for example OTV, LISP
1.2.c Design, Implement and Troubleshoot Multicast protocols for example PIM, IGMP, RP, BSR
1.2.d Design, Implement and Troubleshoot layer 3 security features for example CoPP, ACL’s, DAI, ip source guard
1.2.e Design, Implement and Troubleshoot Monitoring services for example Netflow
1.3 Design, Implement and Troubleshoot External Fabric Connectivity
1.3.a Design, Implement and Troubleshoot policy driven External Fabric Connectivity for example L2/L3 connectivity

2.0 Cisco Data Center Network Services 12%

2.1 Design, Implement and Troubleshoot Service Insertion and Redirection
2.1.a Design, Implement and Troubleshoot Service Insertion and Redirection for example LB, vPATH, ITD, RISE
2.2 Design, Implement and Troubleshoot network services
2.2.a Design, Implement and Troubleshoot network services for example policy drivenL4-L7 services

3.0 Data Center Storage Networking and Compute 23%

3.1 Configure and Troubleshoot Data Center Storage Protocols
3.1.a Describe, Configure and Troubleshoot infrastructure to support Block Storage Protocols for example FC, FCoE, iSCSI, DCB
3.1.b Configure and Troubleshoot infrastructure to support File Storage Protocols for example NFS, CIFS
3.2 Design, Implement and Troubleshoot Data Center Storage Networking Features
3.2.a Design, Implement and Troubleshoot Data Center Storage Networking Features for example zoning, multihop technologies
3.3 Implement and Troubleshoot Compute resources
3.3.a Implement and Troubleshoot Compute policies and pools for example SAN/LAN policies, boot policies, profiles
3.3.b Analyze and Troubleshoot Compute resources using tools such as UCS Central, UCSM
3.4 Design, Implement and Troubleshoot Data Center Compute Connectivity
3.4.a Design, Implement and Troubleshoot Data Center Compute Connectivity for example SAN/LAN uplinks, rack server integration, fabric ports, appliance ports
3.5 Design, Implement and Troubleshoot Virtual and Physical End Point Connectivity
3.5.a Design, Implement and Troubleshoot Virtual and Physical End Point Connectivity

4.0 Data Center Automation and Orchestration 13%

4.1 Implement and Troubleshoot Data Center Automation
4.1.a Implement and Troubleshoot Data Center Automation using methods such as REST API implemented by scripting languages including Python
4.2 Implement and Troubleshoot Data Center Orchestration Tools
4.2.a Implement and Troubleshoot Data Center Orchestration using Tools such as UCSD, UCS Central, CPO
4.3 Integrate Cisco Cloud offerings into existing Data Center infrastructure
4.3.a Describe and Integrate Cisco Cloud technologies into existing Data Center infrastructure using solutions such as Cisco ONE Enterprise cloud Suite

5.0 Data Center Fabric Infrastructure 18%

5.1 Design, Implement and Troubleshoot policy and non-policy driven Internal Fabric Connectivity
5.1.a Design, Implement and Troubleshoot policy and non-policy driven Internal Fabric connectivity for example ECMP, ISIS, inband mgmt, VXLAN
5.2 Design, Implement and Troubleshoot Infrastructure policies and elements
5.2.a Design, Implement and Troubleshoot policy driven Infrastructure for example interface policies, MGMT policies
5.2.b Configure and Troubleshoot physical infrastructure components for example controllers, switches
5.2.c Analyze and Troubleshoot logical infrastructure elements using health indicators

6.0 Evolving Technologies 10%

6.1 Cloud
6.1.a Compare and contrast Cloud deployment models
6.1.a [i] Infrastructure, platform, and software services (XaaS)
6.1.a [ii] Performance and reliability
6.1.a [iii] Security and privacy
6.1.a [iv] Scalability and interoperability
6.1.b Describe Cloud implementations and operations
6.1.b [i] Automation and orchestration
6.1.b [ii] Workload mobility
6.1.b [iii] Troubleshooting and management
6.1.b [iv] OpenStack components
6.2 Network Programmability (SDN)
6.2.a Describe functional elements of network programmability (SDN) and how they interact
6.2.a [i] Controllers
6.2.a [ii] APIs
6.2.a [iii] Scripting
6.2.a [iv] Agents
6.2.a [v] Northbound vs. Southbound protocols
6.2.b Describe aspects of virtualization and automation in network environments
6.2.b [i] DevOps methodologies, tools and workflows
6.2.b [ii] Network/application function virtualization (NFV, AFV)
6.2.b [iii] Service function chaining
6.2.b [iv] Performance, availability, and scaling considerations
6.3 Internet of Things (IoT)
6.3.a Describe architectural framework and deployment considerations for Internet of Things
6.3.a [i] Performance, reliability and scalability
6.3.a [ii] Mobility
6.3.a [iii] Security and privacy
6.3.a [iv] Standards and compliance
6.3.a [v] Migration
6.3.a [vi] Environmental impacts on the network

09 Aug

200-105 ICND2 Interconnecting Cisco Networking Devices Part 2

Interconnecting Cisco Networking Devices Part 2 is the exam name of 200-105 ICND2 test. There are 45-55 questions in real Cisco 200-105 ICND2 exam, which will take the candidates 90 minutes to complete the test. The Associated Certification is CCNA Routing & Switching. The available languages are English and Japanese. Candidates can register Cisco 200-105 ICND2 exam at Pearson VUE testing center.

