In this post, we introduce an automated, GitOps-driven approach to resource optimization in Amazon EKS using AWS services such as Amazon Managed Service for Prometheus and Amazon Bedrock. The solution helps optimize Kubernetes resource allocation through metrics-driven analysis, pattern-aware optimization strategies, and automated pull request generation while maintaining GitOps principles of collaboration, version control, and auditability.| Amazon Web Services
One of the most common requests we hear from customers is, “help me decide which container service to use.” We recommend that most teams begin by selecting a container solution with the attributes most aligned to their application requirements or operational preferences. This post covers some of the critical decisions involved in choosing between AWS […]| Amazon Web Services
Before deploying Spegel read the compatibility section to make sure that the Kubernetes flavor of your choosing is supported or requires specific configuration to work. Deploying Use the Helm chart to deploy Spegel into your Kubernetes cluster. Refer to the Helm Chart for detailed configuration documentation. CLI To deploy Spegel with the Helm CLI run the command. helm upgrade --create-namespace --namespace spegel --install spegel oci://ghcr.io/spegel-org/helm-charts/spegel Flux To deploy Spe...| spegel.dev
This blog post was authored by Robert Northard, Principal Container Specialist SA, Eric Chapman, Senior Product Manager EKS, and Elamaran Shanmugam, Senior Specialist Partner SA. Introduction Amazon Elastic Kubernetes Service (Amazon EKS) Hybrid Nodes transform how you run generative AI inference workloads across cloud and on-premises environments. Extending your EKS cluster to on-premises infrastructure allows you […]| Amazon Web Services
In this post, we demonstrate how to deploy the DeepSeek-R1-Distill-Qwen-32B model using AWS DLCs for vLLMs on Amazon EKS, showcasing how these purpose-built containers simplify deployment of this powerful open source inference engine. This solution can help you solve the complex infrastructure challenges of deploying LLMs while maintaining performance and cost-efficiency.| Amazon Web Services
In this post, we dive deep into cluster networking configurations for Amazon EKS Hybrid Nodes, exploring different Container Network Interface (CNI) options and load balancing solutions to meet various networking requirements. The post demonstrates how to implement BGP routing with Cilium CNI, static routing with Calico CNI, and set up both on-premises load balancing using MetalLB and external load balancing using AWS Load Balancer Controller.| Amazon Web Services
At re:Invent 2020, we announced the general availability of Amazon EMR on Amazon EKS, a new deployment option for Amazon EMR that allows you to automate the provisioning and management of open-source big data frameworks on Amazon Elastic Kubernetes Service (Amazon EKS). With Amazon EMR on EKS, you can now run Spark applications alongside other […]| Amazon Web Services
We’re excited to announce that Amazon Elastic Kubernetes Service (Amazon EKS) now supports up to 100,000 worker nodes in a single cluster, enabling customers to scale up to 1.6 million AWS Trainium accelerators or 800K NVIDIA GPUs to train and run the largest AI/ML models. This capability empowers customers to pursue their most ambitious AI […]| Amazon Web Services
In the world of cloud computing and container orchestration, Kubernetes and AWS (Amazon Web Services) are two prominent players that often come up in discussions. While both are essential for modern application deployment and management, they serve different purposes and have unique characteristics. This blog aims to explore the similarities and differences between Kubernetes and […]| Collabnix
In this post, we explore the Amazon Bedrock baseline architecture and how you can secure and control network access to your various Amazon Bedrock capabilities within AWS network services and tools. We discuss key design considerations, such as using Amazon VPC Lattice auth policies, Amazon Virtual Private Cloud (Amazon VPC) endpoints, and AWS Identity and Access Management (IAM) to restrict and monitor access to your Amazon Bedrock capabilities.| Amazon Web Services
This blog post was jointly authored by Carlos Santana, Sr. Solution Architect, Containers; Sriram Ranganathan, Sr. Product Manager, Kubernetes; Sabari Sawant, Product Marketing Manager, Kubernetes; and Frank Carta, Sr. GTM specialist, Containers. As organizations grow their Kubernetes infrastructure across AWS Regions and accounts, they face increasing challenges in maintaining oversight of their Kubernetes clusters. Without […]| Amazon Web Services
Amazon EMR on Amazon EKS makes it easy to run Apache Spark on Amazon Elastic Kubernetes Service.| Amazon Web Services, Inc.
Learn how to save on infrastructure costs for your OpenFaaS functions on AWS EKS with Karpenter cluster autoscaling.| OpenFaaS - Serverless Functions Made Simple
Deploying containerized applications on AWS involves a critical decision: Should you manage Kubernetes yourself on EC2 instances, or leverage Amazon’s managed Elastic Kubernetes Service (EKS)? This choice significantly affects your organization’s operational efficiency, cost management, and scalability. By exploring the key differences between self-managed Kubernetes and EKS, you can make an informed decision tailored to […]| Collabnix
Iceberg AWS Integrations🔗| iceberg.apache.org
Discover the price performance and sustainability benefits of Graviton4 with Amazon EC2 R8g instances, ideal for memory-intensive workloads.| Amazon Web Services
This post was co-written with Luke Sudgen, Lead DevOps Engineer Post Trade, and Padraig Murphy, Solutions Architect Post Trade, from London Stock Exchange Group. In this post, we’ll discuss some failure scenarios that were tested by London Stock Exchange Group (LSEG) Post Trade Technology teams during a chaos engineering event supported by AWS. Chaos engineering […]| Amazon Web Services
Guide for deploying Grafana on Kubernetes| Grafana Labs
Amazon GuardDuty is a threat detection service that monitors for malicious activity and anomalous behavior to protect AWS accounts, workloads, and data.| Amazon Web Services, Inc.
Learn what changes we’ve made for scaling to tens of thousands of functions per installation| OpenFaaS - Serverless Functions Made Simple
Amazon's cloud regions designed to host sensitive data, regulated workloads, and address the most stringent U.S. government security and compliance requirements. AWS GovCloud (US) is available to vetted government customers and organizations in government-regulated industries that meet AWS GovCloud (US) requirements.| Amazon Web Services, Inc.
Explore the product details, benefits, and feature of Inf1 instances that deliver high performance and lowest cost machine learning inference in the cloud. Inf1 instances are built from the ground up to support machine learning inference applications.| Amazon Web Services, Inc.
June 20 2023: The wording in this post has been updated to avoid confusion around the use of wildcards in the principal element of an AWS Identity and Access Management (IAM) trust policy statement. November 3, 2022: We updated this post to fix some syntax errors in the policy statements and to add additional use […]| Amazon Web Services