This architecture is for building a serverless operational data lake for retail using AWS. It provides a scalable and efficient solution for storing and processing large volumes of data in a cost-effective manner.

AKS Baseline Cluster is an architecture for deploying and managing Kubernetes clusters on Azure using the AKS service.

This architecture is for integrating AKS (Azure Kubernetes Service) with Cosmos DB on the Azure cloud platform. It provides a solution for deploying containerized applications with Cosmos DB as the underlying database.

This architecture is for deploying and managing Apache Airflow environments using Terraform on Amazon Web Services (AWS) through Amazon Managed Workflows for Apache Airflow (MWAA).

This architecture is for exposing on-premise applications with Azure Application Gateway, as described in the blog post and Terraform repository provided.

This architecture is a highly available 3-tier architecture designed for deployment on AWS. It provides a scalable and resilient infrastructure for hosting web applications.

This architecture diagram depicts the setup of an AWS Auto Scaling Group (ASG) and Load Balancer (LB) within a Virtual Private Cloud (VPC) environment, utilizing multiple subnets for high availability and scalability.

This architecture is for an AWS Bastion, which provides secure remote access to resources in the AWS cloud. It acts as a gateway for accessing instances in private subnets.

AWS Carbon footprint architecture aims to measure and reduce the environmental impact of AWS cloud services.

The architecture shown in the pictures is for AWS Control Tower Account Factory, which enables automated and scalable account provisioning in AWS.

This architecture is for monitoring AWS costs using Brainboard, a cloud provider management tool. It provides real-time insights and analysis of AWS costs.

This architecture diagram represents the setup of an application on AWS Elastic Beanstalk, a cloud platform provided by AWS. The specific details and purpose of the architecture cannot be determined from the picture alone.

This architecture depicts an AWS instance and database setup, utilizing AWS as the cloud provider. The specific details and purpose of the architecture cannot be determined from the provided picture.

This architecture depicts an AWS instance running inside a Virtual Private Cloud (VPC) on the AWS cloud provider.

This architecture is for an AWS Landing Zone, which is a cloud environment setup that provides a foundation for deploying, managing, and securing workloads on AWS.

This architecture diagram depicts the setup of an AWS Load Balancer, which is used for distributing incoming network traffic across multiple servers to enhance performance and reliability.

This architecture is designed to enable the creation of segregated environments for Development, Staging, and Production in AWS, ensuring best practices in access control and resource management.

This architecture is for AWS Parallel Cluster, a cloud-based service provided by AWS. It allows users to easily set up and manage high-performance computing clusters for various applications and workloads.

This architecture diagram depicts the integration between AWS S3 and API Gateway for cloud storage and API management.

This architecture is a serverless architecture implemented on AWS, utilizing services provided by the cloud provider. It aims to provide a scalable and efficient solution for hosting applications and services.

This architecture diagram represents an Azure AKS (Azure Kubernetes Service) implementation using a hub and spoke model. It utilizes the cloud provider Azure and was created on September 2, 2023, at 3:20 AM.

This architecture diagram showcases the integration of Azure AKS (Azure Kubernetes Service) with Log Analytics for monitoring and managing containerized applications in the Azure cloud environment.

This architecture diagram represents the Azure API Management service, which is a cloud-based solution provided by Azure. It enables organizations to publish, manage, and secure APIs for their applications and services.

Azure Application Gateway is used to manage traffic to a Windows Web app deployed on Azure. The architecture provides a scalable and available solution for hosting web applications. Note: The picture provided is not visible. Please ensure that the image is accessible and try again.

The architecture depicted in the picture is a multi-region setup in Azure, utilizing load balancers, firewalls, availability sets, and virtual networks to create a resilient and scalable network infrastructure for hosting virtual machines.

This architecture represents the integration of Azure Data Factory with Synapse workspace, utilizing Azure as the cloud provider. It allows for seamless data orchestration and processing capabilities within the Azure ecosystem.

This architecture is for an Azure Data Landing Zone, which provides a cloud-based environment for data storage and processing.

This architecture is for an Azure disaster recovery multi-region deployment, ensuring high availability and data protection across multiple regions.

Azure Eventhub with Machine Learning is an architecture designed to leverage Azure's cloud platform for processing and analyzing data, specifically focused on event data, using machine learning algorithms.

This architecture diagram depicts an Azure Function app deployed on the Azure cloud platform. It showcases the integration of the app with Brainboard, a motherboard application.

From the picture, it appears to be an architecture for managing secrets and sensitive information using Azure Key Vault within the Azure cloud environment.

This architecture diagram showcases the usage of Azure Key Vault in a cloud environment, utilizing the services provided by Azure. The architecture ensures secure storage and management of sensitive information, such as cryptographic keys, certificates, and secrets.

This architecture is for setting up an Azure landing zone, which provides a standardized and scalable foundation for deploying resources in the Azure cloud environment.

This architecture is a baseline for an Azure landing zone, providing a standardized setup for cloud infrastructure on the Azure platform.

This architecture diagram depicts the monitoring of a Linux web app using Azure services. It showcases the integration of Azure monitoring tools to track the performance and status of the web app.

This architecture is for setting up an Azure multi-subscription landing zone, providing a centralized and scalable foundation for managing multiple Azure subscriptions.

This architecture diagram showcases the network and security components of an Azure cloud environment.

Azure Private Endpoints enable secure and private communication between Azure services and virtual networks.

The architecture depicted in the picture is for Azure Sentinel, a cloud-based security information and event management (SIEM) solution provided by Azure.

