A Deep Dive Into What’s New, Why It Matters, and How It Improves Your Workflow

Docker Desktop for Windows continues to evolve rapidly, and one of the most impactful additions in the recent releases is the new Logs View, which became generally available in version 4.72.0. This feature significantly improves how developers and operators inspect, filter, and troubleshoot container logs — a daily task for anyone working with containers.

In this post, we’ll explore what’s new, why it’s useful, and how it changes the way you work with Docker on Windows.

What Is the New Logs View?

The Logs View is a built‑in, GUI‑based log explorer inside Docker Desktop that allows you to:

– View logs from running or stopped containers
– Filter logs by container, service, or time
– Search within logs
– Tail logs in real time
– Inspect multi‑container logs side‑by‑side (Compose, Swarm, etc.)

While Docker has always provided logs via CLI (`docker logs`), the new Logs View brings a centralized, visual, searchable experience directly into the Desktop UI.

What’s New in the Latest Release?

General Availability (GA)

The Logs View is no longer experimental — it is now a fully supported, production‑ready feature in Docker Desktop for Windows as of 4.72.0.

This means:
– Better stability
– Improved performance
– Full support across Windows installations
– No feature flags required

Improved Windows Installation Options

Alongside the Logs View GA, Docker Desktop for Windows now offers per‑user or all‑user installation modes.

This matters because:
– Logs View behaves consistently across user profiles
– Enterprise environments can standardize deployments
– Permissions and log access become more predictable

Better Reliability and UI Behavior

Recent releases also fixed several UI issues that indirectly improve the Logs View experience, such as:

– More reliable search input behavior in the sidebar
– Improved refresh behavior
– Better handling of background processes

These improvements contribute to a smoother log‑browsing experience.

Why the New Logs View Is Handy?

1. Centralized Troubleshooting

Instead of switching between terminals, containers, and log files, you now get a single pane of glass for all logs.
This is especially useful when:
– Debugging multi‑container apps
– Investigating startup failures
– Monitoring container behavior in real time

2. Faster Debugging With Search & Filters

The Logs View includes:
– Keyword search
– Time‑range filtering
– Container/service filtering

This dramatically reduces the time needed to find relevant log entries.

3. Real‑Time Log Streaming ( I like this one )

You can tail logs live without running `docker logs -f`.

This is ideal for:
– Watching app startup
– Monitoring background jobs
– Observing container health checks

4. Better for Windows‑First Developers

Windows developers often prefer GUI tools.

The Logs View:

– Removes the need for CLI log commands
– Makes Docker more accessible to developers unfamiliar with Linux tooling
– Integrates naturally with the Desktop dashboard

5. Great for Docker Compose Projects

Compose apps generate logs from multiple services.

The Logs View lets you:
– View all logs together
– Or isolate a single service
– Or compare logs side‑by‑side

This is a huge improvement over juggling multiple terminal windows.

Real‑World Use Cases

Debugging a failing container

Instead of running:
————-
docker ps
docker logs <id>
————–

You simply click the container → Logs.

Investigating a multi‑service Compose app

You can instantly see:
– Which service started first
– Which one failed
– How logs correlate in time

Monitoring long‑running tasks

Tail logs visually while keeping your terminal free for other commands.

Onboarding new developers

New team members can inspect logs without learning Docker CLI syntax.

Final Thoughts:

The new Logs View in Docker Desktop for Windows is more than a UI enhancement — it’s a workflow upgrade.
By making logs easier to access, search, and correlate, Docker has significantly improved the day‑to‑day debugging experience for Windows developers and DevOps engineers.
With it’s general availability in 4.72.0, the feature is now stable, polished, and ready for production use.
If you rely on Docker Desktop for development or operations, the new Logs View is absolutely worth exploring

Azure Local Cluster on‑site working in tandem with Azure Cloud, running Dockerized AI workloads at the edge — is not just viable. It’s exactly the direction modern distributed AI systems are heading.

Let me unpack how these pieces fit together and why the architecture is so compelling.

Azure Local Baseline reference Architecture

A powerful hybrid model for real‑world AI

Think of this setup as a two‑layer AI fabric:

• Layer 1: On‑site Azure Local Cluster
  Handles real‑time inference, local decision‑making, and data preprocessing.
  This is where Docker containers shine: predictable, isolated, versioned workloads running close to the data source.
• Layer 2: Azure Cloud
  Handles heavy lifting: model training, analytics, fleet management, OTA updates, and long‑term storage.

Together, they create a system that is fast, resilient, secure, and scalable

Why this architecture works so well

1. Ultra‑low latency inference

Your on‑site Azure Local Cluster can run Dockerized AI models directly on edge hardware (Jetson, x86, ARM).
This eliminates cloud round‑trips for:

• object detection
• anomaly detection
• robotics control
• industrial automation

Azure Local provides the core platform for hosting and managing virtualized and containerized workloads on-premises or at the edge.

2. Seamless model lifecycle management

Azure Cloud can:

• train new models
• validate them
• push them as Docker images
• orchestrate rollouts to thousands of edge nodes

Your local cluster simply pulls the new container and swaps it in.
This is exactly the “atomic update” pattern from the blogpost.

3. Strong separation of concerns

Local cluster = deterministic, real‑time execution
Cloud = dynamic, scalable intelligence

This separation avoids the classic problem of trying to run everything everywhere.

4. Enterprise‑grade security

Azure Arc, IoT Edge, and Container Registry gives you:

• signed images
• policy‑based deployments
• identity‑bound devices
• encrypted communication

This is critical when edge devices live in factories, stores, or public spaces.

5. Cloud‑assisted intelligence

Even though inference happens locally, the cloud can still:

• aggregate telemetry
• retrain models
• detect drift
• optimize pipelines
• coordinate multi‑site deployments

This is how AI systems improve over time. 

How Docker fits into this hybrid world

Docker becomes the unit of deployment across both environments for DevOps and developers.

On the edge:

• lightweight images
• Hardened images
• GPU‑enabled containers
• read‑only root filesystems
• offline‑capable workloads

In the cloud:

• CI/CD pipelines
• model registries
• automated scanning
• versioned releases

The same container image runs in both places — but with different responsibilities.

My take: This is one of the strongest architectures for real‑world AI

If your goal is:

• real‑time AI
• high reliability
• centralized control
• scalable deployments
• secure operations
• hybrid cloud + edge synergy

…then Azure Local Cluster + Azure Cloud + Docker AI Edge is a near‑ideal solution.

It gives you the best of both worlds:
cloud intelligence + edge autonomy.

