Tuesday, 19 July 2016

600-511 NPDESACI Designing with Cisco Network Programmability for ACI

Exam Number 600-511 NPDESACI
Last day to test: November 20, 2016
Associated Certifications Cisco Network Programmability Design Specialist
Duration 90 Minutes (55 - 65 questions)
Available Languages English
Register Pearson VUE

This exam tests a candidate's ability to use network applications expertise to translate customer requirements into a policy-based, application centric network infrastructure.

The Designing with Cisco ACI Network Programmability (600-511) exam is a 90- minute (1.5 hours) exam with 55-65 questions. This exam tests a candidate's ability to use network applications expertise to translate customer requirements into a policy-based, application-centric network infrastructure.

The following topics are general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. In order to better reflect the contents of the exam and for clarity purposes, the guidelines below may change at any time without notice.

1.0 Understanding Business Requirements 24%

1.1 Gathering business requirements

1.1.a Understand business requirements
1.1.b Understand current infrastructure
1.1.c Understand who the vested parties are and how they define policy and application
1.1.d Document existing application interaction

1.2 Risk and Impact Analysis

1.2.a Take the requirements and perform a risk assessment and impact analysis to narrow down the possible design choices

1.3 Ongoing communications to finalize the business requirements

1.3.a Identify the design choice that meets the business, risk, and customer requirements

2.0 Translating Business Requirements Into Technical Requirements 19%

2.1 Mapping of business requirements

2.1.a Map existing applications to Cisco ACI constructs
2.1.b Map existing network services to Cisco ACI Fabric
2.1.c Create application network profiles that map to the business requirements
2.1.d Identify which applications can expect to see improvements in the areas of performance, security/compliance, visibility, and speed of service delivery
2.1.e Determine methods of representing the improvements expected – quantitative metrics and qualitative metrics

2.2 Perform software modeling and analysis

2.2.a Identify tools that can be used to build application network profiles
2.2.b Identify best practices for building application network profiles for legacy applications
2.2.c Identify best practices for building application network profiles for greenfield applications

2.3 Perform network modeling and analysis (capacity and performance)

2.3.a Analyze the current infrastructure inventory and capacity to meet the requirements
2.3.b Assess the delta between the requirements and the current infrastructure to implement the application

2.4 Translating service level agreements (SLAs) and operational level agreements (OLAs) into technical requirements

2.4.a Plan or design to account for business interruption of various lengths or scopes

3.0 Positioning Application Centric Infrastructure Value Proposition 29%

3.1 Policy based infrastructure management

3.1.a Identify opportunities to automate tasks that are manual today
3.1.b Identify architectural bottlenecks in the current infrastructure that are roadblocks in introducing programmability and automation
3.1.c Is there uniformity in policy across the entire infrastructure or are there policy silos and policy gaps?
3.1.d Describe programming model and APIs available to automate network functions required to deploy applications

3.2 Enhance visibility and control

3.2.a Identify lack of comprehensive visibility and control over resource allocation for applications today and highlight how Cisco ACI can address this limitation
3.2.b Identify number of points of management to see if Cisco ACI can reduce the number to dramatically bring in value addition
3.2.c Identify application performance features that increase scalability or provide optimal traffic steering
3.2.d Describe available tools to provide comprehensive application-level visibility

3.3 Security and compliance

3.3.a Identify any compliance and auditing requirements and highlight key security features of Cisco Application Centric Infrastructure (policy-based forwarding, auditing, forensics across physical and virtual devices)

4.0 Define High-Level System Architecture 28%

4.1 Software architecture and design

4.1.a Take a set of software requirements or details about a solution and generate (identify, pick, choose) a design document (class hierarchy, object model, Entity Relationship (ER) diagram)

4.2 Infrastructure architecture and design (physical and virtual)

4.2.a Take a set of infrastructure requirements or details about a solution and generate (identify, pick, choose) a design document (configuration or design change)

4.3 Identify different integration/interoperability points between different systems

4.3.a Understand the differences (compare and contrast) between different integration interfaces (knows what to use when and why)

4.4 Migrate existing network to Cisco ACI


QUESTION 1
Which two benefits are achieved through database sharding within the Cisco APIC cluster?
(Choose two.)

A. active-standby high availability
B. scalability
C. compression
D. reliability
E. load balancing

Answer: B,D

Explanation:


QUESTION 2
Which overlay protocol does Cisco AVS for vSphere use to allow the ACI fabric to extend over an
existing network infrastructure?

A. GRE
B. IPsec
C. NVGRE
D. VXLAN
E. OTV

Answer: D

Explanation:


QUESTION 3
Which three main problems was a host overlay system designed to address? (Choose three.)

A. workload mobility
B. simplified and automated workload provisioning
C. multitenancy at scale
D. integrate physical and virtual networking
E. increase visibility to traffic flows
F. better root cause analysis capabilities
G. consolidate IT infrastructure teams

Answer: A,B,C

Explanation:


QUESTION 4
Which two benefits of ACI help improve the time required to deploy an application? (Choose two.)

A. enabling software developers to create development environments similar to production
B. eliminating the need for expensive Layer 4 to Layer 7 service appliances
C. eliminating IP addressing from software stacks
D. evolving the IT model from manual workflows to an application model that automates
deployment, operations, and visibility

Answer: A,D

Explanation:

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