The SAP on AWS – Specialty certification represents a significant milestone for professionals seeking to validate their knowledge in managing SAP workloads on the AWS platform. As organizations accelerate their digital transformation, cloud computing becomes a cornerstone of IT strategy, and SAP, being a critical enterprise system, is increasingly being deployed on AWS. This certification was introduced to recognize individuals with the ability to design, implement, migrate, and operate SAP solutions in the AWS environment.
This specialized certification is not aimed at entry-level professionals. Instead, it is tailored to individuals who already possess considerable experience with both SAP and AWS. The goal is to certify those who are capable of integrating SAP’s complex enterprise applications with AWS’s robust cloud infrastructure in a way that is scalable, secure, and cost-effective.
With the rise in demand for SAP on AWS solutions, having certified professionals helps organizations ensure that their mission-critical systems are in capable hands. For individuals, earning this credential demonstrates expertise in a niche and growing field, making them more competitive in the global job market.
Overview of Certification Purpose and Industry Relevance
The AWS Certified: SAP on AWS – Specialty exam is a direct response to the increasing number of enterprises adopting cloud platforms to run their SAP systems. The primary purpose of this certification is to validate advanced knowledge and practical skills needed to handle SAP workloads on AWS. This includes understanding how to align SAP systems with AWS services while adhering to best practices, compliance standards, and business goals.
SAP systems are deeply integrated into business operations, from finance and logistics to supply chain and customer service. Because of this, transitioning these workloads to the cloud requires detailed planning and a precise understanding of both platforms. The certification confirms that a candidate has the necessary insight and technical competence to perform this transition successfully and sustainably.
For businesses, the ability to deploy SAP on AWS brings several advantages, including improved scalability, lower total cost of ownership, and better system availability. However, these benefits can only be realized when the workloads are designed and managed properly. This certification helps organizations identify professionals who can help them achieve those outcomes.
Exam Structure and Format
The certification exam is officially named AWS Certified: SAP on AWS – Specialty and is associated with the code PAS-C01. It is comprehensive and rigorous, with a total allotted time of 220 minutes. This duration is set to allow candidates to think carefully through a variety of complex scenario-based questions. The exam does not include any open-ended questions; instead, it is made up of multiple-choice and multiple-response questions. These formats are designed to test not only factual knowledge but also decision-making and situational judgment.
The registration fee for the exam is USD 150, reflecting a significant 50 percent reduction from the original fee. This discounted rate encourages a broader range of professionals to participate, making it more accessible while maintaining its high standards.
The results for the first attempt are expected to be available by mid-June 2022. This delay in result processing highlights the importance placed on proper evaluation and certification integrity. While the exam is technical in nature, it also requires candidates to have real-world experience, particularly with implementing SAP solutions that meet both AWS and SAP compliance requirements.
The certification is valid proof that the holder understands how to architect SAP environments on AWS, taking into consideration reliability, performance efficiency, operational excellence, cost optimization, and security.
Intended Audience and Eligibility Requirements
This certification is specifically designed for individuals who operate at the intersection of SAP systems and AWS cloud services. Candidates are expected to have extensive experience with SAP, ideally at least five years, and at least one year of hands-on experience working with SAP workloads deployed on AWS. This background ensures that exam participants are already familiar with both platforms and can understand the integration points, challenges, and best practices involved.
Candidates should have a strong understanding of SAP’s architecture and components, including application servers, databases, and network configurations. They should also be familiar with how AWS services such as EC2, EBS, S3, and IAM are used to support SAP workloads.
In addition, candidates should be knowledgeable about the AWS Well-Architected Framework, particularly how it applies to enterprise systems. Understanding how to design and evaluate SAP workloads in line with this framework is essential for success in the exam and real-world scenarios.
It is also important for candidates to be aware of SAP’s support and certification requirements for cloud deployments. These include restrictions and recommendations regarding system sizing, high availability, data protection, and backup strategies. Having this knowledge ensures that the solutions designed on AWS are not only functional but also fully supported by SAP.