Here you find more about Microsoft Azure Local 

Here you find more blogposts about Docker, Windows Server 2025, and Azure Cloud Services :

Windows Server 2025 Core and Docker – A Modern Container Host Architecture

Docker Desktop Container Images and Azure Cloud App Services

The Rise of Free Hardened Docker Images: A New Security Baseline for Developers and DevOps

Containerization has become the backbone of modern software delivery. But as adoption has exploded, so has the attack surface. Vulnerable base images, outdated dependencies, and misconfigured runtimes have quietly become some of the most common entry points for supply‑chain attacks.

The industry has been asking for a better baseline—something secure by default, continuously maintained, and frictionless for teams to adopt. And now we’re finally seeing it: free hardened Docker images becoming widely available from major vendors and open‑source security communities.

This shift isn’t just a convenience upgrade. It’s a fundamental change in how we think about container security.

Why Hardened Images Matter More Than Ever

A “hardened” image isn’t just a slimmer version of a base OS. It’s a container that has been:

• Stripped of unnecessary packages
  Fewer binaries = fewer vulnerabilities.
• Built with secure defaults
  Non‑root users, locked‑down permissions, and minimized attack surface.
• Continuously scanned and patched
  Automated pipelines ensure CVEs are fixed quickly.
• Cryptographically signed
  So you can verify provenance and integrity before deployment.
• Aligned with compliance frameworks
  CIS Benchmarks, NIST 800‑190, and other standards are increasingly baked in.

For developers, this means fewer surprises during security reviews. For DevOps teams, it means fewer late‑night patch cycles and fewer emergency rebuilds.

What’s New About the Latest Generation of Free Hardened Images

The newest wave of hardened images goes far beyond the “minimal OS” approach of the past. Here’s what’s changing:

1. Hardened Language Runtimes

We’re seeing secure-by-default images for:

• Python
• Node.js
• Go
• Java
• .NET
• Rust

These images often include:

• Preconfigured non‑root users
• Read‑only root filesystems
• Mandatory access control profiles
• Reduced dependency trees

2. Automated SBOMs (Software Bills of Materials)

Every image now ships with a machine‑readable SBOM.
This gives you:

• Full visibility into dependencies
• Faster vulnerability triage
• Easier compliance reporting

SBOMs are no longer optional—they’re becoming a standard part of secure supply chains.

3. Built‑in Image Signing and Verification

Tools like Sigstore Cosign, Notary v2, and Docker Content Trust are now integrated directly into image pipelines.

This means you can enforce:

• “Only signed images may run” policies
• Zero‑trust container admission
• Immutable deployment guarantees

4. Continuous Hardening Pipelines

Instead of waiting for monthly rebuilds, hardened images are now updated:

• Daily
• Automatically
• With CVE‑aware rebuild triggers

This dramatically reduces the window of exposure for newly discovered vulnerabilities.

Read the complete blogpost about a Safer Container Ecosystem with Docker: Free Docker Hardened Images here

Windows Admin Center Secured-core server view

The latest Windows Admin Center (WAC) release, version 2511 (November 2025, public preview), introduces refreshed management tools and deeper integration with modern Windows security features like Secure Boot, TPM 2.0, Kernel DMA Protection, Virtualization‑based Security (VBS), and OSConfig baselines for Windows Server.

Secured-core is a collection of capabilities that offers built-in hardware, firmware, driver and operating system security features. The protection provided by Secured-core systems begins before the operating system boots and continues whilst running. Secured-core server is designed to deliver a secure platform for critical data and applications.

Secured-core server is built on three key security pillars:

• Creating a hardware backed root of trust.
• Defense against firmware level attacks.
• Protecting the OS from the execution of unverified code.

Windows Admin Center 2511: Security Meets Modern Management

Windows Admin Center has steadily evolved into the preferred management platform for Windows Server and hybrid environments. With the 2511 build now in public preview, Microsoft continues to refine the experience for IT administrators, blending usability improvements with defense‑in‑depth security Microsoft Community.

 Security Features at the Core

What makes this release stand out is how WAC aligns with the latest Windows security stack. Let’s break down the highlights:

• OSConfig Security Baselines
  WAC now integrates baseline enforcement, ensuring servers adhere to CIS Benchmarks and DISA STIGs. Drift control automatically remediates deviations, keeping configurations locked to secure defaults. ( I like this one!)
• Hardware‑based Root of Trust
  Through TPM 2.0 and System Guard, WAC can validate boot integrity. This means admins can remotely attest that servers started securely, free from tampering.
• Kernel DMA Protection
  Thunderbolt and USB4 devices are notorious vectors for DMA attacks. WAC surfaces configuration and compliance checks, ensuring IOMMU‑based protection is active.
• Secure Boot Management
  OEM Secure Boot policies are visible and manageable, giving admins confidence that only signed, trusted firmware and drivers load during startup.
• Virtualization‑based Security (VBS)
  WAC exposes controls for enabling VBS and Memory Integrity (HVCI). These features isolate sensitive processes in a hypervisor‑protected environment, blocking unsigned drivers and kernel exploits.

Windows Server security baseline not yet implemented as you can see

 What’s New in Build 2511

Beyond security, version 2511 delivers refinements to the virtual machines tool, installer improvements, and bug fixes. Combined with the backend upgrade to .NET 8 in the earlier 2410 GA release, WAC is faster, more reliable, and better equipped for enterprise workloads.

Why It Matters

In today’s hybrid IT landscape, security and manageability must coexist. Windows Admin Center 2511 demonstrates Microsoft’s commitment to:

• Unified management: One pane of glass for servers, clusters, and Azure Arc‑connected resources.
• Compliance assurance: Built‑in baselines reduce audit headaches.
• Future‑proof security: Hardware‑rooted trust and virtualization‑based isolation protect against evolving threats.

Final Thoughts

If you’re an IT admin preparing for Windows Server 2025 deployments, the new Windows Admin Center build is more than just a management tool—it’s a security enabler. By weaving in Secure Boot, TPM, DMA protection, and VBS, WAC ensures that your infrastructure isn’t just easier to manage, but fundamentally harder to compromise.

Here you find the Microsoft docs :

What is Secured-core server for Windows Server | Microsoft Learn

OSConfig overview for Windows Server | Microsoft Learn

How System Guard helps protect Windows | Microsoft Learn

Kernel DMA Protection | Microsoft Learn

Secure boot | Microsoft Learn

Trusted Plaform Module (TPM) 2.0 | Microsoft Learn

Virtualization-based Security (VBS) | Microsoft Learn

Enable memory integrity | Microsoft Learn

What is Windows Admin Center Virtualization Mode (Preview)?

