4A0-M05 Nokia Cloud Packet Core Exam

Exam Name: Nokia Cloud Packet Core
Exam Number: 4A0-M05
Credit Towards Certifications:
Nokia Cloud Packet Core Expert
Nokia Service Routing Architect
Mandatory Exam Prerequisites: N/A
Exam Duration: 90 minutes
Required Passing Score: 80%
Exam Appointment Duration: 135 minutes. This is the exam duration plus a 45 minute tutorial on computer-based examinations.
Number of Questions: 40
Language: English

For a list of candidate exam topics, please refer to the list of course objectives and modules in the course outline.

Course Overview
This hands-on instructor-led course explores the Nokia Cloud Packet Core (CPC) Solution. It starts with an in-depth review of the Cloud Packet Core architecture and its cloud native characteristics. Virtualization and optimal deployment options for the CPC are presented as well as performing life cycle operations with CloudBand Application Manager (CBAM). The virtual network function (VNF) architecture of the Nokia Cloud Mobility Manager (CMM), the Cloud Mobile Gateway (CMG), and the Smart Plan Suite (SPS) are all addressed. The course concludes with an exploration of how to evolve to 5G.

Credit Towards Certification
Nokia Cloud Packet Core Expert
Nokia Service Routing Architect

Course Number
TT01365-V-1809

Recommended Prerequisites
Nokia Mobile Gateways
Nokia Mobility Manager

Course Objectives
After completing the course, students should be able to:

Describe the architecture of the Nokia CPC and its cloud native design capabilities
Illustrate the network function virtualization platform used for CPC
Describe the management architecture of the CPC
Explain key virtualization concepts
Use CBAM to deploy CMM and CMG
Explain the VNF architecture of the Nokia CMM
Explain the VNF architecture of the Nokia CMG
Describe the virtual machine (VM) components of the CMM and CMG VNFs
Describe the IP networks required by the CMM and CMG VNFs
Describe the dimensioning, scaling, resiliency, and lifecycle management of the CMM and CMG VNFs

Describe the architecture and the components of the Nokia Smart Plan Suite (SPS) VNF
Identify the different 5G deployment options
Illustrate how the Nokia CPC architecture supports the evolution towards 5G
Describe 5G non-standalone option 3
Verify the health of CPC VNFs including their stacks, VMs, and networks
Troubleshoot virtualization infrastructure using CLI commands
Configure the CMM and CMG on a Nokia CPC for an LTE Attach
Troubleshoot LTE Attach failure scenarios using UE call traces and logs
Perform Life-Cycle Management (LCM) operations on CMM and CMG with CBAM

Course Modules
• Module 1 – Introduction to Cloud Packet Core
• Module 2 – CPC Virtualization
• Module 3 – Cloud Mobility Manager
• Module 4 – Cloud Mobile Gateway
• Module 5 – Smart Plan Suite
• Module 6 – Evolution to a 5G Core
• Module 7 – CPC Troubleshooting and Analytics

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QUESTION: 1
Which of the following management tools performs the function of virtual infrastructure manager (VIM) in the
CPC NFV architecture?

A. NetAct
B. CloudBand Infrastructure Software (CBIS)
C. Operations Support System (OSS)
D. Network Service Platform (NSP)

Answer: B
Section: (none)
Explanation
Explanation/Reference:

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QUESTION: 2
Which of the following statements about the network service platform (NSP) is FALSE?

A. Acts as an element management system (EMS) for CPC components
B. Performs fault, performance, and security management
C. Has a northbound interface with the NFV orchestrator (NFVO)
D. Allows monitoring events associated with the NFV environment

Answer: C
Section: (none)
Explanation
Explanation/Reference:

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QUESTION: 3
Which of the following network elements is implemented by the Nokia CPC?

A. Policy and charging rules function (PCRF)
B. Equipment Identity Registration (EIR)
C. Application Function (AF)
D. eNodeB

Answer: A
Section: (none)
Explanation
Explanation/Reference:

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QUESTION: 4
What is the main benefit of splitting the core network into separate user-plane and control-plane nodes?

A. Independent configuration of user-plane and control-plane nodes
B. Independent scaling of user-plane and control-plane nodes
C. User of a shared data repository for storing user states.
D. Creation of networks with isolated properties over a common infrastructure

Answer: B
Section: (none)
Explanation
Explanation/Reference:

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QUESTION: 5
Which of the following statements about SR-IOV is FALSE?

A. VMs using OVS and SR-IOV can be instantiated on the same compute node.
B. SR-IOV offers comparable performance to non-visualized hardware.
C. The VM must be attached to the PF to achieve highest performance.
D. Using SR-IOV restricts VM mobility.

Answer: D
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