The exam is well-suited for architects, engineers, SAP consultants, and cloud professionals who are involved in planning, deploying, or managing SAP systems on AWS. Whether working within an enterprise IT department or as an external consultant, certified individuals are positioned to lead initiatives that bring efficiency, stability, and innovation to their organizations.
Overview of Certification Domains
The AWS Certified: SAP on AWS – Specialty exam is organized around four core domains. These domains represent the essential skill areas required to manage SAP workloads on the AWS cloud effectively. Each domain targets specific knowledge areas and technical competencies, ensuring a well-rounded assessment of the candidate’s readiness.
The four domains are as follows:
- Design of SAP workloads on AWS
- Implementation of SAP workloads on AWS
- Migration of SAP workloads to AWS
- Operation and maintenance of SAP workloads on AWS
Each domain addresses a distinct phase of the SAP on AWS lifecycle, from initial design considerations to ongoing operations. In this part, the focus will be on the first two domains: design and implementation.
Design of SAP Workloads on AWS
Designing SAP workloads on AWS involves several architectural considerations. It is not just about lifting and shifting on-premise environments into the cloud. Rather, it requires a re-evaluation of the infrastructure to take full advantage of AWS services while meeting SAP’s performance, compliance, and support requirements.
Design is the foundation of every successful SAP deployment on AWS. Poor design can lead to high costs, reduced system availability, and performance issues. Therefore, professionals must be able to align AWS resources with SAP’s technical prerequisites and business needs.
A significant portion of this domain focuses on the ability to evaluate and select suitable AWS services for specific SAP use cases. This includes determining appropriate EC2 instance types for different SAP components such as application servers, central services, and databases. The design must also consider storage options like EBS and Amazon FSx, and how they support high throughput and low latency.
Network architecture is another critical factor in the design domain. AWS offers flexibility in configuring VPCs, subnets, and routing, but SAP workloads have specific requirements for connectivity, latency, and availability. Candidates must understand how to create and manage VPCs that accommodate SAP’s unique communication and integration needs. This also includes the evaluation of VPC sharing, placement groups, and connectivity options between on-premise environments and AWS.
High availability and disaster recovery strategies are central to SAP system design. AWS regions and Availability Zones must be leveraged to ensure fault tolerance and minimal downtime. Candidates are expected to design systems that can tolerate hardware failures or Availability Zone outages without significant impact. SAP systems often include clustered components, and these must be carefully deployed to ensure proper failover behavior.
SAP workloads can also involve integration with third-party applications or external services. The design must account for secure data exchange, performance bottlenecks, and service-level agreements. In such cases, designing robust and secure API access patterns becomes important.
Security and compliance are also major concerns in the design phase. This includes defining IAM policies, using encryption for data at rest and in transit, and ensuring compliance with industry standards such as GDPR, HIPAA, or ISO certifications. The design should support secure access controls for SAP administrators, developers, and auditors.
Candidates must demonstrate the ability to incorporate AWS best practices into their designs. The AWS Well-Architected Framework includes pillars such as operational excellence, performance efficiency, cost optimization, and reliability. For SAP workloads, these pillars must be applied with a deep understanding of how SAP systems behave under various workloads and operational scenarios.
Cost is a persistent concern in SAP cloud design. Candidates need to know how to right-size AWS resources to balance performance with cost. Over-provisioning leads to waste, while under-provisioning may result in performance bottlenecks. Using AWS Cost Explorer and other tools to estimate and monitor usage is considered best practice.
In summary, the design domain assesses the candidate’s ability to architect SAP systems that are resilient, performant, secure, and cost-effective. It tests the knowledge of infrastructure components, SAP system requirements, AWS services, and how these elements interact in a cloud environment.
Implementation of SAP Workloads on AWS
Once a design is finalized, the next step is implementation. This domain tests the candidate’s ability to translate architectural blueprints into actual deployments. It evaluates how well candidates understand AWS services in practice and how to configure them to meet SAP workload requirements.