Windows Admin Center Virtualization Mode is a purpose-built management experience for virtualization infrastructure. It enables IT professionals to centrally administer Hyper-V hosts, clusters, storage, and networking at scale.

Unlike administration mode, which focuses on general system management, Virtualization Mode focuses on fabric management. It supports parallel operations and contextual views for compute, storage, and network resources. This mode is optimized for large-scale, cluster-based environments and integrates lifecycle management, global search, and role-based access control.

Virtualization Mode offers the following key capabilities:

• Search across navigation objects with contextual filtering.
• Support for SAN, NAS, hyperconverged, and scale-out file server architectures.
• VM templates, integrated disaster recovery with Hyper-V Replica, and onboarding of Arc-enabled resources (future capability).
• Software-defined storage and networking (not available at this time).

Install Windows Admin Center Virtualization Mode

Test all these New features of Windows Admin Center and Windows Server in your test environment and be ready for production when it becomes general available. Download Windows Admin Center 2511 Preview here

Docker Desktop and Azure App Cloud Services

Expanded Architecture: Docker developer environment with Azure Cloud Services.

Development Environment

• Docker Desktop + Tools: Visual Studio Code, Azure CLI, Docker Scout, AI, MCP
• Docker Scout CLI: Compares image versions, detects CVEs, integrates with pipelines

Container Host (Windows Server 2025 Core)

• Hyper-V Isolated Containers: For enhanced security
• Workloads: Microservices, legacy apps, AI containers
• GitOps Operator: Automated deployment via Git repositories
• Azure Arc Agent: Connects on-prem host to Azure Control Plane

Here you find more information about Docker on Windows Server 2025 Core

Your Windows 11 Laptop with Docker Desktop

• Hyper-V / WSL2: for your containers development
• Azure Arc Agent: for your Azure Cloud Services and security
• Docker Desktop for Windows installed

Azure Cloud Integrations

More information on Strengthening Container Security with Docker Hardened Images and Azure Container Registry

DevSecOps Workflow

1. Build & Harden Image → Dockerfile + SBOM
2. Scan with Docker Scout → CLI or pipeline
3. Push to ACR → With signing and RBAC
4. Deploy via Azure DevOps Pipelines → App Service or Arc-enabled host
5. Inject Secrets via Key Vault → Automatically at runtime
6. Monitor & Patch → Azure Monitor + Update Manager
7. Audit & Alerting → Azure Sentinel + Defender
8. Security Guidance → Copilot Security analyzes policies and offers recommendations

Example of Deploying a custom container to Azure App Service with Azure Pipelines

Microsoft Azure App Service is really scalable for Docker App Solutions:

Azure App Service is designed to scale effortlessly with your application’s needs. Whether you’re hosting a simple web app or a complex containerized microservice, it offers both vertical scaling (upgrading resources like CPU and memory) and horizontal scaling (adding more instances). With built-in autoscaling, you can respond dynamically to traffic spikes, scheduled workloads, or performance thresholds—without manual intervention or downtime.

From small startups to enterprise-grade deployments, App Service adapts to demand with precision, making it a reliable platform for modern, cloud-native applications.

Scale Up Features and Capacities Learn how to increase CPU, memory, and disk space by changing the pricing tier

Enable Automatic Scaling (Scale Out) Configure autoscaling based on traffic, schedules, or resource metrics

Per-App Scaling for High-Density Hosting Scale individual apps independently within the same App Service Plan

Conclusion

For modern developers, the combination of Azure App Services and Docker Desktop offers a powerful, flexible, and scalable foundation for building, testing, and deploying cloud-native applications.

• Developers can build locally with Docker, ensuring consistency and portability.
• Then deploy seamlessly to Azure App Services, leveraging its cloud scalability and integration.
• This workflow reduces configuration drift, accelerates testing cycles, and improves team collaboration.

Microsoft Azure Storage Explorer version 1.39.1

Microsoft Azure Storage Explorer is a free, standalone application that streamlines how Azure Administrators interact with storage accounts. Whether you’re managing blobs, file shares, queues, or tables, this versatile tool brings consistency, speed, and clarity to every operation—far beyond what the Azure portal alone can provide.

Why Azure Storage Explorer Matters

Managing storage through the Azure portal is intuitive, but for heavy-duty or repetitive tasks, it falls short:

• Manual clicks become tedious when transferring hundreds of files.
• The web UI can feel sluggish on large containers.
• Scripting small tasks often requires context switching between CLI and portal.

Azure Storage Explorer fills these gaps by offering:

• A desktop client optimized for high-throughput transfers.
• A unified interface for all storage types.
• Built-in support for SAS tokens, Azure Active Directory, and emulator endpoints.

These capabilities translate into faster workflows and fewer mistakes.

Key Features and Advantages

• Unified Storage View across Blob Containers, File Shares, Queues, and Tables.
• High-Performance Data Transfers with parallel upload/download threads, drag-and-drop, and pause/resume support.
• Fine-Grained Access Control via Azure AD, service principals, or SAS tokens.
• Local Dev/Test Integration with Azurite and the legacy Storage Emulator.

Security and Compliance

Azure Storage Explorer adheres to Azure’s stringent security standards, ensuring your data remains protected at every stage:

• Data Encryption
  • All data in transit is secured via HTTPS/TLS.
  • Data at rest uses Azure Storage Service Encryption (AES-256).
• Authentication and Authorization
  • Native Azure Active Directory (AAD) integration for RBAC.
  • Support for service principals, managed identities, and SAS tokens.
  • Option to connect with access keys when needed.
• Network Security
  • Compatible with private endpoints to restrict traffic to your Virtual Network.
  • Honors storage account firewall rules and trusted Microsoft services only.
• Audit Logging and Monitoring
  • Leverage Azure Monitor’s diagnostic settings to capture Storage Explorer activity.
  • Integrate with Azure Sentinel or third-party SIEM tools for real-time alerts.
• Compliance Certifications
  • Inherits Azure Storage’s compliance portfolio, including ISO, SOC, GDPR, and HIPAA standards.

Quick Comparison: Portal vs. Storage Explorer

Real-World Scenarios

1. Disaster Recovery Testing
   Quickly seed a secondary storage account from backups stored in local Azurite for non-production failover drills.
2. Mass Data Migration
   Move terabytes of logs or media assets between subscriptions without crafting custom AzCopy scripts.
3. Role-Based Troubleshooting
   Verify user permissions by connecting under different service principals, then audit and correct access policies on the fly.

