Designing Cisco Application Centric Infrastructure 500-650 DCACID Dumps

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The 500-650 DCACID exam is your gateway to mastering Cisco Application Centric Infrastructure (ACI) and enhancing your career in the world of data center networking.  The newly released 500-650 DCACID Dumps from Passcert offer an invaluable resource for anyone looking to pass the Designing Cisco Application Centric Infrastructure (DCACID) exam with confidence. These updated Designing Cisco Application Centric Infrastructure 500-650 DCACID Dumps streamline your preparation by providing targeted exam questions and practice tests to sharpen your skills, ensuring you ace the exam on your first attempt.

What is the 500-650 DCACID Exam?

The Designing Cisco Application Centric Infrastructure (DCACID 500-650) exam evaluates your knowledge of designing and implementing Cisco ACI. As part of Cisco's certification offerings, this 60-minute exam tests your expertise in configuring fabric settings, access policies, logical components, physical infrastructure, and Layer 3 Out (L3Out) connections, among other areas. Mastery of these concepts ensures that you can design an optimized ACI solution to streamline modern data center operations.

 

Below is a detailed breakdown of the exam objectives, helping you understand the key domains to focus on and how they contribute to your preparation journey.

 

Exam Objectives and Key Topics

1.0 Access Policies – 10% Weightage

Access policies define how endpoints and devices communicate within the Cisco ACI environment. This section emphasizes understanding key policy components and their efficient implementation.

1.1 Describe Cisco ACI access policy components

1.2 Describe Cisco ACI default access policies, custom policies creation, and naming conventions

1.3 Describe Cisco ACI access policy optimization and reuse

 

2.0 Fabric System Settings – 10% Weightage

Managing fabric-wide settings optimizes how the system behaves and interacts with network devices. Understanding these settings is critical for effective data flow and endpoint communication.

2.1 Use fabric wide settings to optimize and control endpoint learning

2.2 Use fabric loop detection mechanisms

2.3 Use fabric policies for NTP, DNS, SNMP, and syslog configuration

 

3.0 Logical Components – 20% Weightage

Logical components in ACI define the abstraction layers and segmentation within the data center, focusing on tenants, VRFs, bridge domains, and endpoint groups (EPGs).

3.1 Describe the tenant in Cisco ACI

3.2 Describe the reuse of objects from the common tenant

3.3 Describe VRF design considerations

3.4 Describe bridge domain design considerations

3.5 Describe EPG design considerations

3.6 Describe application segmentation with EPGs and ESGs

3.7 Describe contracts design considerations and vzAny usage

3.8 Select the approach to migrate IP and logical components from an existing data center to Cisco ACI

 

4.0 Physical Structure – 20% Weightage

This section covers the physical deployment and design of Cisco ACI, including fabric discovery, initialization, and interconnection of devices.

4.1 Describe Cisco APIC design considerations

4.2 Describe Cisco ACI fabric discovery and initialization process

4.3 Describe out-of-band and in-band management

4.4 Describe Cisco ACI Multi-Pod design

4.5 Describe Cisco ACI Multi-Site design

4.6 Describe options for device connectivity to the fabric

4.7 Select the approach to migrate existing data center connectivity and physical components from an existing environment to Cisco ACI

 

5.0 L3Outs and Service Insertion – 40% Weightage

This is the most heavily weighted section of the exam and focuses on Layer 3 connectivity, service insertion, policy-based routing (PBR), and migration strategies.

5.1 Select the design approach for Cisco ACI external Layer 3 connectivity

5.2 Select the design approach for Cisco ACI Layer 4–7 service insertion

5.3 Select the design approach for Cisco ACI PBR-based service redirection

5.4 Select the design approach for the L4-L7 service insertion in single-pod Cisco ACI

5.5 Select the design approach for L4-L7 service insertion in Cisco ACI MultiPod

5.6 Select the design approach for a transit routing solution

5.7 Select the design approach for service sharing using vzAny

5.8 Select the approach to build a migration plan for Layer 2 and Layer 3 connectivity, including L3Outs and contracts

5.9 Select the approach to migrate vSphere compute environment to Cisco ACI

5.10 Select the design approach for QoS for inter-pod and inter-site networks

5.11 Select the design approach for auxiliary features, such as DHCP Relay and Switched Port Analyzer (SPAN)

 

How to Prepare for the 500-650 DCACID Exam

Here are some tips to maximize your chances of passing the exam:

Use Reliable Study Materials: Utilize Passcert 500-650 DCACID Dumps to access real exam questions and detailed explanations.

Take Practice Tests: Regular testing helps you identify weak areas and build confidence.

Study Cisco Documentation: Review the official Cisco ACI guides and manuals to deepen your knowledge.

Set a Study Schedule: Allocate dedicated time for each exam domain to ensure full preparation.

Join Study Groups: Engage with online communities or local groups preparing for Cisco certifications to exchange tips and resources.

 

Share Designing Cisco Application Centric Infrastructure 500-650 DCACID Free Dumps

1. Why would a network administrator configure syslog in Cisco ACI?

A. To improve the speed of the network

B. To log and monitor system events

C. To increase the number of manageable endpoints

D. To implement quality of service (QoS)

Answer: B

 

2. When designing QoS for inter-pod and inter-site networks in Cisco ACI, what factors must be prioritized? (Choose Three)

A. Bandwidth limitations

B. Latency optimization

C. Packet loss minimization

D. Color-based marking

E. Priority settings based on traffic type

Answer: A, B, C

 

3. Describe a feature of the initialization process for Cisco ACI fabric.

A. Sequential device boot-up

B. Randomized switch integration

C. Manual switch configuration

D. Automatic spine and leaf discovery

Answer: D

 

4. Select effective design approaches for Cisco ACI external Layer 3 connectivity. (Choose Two)

A. Integration with existing MPLS infrastructure

B. Exclusive reliance on external routers

C. Use of OSPF for dynamic routing

D. Manual routing for better control

Answer: A, C

 

5. In terms of access policy components, what does an 'Endpoint Group' (EPG) in Cisco ACI define?

A. A collection of physical and virtual endpoints that share the same security requirements

B. A unique identifier assigned to each device within the ACI fabric

C. The bandwidth limits for a group of applications

D. A list of approved user groups allowed to access network resources

Answer: A

 

6. How should Cisco ACI Multi-Site design be optimized for service continuity and disaster recovery? (Choose Three)

A. Redundant physical links between sites

B. Uniform appliance deployment across sites

C. Geographic distribution of critical services

D. Centralized management from a single site

E. Automated failover mechanisms

Answer: A, C, E

 

7. What should be prioritized when designing L4-L7 service insertion in Cisco ACI MultiPod environments?

A. Ensuring all pods have identical service appliances

B. Centralized management of services

C. Localized services in each pod

D. Minimal service configuration

Answer: C

 

8. Which factors should be considered when designing Cisco APIC deployment? (Choose two)

A. Environmental conditions

B. Scalability needs

C. Color scheme of the hardware

D. Disaster recovery plans

Answer: B, D

 

9. Bridge domains in Cisco ACI must be carefully designed to ensure proper _______ configuration.

A. power

B. subnet

C. cooling

D. hardware

Answer: B

 

10. Which of the following are management options in Cisco ACI? (Choose two)

A. Out-of-band only

B. In-band only

C. Combination of in-band and out-of-band

D. None of the above

Answer: A, B