AWS Resource Explorer has recently expanded its capabilities by supporting 59 new resource types, enabling users to manage and search for a wide array of resources across all AWS commercial regions. This enhancement is particularly beneficial for organizations utilizing services such as Amazon Elastic Kubernetes Service (Amazon EKS), Amazon Kendra, AWS Identity and Access Management (IAM) Access Analyzer, and Amazon SageMaker. In this comprehensive guide, we will explore the new resource types, how to effectively utilize AWS Resource Explorer, and tips for optimizing your search capabilities for better resource management in the cloud.
Table of Contents¶
- Introduction to AWS Resource Explorer
- Newly Supported Resource Types
- Analysis of New Resource Types
- How AWS Resource Explorer Works
- Benefits of Using AWS Resource Explorer
- Best Practices for Resource Management
- Optimizing for Search on AWS Resource Explorer
- Integration with Other AWS Services
- Common Use Cases
- Future of AWS Resource Explorer
- Conclusion
Introduction to AWS Resource Explorer¶
AWS Resource Explorer is a powerful tool designed for helping users navigate their AWS resources effortlessly. By supporting 59 new resource types, AWS Resource Explorer enhances visibility and management across multiple AWS services. This capability allows users to easily locate specific resources, understand resource dependency, and streamline their cloud operations, ensuring both efficiency and productivity.
Newly Supported Resource Types¶
With this major update, AWS Resource Explorer now supports a variety of new resource types, making it one of the most versatile tools for AWS resource management available today.
List of New Resource Types¶
Here is the list of all the newly supported resource types in AWS Resource Explorer, categorized by service:
- AWS Access Analyzer
access-analyzer:analyzerApache Airflow
airflow:environmentAWS Amplify
amplify:apps/branchesamplify:apps/domainsAWS AppFlow
appflow:flowAWS App Mesh
appmesh:meshappmesh:mesh/virtualNodeappmesh:mesh/virtualServiceAWS App Runner
apprunner:serviceAWS AppStream 2.0
appstream:image-builderAWS Audit Manager
auditmanager:assessmentAWS Backup
backup:backup-vaultAWS CodeGuru Reviewer
codeguru-reviewer:associationAmazon Connect
connect:instanceconnect:instance/transfer-destinationconnect:instance/agentAWS DataBrew
databrew:scheduleAWS DataSync
datasync:locationdatasync:taskAWS Database Migration Service
dms:endpointdms:repdms:taskAmazon ECS
ecs:capacity-providerAmazon EKS
eks:clusterAmazon FinSpace
finspace:environmentAmazon GameLift
gamelift:buildgamelift:gamesessionqueuegamelift:matchmakingconfigurationgamelift:matchmakingrulesetAWS Glue
glue:mlTransformAWS Ground Station
groundstation:configAWS GuardDuty
guardduty:detector/filterguardduty:detector/ipsetguardduty:detector/threatintelsetAmazon HealthLake
healthlake:datastore/fhirAWS IoT SiteWise
iotsitewise:dashboardAWS IoT Wireless
iotwireless:ServiceProfileAmazon IVS
ivs:recording-configurationAmazon Kendra
kendra:indexAmazon MemoryDB
memorydb:aclmemorydb:subnetgroupAWS Network Firewall
network-firewall:firewallAWS Network Manager
networkmanager:attachmentAWS Mobile Targeting
mobiletargeting:apps/campaignsmobiletargeting:apps/segmentsAWS Proton
proton:environment-account-connectionAmazon QuickSight
quicksight:datasetquicksight:datasourcequicksight:templateAWS Resource Access Manager
ram:resource-shareAmazon Route 53 Resolver
route53resolver:resolver-query-log-configAmazon SageMaker
sagemaker:domainsagemaker:endpointsagemaker:feature-groupsagemaker:imagesagemaker:pipelineAWS Signer
signer:signing-profilesAWS Transfer Family
transfer:workflowAmazon WorkSpaces
workspaces:workspace
Analysis of New Resource Types¶
The addition of these resource types drastically enhances resource management within AWS. For instance, the inclusion of services like Amazon EKS allows organizations to better manage their Kubernetes workloads by retrieving relevant resource information quickly. Similarly, features surrounding Amazon Kendra can assist in efficiently managing data intelligence, which is invaluable in data-heavy environments.
Understanding how these new resources work and their interdependencies opens avenues for optimizing cloud resource management and governance.
How AWS Resource Explorer Works¶
AWS Resource Explorer leverages the AWS Resource Tagging capabilities and integrates them with comprehensive metadata gathering to provide a robust search experience encompassing all resource types. Through a single interface, users can input their search queries and receive insights into various AWS resources based on defined criteria such as tags, resource type, and other applicable metadata.
Key Features of AWS Resource Explorer¶
Unified Search Experience: Users can search across multiple AWS services and view resources in one consolidated view.
Tagging Support: Simplifies the organization and classification of resources, enhancing the user’s ability to filter results based on assigned tags.
Intelligent Resource Discovery: Leverages AWS’s extensive service integration to provide intelligent suggestions and previews of resources that match search criteria.
Cross-Region Search Capability: Search capabilities extend across all AWS commercial regions, providing users with geographical flexibility.
Performance Optimization: Built to scale with user needs, AWS Resource Explorer utilizes caching and indexing strategies to enhance search speed and reliability.