Getting Started in Minutes

1. Download & Install
   Grab the latest MSI/DMG from Microsoft’s official download page.
2. Connect Your Account
   • Choose Azure AD for seamless single sign-on.
   • Or paste a SAS URL for granular, time-limited access.
3. Explore & Operate
   • Expand subscriptions and storage accounts in the left pane.
   • Drag files into blob containers or right-click tables to run C# or PowerShell snippets.
4. Automate Common Tasks
   • Record frequent operations as scripts.
   • Export and share connection profiles with your team for consistent setups.

Here you see the simple installation steps of Azure Storage Explorer:

Download Microsoft Azure Storage Explorer

Right click the file and run as Administrator.

This is for me only, so I clicked on Install for me only

Accept the agreement and click on Install

An old installation was detected on my machine, Setup will uninstall it before continuing.
Click on Next

Select your folder or keep it default and click on Next

Click on Next
When you don’t want a start Menu Folder mark the box on the left.

Click on Finish

Microsoft Azure storage Explorer.

Sign in with your Azure Account.

Select your Azure Environment and click on Next

Microsoft Azure Storage Explorer connected with your Azure Subscription.

Tips & Best Practices

• Use AzCopy integration for scripting large-scale migrations and include –recursive for deep folder copies.
• Leverage table filtering to preview query results before exporting datasets.
• Keep your Storage Explorer version up to date—the team delivers monthly enhancements and bug fixes.
• Store connection profiles in source control (encrypted) so every teammate uses the exact same environment.

Conclusion

Azure Storage Explorer transforms tedious, repetitive storage tasks into a seamless, high-speed experience. For any Azure Administrator juggling blobs, files, queues, or tables, it’s the go-to tool to boost productivity, ensure security, and tame your data sprawl.

Next Steps

• Download Azure Storage Explorer and connect a demo subscription today.
• Explore built-in script samples to automate your top five storage tasks.
• Join the Azure Storage community on GitHub to suggest features or report issues.

More information about Azure Storage Explorer on Microsoft Learn

Dear Community Members, Friends, and Colleagues,

As I mark my 15th anniversary in the Microsoft MVP program, I’m filled with immense gratitude, humility, and pride. What began as a passion for sharing knowledge and building connections has blossomed into a deeply rewarding journey—one shaped by innovation, collaboration, and the extraordinary people who make this community thrive.

Over these 15 years, I’ve had the privilege to learn from brilliant minds, contribute to inspiring projects, and witness the transformative power of technology firsthand. Whether through speaking engagements, blog posts, mentoring, or hands-on technical work, being part of the MVP program has continually deepened my commitment to empowering others and fostering open, inclusive collaboration.

To the community: thank you for challenging, supporting, and celebrating with me. Your curiosity, creativity, and kindness are what keep this ecosystem alive and forward-looking.

To Microsoft: thank you for the honor and trust. The MVP program is a unique platform that amplifies voices, nurtures growth, and builds bridges—not just between developers and users, but between ideas and action.

While this milestone is a moment to reflect, it’s also a reminder that there’s always more to explore, create, and share. I look forward to continuing this journey together—with the same spark, but even greater purpose.

With heartfelt appreciation,
James

Here are some photos with Awesome people that I have met during these years:

Here you see Vijay Tewari in the middle who nominated me for the first time
Damian Flynn on the left and me on the right are Microsoft MVPs for Virtual Machine Manager (VMM)
at that time in 2011.

Here you see Tina Stenderup-Larsen in the middle, she is amazing! A Great Microsoft Community Program Manager
supporting all the MVPs in the Nordics & Benelux doing an Awesome Job!
On the right is Robert Smit a Great Dutch MVP and friend.

Mister OMS alias Scripting Guy Ed Wilson.

When there is a Microsoft Windows Server event, there is Jeff Woolsey 
“The three Musketeers”

Meeting Brad Anderson, he had great lunch breaks interviews in his car
with Awesome people.

The Azure Stack Guys on the 25th MVP Global Summit

Mister PowerShell Jeffrey Snover at the MVP Summit having fun

Scott Guthrie meeting him at the Red Shirt Tour in Amsterdam.

Great to meet Yuri Diogenes in 2018 with his book Azure Security Center.
I know him from the early days with Microsoft Security, like ISA Server

Mister Azure, CTO Mark Russinovich meeting at the MVP Global Summit in Redmond.
a Great Technical Fellow with Awesome Azure Adaptive Cloud Solution Talks!

Mister DevOps himself Donovan Brown in Amsterdam for DevOps Days

My friend Rick Claus Mister MS Ignite.

Mister Azure Corey Sanders at the MVP Summit.

Mister Channel 9, MSIgnite, AI Specialist Seth Juarez
He is a funny guy.

Meeting Scott Hanselman in the Netherlands together with MVP Andre van den Berg.
Scott is Awesome in developer innovations and technologies.
Following Azure Friday from the beginning.

Windows Insider friends for ever meeting Scott Hanselman.
With on the left MVP Erik Moreau.

Windows Insiders for Ever
Here together with Dona Sarkar here in the Netherlands

Windows Insider Friends having fun with Ugly Sweater meeting.
On the right my friend Maison da Silva and on the upper right Erik Moreau and Andre van den Berg.
Friends for Life

Microsoft Global MVP 15 Years Award disc is in the House
on Monday the 14th of July 2025.

Thank you All

Windows Server 2025 Insider Preview Build 26433 Datacenter Edition

In a digital era where agility, security, and resilience define success, enterprises are constantly seeking ways to future-proof their IT infrastructure. Enter the Windows Server Insider Program — a gateway into the future of Windows Server, offering IT professionals and enterprise architects a unique head-start in shaping and testing tomorrow’s server technologies.

What Is the Windows Server Insider Program?

At its core, the Windows Server Insider Program is Microsoft’s early-access platform for organizations and individuals eager to test pre-release versions of Windows Server. It allows IT departments to explore upcoming features, evaluate improvements, and provide feedback well before general availability — all while aligning their roadmap with Microsoft’s evolving ecosystem.

Strategic Benefits for Enterprise Businesses

1. Early Access to Innovation

Being the first to test new builds offers a strategic advantage. Enterprises can evaluate enhancements such as improved virtualization support, deeper integration with Azure services, and security updates, giving them ample lead time to plan deployments and migrations.

2. Security Readiness

With constantly evolving cybersecurity threats, security must be proactive, not reactive. Insider builds often preview cutting-edge security features, like Just-in-Time administration and advanced auditing, enabling security teams to assess and incorporate them into enterprise policies early on.