Knowing Cisco 200-105 ICND2 exam topics are valuable in your preparation.

1.0 LAN Switching Technologies 26%

1.1 Configure, verify, and troubleshoot VLANs (normal/extended range) spanning multiple switches
1.1.a Access ports (data and voice)
1.1.b Default VLAN
1.2 Configure, verify, and troubleshoot interswitch connectivity
1.2.a Add and remove VLANs on a trunk
1.2.b DTP and VTP (v1&v2)
1.3 Configure, verify, and troubleshoot STP protocols
1.3.a STP mode (PVST+ and RPVST+)
1.3.b STP root bridge selection
1.4 Configure, verify, and troubleshoot STP-related optional features
1.4.a PortFast
1.4.b BPDU guard
1.5 Configure, verify, and troubleshoot (Layer 2/Layer 3) EtherChannel
1.5.a Static
1.5.b PAGP
1.5.c LACP
1.6 Describe the benefits of switch stacking and chassis aggregation
1.7 Describe common access layer threat mitigation techniques
1.7.a 802.1x
1.7.b DHCP snooping
1.7.c Nondefault native VLAN

2.0 Routing Technologies 29%

2.1 Configure, verify, and troubleshoot Inter-VLAN routing
2.1.a Router on a stick
2.1.b SVI
2.2 Compare and contrast distance vector and link-state routing protocols
2.3 Compare and contrast interior and exterior routing protocols
2.4 Configure, verify, and troubleshoot single area and multiarea OSPFv2 for IPv4 (excluding authentication, filtering, manual summarization, redistribution, stub, virtual-link, and LSAs)
2.5 Configure, verify, and troubleshoot single area and multiarea OSPFv3 for IPv6 (excluding authentication, filtering, manual summarization, redistribution, stub, virtual-link, and LSAs)
2.6 Configure, verify, and troubleshoot EIGRP for IPv4 (excluding authentication, filtering, manual summarization, redistribution, stub)
2.7 Configure, verify, and troubleshoot EIGRP for IPv6 (excluding authentication, filtering, manual summarization, redistribution, stub)

3.0 WAN Technologies 16%

3.1 Configure and verify PPP and MLPPP on WAN interfaces using local authentication
3.2 Configure, verify, and troubleshoot PPPoE client-side interfaces using local authentication
3.3 Configure, verify, and troubleshoot GRE tunnel connectivity
3.4 Describe WAN topology options
3.4.a Point-to-point
3.4.b Hub and spoke
3.4.c Full mesh
3.4.d Single vs dual-homed
3.5 Describe WAN access connectivity options
3.5.a MPLS
3.5.b MetroEthernet
3.5.c Broadband PPPoE
3.5.d Internet VPN (DMVPN, site-to-site VPN, client VPN)
3.6 Configure and verify single-homed branch connectivity using eBGP IPv4 (limited to peering and route advertisement using Network command only)

4.0 Infrastructure Services 14%

4.1 Configure, verify, and troubleshoot basic HSRP
4.1.a Priority
4.1.b Preemption
4.1.c Version
4.2 Describe the effects of cloud resources on enterprise network architecture
4.2.a Traffic path to internal and external cloud services
4.2.b Virtual services
4.2.c Basic virtual network infrastructure
4.3 Describe basic QoS concepts
4.3.a Marking
4.3.b Device trust
4.3.c Prioritization
4.3.c. [i] Voice
4.3.c. [ii] Video
4.3.c. [iii] Data
4.3.d Shaping
4.3.e Policing
4.3.f Congestion management
4.4 Configure, verify, and troubleshoot IPv4 and IPv6 access list for traffic filtering
4.4.a Standard
4.4.b Extended
4.4.c Named
4.5 Verify ACLs using the APIC-EM Path Trace ACL analysis tool

5.0 Infrastructure Maintenance 15%

5.1 Configure and verify device-monitoring protocols
5.1.a SNMPv2
5.1.b SNMPv3
5.2 Troubleshoot network connectivity issues using ICMP echo-based IP SLA
5.3 Use local SPAN to troubleshoot and resolve problems
5.4 Describe device management using AAA with TACACS+ and RADIUS
5.5 Describe network programmability in enterprise network architecture
5.5.a Function of a controller
5.5.b Separation of control plane and data plane
5.5.c Northbound and southbound APIs
5.6 Troubleshoot basic Layer 3 end-to-end connectivity issues


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