Benefits of Using AWS Resource Explorer¶
Integrating AWS Resource Explorer into your cloud architecture offers numerous benefits:
1. Improved Resource Management¶
The ability to find and classify resources quickly through AWS Resource Explorer facilitates efficient resource management. Users can swiftly track and manage resources across complex cloud architectures without spending excessive time navigating through different services.
2. Enhanced Compliance and Governance¶
Resource visibility ensures that organizations can conduct audits more effectively and maintain compliance with industry regulations. By utilizing features like tagging, it becomes easier to identify resources that belong to certain compliance regimes or internal governance frameworks.
3. Streamlined Operations¶
Integration of AWS Resource Explorer with existing operations and cloud management tools can lead to operational efficiencies, such as reducing time spent on troubleshooting and maintenance, ultimately leading to cost savings.
4. Proactive Resource Monitoring¶
With real-time insights into resource distributions and statuses, AWS Resource Explorer can help organizations proactively monitor their cloud resources, identify potential issues, and address them before they impact service delivery.
Best Practices for Resource Management¶
To optimize resource management using AWS Resource Explorer, consider the following best practices:
1. Implement Tagging Strategies¶
Utilizing tags can significantly enhance your resource management capabilities. Develop a standardized tagging strategy based on business, operational, and regulatory requirements.
For example, you might include tags for information like owner, environment (development, testing, production), and cost centers which can improve searchability and accountability.
2. Regularly Review and Update Resources¶
Make it a routine task to review and update resource configurations and tag assignments. This helps in maintaining the integrity of resource inventories and ensuring compliance with organizational standards.
3. Monitor Resource Usage¶
Utilize the monitoring capabilities within AWS Resource Explorer to track resource usage and optimize workload allocation. Analyze usage patterns and adjust resources to align with demand, potentially reducing costs.
4. Train Your Team¶
Educate members of your team on how to efficiently use AWS Resource Explorer. Offering training sessions can enhance their ability to locate resources quickly and execute cloud management tasks more effectively.
Optimizing for Search on AWS Resource Explorer¶
Searching effectively within AWS Resource Explorer is crucial for maximizing its benefits. Here are a few tips for optimizing search functionality:
1. Use Specific Search Queries¶
Instead of broad keywords, leverage specific search queries. This increases the likelihood of retrieving precisely what you are looking for.
For example, instead of searching for “EKS,” use “eks:cluster” to narrow down results.
2. Leverage Advanced Filters¶
AWS Resource Explorer allows the use of advanced filters to refine search results based on attributes like resource types, tags, or region. Utilizing these filters can drastically reduce search time.
3. Stay Updated Presently Supported Resource Types¶
Regularly review the list of supported resource types within AWS Resource Explorer to stay informed about the latest features and functionalities. This knowledge can help you leverage new services in your cloud strategy more effectively.
Integration with Other AWS Services¶
AWS Resource Explorer’s ability to integrate with other AWS services is one of its core strengths. This cross-service functionality enables organizations to create more comprehensive cloud management solutions.
Examples of Integrative Usage¶
CloudFormation: Integrate AWS Resource Explorer with AWS CloudFormation to visualize your infrastructure as code, allowing a clearer understanding of resource dependencies.
AWS Config: Use AWS Config’s service with Resource Explorer for enhanced governance and compliance monitoring, as AWS Config records changes and notifies users about modifications in resource states.
AWS CloudTrail: Combine AWS Resource Explorer with AWS CloudTrail to gain insights into API usage across resources, which can be beneficial in tracking down historical changes and understanding access patterns.
Common Use Cases¶
Understanding common use cases for AWS Resource Explorer can further illustrate its utility:
1. Rapid Resource Discovery¶
For organizations managing extensive AWS accounts, quickly discovering resources can mean the difference between operational efficiency and costly downtime. AWS Resource Explorer allows users to locate resources nearly instantaneously.
2. Cost Allocation and Tracking¶
By filtering resources based on tags, organizations can monitor spending and implement cost control measures effectively through insights gained from AWS Resource Explorer.
3. Security Audits and Compliance Checks¶
AWS Resource Explorer can enhance the security audit process by providing an up-to-date view of all resources and their compliance statuses.
4. Optimizing Cloud Architecture¶
By gaining insights into resource usage patterns, organizations can optimize their cloud architecture, choosing the right services and configurations based on data-driven decisions.
Future of AWS Resource Explorer¶
As the cloud ecosystem evolves and customer needs grow, AWS Resource Explorer will likely continue to expand its capabilities. Future updates may focus on:
- AI and Machine Learning Integrations: Leveraging AI to improve resource recommendations and predictive management.
- API Exposures: Enhancing API integrations for automation and advanced programmatic resource management.
- Enhanced User Interface: Continuous improvements to user experience and interface for more intuitive search and discovery.
Conclusion¶
AWS Resource Explorer, by adding support for 59 new resource types, greatly enhances resource management capabilities across various AWS services. Organizations can leverage the capabilities of AWS Resource Explorer to improve visibility, streamline operations, and enhance compliance efforts. By integrating best practices and optimizing search functionality, businesses can fully utilize this essential tool for effective cloud management. Understanding these advancements in AWS Resource Explorer sets the stage for improved resource governance and operational excellence in the dynamic cloud landscape.
Focus Keyphrase: AWS Resource Explorer supports 59 new resource types.