The implementation domain begins with deploying SAP infrastructure components using AWS services. This includes launching EC2 instances for various roles in the SAP landscape, such as application servers, database servers, and central services. These instances must be provisioned correctly with the appropriate operating systems, CPU, memory, and storage configurations based on SAP notes and sizing guidelines.
Storage configuration plays a critical role in performance and availability. Candidates must understand the use of EBS volumes, FSx for Windows or NetApp ONTAP, and shared file systems like NFS for SAP components that require shared storage. Proper IOPS configuration and volume management are key to achieving expected performance metrics.
Network configuration during implementation must follow the design principles, with a focus on segmentation, routing, and IP management. It’s essential to understand AWS networking fundamentals, including route tables, security groups, NAT gateways, and Direct Connect or VPN for hybrid connectivity. These elements ensure secure and efficient communication between SAP systems, user endpoints, and third-party services.
Another essential part of implementation is the installation and configuration of SAP software on the AWS infrastructure. This may involve using SAP-provided tools like Software Provisioning Manager or the AWS Launch Wizard for SAP, which automates much of the setup. However, candidates should also be comfortable with manual installations to ensure they can troubleshoot or customize as needed.
Automation is highly emphasized in this domain. AWS CloudFormation, AWS Systems Manager, and third-party tools can be used to create repeatable and consistent deployments. Candidates should be familiar with Infrastructure as Code practices, as these are crucial for scaling environments, maintaining version control, and reducing human error.
Implementing security features such as IAM roles, key management with AWS KMS, and secure logging using Amazon CloudWatch and AWS CloudTrail is also important. SAP environments handle sensitive business data, and security misconfigurations can lead to serious breaches or compliance violations.
This domain also includes the configuration of high availability and disaster recovery mechanisms. For example, setting up a SAP HANA system replication across Availability Zones or configuring failover clusters for application servers. AWS provides services like Route 53 for DNS failover and Elastic Load Balancing to distribute traffic across multiple instances.
Another key area is the setup of monitoring and alerting mechanisms. Using Amazon CloudWatch to monitor CPU usage, memory, disk space, and custom SAP metrics allows for proactive issue detection. Integration with AWS SNS for notifications or automation tools for remediation is considered best practice.
Candidates are expected to be able to implement not only new SAP systems but also enhancements or modifications to existing environments. This includes upgrading components, adding new application modules, and optimizing configurations to improve performance or reduce costs.
Database deployment and configuration are vital. SAP supports multiple databases such as SAP HANA, Oracle, SQL Server, and DB2. Each of these has different installation and configuration steps on AWS. Candidates should understand how to deploy databases with high performance and reliability, using either native database tools or AWS services like Amazon RDS, where supported.
Disaster recovery testing is another aspect covered in the implementation. Professionals must ensure that failover mechanisms work as intended and that system snapshots, backups, and replication are functioning and regularly verified.
The implementation domain evaluates practical hands-on skills and the ability to make informed decisions under real-world constraints. Candidates who succeed in this domain have a deep understanding of AWS operations and SAP infrastructure, as well as the ability to integrate them smoothly and securely.
Practical Considerations During Design and Implementation
While the exam focuses on theory and best practices, practical considerations often define the success or failure of real-world SAP on AWS projects. The design must reflect the realities of organizational constraints, including budget limits, team expertise, and project timelines. Similarly, implementation must be feasible within the technical and operational boundaries set by existing systems and business needs.
Scalability is a major consideration. SAP workloads often experience fluctuations in demand due to month-end processing, financial closing, or seasonal business cycles. AWS provides elasticity, but only when it is designed and implemented correctly. Candidates should understand auto-scaling configurations and when they are appropriate for SAP systems.
Testing environments are also essential. Design and implementation plans must account for non-production systems such as development, testing, and quality assurance. Each of these may require different levels of availability and performance, but should still follow similar architectural principles to production.
Governance and change management are practical realities in enterprise IT. The ability to design and implement SAP systems in a way that supports version control, change approval, and auditability is a strong indicator of professional maturity. Using tagging strategies, resource policies, and automation scripts helps maintain order and traceability.