This architecture diagram illustrates the setup of a serverless application on Azure, utilizing the services provided by the cloud provider.

This architecture is for an Azure Storage Account, which is a cloud-based storage solution provided by Azure. It is used for storing and managing various types of data in the cloud.

Azure Synapse Analytics workspace is a cloud-based platform provided by Azure for data analytics and processing. It offers a comprehensive solution for ingesting, preparing, managing, and serving data for business intelligence and machine learning purposes.

This architecture diagram represents an Azure Terraform module for managing identity resources in the Azure cloud. It provides a centralized solution for creating and managing user identities, access controls, and authentication mechanisms within an Azure environment.

This architecture diagram showcases the configuration of Azure VMs with load balancing rules in an Azure cloud environment.

This architecture represents an Azure Virtual Network (VNET) with Network Security Groups (NSGs) and a sample rule. It is used for secure networking in the Azure cloud environment.

Azure vWan is an architecture designed for connecting and managing virtual networks in the Azure cloud environment.

This architecture diagram depicts the connection between an Azure WebApp backend and a MongoDB database hosted on the cloud platform.

The architecture depicted in the picture is for an Azure website hosted on the Azure cloud platform. It showcases the status of the website and provides a link to the motherboard application on Brainboard.

This architecture is for an Azure Windows virtual machine (VM) hosted on the Azure cloud platform. It is available for use and can be accessed through the provided motherboard link.

This architecture is for setting up an extended SQL Server Always On backup using Azure. It involves creating a virtual network, subnet, SQL Server virtual machine, and a Recovery Services Vault in Azure.

This architecture is for the CAF (Cloud Adoption Framework) modules provided by Azure. It enables users to easily deploy infrastructure using Terraform and provides resources such as modules, examples, and documentation.

This architecture diagram depicts a cross-account AWS S3 setup. It enables the storage and sharing of data across different AWS accounts using Amazon S3.

The architecture shown in the picture is a DDOS protection architecture for Azure, designed to mitigate and prevent distributed denial-of-service attacks. It provides a secure and reliable infrastructure for protecting applications and services hosted on Azure.

This architecture is for a distributed data processing and integration network on Azure, which utilizes cloud services provided by Azure to process and integrate data efficiently.

This architecture is for deploying the Finacle Banking Suite on the AWS cloud, leveraging the capabilities of AWS services and infrastructure.

This architecture diagram illustrates the integration of GCP cloud CDN and load balancer, providing a scalable and high-performance solution for distributing and delivering content across multiple regions.

This architecture is for implementing GCP cloud CDN and load balancer for a cloud-based application or website. It utilizes GCP as the cloud provider and integrates with Brainboard for motherboard management.

This architecture diagram depicts the setup of a GCP Kubernetes cluster using the Brainboard platform as the control panel.

This architecture diagram depicts the GCP Load Balancer setup for distributing incoming network traffic across multiple instances for improved availability and scalability.

This architecture is for a GCP Virtual Private Cloud (VPC) setup, which is available and managed through the Brainboard app.

This architecture is for a generic AWS SQS event handler. It utilizes a cloud provider, AWS, and integrates with a motherboard platform called Brainboard.

The architecture depicted in the picture is for a high-availability web application infrastructure with a scalable database. It utilizes Azure as the cloud provider and includes resources from the Terraform AWS VPC module.

This architecture is for highly available and zone-redundant Azure Spring Apps, utilizing Azure as the cloud provider. The details can be found at this link.

This architecture is for a Jenkins setup on the AWS cloud, using the Brainboard platform as the motherboard for managing the Jenkins environment.

This architecture diagram showcases a Kubernetes provider using AKS on the Azure cloud platform. It demonstrates the integration of AKS as the Kubernetes cluster manager within the Azure infrastructure.

This architecture represents the integration of AKS (Azure Kubernetes Service) as the cloud provider for hosting Kubernetes clusters. The provided screenshot showcases the availability status of the architecture on the Brainboard platform.

Multi-cloud Architecture enables the use of multiple cloud providers, with AWS as the primary provider, for enhanced scalability, flexibility, and redundancy.

This architecture is for a multi-region web app using CosmosDB on the Azure cloud provider.

This architecture is for the OCI landing zone, which is a framework for setting up a secure and compliant environment in Oracle Cloud Infrastructure.

This architecture is for a hub and spoke network design with overlapping IP addresses.

This architecture represents a PostgreSQL Flexible Server Database hosted on the Azure cloud provider. It is available for use and can be managed using the Brainboard platform.

This architecture represents a private DNS resolver implemented using Azure cloud services. It provides a secure and efficient method for resolving domain names within a private network.

This architecture is for reducing costs of S3 and RDS services in AWS by implementing specific optimizations and configurations. The details can be found in the provided blog post and GitHub repository.

This architecture represents a REST API for Amazon Document DB, with a motherboard as the central component. Further details can be found at this link.

This architecture is for creating and managing a network infrastructure on Google Cloud Platform (GCP) using Terraform. It provides a centralized platform for creating and managing network resources.

This architecture is for deploying and managing Azure Key Vaults using Terraform, as described in the provided blog and Git repositories.

This architecture is for a VM extension with a cluster, using Azure as the cloud provider. The purpose and details of the architecture cannot be determined from the provided picture.

This architecture represents the VPC (Virtual Private Cloud) and subnets in AWS, which are used to create isolated virtual networks for deploying resources and managing network traffic.

This architecture is for a web app with a private link to an Azure SQL DB and storage. It allows for secure communication and data storage within the Azure cloud environment.