3. Operational Efficiency through Feedback

Insiders are encouraged to report issues, suggest enhancements, and contribute to the design process. Enterprises that participate become co-creators in shaping Windows Server — turning feedback into business-aligned features that improve workflows and infrastructure performance.

4. Skills Development and Training

IT professionals gain first-hand experience with upcoming technologies, enhancing team expertise and preparing staff for smoother transitions during official releases. This becomes a valuable part of enterprise L&D strategies, minimizing learning curves and avoiding costly deployment surprises.

5. Better Long-Term Planning

Access to Insider builds allows enterprises to assess hardware compatibility, benchmark performance, and refine internal tools or scripts, reducing friction during upgrades or cloud migrations.

Real-World Scenario: Testing Hybrid Flexibility

Imagine an enterprise planning a hybrid infrastructure strategy using Azure Arc and on-prem Windows Server. By experimenting with preview builds, they can test hybrid management policies, refine group configurations, and validate security baselines — all without impacting production environments.

How to Get Started

Enrollment is straightforward. Enterprises can sign up using their Microsoft account and download the latest Insider builds from the Windows Server Insider Preview portal.

Final Thoughts

In enterprise tech, innovation waits for no one. The Windows Server Insider Program offers more than just access — it’s a strategic lever for proactive IT leadership. By embracing this program, organizations gain the insight, influence, and preparedness to lead in the evolving digital landscape.

If your enterprise hasn’t joined yet, now might be the best time to get ahead of the curve — because the future of infrastructure isn’t just about adopting change. It’s about helping build it.

In today’s cloud-native landscape, container security is paramount. IT professionals must strike a balance between agility and security, ensuring that applications run smoothly without exposing vulnerabilities. One way to achieve this is through Docker hardened images, which enhance security by reducing attack surfaces, enforcing best practices, and integrating with Microsoft Azure Container Registry (ACR) for seamless deployment.

Why Hardened Docker Images?

A hardened Docker image is optimized for security, containing only the necessary components to run an application while removing unnecessary libraries, binaries, and configurations. This approach reduces the risk of known exploits and ensures compliance with security standards. Key benefits include:

• Reduced Attack Surface: Eliminating unnecessary components minimizes entry points for attackers.
• Improved Compliance: Meets security benchmarks like CIS, NIST, and DISA STIG.
• Enhanced Stability: Smaller images mean fewer dependencies, reducing vulnerabilities.
• Better Performance: Optimized images lead to faster deployments and lower resource consumption.

Leveraging Azure Container Registry for Secure Image Management

Microsoft Azure Container Registry (ACR) plays a critical role in securely storing, managing, and distributing hardened images. IT professionals benefit from features such as:

• Automated Image Scanning: Built-in vulnerability assessment tools like Microsoft Defender for Cloud detect security risks.
• Content Trust & Signing: Ensures only authorized images are deployed.
• Geo-replication: Enables efficient global distribution of container images.
• Private Registry Access: Provides secure authentication via Azure Active Directory.

Microsoft Azure Container Registry

Hardened Images in Azure Container Solutions

By deploying hardened images through Azure Kubernetes Service (AKS), Azure Container Apps, and Azure Functions, organizations strengthen security in cloud-native applications while leveraging Azure’s scalability and flexibility. This translates to:

• Improved Security Posture: Reducing exposure to common container-based threats.
• Streamlined Operations: Consistent, automated deployment pipelines.
• Efficient Cost Management: Optimized images lower compute and storage costs.

Strengthening Security with Docker Scout

Docker Scout is a powerful security tool designed to detect vulnerabilities in container images. It integrates seamlessly with Docker CLI, allowing IT professionals to:

• Scan Images for CVEs (Common Vulnerabilities and Exposures): Identify security risks before deployment.
• Receive Actionable Insights: Prioritized remediation recommendations based on severity.
• Automate Security Checks: Continuous monitoring ensures compliance with security standards.
• Integrate with Azure Container Registry (ACR): Scan images stored in ACR for proactive security management.

How It Works with Azure Container Solutions

By incorporating Docker Scout with Azure Container Registry (ACR), IT teams can establish a robust security workflow:

1. Build & Harden Docker Images – Optimize base images to minimize attack surfaces.
2. Scan with Docker Scout – Detect vulnerabilities in both public and private repositories.
3. Push Secure Images to ACR – Ensure only validated, hardened images are stored.
4. Deploy on Azure Container Solutions – Use AKS, Azure App Service, or Azure Functions with improved security confidence.
5. Monitor & Automate Security Updates – Continuous scanning helps maintain container integrity.

Best Practices for IT Professionals

To maximize security, IT teams should adopt the following best practices:

1. Use Minimal Base Images (Alpine, Distroless) to reduce attack surfaces.
2. Regularly Update & Scan Images to patch vulnerabilities.
3. Implement Role-Based Access Controls (RBAC) for container registries.
4. Adopt Infrastructure as Code (IaC) to enforce secure configurations.
5. Monitor & Audit Logs for anomalous activity detection.
6. Automate Docker Scout scans in CI/CD pipelines.
7. Enforce image signing & verification using Azure Key Vault.
8. Regularly update base images & dependencies to mitigate risks.
9. Apply role-based access controls (RBAC) within Azure Container Registry

Conclusion

Secure containerization starts with hardened Docker images and robust registry management. Azure Container Registry offers IT professionals the tools to maintain security while leveraging cloud efficiencies. By integrating these strategies within Azure’s ecosystem, organizations can build resilient and scalable solutions for modern workloads.
Docker Scout combined with Azure Container Registry provides IT professionals a strong security foundation for cloud-native applications. By integrating proactive vulnerability scanning into the development workflow, organizations can minimize risks while maintaining agility in container deployments.
When you work with artificial intelligence (AI) and Containers working with Model Context Protocol (MCP)
Security by Design comes first before you begin.
Here you find more information about MCP protocol via Docker documentation

50 years of Microsoft

A Legacy of Innovation and Transformation

Half a century ago, on April 4th, 1975, two young visionaries, Bill Gates and Paul Allen, co-founded Microsoft with a bold ambition: to make computing accessible and essential for everyone. What began as a small software company has grown into a global technology leader, continuously transforming industries and empowering billions of lives. As we celebrate Microsoft’s 50-year journey, let’s explore its milestones, innovations, and impact, including its contributions to datacenters, Windows Server, Hyper-V, Azure, and the leadership of its CEOs.

