Good morning team and good morning all. Hello, this is Gopi and today we are discussing about and I'm going to give a presentation on SAP BW system to migrate to AWS cloud and that AWS cloud, the transformation with enhanced performance and scalability. So basically this presentation outlines a comprehensive strategy for migrating SAP BW system to AWS. Leveraging data driven insight and proven best practices to achieve enhanced performance, scalability, and cost efficiency. This session offers actionable insights, including a real world example and data driven results, empowering organizations to confidently embark on their cloud migration journey. So what is the understanding our last A PBW landscape data volume and complexity, as well as dependencies and integration? First, we are going to talk about conduct a comprehensive assessment of our SAP data ecosystem and S-A-P-B-W ecosystem. Evaluating inate data volumes that frequently span for terabyte two petabyte and critical analysis helps identify the precise cloud infrastructure requirements. To support our organization's complex data management needs. The second option is dependencies and integration. Meticulously document and analyze dependencies across our SAP BW system. Include, including interstate connections with ERP platforms, diverse data sources, and enterprise reporting tools. This holistic mapping ensures a static, strategic, frictionless migration and integration within the AWS Cloud environment. So leveraging AWS for a seamless migration, AWS Migration Hub, and second option is AWS Server Migration Service, that is AWS SMS, and the third option is AWS Database Migration Service, like AWS DMS. So first, when we, so we are, if we are going to first option or just rush our entire migration strategy through AWS Migration Hub, offering a unified platform that provide a real time visibility, tracks, progress and enable cross team collaboration for a streamlined transformation. If I go with AWS Server Managed Migration Service, Automatic and accelerate your server migrate with AWS Server Migration Service, reducing a manual intervention, minimizing potential downtime, and ensuring a smooth risk migrated transition to the cloud infrastructure. The third one is AWS Data Migration Service, AWS DMS. Execute a precision driven database migration using AWS Database Migration Service, enabling zero downtime replication, data integrity presentation, and seamless transformation of our SAP database ecosystem. optimizing the data transfer for a large data sets. If you're using image and S3 for data storage. Or AWS data direct connect high speed transfers. So if I go with the S3 data storage utilize image and S3 advanced object storage architecture to securely host SAP BW data sets Providing petabyte two scale, scale storage with 99.9999% of durability, automating data replication, and storage options for optimal cost management. If you go with AWS Direct connect for it, high speed transformation. Implement AWS Direct Connect to establish a private dedicated network connection with a consistent 1 2 10 gb. BS bandwidth, enabling encrypted low latency data migration and reducing network complexity compared to traditional internet based transfers. enhancing performance in the AWS environment. Imagine EWS. leveraging, leverage provisional IOPS EBS volumes to deliver high performance and low latency BW workloads, ensuring constant IO performance and rapid data retrieval for complex analytical process. Optimized EC2 instance. Strategically select a memory optimized or computer optimized EC2 instance that align precisely with our SAP VW concept, computationally complexity, enabling scalable performance and cost efficient resource allocation. Ensuring scalability and reliability. What is the high performance infrastructure or dynamic resource optimization? What is a high performance infrastructure? Generally, if big systems like SAP VW systems, we are going to use X large EC2 instance strategically designated to accelerate complex SAP VW analytical workloads, delivering a robust processing capabilities and expensive memory resources. for sophisticated data queries. If we go with the dynamic resource optimization, deploy AWS autoscaling to intelligently and automatically modulate EC2 instance capacity in real time, dynamically reporting to fluctuating workloads demand while maintaining peak performance and cost efficiency. Optimizing SAP BW for cloud performance, cloud specific configuration, tune your SAP BW parameters. For cloud specific configurations, taking advantage of AWS services for features to enhance performance and reduce resource consumption. Second one is query optimization. Optimize our query SAP BW queries to minimize processing time and improve response times, ensuring efficient data retrieval and analysis purpose. Cost reduction. Optimize our AWS resource. the first one is, performance testing, the second one is, utilization to reduce overall cost, leveraging cost effective EC2 instance, and storage option to minimize expense. Regardless, post migration testing. Once the migration is complete, then we are going to do that different type of testing. The first one is functional testing, second one is performance testing, third one is, Security testing. Generally, the functional testing functional team will validate the core functionalities such as a data loading, reporting and data analysis operated as expected in the AWS environment. Also, once the functional testing completed, we are going to deal with performance testing. Generally, the performance, like the SAP BW system, in any organization, it's a high system, high volume, high resources system. Once the migrating completely, we are going to do that performance testing in AWS environment, perform performance tester under various load scenarios to ensure That the migrating system can handle with anticipated workload demands the final security testing. So generally SAP BW system and ERP system, any ERP system is going for audit for that purpose. Various security of our migrated SAP BW system in the AWS environment and ensuring data integrity and confidentiality. Embracing the power of AWS for SAP BW, enhance its scalability, leverage us. AWS elastic infrastructure to scale our S-A-P-B-W system up and down, based on our changing analytical needs. Ensure optimal resource allocation, increased performance, utilize the AWS High Performance Computing resources and optimize slower resolution to significantly improve the performance of S-A-P-B-W system. Register the cost benefit from AWS. Cost effective price models and optimized resource utilization to achieve significant cost saving compared to on premises environment. Sorry, key takeaways and actionable insights. The first one is strategic planning. The second one is leverage AWS services, and the third one is focused on performance. If you go with first one, the strategic performance, a well defined migrating strategy is crucial for success, encompassing through assessment, data transfer, optimization, and performance tuning. Leverage of AWS services. Embrace AWS services like Migration Hub, DMS, and S3 to streamline the migration process and ensure data integrity. This leverage AWS service we already discussed in the previous slides. Focus on performance like optimize SAP BW system for cloud performance by implementing cloud specific configurations and leveraging high performance EC2 instance. The next step, embarking on our cloud journey. This presentation has provided a comprehensive overview of the next gen SAP BW migrating strategies. To take in the next steps, schedule a consultation with our team to discuss your specific requirements and develop customized plans for smooth and successful transactions. Thank you for your time. Thank you. Have a nice day.