12/10/2024, 12:00:00 AM ~ 12/11/2024, 12:00:00 AM (UTC)

Recent Announcements

Amazon MQ now supports AWS PrivateLink

Amazon MQ now supports AWS PrivateLink (interface VPC endpoint) to connect directly to the Amazon MQ API in your virtual private cloud (VPC) instead of connecting over the internet.\n When you use AWS PrivateLink, communication between your VPC and Amazon MQ API is conducted entirely within the AWS network, providing an optimized secure pathway for your data. An AWS PrivateLink endpoint connects your VPC directly to the Amazon MQ API. The instances in your VPC don’t need public IP addresses to communicate with the Amazon MQ API. To use Amazon MQ through your VPC, you can connect from an instance that is inside your VPC, or connect your private network to your VPC by using an AWS VPN option or AWS Direct Connect. You can create an AWS PrivateLink to connect to Amazon MQ using the AWS Management Console or AWS Command Line Interface (AWS CLI) commands. To learn more about using AWS PrivateLink, see the Amazon MQ developer guide, Creating an Interface Endpoint, and the Amazon MQ release notes.

Amazon Simple Email Services (SES) announces Deterministic Easy DKIM

Amazon Simple Email Services (SES) announces the availability of Deterministic Easy DKIM (DEED), a new form of global identity which simplifies the use of DomainKeys Identified Mail (DKIM) management for SES first-party sender customers and independent solution vendors (ISVs). DEED expands the existing Easy DKIM solution from SES and enables it to work across all commercial AWS Regions, instead of being limited to just one. While Easy DKIM required domain name system (DNS) lookups to be made in the Region where the identity was verified, DEED expands that capability so customers can use the same identity across multiple Regions without making any DNS setup changes. Customers now have less risk of manual DNS management errors.\n At launch, the main use case for DEED is for large customers with multinational operations and a need to have shared access to core domain identities for SES sending from multiple worldwide subsidiaries. ISVs also need to be able to operate smoothly on behalf of their customers, including when moving activity into new Regions. DEED allows them to make those changes without requiring the primary domain owner to make DNS changes themselves. SES DEED is available across all commercial AWS Regions where SES sending is already available. A new blog post is available here to discuss the feature in greater detail. Click here for more information about Deterministic Easy DKIM and to begin the simple, guided onboarding process for initial setup.

AWS IoT Core for LoRaWAN announces new feature enhancements

Today, AWS announces three new updates to AWS IoT Core for LoRaWAN: IPv6 support, enhanced Firmware Update Over-The-Air (FUOTA) with advanced logging capabilities, and console-based gateway firmware updates, improving fleet management, scalability, reliability, and user experience for Internet of Things (IoT) applications.\n AWS IoT Core for LoRaWAN is a fully-managed cloud service that makes it easy to connect, manage, and monitor wireless devices that use low-power, long-range wide area network (LoRaWAN) technology. With the new feature updates, developers can now assign IPv6 address to their LoRaWAN-based devices and gateways and coexist with other IPv4 devices in the same network, simplifying network configurations and management, while improving the security posture of their solutions. The FUOTA enhancements enable selective multicast transmission to specific gateways, reducing airtime competition and file corruption risks, while advanced logging capabilities monitor FUOTA progress, file retrieval, transition status, and errors. The AWS IoT Core console now provides a streamlined interface for managing firmware updates for LoRaWAN gateways using Configuration and Update Server (CUPS protocol), simplifying firmware uploads, update scheduling, and progress tracking. These updates are available in all AWS IoT Core for LoRaWAN-supported regions. For detailed guidance and implementation instructions, visit the AWS IoT Core for LoRaWAN Developer Guide.

Amazon Bedrock Guardrails reduces pricing by up to 85%

Amazon Bedrock Guardrails enable you to implement safeguards for your generative AI applications based on your use cases and responsible AI policies. Starting today, we are excited to announce that Amazon Bedrock Guardrails are even more cost-effective with reduced pricing by up to 85%.\n Amazon Bedrock Guardrails help you build safe, generative AI applications by filtering undesirable content, redacting personally identifiable information (PII), and enhancing content safety and privacy. You can configure policies for content filters, denied topics, word filters, PII redaction, contextual grounding checks, and Automated Reasoning checks (preview), to tailor safeguards to your specific use cases and responsible AI policies. We are reducing the prices for content filters by 80% to $0.15 per 1,000 text units and for denied topics by 85% to $0.15 per 1,000 text units. With this price reduction, Bedrock Guardrails will help you accelerate the use of responsible AI across all your generative AI applications. These pricing changes are already in effect starting December 1, 2024 in all AWS regions where Amazon Bedrock Guardrails is supported today. To learn more about Amazon Bedrock Guardrails, see the product page and the technical documentation.