The Early Years: Coding the Future

Microsoft’s first big breakthrough came with the creation of an operating system for the fledgling personal computer market. In 1980, the company introduced MS-DOS, laying the groundwork for the revolutionary Windows operating system, launched in 1985. This graphical interface transformed computing, making it accessible to both businesses and individuals.

Guiding Microsoft Through Its Evolution: The CEOs Who Shaped the Company

Microsoft’s trajectory has been shaped by its visionary leadership. From the founders to the present, each CEO has left an indelible mark:

1. Bill Gates (1975–2000): As co-founder and first CEO, Gates spearheaded the company’s initial growth, launching pivotal products like MS-DOS, Windows, and Office. His focus on innovation and accessibility built the foundation of Microsoft’s success.
2. Steve Ballmer (2000–2014): During his tenure, Ballmer led Microsoft through massive expansion, particularly in enterprise solutions and cloud computing. He introduced Windows Server and laid the groundwork for services like Azure. Ballmer’s energy and passion defined his leadership style and kept Microsoft competitive in a rapidly changing market.
3. Satya Nadella (2014–Present): Nadella ushered in a cloud-first, AI-driven era, transforming Microsoft’s culture and business model. His emphasis on inclusivity, empathy, and sustainability revitalized the company. Under his leadership, Azure became one of the world’s leading cloud platforms, and Microsoft made transformative acquisitions like LinkedIn, GitHub, and Activision Blizzard.

Lake Bill on Redmond Campus

Redefining Enterprise Technology: Datacenters, Windows Server, and Virtualization

As businesses increasingly relied on technology, Microsoft expanded its offerings to support enterprise needs. Windows Server, introduced in 1993, became a cornerstone for server management and networking. It evolved over the decades, incorporating features such as Active Directory, high availability, and security enhancements.

Microsoft played a pivotal role in virtualization with Hyper-V, launched in 2008. Hyper-V allowed organizations to maximize resource efficiency and reduce costs by running multiple virtual machines on a single physical server. Modern datacenters powered by Microsoft’s hardware and software solutions now form the backbone of its cloud services.

Embracing the Cloud: The Azure Revolution

Microsoft’s Azure cloud platform, launched in 2010, redefined computing. It enabled organizations to access scalable infrastructure, deploy applications globally, and harness artificial intelligence with ease. Azure spans over 60 regions worldwide, making it one of the most comprehensive cloud platforms. Its ecosystem includes hybrid cloud solutions, advanced analytics, and IoT technologies.

Gaming, Devices, and Consumer Innovation

Microsoft entered the gaming industry with the Xbox in 2001, creating a thriving gaming ecosystem. Beyond gaming, the company innovated with devices like the Surface lineup, combining sleek design with productivity. Its integration of hardware and software demonstrated Microsoft’s versatility.

Shaping the Future: AI, Sustainability, and Datacenters

Microsoft continues to lead in artificial intelligence with tools like Microsoft Copilot. Its pledge to be carbon-negative by 2030 highlights environmental responsibility, with sustainable datacenter operations playing a central role.

Conclusion: A Legacy Built to Inspire

Microsoft’s 50-year journey is a testament to the power of innovation and visionary leadership. From Bill Gates to Steve Ballmer to Satya Nadella, each CEO has steered the company to new heights. With contributions ranging from datacenters and Windows Server to Hyper-V and Azure, Microsoft’s impact has been profound. As the company looks ahead, it remains dedicated to empowering people and organizations to achieve more, ensuring the next 50 years are as groundbreaking as the last.

Here’s to Microsoft—a company built to inspire and shape the future.

at Building 92 of the Microsoft Campus in Redmond.

Docker Desktop for Windows update 4.39.0

Introduction
Docker Desktop 4.39.0 is here, bringing a host of new features designed to enhance developer productivity, streamline workflows, and improve security. This release continues Docker’s commitment to providing efficient, secure, and reliable tools for building, sharing, and running applications.

Key Features in Docker Desktop 4.39.0

1. Docker AI Agent with Model Context Protocol (MCP) and Kubernetes Support
   • The Docker AI Agent, introduced in previous versions, has been upgraded to support MCP and Kubernetes. MCP enables AI-powered applications to access external data sources, perform operations with third-party services, and interact with local filesystems. Kubernetes support allows the AI Agent to manage namespaces, deploy services, and analyze pod logs.
2. General Availability of Docker Desktop CLI
   • The Docker Desktop CLI is now officially available, offering developers a powerful command-line interface for managing containers, images, and volumes. The new docker desktop logs command simplifies log management.
3. Platform Flag for Multi-Platform Image Management
   • Docker Desktop now supports the –platform flag on docker load and docker save commands, enabling seamless import and export of multi-platform images.
4. Enhanced Containerization Across Programming Languages
   • The Docker AI Agent can now containerize applications written in JavaScript, Python, Go, C#, and more. It analyzes projects to identify services, programming languages, and package managers, making containerization effortless.
5. Security Improvements
   • Docker Desktop 4.39.0 addresses critical vulnerabilities, such as CVE-2025-1696, ensuring proxy authentication credentials are no longer exposed in plaintext.

Docker Scout Security

Why These Features Matter

• Developer Productivity: The upgraded Docker AI Agent simplifies container management and troubleshooting, saving developers time and effort.
• Multi-Platform Flexibility: The –platform flag ensures compatibility across diverse environments, making Docker Desktop a versatile tool for modern development.
• Enhanced Security: By addressing vulnerabilities, Docker Desktop 4.39.0 reinforces its position as a secure platform for application development.

Conclusion
Docker Desktop 4.39.0 is a significant step forward, offering smarter tools, improved security, and greater flexibility for developers. Whether you’re managing Kubernetes clusters or containerizing applications, this release has something for everyone.

For more details, you can explore the official Docker blog or the release notes

Try Now!

Windows Server 2025 Insider Preview Build 26360

Exploring the Latest Features in Microsoft Windows Server Insider Preview Builds

Microsoft’s Windows Server Insider Preview Builds are a treasure trove of innovation and advanced features designed to enhance performance, security, and flexibility for IT professionals. Today, we’re diving into the latest updates and new features introduced in the Windows Server 2025 Insider Preview Build.
Here you find more on What’s New in Microsoft Windows Server 2025

Here are some Highlights of new Windows Server 2025 Insider Preview features:

1. Enhanced Security with Delegated Managed Service Accounts (dMSA)

One of the standout features in this build is the introduction of Delegated Managed Service Accounts (dMSA). This new account type allows for migration from traditional service accounts to machine accounts with managed and fully randomized keys. By linking authentication to the device identity, dMSA helps prevent credential harvesting through compromised accounts, a common issue with traditional service accounts.