Budget control is another important consideration. While AWS offers cost savings over traditional data centers, costs can quickly escalate if resources are not managed efficiently. Candidates must understand how to monitor and control costs using AWS Budgets, Trusted Advisor, and tagging reports.
User experience is also influenced by implementation quality. Proper deployment of front-end services, network optimization, and response time monitoring can significantly impact system usability. Candidates must ensure that implementations not only work technically but also support the business processes and user expectations.
Finally, sustainability and long-term maintainability should be part of both design and implementation thinking. Systems should be built with the future in mind—ready to adapt to new SAP features, AWS services, or business requirements without requiring complete rearchitecture.
Migration of SAP Workloads to AWS
Migration is one of the most critical and complex tasks in the SAP on AWS journey. It involves moving highly integrated, often monolithic systems from traditional on-premise data centers to the cloud. This domain assesses the candidate’s ability to plan, execute, and validate the migration of SAP workloads using AWS tools and best practices.
The first key consideration in SAP migration is understanding the existing landscape. Candidates must know how to perform discovery and assessment using AWS Migration Hub or similar tools. Discovery includes cataloging existing infrastructure, operating systems, databases, network configurations, and interdependencies between SAP and other applications.
Pre-migration planning is essential. This includes sizing the AWS infrastructure to accommodate the SAP landscape being migrated. Candidates must ensure that the new environment is right-sized according to SAP benchmarks and AWS performance metrics. Incorrect sizing can result in performance issues or overspending. AWS offers tools and whitepapers to help with this process.
One of the most important tasks is selecting the correct migration method. There are several approaches to migrating SAP to AWS. These include rehosting (lift and shift), replatforming (lift and optimize), and re-architecting (rebuild for the cloud). The choice depends on business requirements, project timelines, existing contracts, and system complexity.
SAP-specific migration strategies must consider database compatibility, operating system versions, and software prerequisites. Some scenarios may involve homogeneous system copies, while others require heterogeneous migrations, particularly when switching databases (e.g., from Oracle to SAP HANA) or platforms (e.g., Windows to Linux).
SAP provides several tools to assist with migration, such as Software Provisioning Manager, SAP Migration Cockpit, and SAP SUM with DMO (Database Migration Option). Candidates should be familiar with these tools and how they integrate with AWS infrastructure. In addition, AWS offers services like AWS Application Migration Service, AWS Database Migration Service (DMS), and Server Migration Service (SMS) that can be used in the process.
Data transfer and system downtime are crucial considerations. Migration windows are often limited due to the critical nature of SAP systems. Candidates must plan for minimal downtime using techniques like parallel system provisioning, data replication, and delta sync. Real-time replication tools such as HVR or Qlik Replicate may be involved.
Storage migration is another major element. Moving large volumes of SAP data, including logs, backups, and shared file systems, can take significant time. AWS offers various data transfer solutions, including AWS Snowball for bulk offline transfer and AWS Direct Connect or S3 Transfer Acceleration for secure online transfer.
Network configuration must be pre-planned to ensure that once the system is migrated, it can communicate with other systems and services. This may involve replicating VPC structures, ensuring IP address compatibility, and updating DNS records or host files.
Security during migration is also vital. Data must be encrypted in transit and at rest. Access to migration tools and the cloud environment must be strictly controlled. IAM roles and policies should be created to restrict permissions during migration activities.
Once the system has been migrated, validation is essential. This includes testing the functionality of the SAP system, performance benchmarking, interface validation, and user acceptance testing. Candidates must also verify compliance with SAP support requirements for cloud deployments.
Rollback and contingency planning must be included in migration strategies. In the event of a failure or performance issue, there must be a clear rollback plan or a parallel system that can be activated. Backup and restore procedures must be tested in advance.
This domain ultimately evaluates the candidate’s ability to deliver a smooth, efficient migration process that minimizes risk, ensures data integrity, and results in a stable and supported SAP environment on AWS.
