[100% Off] Vcp Vmware Cloud Foundation Architect 2025 (2V0-13.25) Exam

VMware Certified Professional – VMware Cloud Foundation Architect 2025 (2V0-13.25) PRACTICE EXAM

What you’ll learn

  • VCF Architecture Design — Mapping Requirements to Logical & Physical Designs
  • AMPRS Tradeoffs — Designing for Availability
  • Manageability
  • Performance
  • Recoverability & Security
  • Lifecycle Management & Automation with VCF Operations
  • BCDR & Disaster Recovery Planning for Management and Workload Domains
  • Security Design for VCF — Identity
  • Secrets
  • Micro-segmentation & Encryption
  • Workload Migration & Onboarding Strategies (HCX
  • P2V
  • Storage Planning)
  • Monitoring
  • Capacity Planning & Cost Analytics for Mixed Workloads
  • Performance & Scalability Design — Sizing
  • Benchmarking & Tuning

Requirements

  • Hands-on VMware vSphere experience — daily or frequent operational experience with vCenter and ESXi (managing VMs
  • clusters
  • basic HA/DR
  • datastore usage).
  • Data center fundamentals — solid understanding of networking (VLANs
  • routing
  • L2/L3)
  • storage concepts (block vs file
  • RAID
  • IOPS/latency) and server hardware.
  • Linux command-line comfort — ability to use SSH
  • inspect logs
  • edit config files and run basic shell commands.
  • Basic automation/scripting familiarity — ability to read and run simple scripts (PowerShell/PowerCLI or shell).

Description

This course trains architects and senior engineers to design, validate and operate enterprise-grade VMware Cloud Foundation (VCF) solutions. Students learn to translate business requirements into documented VCF logical and physical designs, make trade-offs using AMPRS (Availability, Manageability, Performance, Recoverability, Security), build automation and lifecycle strategies, and validate designs with monitoring, BCDR and performance practices. The course is both conceptual and hands-on — every design topic includes practical lab exercises and real-world decision scenarios.

Who should attend

  • Cloud architects, SDDC architects, senior systems engineers

  • Platform/SRE leaders designing VCF-based private clouds or service provider fleets

  • Candidates preparing for the VMware VCP-VCF Architect exam (2V0-13.25)

  • Technical leads responsible for migration, automation, and lifecycle planning

Prerequisites

Must-have:

  • Hands-on VMware vSphere experience (vCenter, ESXi, VM lifecycle, HA basics)

  • Data center fundamentals (networking, storage, compute)

  • Comfortable with Linux shell and basic scripting

Recommended:

  • Familiarity with vSAN, NSX fundamentals, SDDC Manager, Kubernetes basics, IaC (Terraform/Ansible), and monitoring concepts

Course learning outcomes (what learners will be able to do)

After completing this course learners will be able to:

  1. Design VCF architectures — map business & technical requirements into logical and physical designs.

  2. Apply AMPRS trade-offs to satisfy SLAs and operational constraints.

  3. Build lifecycle and automation strategies using VCF Operations (blueprints, BOMs, fleet workflows).

  4. Create and validate BCDR/DR plans for management and workload domains.

  5. Specify security controls (identity, secrets, NSX micro-segmentation, encryption, audit).

  6. Plan workload migration and onboarding with rollback and validation tests.

  7. Design monitoring, capacity planning, and cost analytics for mixed VM/Kubernetes workloads.

  8. Size, benchmark and tune VCF stacks for performance and scalability.

Course modules (titles, objectives, topics, hands-on labs & assessments)

Module 1 — VCF Architecture Design — Mapping Requirements to Logical & Physical Designs

Objective: Translate business goals and constraints into VCF architecture choices.
Topics: Requirements gathering, conceptual vs logical vs physical models, mapping requirements → design decisions, AMPRS framing.
Lab: Create a conceptual model and translate to a VCF logical design for a multi-AZ deployment.
Assessment: Design review & critique exercise.