2. Windows Admin Center (WAC) Integration

Starting with this build, users can now download and install the Windows Admin Center (WAC) directly from the Windows Server Desktop. This in-OS app simplifies the installation process and provides a seamless experience for managing your server infrastructure.

3. Bluetooth Connectivity

Windows Server 2025 now supports Bluetooth connectivity, allowing users to connect mice, keyboards, headsets, and other peripherals directly to the server. This feature enhances flexibility and convenience for server management.

4. DTrace for Real-Time Performance Monitoring

The new build includes DTrace, a powerful command-line utility that enables real-time performance monitoring and troubleshooting. DTrace allows users to dynamically instrument both kernel and user-space code without modifying the code itself, supporting a range of data collection and analysis techniques.

5. Improved Upgrade Experience

Upgrading to Windows Server 2025 has never been easier. The build supports in-place upgrades from Windows Server 2012 R2 and later versions, allowing you to upgrade up to four versions at a time. This streamlined upgrade process ensures a smooth transition to the latest server version.

6. Feedback Hub for User Input

The new Feedback Hub app is now available for Server Desktop users. This app allows users to submit feedback or report issues directly to Microsoft, helping the development team understand user experiences and improve future builds.

7. SMB over QUIC and Alternative Ports

The build introduces SMB over QUIC with support for alternative ports. This feature enhances security and performance by allowing SMB traffic to use custom-defined ports instead of the default UDP/443 port.

8. Enhanced Desktop Experience

When you sign in for the first time, the desktop shell experience now conforms to the style and appearance of Windows 11. This visual update provides a familiar and modern interface for server administrators.

These new features and enhancements in the Windows Server 2025 Insider Preview Build demonstrate Microsoft’s commitment to providing cutting-edge solutions for IT professionals. Whether you’re looking to improve security, streamline management, or enhance performance, the latest Windows Server Insider Preview Build has something to offer.

Stay tuned for more updates and features as Microsoft continues to innovate and improve its server offerings.

Conclusion:

Become a Microsoft Windows Server Insider and get all the newest features first to play with it in your test environment.

Get started here and register for free

Introduction to Windows 11 with Copilot on Microsoft Surface Devices

Welcome to the exciting world of Windows 11, where innovation meets productivity with the combined power of Copilot and Microsoft’s Surface devices. In this blogpost, we’ll explore how Windows 11 enhances the user experience, and how pairing it with Copilot on a Surface Laptop or Surface Pro creates an unmatched synergy that transforms the way you work and play.

Microsoft Copilot + PC for Business

User Interface and Design

Windows 11 introduces a sleek, modern interface with a centered Start menu, rounded corners, and new iconography. The redesigned taskbar, Action Center, and widgets provide a more intuitive and streamlined experience, making navigation a breeze on the stunning high-resolution displays of Surface devices. With the Surface’s touch and pen capabilities, the new themes and wallpapers can be tailored to fit your unique style.

New Features and Improvements

Enhanced Touch and Pen Support

Surface devices are known for their exceptional touch and pen support, making Windows 11’s enhanced touch features even more impactful. Whether you’re using the Surface Pen for precise drawing or multitouch gestures to navigate seamlessly, the combination offers unparalleled interactivity.

Virtual Desktops and Snap Layouts

With Windows 11, organizing your workspace becomes effortless. The introduction of Snap Layouts and Snap Groups allows for better multitasking, perfectly complemented by the Surface’s spacious screen real estate. Virtual desktops let you create customized workspaces for different projects, maximizing productivity on the go.

Improved Gaming Capabilities

Gaming on a Surface Laptop or Surface Pro reaches new heights with Windows 11’s optimized gaming features. From DirectStorage for faster load times to Auto HDR for vibrant visuals, your gaming experience becomes more immersive and enjoyable.

What is the NPU, and how does it enhance performance.

The Neural Processing Unit (NPU) is a newer addition to modern Windows devices and plays a key role in handling tasks related to artificial intelligence (AI) and machine learning. It is designed to speed up complex processes such as facial recognition, voice assistance, and data analysis, which require advanced computation. The NPU’s ability to offload these tasks from the CPU and GPU allows for faster, more efficient operation of the entire system.

Unlocking the power of NPU on Surface: Our “Hello World” journey for DevOps and developers

AI Integration

Copilot – Your AI Companion

Integrating Copilot into Windows 11 on Surface devices brings a new level of intelligence and assistance. Copilot can help you with tasks like setting reminders, generating content, and providing insights. With improved speech recognition and the power of the Surface’s microphones and speakers, interacting with Copilot feels natural and efficient.

Microsoft Office and AI

Windows 11 leverages AI to enhance productivity tools like Microsoft Office. Copilot can offer intelligent suggestions and insights, helping you create polished documents, manage emails, and stay organized, all while utilizing the Surface’s powerful hardware.

Security Enhancements

Security is paramount in Windows 11, with features like Windows Hello, Microsoft Defender, and BitLocker providing robust protection. The new Windows Security Center offers a comprehensive overview of security settings, ensuring your Surface device is always secure. Windows Hello takes full advantage of the Surface’s IR camera for quick and secure logins.

Windows 11 Security

Hyper-V and Virtualization

Windows 11 includes advanced virtualization capabilities through Hyper-V, allowing you to create and manage virtual machines with ease. This feature is particularly useful for developers, IT professionals, and power users who need to run multiple operating systems or isolated environments on their Surface devices.

Windows Subsystem for Linux (WSL)

The Windows Subsystem for Linux (WSL) in Windows 11 provides a seamless way to run Linux distributions natively on your Surface device. WSL offers improved performance, compatibility, and integration with Windows tools, making it an essential feature for developers and tech enthusiasts.

WSL

Performance and Optimization

Windows 11 is designed to deliver improved performance and efficiency, with faster boot times, enhanced battery life, and better resource management. Surface devices leverage hardware advancements to provide a smoother and more responsive experience, ensuring you can work and play without interruptions.