Operation and Maintenance of SAP Workloads on AWS
Once SAP systems are live on AWS, ongoing operation and maintenance become critical to ensure performance, availability, and cost-efficiency. This domain assesses the candidate’s ability to manage SAP systems in production, including monitoring, patching, troubleshooting, and optimizing cloud-based environments.
The first area of focus is system monitoring. AWS provides tools such as Amazon CloudWatch, AWS CloudTrail, and AWS Config that can be used to monitor the health and activity of AWS resources. For SAP-specific monitoring, candidates should be familiar with tools like SAP Solution Manager or third-party tools like Dynatrace and Datadog. Metrics such as CPU utilization, memory usage, disk I/O, and network traffic should be tracked continuously.
Operational excellence includes setting up automated alarms and notifications using Amazon SNS or integrations with ITSM platforms like ServiceNow. These systems help identify and respond to issues before they impact users.
Patch management is another essential activity. Operating system updates and SAP kernel patches must be applied regularly to address security vulnerabilities and performance issues. AWS Systems Manager Patch Manager can automate OS patching across EC2 instances. Candidates must plan patch windows and test changes in staging environments before applying them to production.
Backup and recovery processes must be defined and validated. SAP workloads typically require point-in-time recovery for databases and regular backups of application files. AWS Backup, Amazon RDS snapshots, and custom backup scripts are often used. The backup strategy must support recovery time objectives (RTO) and recovery point objectives (RPO) defined by the business.
Disaster recovery planning is another key area. This involves configuring standby environments in separate AWS Availability Zones or even in other regions. Techniques include cross-region replication, asynchronous database replication, and manual or automated failover processes. Periodic disaster recovery drills are necessary to ensure readiness.
Security operations are also part of ongoing maintenance. IAM policies must be reviewed regularly, access logs analyzed for anomalies, and encryption standards verified. Candidates should implement least privilege access, use multi-factor authentication (MFA), and integrate AWS Identity Center if necessary.
Cost management is a continuous activity. AWS tools such as AWS Budgets, Cost Explorer, and Trusted Advisor can help monitor and control cloud expenses. Reserved Instances or Savings Plans should be evaluated based on usage patterns to reduce operational costs.
Another critical area is performance tuning. SAP systems are resource-intensive, and optimal performance is necessary for user satisfaction and business operations. Candidates must monitor system performance and adjust instance types, storage configurations, or scaling mechanisms as needed. Fine-tuning database parameters and SAP profile settings may also be required.
Log management and auditing are necessary for compliance and troubleshooting. Logs should be centralized using Amazon CloudWatch Logs or third-party log aggregators. Audit trails must be preserved and protected, especially for sensitive actions such as user authentication, data exports, and system configuration changes.
Maintaining documentation and change control processes is part of mature operations. This includes maintaining architecture diagrams, change records, and operational runbooks. AWS Systems Manager Document (SSM) can help automate routine maintenance tasks and enforce standardized processes.
Automation plays a major role in efficient operations. Scheduled tasks such as system health checks, log rotation, disk cleanup, and report generation can be automated using AWS Lambda, cron jobs, or Systems Manager automation documents. This reduces human error and frees up time for strategic initiatives.
Business continuity planning is the overarching concept that connects all operational activities. Candidates must ensure that SAP systems remain available, secure, and performant under varying conditions, including workload spikes, hardware failures, or software bugs.
This domain also evaluates the ability to work collaboratively with internal teams and external stakeholders. Coordinating with SAP Basis teams, database administrators, network engineers, and cloud architects is essential for maintaining smooth operations. Clear communication and defined roles and responsibilities contribute to efficient system management.
Finally, candidates must demonstrate a proactive mindset. This means continuously reviewing systems for optimization opportunities, staying current with AWS and SAP updates, and adapting the environment as business needs evolve.
Study Resources for SAP on AWS Specialty Certification
Proper preparation is critical for success in the SAP on AWS – Specialty exam. Given its advanced nature, candidates must invest significant time in studying, hands-on practice, and strategic planning. A wide variety of resources are available for exam preparation, including official documentation, instructor-led training, hands-on labs, practice tests, and real-world experience.
