


AWS Certified Solutions Architect Professional certification is a highly sought-after credential for IT professionals who specialize in designing and deploying scalable, reliable, and cost-effective cloud solutions on the Amazon Web Services (AWS) platform. This advanced certification is designed for individuals with extensive experience in architecting and implementing complex cloud environments using AWS services.
AWS Certified Solutions Architect Professional exam is a comprehensive assessment of an individual's knowledge and skills in designing and deploying AWS solutions at an enterprise level. This exam covers a wide range of topics, including advanced architecture design, deployment and management of AWS services, security, scalability, and cost optimization.
One of the key features of the AWS Certified Solutions Architect Professional certification is the comprehensive practice exam that is included as part of the preparation process. This practice exam is designed to simulate the actual exam experience and help candidates assess their readiness for the certification exam. The practice exam covers all the topics and concepts that are tested in the actual exam, allowing candidates to identify areas where they need to focus their study efforts.
In addition to the practice exam, candidates preparing for the AWS Certified Solutions Architect Professional certification can also take advantage of a variety of study resources and tools provided by AWS. These resources include official study guides, whitepapers, online training courses, and hands-on labs that allow candidates to gain practical experience with AWS services and solutions.
AWS Certified Solutions Architect Professional certification is recognized as a mark of expertise and proficiency in designing and implementing cloud solutions on the AWS platform. This certification is highly valued by employers and can open up a wide range of career opportunities for certified professionals.
In order to earn the AWS Certified Solutions Architect Professional certification, candidates must pass a rigorous exam that tests their knowledge and skills in designing and deploying complex cloud solutions on AWS. The exam is designed to assess candidates' ability to design and implement scalable, reliable, and cost-effective cloud architectures that meet the needs of enterprise customers.
Candidates preparing for the AWS Certified Solutions Architect Professional exam should have a strong understanding of AWS services and solutions, as well as experience in architecting and deploying cloud environments using AWS. They should also have a solid understanding of cloud security best practices, scalability, and cost optimization strategies.
AWS Certified Solutions Architect Professional certification is a valuable credential for IT professionals who want to demonstrate their expertise in designing and deploying cloud solutions on the AWS platform. With its comprehensive practice exam and extensive study resources, this certification is an excellent choice for individuals looking to advance their career in cloud computing.
AWS Certified Solutions Architect - Professional Certification Exams skill questions:-
Exam Name : AWS Certified Solutions Architect Professional
Exam Code : SAP-C02
Exam Price : $300 USD
Duration : 180 minutes
Number of Questions : 75
Type of Questions: Multiple Choice Questions (single and multiple response), drag and drops and performance-based,
Passing Score : 720 / 1000
Recommended Training / Books : Systems Operations on AWS
Schedule Exam : AWS Certification
AWS Certified Solutions Architect - Professional Skill Measurement Exam Topics:-
# Design Solutions for Organizational Complexity
1.1: Architect network connectivity strategies.
AWS Global Infrastructure
AWS networking concepts (for example, Amazon VPC, AWS Direct Connect, AWS VPN, transitive routing, AWS container services)
Hybrid DNS concepts (for example, Amazon Route 53 Resolver, on-premises DNS integration)
Network segmentation (for example, subnetting, IP addressing, connectivity among VPCs)
Network traffic monitoring
1.2: Prescribe security controls.
AWS Identity and Access Management (IAM) and AWS IAM Identity Center (AWS Single Sign-On)
Route tables, security groups, and network ACLs
Encryption keys and certificate management (for example, AWS Key Management Service [AWS KMS], AWS Certificate Manager [ACM])
AWS security, identity, and compliance tools (for example, AWS CloudTrail, AWS Identity and Access Management Access Analyzer, AWS Security Hub, Amazon Inspector)
1.3: Design reliable and resilient architectures.
Recovery time objectives (RTOs) and recovery point objectives (RPOs)
Disaster recovery strategies (for example, using AWS Elastic Disaster Recovery, pilot light, warm standby, and multi-site)
Data backup and restoration
1.4: Design a multi-account AWS environment.
AWS Organizations and AWS Control Tower
Multi-account event notifications
AWS resource sharing across environments
1.5: Determine cost optimization and visibility strategies.
AWS cost and usage monitoring tools (for example, AWS Trusted Advisor, AWS Pricing Calculator, AWS Cost Explorer, AWS Budgets)
AWS purchasing options (for example, Reserved Instances, Savings Plans, Spot Instances)
AWS rightsizing visibility tools (for example, AWS Compute Optimizer, Amazon S3 Storage Lens)
# Design for New Solutions
2.1: Design a deployment strategy to meet business requirements.
