9/25/2025, 12:00:00 AM ~ 9/26/2025, 12:00:00 AM (UTC)

Recent Announcements

Amazon Bedrock AgentCore Runtime, Browser, and Code Interpreter add support for VPC, AWS PrivateLink, CloudFormation, and tagging

Amazon Bedrock AgentCore Runtime, Browser, and Code Interpreter services now support Amazon Virtual Private Cloud (VPC) connectivity, AWS PrivateLink, AWS CloudFormation, and resource tagging, enabling developers to deploy AI agents with enhanced enterprise security and infrastructure automation capabilities. AgentCore Runtime enables you to deploy and scale dynamic AI agents securely using any framework, protocol, or model. AgentCore Browser enables web-based interactions such as form filling, data extraction, and QA testing, while AgentCore Code Interpreter provides secure execution of agent-generated code.\n With VPC support, you can now securely connect AgentCore Runtime, Browser, and Code Interpreter services to private resources such as databases, internal APIs, and services within your VPC without internet exposure. AWS PrivateLink provides private connectivity between your VPC and Amazon Bedrock AgentCore services, while CloudFormation support enables automated resource provisioning through infrastructure as code. Resource tagging allows you to implement comprehensive cost allocation, access control, and resource organization across your AgentCore deployments. Amazon Bedrock AgentCore is currently in preview and available in the following AWS Regions: US East (N. Virginia), US West (Oregon), Asia Pacific (Sydney), and Europe (Frankfurt). To learn more, see Configuring VPC for AgentCore and Use Interface VPC endpoints (AWS PrivateLink) with AgentCore. For CloudFormation resources, visit the AgentCore CloudFormation Reference, and to get started with tagging, see the Tagging AgentCore resources.

Amazon EC2 I7i instances now available in AWS Europe (Milan) and AWS US West (N. California)

AWS is announcing the availability of high performance Storage optimized Amazon EC2 I7i instances in AWS Europe (Milan) and US West (N. California) regions. Powered by 5th Gen Intel Xeon Processors with an all-core turbo frequency of 3.2 GHz, these new instances deliver up to 23% better compute performance and more than 10% better price performance over previous generation I4i instances. Powered by 3rd generation AWS Nitro SSDs, I7i instances offer up to 45TB of NVMe storage with up to 50% better real-time storage performance, up to 50% lower storage I/O latency, and up to 60% lower storage I/O latency variability compared to I4i instances.\n I7i instances offer compute and storage performance for x86-based storage optimized instances in Amazon EC2 ideal for I/O intensive and latency-sensitive workloads that demand very high random IOPS performance with real-time latency to access the small to medium size datasets. Additionally, torn write prevention feature support up to 16KB block sizes, enabling customers to eliminate database performance bottlenecks. I7i instances are available in eleven sizes - nine virtual sizes up to 48xlarge and two bare metal sizes - delivering up to 100Gbps of network bandwidth and 60Gbps of Amazon Elastic Block Store (EBS) bandwidth. To learn more, visit the I7i instances page.

Amazon Redshift Concurrency Scaling is now available in 10 additional AWS regions

Amazon Redshift Concurrency Scaling is now available in the AWS Africa (Cape Town), Asia Pacific (Hong Kong), Asia Pacific (Hyderabad), Asia Pacific (Jakarta), Asia Pacific (Osaka), Asia Pacific (Thailand), Europe (Milan), Middle East (Bahrain), Mexico (Central) and AWS GovCloud (US-West) regions. With the Amazon Redshift Concurrency Scaling feature, you can now support thousands of concurrent users and concurrent queries, with consistently fast query performance.\n Amazon Redshift Concurrency Scaling elastically scales query processing power to provide consistently fast performance for hundreds of concurrent queries. Concurrency Scaling resources are added to your Redshift cluster transparently in seconds, allowing for increased concurrency to process queries with minimal wait time. Amazon Redshift customers with an active Redshift cluster earn up to one hour of free Concurrency Scaling credits, which is sufficient for the concurrency needs of most customers. Concurrency scaling enables you to specify usage control, providing customers with predictable month-to-month costs, even during periods of fluctuating analytical demand. To enable Amazon Redshift Concurrency Scaling, set the Concurrency Scaling Mode to Auto in your Amazon Web Services Management Console. You can allocate Concurrency Scaling usage to specific user groups and workloads, control the number of Concurrency Scaling clusters that can be used, and monitor Amazon CloudWatch performance and usage metrics. To learn more about concurrency scaling including regional-availability, see our documentation and pricing page.

AWS Network Firewall enhances application layer traffic controls

AWS Network Firewall, a managed service that makes it easy to deploy essential network protections for your Amazon VPCs, now provides enhanced default rules to handle TLS client hellos, and HTTP requests split across multiple packets. This update introduces new application layer drop and alert established default stateful actions, enabling customers to maintain security controls while supporting modern TLS implementations and large HTTP requests.\n These enhancements help customers implement robust security policies without writing complex custom rules. Security teams can now effectively inspect and filter traffic where key information is segmented across multiple packets, while maintaining visibility through detailed logging options, making it easier to secure applications using modern protocols and encryption standards. This capability is available in all AWS Regions where AWS Network Firewall is supported. To learn more, refer to AWS Network Firewall service documentation.

