AWS Lambda functions running on AWS Graviton processors can deliver significant cost savings and performance improvements for your cloud infrastructure. By migrating from x86 to ARM64 architecture, organizations can optimize their serverless computing strategy. Why Graviton Matters for Lambda Functions Graviton-based Lambda functions offer compelling advantages: Performance and Cost Benefits AWS Graviton processors, based on…
Azure offers multiple virtual machine series with varying performance and cost characteristics. Upgrading from older GS series machines to newer Esv5 or Mv3 series can significantly reduce cloud infrastructure expenses while improving computational performance. Detailed Explanation Why This Policy Matters Older Azure VM series like the GS machines often have higher costs and less efficient…
Database engine versions that reach end-of-standard support can significantly increase operational costs for organizations running Amazon RDS instances. Upgrading to a newer database engine version can help eliminate additional extended support fees while improving performance, security, and overall database efficiency. Why This Policy Matters Extended support for older database engine versions comes with substantial financial…
Upgrade Azure Ls series virtual machines to Lsv2 series to improve price performance and reduce cloud infrastructure costs with newer processor technology. Why Upgrade Azure VM Series Azure’s Lsv2 series virtual machines offer significant advantages over the original Ls series, providing: Cost Optimization Potential Upgrading from Ls to Lsv2 series can deliver meaningful cost savings….
Identify and remove unattached Google Compute Engine persistent disks to eliminate unnecessary cloud storage costs and optimize cloud resource management. Why Unattached Disks Matter Unattached disks are persistent storage volumes in Google Cloud that exist without being connected to any active compute instance. These orphaned disks typically accumulate through: When instances are deleted, Google Cloud…
Running outdated Amazon Elastic Kubernetes Service (EKS) clusters can significantly increase your cloud infrastructure expenses. Extended support for older Kubernetes versions comes with substantial cost implications that can be easily avoided through proactive version upgrades. Policy Overview Key Points: Detailed Explanation Why This Policy Matters Amazon EKS imposes additional charges for extended support on older…
In cloud infrastructure management, optimizing database backup strategies can significantly reduce unnecessary costs. Non-production environments often carry unnecessary redundancy that drives up cloud spending without providing critical business value. Why Geo-Redundant Backup Cost Optimization Matters Geo-redundant backups provide data durability across multiple geographic regions, which is critical for production environments. However, for non-production databases like…
Azure’s standard A series virtual machines are older generation instances that can be significantly less cost-effective compared to the newer Av2 series. Upgrading to Av2 machines offers improved price performance, better processor technology, and potential cost savings of up to 20% while maintaining or improving computational capabilities. Why Upgrading Matters The Av2 series provides substantial…
Amazon ElastiCache r5 family nodes offer significant performance improvements and cost savings compared to older generations. By upgrading to the latest node types, organizations can optimize their in-memory caching infrastructure while reducing overall cloud spending. Why This Policy Matters The R5 generation of ElastiCache nodes represents a substantial leap forward in compute and networking capabilities:…
Amazon ElastiCache provides performance and cost optimization opportunities by upgrading to the latest generation m-family nodes. By migrating from older generation instances to m5 nodes, organizations can achieve significant computational improvements and cost savings. Why Upgrading ElastiCache Node Generations Matters When considering infrastructure cost optimization, upgrading ElastiCache nodes represents a strategic opportunity to: Detailed Explanation…
Amazon ElastiCache t3 nodes offer significant performance improvements and cost savings compared to older generations. By upgrading from legacy t1 nodes to newer t3 instances, organizations can achieve better price-to-performance ratios while optimizing cloud infrastructure costs. Detailed Explanation Why This Policy Matters Upgrading ElastiCache node generations is crucial for several key reasons: Cost Reduction Potential…
Migrate Amazon OpenSearch clusters from t2 to t3 instances to leverage improved performance, better CPU credits, and support for gp3 storage at the same price point. Why This Policy Matters Performance and Cost Efficiency Upgrading to t3 instances provides critical advantages: Potential Cost Savings Organizations can realize significant benefits: Implementation Guide Infrastructure-as-Code Example (Terraform) Manual…