Module 2 — AMPRS Tradeoffs — Designing for Availability, Manageability, Performance, Recoverability & Security

Objective: Make defensible trade-offs and document impacts.
Topics: Availability zones, stretched clusters, HA/FT, lifecycle impacts, security implications, RTO/RPO mapping.
Lab: Select design options for a given SLA matrix; produce AMPRS impact table.
Assessment: Case scenario (multi-objective optimization).

Module 3 — Lifecycle Management & Automation with VCF Operations

Objective: Automate BOMs, upgrades, and fleet lifecycle across VCF instances.
Topics: BOMs/instance management, upgrade waves, configuration drift, fleet orchestration, blueprints & IaC.
Lab: Create a blueprint, run a test deployment, and schedule a BOM upgrade wave.
Assessment: Performance-based task: deploy and upgrade while demonstrating rollback.

Module 4 — BCDR & Disaster Recovery Planning for Management and Workload Domains

Objective: Design and validate DR plans for management and workload domains.
Topics: Protection profiles (management vs workload), NSX/overlay considerations, orchestration & test plans, SRM/Live Site Recovery, instance recovery.
Lab: Orchestrate non-disruptive DR test and produce a runbook.
Assessment: Case study: craft RTO/RPO and recovery runbook for a given business case.

Module 5 — Security Design for VCF — Identity, Secrets, Micro-segmentation & Encryption

Objective: Harden VCF management and workload planes.
Topics: Identity/SSO boundaries, secrets/cert lifecycle, NSX DFW micro-segmentation, vSAN/vMotion encryption, logging/SIEM design.
Lab: Implement micro-segmentation rules for a multi-tier app and configure certificate rotation.
Assessment: Written justification of design decisions (security implications).

Module 6 — Workload Migration & Onboarding Strategies (HCX, P2V, Storage Planning)

Objective: Migrate and onboard workloads with minimal disruption.
Topics: Five-R classification, HCX L2/L3 extension, P2V workflows, storage mapping / integration w/ vSAN, rollback patterns.
Lab: Execute an HCX migration with L2 extension and validate app behavior.
Assessment: Migration plan and execution checklist submission.

Module 7 — Monitoring, Capacity Planning & Cost Analytics for Mixed Workloads

Objective: Build an operational observability and capacity strategy.
Topics: VCF Operations observability (metrics/logs/traces), Prometheus/Telegraf, service mesh telemetry, predictive capacity and showback.
Lab: Configure workload + infra telemetry, create dashboards, run capacity “what-if”.
Assessment: Provide capacity forecast and remediation plan.

Module 8 — Performance & Scalability Design — Sizing, Benchmarking & Tuning

Objective: Size and validate high-performance VCF designs (GPU, NVMe, network fabric).
Topics: Monster VMs, vSAN ESA, leaf-spine fabrics, NUMA/host tuning, benchmarking (VMmark, custom).
Lab: Run a synthetic workload, capture bottlenecks, and apply tuning.
Assessment: Performance tuning report with before/after metrics.

Module 9 — Consumption & Tenant Design, Self-Service, Governance & Multi-Region Operations

Objective: Architect tenant models, quotas, policy-as-code and federation.
Topics: Organizations/Projects/Namespaces, catalogs/content hub, policy enforcement, chargeback/showback, region/zone mapping, federation.
Lab: Build a tenant with quotas, publish catalog, enforce validating admission policies.
Assessment: Tenant design & governance checklist.

Module 10 — Capstone: End-to-End Design, Validation & Exam Preparation

Objective: Synthesize learning; present an end-to-end VCF solution.
Topics: Design package contents (diagrams, BOM, runbooks, test plans), exam tips and sample PBCQs.


Coupon Scorpion
Coupon Scorpion

The Coupon Scorpion team has over ten years of experience finding free and 100%-off Udemy Coupons. We add over 200 coupons daily and verify them constantly to ensure that we only offer fully working coupon codes. We are experts in finding new offers as soon as they become available. They're usually only offered for a limited usage period, so you must act quickly.

Coupon Scorpion
Logo