Amazon EC2 C8gn instances are now available in additional regions

Starting today, Amazon Elastic Compute Cloud (Amazon EC2) C8gn instances, powered by the latest-generation AWS Graviton4 processors, are available in the AWS Region Europe (Frankfurt, Stockholm), Asia Pacific (Singapore). The new instances provide up to 30% better compute performance than Graviton3-based Amazon EC2 C7gn instances. Amazon EC2 C8gn instances feature the latest 6th generation AWS Nitro Cards, and offer up to 600 Gbps network bandwidth, the highest network bandwidth among network optimized EC2 instances.\n Take advantage of the enhanced networking capabilities of C8gn to scale performance and throughput, while optimizing the cost of running network-intensive workloads such as network virtual appliances, data analytics, CPU-based artificial intelligence and machine learning (AI/ML) inference. For increased scalability, C8gn instances offer instance sizes up to 48xlarge, up to 384 GiB of memory, and up to 60 Gbps of bandwidth to Amazon Elastic Block Store (EBS). C8gn instances support Elastic Fabric Adapter (EFA) networking on the 16xlarge, 24xlarge, 48xlarge, metal-24xl, and metal-48xl sizes, which enables lower latency and improved cluster performance for workloads deployed on tightly coupled clusters. C8gn instances are available in the following AWS Regions: US East (N. Virginia), US West (Oregon, N.California), Europe (Frankfurt, Stockholm), Asia Pacific (Singapore) To learn more, see Amazon C8gn Instances. To begin your Graviton journey, visit the Level up your compute with AWS Graviton page. To get started, see AWS Management Console, AWS Command Line Interface (AWS CLI), and AWS SDKs.

Research and Engineering Studio on AWS 2025.09 is now available

Today we’re announcing Research and Engineering Studio (RES) on AWS 2025.09, which brings support for fractional GPUs, simplified AMI management, and enhanced deployment flexibility. This release also expands regional availability to include four additional AWS commercial Regions.\n Research and Engineering Studio on AWS is an open source solution that provides a web-based portal for administrators to create and manage secure cloud-based research and engineering environments. RES enables scientists and engineers to access powerful Windows and Linux virtual desktops with pre-installed applications and shared resources, without requiring cloud expertise. Version 2025.09 adds support for Amazon EC2 g6f instances, enabling GPU fractionalization for more efficient resource utilization in graphics-intensive workloads. The release also introduces Systems Manager Parameter Alias support for AMI IDs, simplifying the management of project-specific images, and enables integration with existing Amazon Cognito user pools for streamlined authentication setup during deployment. Administrators can now also customize CIDR ranges in the AWS CloudFormation external resources template for better network planning and integration with existing resources. This release expands regional availability to include Asia Pacific (Osaka), Asia Pacific (Jakarta), Middle East (UAE), and South America (São Paulo). To learn more about RES 2025.09, including detailed release notes and deployment instructions, visit the Research and Engineering Studio documentation or check out the RES GitHub repository.

Billing View now supports cost management data from multiple organizations

Today, AWS announces the general availability of new capabilities within AWS Billing and Cost Management that enable customers to manage their AWS spend across multiple organizations through a single AWS account. Customers can now share custom billing views containing cost management data with other AWS accounts outside their organization. Additionally, customers can combine multiple custom billing views to create new consolidated views. These features enable FinOps teams to create custom billing views containing cost management data for multiple organizations. These views can then be used to access cost management data across multiple organizations through Cost Explorer or set up budgets to monitor AWS costs.\n With the new custom billing view capabilities, you can create consolidated views of cost management data spanning multiple organizations that can be accessed using AWS Cost Explorer and AWS Budgets, allowing you to monitor, analyze, and forecast spending patterns across multiple organizations. This helps customers operating multiple subsidiaries or business units as separate organizations on AWS manage their AWS spend through a single AWS account.

Support for custom billing views containing cost management data for multiple organizations is available in all AWS Regions, excluding AWS GovCloud Regions and the AWS China Regions. To get started with custom billing views, visit Billing View within the Cost Management Preferences page in the AWS Billing and Cost Management console and create a new custom billing view. To get started visit the Billing View user guide.