Official documentation should be the starting point. AWS provides whitepapers, reference architectures, and best practices related to SAP workloads on AWS. These include topics like deploying SAP HANA on AWS, designing high-availability architectures, performance tuning, and data protection strategies. Reading these documents will help candidates understand what AWS recommends and how SAP best practices align with the cloud.
Instructor-led courses offer structured guidance and insights from certified professionals. These courses are especially helpful for candidates who prefer a classroom-style learning environment. They cover key exam domains such as design, implementation, migration, and operations, often using real-world case studies to illustrate complex concepts.
Self-paced video courses are another popular option. These typically include lecture-style explanations, demonstrations, and guided walkthroughs of AWS services. Candidates benefit from the flexibility to revisit topics and learn at their own pace. Video content should be accompanied by personal notes to reinforce key topics and terminology.
Candidates should also take advantage of SAP-focused AWS Learning Paths. These curated learning tracks offer a combination of documentation, videos, and labs tailored to SAP professionals. They typically include content for various SAP solutions, including ECC, S/4HANA, BW/4HANA, and Business One.
Books and technical guides provide detailed and sometimes broader coverage of cloud and SAP concepts. These resources often go deeper into architectural and design principles, providing valuable background knowledge for complex scenarios. Topics such as Linux administration, network architecture, and performance tuning are often explored in greater depth in written form.
Community forums and discussion boards are invaluable for clarifying doubts and learning from others’ experiences. Reading through questions asked by other candidates and responses from certified professionals helps deepen understanding and highlight tricky areas. Platforms that host discussions around SAP on AWS often include architectural diagrams, step-by-step migration guides, and security considerations.
Webinars and recorded conference sessions are often overlooked resources. AWS and SAP host technical sessions during global events, many of which are later published online. These sessions focus on case studies, innovative solutions, and lessons learned from real customer implementations.
Blogs and technical write-ups also provide practical advice and use-case-driven tutorials. While not a substitute for official study materials, blogs often reveal the thought process behind real-world solutions and configurations. These resources can help candidates think beyond textbook examples.
Hands-on practice remains the most effective preparation technique. Reading and watching videos help, but nothing builds confidence like working directly with SAP on AWS. This includes setting up EC2 instances, configuring VPCs, launching SAP workloads, testing storage performance, and implementing failover procedures.
Practical Labs and Real-World Project Experience
Practical lab work is essential to bridge the gap between theoretical knowledge and real-world application. The SAP on AWS – Specialty exam is designed for professionals with both conceptual understanding and real-world skills. Practical labs reinforce core AWS skills while allowing candidates to apply SAP-specific configurations and design choices.
One of the first labs to complete is building a basic SAP landscape on AWS. This involves launching EC2 instances, configuring operating systems, installing the SAP NetWeaver stack, and setting up supporting services such as NFS, DNS, and shared storage. This exercise introduces core AWS services, including Amazon EC2, Amazon EBS, and Amazon FSx.
A more advanced lab includes deploying SAP HANA using the AWS Launch Wizard. This tool simplifies the deployment of SAP systems on AWS by automatically provisioning resources, applying best practices, and installing SAP components. Understanding how this tool works and what configurations are required is important for real exam scenarios.
Another essential lab is performing a system copy or system refresh. This lab tests the ability to clone or move a working SAP system from one AWS environment to another. It may involve using snapshots, AMIs, or AWS migration tools. It also provides experience with adjusting IP addresses, hostnames, and storage paths.
Database migration labs are also critical. Candidates should practice migrating SAP databases using tools such as AWS Database Migration Service, SAP SUM with DMO, and third-party replication tools. This helps build confidence in executing the migration phase of SAP projects with minimal disruption.
Networking labs allow candidates to simulate complex SAP environments. This may include configuring a VPC with multiple subnets, NAT gateways, security groups, and VPN connectivity. Proper network configuration is foundational for SAP workloads to function reliably and securely in the cloud.