Amazon RDS for SQL Server Supports new custom parameters for native backup and restore

Amazon RDS for SQL Server now offers enhanced control over backup and restore operations with new custom parameters. This update allows database administrators to fine-tune their processes, potentially improving efficiency and reducing operation times. The new parameters are available for the rds_backup_database, rds_restore_database, and rds_restore_log stored procedures.\n You can now specify the BLOCKSIZE, MAXTRANSFERSIZE, and BUFFERCOUNT parameters for backup and restore operations. These granular controls can help optimize performance based on your specific database characteristics and workload patterns. These customizable parameters are particularly useful when customer backups are incompatible with the default settings used by Amazon RDS for SQL Server. By allowing users to fine-tune these performance-related factors, the feature provides greater flexibility to accommodate unique database requirements and operating environments. Customers can specify these new parameters in all AWS commercial Regions where Amazon RDS for SQL Server databases are available, including the AWS GovCloud (US) Regions. Amazon RDS makes it simple to set up, operate, and scale SQL Server deployments in the cloud. See Amazon RDS for SQL Server Pricing for up-to-date pricing of instances, storage, data transfer and regional availability.

Introducing Amazon EC2 C6in and M6in Instances in Dallas Local Zone

AWS announces the general availability of Amazon Elastic Compute Cloud (Amazon EC2) C6in and M6in instances in Dallas Local Zone. These instances are powered by 3rd Generation Intel Xeon Scalable processors with an all-core turbo frequency of up to 3.5 GHz. They are x86-based general purpose and compute-optimized instances offering up to 200 Gbps of network bandwidth. The instances are built on AWS Nitro System, which is a dedicated and lightweight hypervisor that delivers the compute and memory resources of the host hardware to your instances for better overall performance and security. You can take advantage of the higher network bandwidth to scale the performance for a broad range of workloads running on Amazon EC2.\n AWS Local Zones are a type of AWS infrastructure deployment that places compute, storage, database, and other select services closer to large population, industry, and IT centers where no AWS Region exists. You can use Local Zones to run applications that require single-digit millisecond latency for use cases such as real-time gaming, hybrid migrations, media and entertainment content creation, live video streaming, engineering simulations, and AR/VR at the edge. To get started, you can enable AWS Dallas Local Zone us-east-1-dfw-2a, in the Amazon EC2 Console or the ModifyAvailabilityZoneGroup API, and deploy C6in and M6in instances. To learn more, visit AWS Local Zones overview page and see Amazon EC2 Instance types.

AWS Resource Groups now supports 405 more resource types

Today, AWS Resource Groups is adding support for an additional 405 resource types for tag-based Resource Groups. Customers can now use Resource Groups to group and manage resources from services such as Bedrock, Chime, and Quicksight.\n AWS Resource Groups enables you to model, manage and automate tasks on large numbers of AWS resources by using tags to logically group your resources. You can create logical collections of resources such as applications, projects, and cost centers, and manage them on dimensions such as cost, performance, and compliance in AWS services such as myApplications, AWS Systems Manager and Amazon CloudWatch. Resource Groups expanded resource type coverage is available in all AWS Regions, including the AWS GovCloud (US) Regions. You can access AWS Resource Groups through the AWS Management Console, the AWS SDK APIs, and the AWS CLI. For more information about grouping resources, see the AWS Resource Groups user guide and the list of supported resource types. To get started, visit AWS Resource Groups console.

Amazon IVS Introduces Thumbnails Recording for Real-Time Streaming

Starting today, you can record thumbnail images in Amazon Interactive Video Service (Amazon IVS) Real-Time Streaming. When thumbnail recording is enabled, Amazon IVS automatically generates images at the interval you configure and stores them in the Amazon S3 bucket you select. Thumbnails can be used for preview images in content discovery or as part of content moderation workflows. There is no additional cost for enabling thumbnail recording, but standard Amazon S3 storage and request costs apply.\n Amazon IVS is a managed live streaming solution that is designed to make low-latency or real-time video available to viewers around the world. Video ingest and delivery are available over a managed network of infrastructure optimized for live video. Visit the AWS region table for a full list of AWS Regions where the Amazon IVS console and APIs for control and creation of video streams are available. To learn more, read the Amazon IVS documentation.

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