Infrastructure as code (IaC) (for example, AWS CloudFormation)
Continuous integration and continuous delivery (CI/CD)
Change management processes
Configuration management tools (for example, AWS Systems Manager)
2.2: Design a solution to ensure business continuity.
AWS Global Infrastructure
AWS networking concepts (for example, Route 53, routing methods)
RTOs and RPOs
Disaster recovery scenarios (for example, backup and restore, pilot light, warm standby, multi-site)
Disaster recovery solutions on AWS
2.3: Determine security controls based on requirements.
IAM
Route tables, security groups, and network ACLs
Encryption options for data at rest and data in transit
AWS service endpoints
Credential management services
AWS managed security services (for example, AWS Shield, AWS WAF, Amazon GuardDuty, AWS Security Hub)
2.4: Design a strategy to meet reliability requirements.
AWS Global Infrastructure
AWS storage services and replication strategies (for example Amazon S3, Amazon RDS, Amazon ElastiCache)
Multi-AZ and multi-Region architectures
Auto scaling policies and events
Application integration (for example, Amazon Simple Notification Service
Service quotas and limits
2.5: Design a solution to meet performance objectives.
Performance monitoring technologies
Storage options on AWS
Instance families and use cases
Purpose-built databases
2.6: Determine a cost optimization strategy to meet solution goals and objectives.
AWS cost and usage monitoring tools (for example, Cost Explorer, Trusted Advisor, AWS Pricing Calculator)
Pricing models (for example, Reserved Instances, Savings Plans)
Storage tiering
Data transfer costs
AWS managed service offerings
# Continuous Improvement for Existing Solutions
3.1: Determine a strategy to improve overall operational excellence.
Alerting and automatic remediation strategies
Disaster recovery planning
Monitoring and logging solutions (for example, Amazon CloudWatch)
CI/CD pipelines and deployment strategies (for example, blue/green, all-at-once, rolling)
Configuration management tools (for example, Systems Manager)
3.2: Determine a strategy to improve security.
Data retention, data sensitivity, and data regulatory requirements
Automated monitoring and remediation strategies (for example, AWS Config rules)
Secrets management (for example, Systems Manager, AWS Secrets Manager)
Principle of least privilege access
Security-specific AWS solutions
Patching practices
Backup practices and methods
3.3: Determine a strategy to improve performance.
High-performing systems architectures (for example, auto scaling, instance fleets, placement groups)
Global service offerings (for example, AWS Global Accelerator, Amazon CloudFront, edge computing services)
Monitoring tool sets and services (for example, CloudWatch)
Service level agreements (SLAs) and key performance indicators (KPIs)
3.4: Determine a strategy to improve reliability.
AWS Global Infrastructure
Data replication methods
Scaling methodologies (for example, load balancing, auto scaling)
High availability and resiliency
Disaster recovery methods and tools
Service quotas and limits
3.5: Identify opportunities for cost optimizations.
Cost-conscious architecture choices (for example, using Spot Instances, scaling policies, and rightsizing resources)
Price model adoptions (for example, Reserved Instances, Savings Plans)
Networking and data transfer costs
Cost management, alerting, and reporting
# Accelerate Workload Migration and Modernization
4.1: Select existing workloads and processes for potential migration.
Migration assessment and tracking tools (for example, AWS Migration Hub)
Portfolio assessment
Asset planning
Prioritization and migration of workloads (for example, wave planning)
4.2: Determine the optimal migration approach for existing workloads.
Data migration options and tools
Application migration tools
AWS networking services and DNS (for example, Direct Connect, AWS Site-to-Site VPN, Route 53)
Identity services (for example, IAM Identity Center, AWS Directory Service)
Database migration tools (for example, AWS Database Migration Service
Governance tools (for example, AWS Control Tower, Organizations)
4.3: Determine a new architecture for existing workloads.
Compute services (for example, Amazon EC2, AWS Elastic Beanstalk)
Containers (for example, Amazon Elastic Container Service
AWS storage services (for example, Amazon Elastic Block Store
Databases
4.4: Determine opportunities for modernization and enhancements.
Serverless compute offerings (for example, AWS Lambda)
Containers (for example, Amazon ECS, Amazon EKS, Fargate)
AWS storage services (for example, Amazon S3, Amazon EFS)
Purpose-built databases (for example, DynamoDB, Amazon Aurora Serverless, ElastiCache)
Integration services (for example, Amazon SQS, Amazon SNS, Amazon EventBridge, Step Functions)
Overall, the AWS Certified Solutions Architect Professional certification is a valuable credential for IT professionals who want to demonstrate their expertise in designing and deploying cloud solutions on the AWS platform. With its comprehensive practice exam and extensive study resources, this certification is an excellent choice for individuals looking to advance their career in cloud computing.