Backup and restore labs ensure candidates understand how to protect SAP systems running on AWS. Exercises should include setting up snapshot schedules, creating backup plans using AWS Backup, and performing recovery simulations. These skills are essential for business continuity and data integrity.
High-availability labs are particularly valuable. Candidates should simulate failover scenarios using clustered SAP systems across Availability Zones, test RTO and RPO objectives, and evaluate system performance under failure conditions. Tools such as AWS Elastic Load Balancing and Amazon Route 53 can help in implementing resilient architectures.
Monitoring and alerting labs provide experience with system health checks. Candidates should configure CloudWatch alarms, analyze logs using Amazon CloudWatch Logs, and use Amazon SNS for alert distribution. SAP-specific monitoring through Solution Manager should also be practiced when possible.
By completing a variety of labs, candidates gain the confidence and competence needed to handle any exam scenario. The AWS Certified: SAP on AWS – Specialty exam places a strong emphasis on practical experience, and real-world labs are the best way to build that foundation.
Practice Questions and Exam Strategy
Practice questions play a significant role in exam readiness. They help candidates assess their understanding, get familiar with question formats, and identify areas for improvement. Most practice questions mimic the actual exam style, which includes multiple-choice and multiple-response formats.
The first step is to review practice questions that are categorized by exam domain. This allows candidates to target specific weaknesses. For example, if a candidate struggles with migration topics, they can focus on that area until they feel confident. Understanding why a particular answer is correct or incorrect is just as important as selecting the correct answer.
Time management is critical during the exam. With 220 minutes to complete the exam, candidates have ample time, but it’s important to pace oneself. One effective strategy is to first answer the questions that are clearly understood, mark the uncertain ones, and revisit those at the end. This prevents getting stuck early in the test.
Eliminating incorrect answers is a valuable technique. Often, multiple-response questions include distractors that are clearly out of scope or incompatible with AWS or SAP best practices. Narrowing down choices makes it easier to make informed decisions.
Reading the question carefully is essential. Many questions include conditional statements such as “which option is MOST cost-effective” or “which approach BEST meets business requirements.” These modifiers guide the choice. Missing these keywords may result in selecting technically correct but contextually incorrect answers.
Mock exams should be taken in a quiet, exam-like environment. This helps build mental endurance and reduces anxiety on the actual test day. Completing full-length mock exams simulates the pressure of a real test and helps in identifying stamina issues or time-consuming topics.
Reviewing answers after completing mock exams is important. Candidates should document which questions they missed, why they chose the wrong answer, and what the correct rationale is. This review process ensures continuous improvement and builds a deeper understanding of key concepts.
Understanding the exam blueprint and domain weightage helps prioritize study time. Domains with more weight should be given more attention. However, even low-weight domains must not be neglected, as questions can still be complex and highly detailed.
Final Thoughts
Achieving the AWS Certified: SAP on AWS – Specialty certification demonstrates advanced skills in designing, deploying, migrating, and operating SAP workloads on AWS. Candidates who earn this certification are recognized as cloud professionals capable of handling critical business systems in complex, hybrid, or cloud-native environments.
On the day of the exam, it’s important to stay calm and focused. A good night’s rest, a quiet environment, and a clear mind contribute to better concentration and recall. Candidates should ensure a stable internet connection if taking the exam online and follow all exam policies and identification requirements.
During the exam, it is helpful to use the marking feature to flag questions that need a second look. Trusting your first instinct is often wise, but returning to marked questions with fresh eyes may reveal overlooked details.
If a question seems unfamiliar, try relating it to a real-world scenario encountered during practice. Drawing parallels between the question and practical experience often clarifies what the best answer might be.
Post-exam, candidates will receive preliminary results immediately or within a few days. If successful, they can proudly add the certification to their professional credentials. If not, the feedback provided will guide further preparation for the next attempt.
Ultimately, success in the AWS Certified: SAP on AWS – Specialty exam comes from a combination of deep technical knowledge, extensive hands-on experience, and careful preparation. Candidates who approach the exam with discipline and curiosity are well-positioned to earn this prestigious credential and advance their careers in cloud and SAP architecture.