The VMware 3V0-624 exam preparation guide is designed to provide candidates with necessary information about the VCAP-DCV Design 2021 exam. It includes exam summary, sample questions, practice test, objectives and ways to interpret the exam objectives to enable candidates to assess the types of questions-answers that may be asked during the VMware Certified Advanced Professional - Data Center Virtualization Design 2021 (VCAP-DCV Design 2021) exam.
It is recommended for all the candidates to refer the 3V0-624 objectives and sample questions provided in this preparation guide. The VMware VCAP-DCV Design 2021 certification is mainly targeted to the candidates who want to build their career in Data Center Virtualization domain and demonstrate their expertise. We suggest you to use practice exam listed in this cert guide to get used to with exam environment and identify the knowledge areas where you need more work prior to taking the actual VMware Certified Advanced Professional 6.5 - Data Center Virtualization Design exam.
VMware 3V0-624 Exam Summary:
|
Exam Name
|
VMware Certified Advanced Professional 6.5 - Data Center Virtualization Design (VCAP-DCV Design 2021) |
| Exam Code | 3V0-624 |
| Exam Price | $450 USD |
| Duration | 135 minutes |
| Number of Questions | 60 |
| Passing Score | 300 / 500 |
| Recommended Training / Books | VMware vSphere: Design Workshop [V6.5] |
| Schedule Exam | PEARSON VUE |
| Sample Questions | VMware 3V0-624 Sample Questions |
| Recommended Practice | VMware Certified Advanced Professional - Data Center Virtualization Design 2021 (VCAP-DCV Design 2021) Practice Test |
VMware VCAP-DCV Design 2021 Syllabus:
| Section | Objectives |
|---|---|
| Create a vSphere 6.5 Conceptual Design. |
- Gather and analyze business requirements. - Gather and analyze application requirements. - Determine risks, requirements, constraints, and assumptions. |
| Create a vSphere 6.x Logical Design from an Existing Conceptual Design. |
- Map business requirements to a vSphere 6.x logical design. - Map service dependencies. - Build availability requirements into a vSphere 6.x logical design. - Build manageability requirements into a vSphere 6.x logical design. - Build performance requirements into a vSphere 6.x logical design. - Build recoverability requirements into a vSphere 6.x logical design. - Build security requirements into a vSphere 6.x logical design. |
| Create a vSphere 6.x Physical Design from an Existing Logical Design. |
- Transition from a logical design to a vSphere 6.x physical design. - Create a vSphere 6.x physical network design from an existing logical design. - Create a vSphere 6.x physical storage design from an existing logical design. - Determine appropriate computer resources for a vSphere 6.x physical design. - Determine virtual machine configuration for a vSphere 6.x physical design. - Determine data center management options for a vSphere 6.x physical design. |