Amazon CloudWatch now supports resource tags when monitoring vended metrics

Today, Amazon CloudWatch announces support for a new tag-based telemetry experience to help customers monitor their metrics and set up their alarms using AWS resources tags. This new capability simplifies monitoring cloud infrastructure at scale by automatically adapting alarms and metrics analysis as resources change. DevOps engineers and cloud administrators can now create dynamic monitoring views that align with their organizational structure using their existing AWS resource tags.\n Tag-based querying filtering eliminates the manual overhead of updating alarms and dashboards after deployments, freeing teams to focus on innovation rather than maintenance. This provides faster, targeted insights that match how teams organize their systems. Teams can query AWS default metrics using their existing resource tags, making it easier to troubleshoot issues and maintain operational visibility while focusing on core business initiatives. CloudWatch tag-based filtering is available in the following regions: US East (N. Virginia); US East (Ohio); US West (N. California); US West (Oregon); Asia Pacific (Tokyo); Asia Pacific (Seoul); Asia Pacific (Singapore); Asia Pacific (Sydney); Asia Pacific (Mumbai); Asia Pacific (Osaka); Canada (Central); Europe (Frankfurt); Europe (Ireland); Europe (London); Europe (Paris); Europe (Stockholm) and South America (São Paulo). To get started, simply enable tag enriched telemetry with one click in the Amazon CloudWatch Settings, or through the AWS Command Line Interface (AWS CLI), and AWS SDKs to use your existing AWS resource tags to monitor your infrastructure. Learn more on the Amazon CloudWatch documentation page.

AWS X-Ray introduces Adaptive Sampling for automatic optimized error detection

AWS X-Ray, a service that helps developers analyze and debug distributed applications by providing request tracing capabilities, now offers adaptive sampling to solve a common challenge for DevOps teams, Site Reliability Engineers (SREs), and application developers. These customers often face a difficult trade-off: setting sampling rates too low risks missing critical traces during incidents, while setting them too high unnecessarily increases observability costs during normal operations.            \n Today, with adaptive sampling, you can automatically adjust sampling rates within user-defined limits to ensure you capture the most important traces precisely when you need them. This helps development teams reduce mean time to resolution (MTTR) during incidents by providing comprehensive trace data for root cause analysis, while maintaining cost-efficient sampling rates during normal operations. Adaptive sampling supports two approaches, Sampling Boost and Anomaly Span Capture. These can be applied independently or can be combined together. Customers can use Sampling Boost to temporarily increase sampling rates when anomalies are detected to capture complete traces and Anomaly Span Capture to ensures anomaly-related spans are always captured, even when the full trace isn’t sampled. Adaptive sampling is currently available in all commercial regions where AWS X-Ray is offered. For more information, see the X-Ray documentation. and CloudWatch pricing page for X-ray pricing details.

Amazon EC2 Allowed AMIs setting adds new parameters for enhanced AMI governance

Allowed AMIs, the Amazon EC2 account-wide setting that enables you to limit the discovery and use of Amazon Machine Images (AMIs) within your Amazon Web Services accounts, adds support for four new parameters — marketplace codes, deprecation time, creation date and AMI names.\n Previously, you could specify accounts or owner aliases that you trust in your Allowed AMIs setting. Starting today, you can use the four new parameters to define additional criteria to further reduce risk of inadvertently launching instances with non-compliant or unauthorized AMIs. Marketplace codes can be provided to limit the use of Marketplace AMIs, the deprecation time and creation date parameters can be used to limit the use of outdated AMIs, and AMI name parameter can be used to restrict usage to AMIs with specific naming pattern. You can also leverage Declarative Policies to configure these parameters to perform AMI governance across your organization. These additional parameters are now supported in all AWS regions including AWS China (Beijing) Region, operated by Sinnet, and AWS China (Ningxia) Region, operated by NWCD, and AWS GovCloud (US). To learn more, please visit the documentation.

You can now preview Amazon S3 Tables in the S3 console

You can now preview your Amazon S3 Tables directly in the S3 console without having to write a SQL query. You can view the schema and sample rows of your tables stored in S3 Tables to better understand and gather key information about your data quickly, without any setup.\n You can preview tables in the S3 console in all AWS Regions where S3 Tables are available. You only pay for S3 requests to read a portion of your table. See Amazon S3 pricing and the S3 User Guide for pricing details and to learn more.

PostgreSQL 18.0 is now available in Amazon RDS Database Preview Environment

Amazon RDS for PostgreSQL 18.0 is now available in the Amazon RDS Database Preview Environment, allowing you to evaluate the latest PostgreSQL features while leveraging the benefits of a fully managed database service. This preview environment provides you a sandbox where you can test applications and explore new PostgreSQL 18.0 capabilities before they become generally available.\n PostgreSQL 18.0 includes “skip scan” support for multicolumn B-tree indexes and improves WHERE clause handling for OR and IN conditions. It introduces parallel Generalized Inverted Index (GIN) builds and updates join operations. It now supports Universally Unique Identifiers Version 7 (UUIDv7), which combines timestamp-based ordering with traditional UUID uniqueness to boost performance in high-throughput distributed systems. Observability improvements show buffer usage counts and index lookups during query execution, along with per-connection I/O utilization metric. Please refer to the RDS PostgreSQL release documentation for more details.

Amazon RDS Database Preview Environment database instances are retained for a maximum period of 60 days and are automatically deleted after the retention period. Amazon RDS database snapshots that are created in the preview environment can only be used to create or restore database instances within the preview environment. You can use the PostgreSQL dump and load functionality to import or export your databases from the preview environment.

Amazon RDS Database Preview Environment database instances are priced as per the pricing in the US East (Ohio) Region.

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