C90.06 Exam Format | C90.06 Course Contents | C90.06 Course Outline | C90.06 Exam Syllabus | C90.06 Exam Objectives

Exam: C90.06 Cloud Architecture Lab

Exam Details:
- Number of Questions: The C90.06 exam is a lab-based exam that focuses on practical skills and hands-on tasks rather than traditional multiple-choice questions.
- Time: The exam duration varies depending on the specific lab scenario, but it typically ranges from 4 to 8 hours.

Course Outline:
The C90.06 SOA Cloud Architecture Lab exam is designed to assess a candidate's ability to apply cloud computing concepts, principles, and practices in real-world scenarios. The exam requires candidates to complete a series of hands-on lab exercises that simulate various cloud architecture tasks and challenges. While the specific lab scenarios may vary, the exam typically covers the following topics:

- Fundamental Cloud Computing Terminology and Concepts
- Basics of Virtualization
- Specific Characteristics that Define a Cloud
- Understanding Elasticity, Resiliency, On-Demand and Measured Usage
- Benefits, Challenges and Risks of Contemporary Cloud Computing Platforms and Cloud Services
- Cloud Resource Administrator and Cloud Service Owner Roles
- Cloud Service and Cloud Service Consumer Roles
- Understanding the Software as a Service (SaaS) Cloud Delivery Model
- Understanding the Platform as a Service (PaaS) Cloud Delivery Model
- Understanding the Infrastructure as a Service (IaaS) Cloud Delivery Model
- Combining Cloud Delivery Models
- Public Cloud, Private Cloud, Hybrid Cloud and Community Cloud Deployment Models
- Business Cost Metrics and Formulas for Comparing and Calculating Cloud and On-Premise Solution Costs
- Formulas for Calculating and Rating SLA Quality of Service Characteristics

- Cloud Computing Mechanisms that Establish Architectural Building Blocks
- Virtual Servers, Containers, Ready-Made Environments, Failover Systems and Pay-Per-Use Monitors
- Automated Scaling Listeners, Multi-Device Brokers and Resource Replication
- Understanding How Individual Cloud Computing Mechanisms Support Cloud Characteristics
- An Introduction to Containerization, Container Hosting and Logical Pod Containers
- A Comparison of Containerization and Virtualization
- Cloud Balancing and Cloud Bursting Architectures
- Common Risks, Threats and Vulnerabilities of Cloud-based Services and Cloud-hosted Solutions
- Cloud Security Mechanisms used to Counter Threats and Attacks
- Understanding Cloud-Based Security Groups and Hardened Virtual Server Images
- Cloud Service Implementation Mediums (including Web Services and REST Services)
- Cloud Storage Benefits and Challenges, Cloud Storage Services, Technologies and Approaches
- Non-Relational (NoSQL) Storage Compared to Relational Storage
- Cloud Service Testing Considerations and Testing Types
- Service Grids and Autonomic Computing
- Cloud Computing Industry Standards Organizations

- Understanding the Technology Architecture of Private Clouds and Public Clouds
- Understanding the Technology Architecture of SaaS, PaaS and IaaS Environments
- Automated Administration and Centralized Remote Administration
- Container Sidecars and Container Chains
- Self-Provisioning and Platform Provisioning
- Rich Containers and Logical Pod Containers
- Bare-Metal Provisioning and Resource Management
- Single-Node Multi-Containers and Multipath Resource Access
- Usage Monitoring and Broad Access
- Realtime Resource Availability and Pay-as-You-Go
- Shared Resources and Resource Pooling
- Rapid Provisioning and Resource Reservation
- Non-Disruptive Service Relocation and Service State Management
- Workload Distribution and Dynamic Scalability

- Understanding the Technology Architecture of Elastic, Resilient, Multitenant and Containerized Environments
- Elastic Resource Capacity and Elastic Network Capacity
- Multi-Container Isolation Control and Volatile Container Configuration
- Serverless Deployment and Elastic Disk Provisioning
- Leader Node Election and Micro Scatter-Gather
- Hypervisor Clustering and Redundant Storage
- Storage Service Gateway and Live Storage Migration
- LUN Storage and LUN Migration
- Dynamic Failure Detection and Recovery and Zero Downtime
- Service Load Balancing and Load Balanced Virtual Server Instances
- Load Balanced Virtual Switches and Persistent Virtual Network Configurations
- Dynamic Data Normalization and Synchronized Operating State
- Intra-Storage Device Vertical Tiering and Cross-Storage Device Vertical Tiering
- Storage Workload Management and Storage Maintenance Window
- Direct I/O Access and Direct LUN Access
- Redundant Physical Connection for Virtual Servers
- Cloud Bursting, including Burst In and Burst Out to Private/Public Clouds
- Cloud Balancing

- Case Study Background XIT
- IaaS Environment Setup
- IaaS Architecture Customization
- Cloud Characteristics
- Case Study Background Sport Blips
- High-Performance Cloud Architecture
- Performance Optimization
- Cloud Characteristics
- High-Connectivity Cloud Architecture

Exam Syllabus:
The specific lab scenarios and tasks in the C90.06 exam are not publicly available. However, candidates can expect to encounter challenges and tasks that require them to demonstrate their knowledge and skills in cloud architecture design, deployment, and management. The exam may involve scenarios related to infrastructure design, application integration, data management, migration planning, and hybrid cloud architectures.

It is important for candidates to review the official exam guide and practice with hands-on exercises and lab simulations to prepare for the exam effectively. Additionally, referring to relevant cloud architecture and best practices documentation, industry whitepapers, and case studies can further enhance the candidate's understanding and readiness for the exam.