Tips and Tricks

Here are some tips and tricks to help you get the most out of Windows 11 on your Surface device:

• Keyboard Shortcuts: Utilize the Surface’s keyboard shortcuts to navigate quickly and efficiently.
• Customization: Personalize your device with themes, wallpapers, and widgets that reflect your style.
• Pen Shortcuts: Take advantage of Surface Pen shortcuts for quick access to apps and features.
• Battery Optimization: Manage power settings to maximize battery life and keep your Surface running longer.
• Troubleshooting: Use the Windows Security Center and Device Manager to diagnose and fix common issues.
• Become a Windows Insider: Here you can test almost every week a new Windows 11 Insider Preview Build

Conclusion

Windows 11, combined with Copilot on Microsoft Surface devices, represents a significant leap forward in terms of design, functionality, and performance. The innovative features and improvements make it the operating system of choice for users around the world, providing a seamless and powerful experience that enhances every aspect of your digital life.

Here you find more information about Microsoft Windows 11

The New Microsoft Surface Laptop Copilot + PC

Microsoft Windows 11 Free training on MS-Learn

Microsoft Windows 11 Security Book for free

Enjoy your New Microsoft Surface Device with Copilot!
It’s Awesome

Install the Newest Docker Desktop version 4.38.0

Docker released a New Docker Desktop version 4.38.0 with new features:

• nstalling Docker Desktop via the PKG installer is now generally available.
• Enforcing sign-in via configuration profiles is now generally available.
• Docker Compose, Docker Scout, the Docker CLI, and Ask Gordon can now be updated independently of Docker Desktop and without a full restart (Beta).
• The new update command has been added to the Docker Desktop CLI (Mac only).
• Bake is now generally available, with support for entitlements and composable attributes.
• You can now create multi-node Kubernetes clusters in Docker Desktop.
• Ask Gordon is more widely available. It is still in Beta.

In the following steps I’m upgrading my Docker Desktop Kubernetes 1-Node Cluster to a 4-Node Kubernetes Cluster:

Go to Settings in Docker Desktop and click on Kubernetes

Click on Kind.
Here you can select the Kubernetes version and how much nodes you need.

IMPORTANT: This will create a new Kubernetes Cluster!
(the old 1-node cluster will be gone)

Creating 4-Node Kubernetes Cluster in Docker Desktop

4-Node Kubernetes Cluster running in Docker Desktop

When you have “Show System Containers” in Settings at Kubernetes on
then you see these 4-Nodes here in VSCode.

Happy Coding

In the dynamic world of cloud computing, Microsoft continues to innovate with solutions that empower organizations to manage hybrid and multi-cloud environments effectively. One such groundbreaking solution is Azure Container Storage enabled by Azure Arc. This technology is designed to simplify and enhance the management of persistent storage for Kubernetes clusters, providing a unified and adaptive approach to cloud storage.

What is Azure Container Storage Enabled by Azure Arc?

Azure Container Storage enabled by Azure Arc is a first-party storage system designed for Arc-connected Kubernetes clusters. It serves as a native persistent storage solution, offering high availability, fault tolerance, and seamless data synchronization to Azure Blob Storage. This system is crucial for making Kubernetes clusters stateful, especially for Azure IoT Operations and other Arc services.

Key Features and Benefits

1. High Availability and Fault Tolerance: When configured as a 3-node cluster, Azure Container Storage enabled by Azure Arc replicates data between nodes (triplication) to ensure high availability and tolerance to single node failures.
2. Data Synchronization to Azure: Data written to volumes is automatically tiered to Azure Blob Storage, including block blob, ADLSgen-2, or OneLake. This ensures that data is securely stored and easily accessible in the cloud.
3. Low Latency Operations: Arc services, such as Azure IoT Operations, can expect low latency for read and write operations, making it ideal for real-time applications.
4. Simple Connection: Customers can easily connect to an Azure Container Storage enabled by Azure Arc volume using a CSI driver to start making Persistent Volume Claims against their storage.
5. Flexibility in Deployment: Azure Container Storage enabled by Azure Arc can be deployed as part of Azure IoT Operations or as a standalone solution, providing flexibility to meet various deployment needs.
6. Platform Neutrality: This storage system can run on any Arc Kubernetes supported platform, including Ubuntu + CNCF K3s/K8s, Windows IoT + AKS-EE, and Azure Stack HCI + AKS-HCI and Azure Local.

Microsoft Azure Local solution

Azure Container Storage Offerings

Azure Container Storage enabled by Azure Arc offers two main storage options:

1. Cache Volumes: The original offering, providing a reliable and fault-tolerant file system for Arc-connected Kubernetes clusters.
2. Edge Volumes: The newest offering, which includes Local Shared Edge Volumes and Cloud Ingest Edge Volumes. Local Shared Edge Volumes provide highly available, failover-capable storage local to your Kubernetes cluster, while Cloud Ingest Edge Volumes facilitate limitless data ingestion from edge to Blob storage.

Use Cases and Applications

Azure Container Storage enabled by Azure Arc is particularly beneficial for organizations with hybrid and multi-cloud environments. It supports various use cases, including:

• IoT Applications: Ensuring data integrity and synchronization in disconnected environments, making it ideal for IoT operations.
• Edge Computing: Providing local storage for scratch space, temporary storage, and locally persistent data unsuitable for cloud destinations.
• Data Ingestion: Facilitating seamless data transfer from edge to cloud, optimizing local resource utilization and reducing storage requirements.

Conclusion

Azure Container Storage enabled by Azure Arc represents the future of hybrid cloud storage, offering seamless onboarding, unified management, and adaptive capabilities. By leveraging this technology, organizations can overcome the challenges of hybrid and multi-cloud environments, streamline operations, and drive innovation.

Whether you’re just starting your cloud journey or looking to optimize your existing infrastructure, Azure Container Storage enabled by Azure Arc provides the tools and guidance you need to succeed. Embrace the power of this transformative solution and unlock new possibilities for your organization.

Jumpstart Drops is a good begin in your test environment, before you begin in production. Here you find a Jump start drop about “Create an Azure Container Storage enabled by Azure Arc Edge Volumes with CloudSync” by Anthony Joint.

More information:

Introducing Azure Local by Cosmos Darwin

Microsoft Adaptive Cloud

Announcement! Edge Storage Accelerator YouTube video. 

What is Microsoft Azure Arc Services?

Docker Desktop main screen

In the ever-evolving world of software development, Docker Desktop for Windows has emerged as an indispensable tool for developers. This powerful platform simplifies the process of building, sharing, and running applications within containers, offering a host of features and benefits that streamline workflows and enhance productivity. Let’s dive into what makes Docker Desktop for Windows a must-have for developers.

Easy Installation and Setup

One of the standout features of Docker Desktop for Windows is its straightforward installation process. With just a few clicks, developers can have Docker up and running on their Windows machines. The intuitive setup ensures that even those new to Docker can get started without a hitch.

Integrated GUI

Docker Desktop comes with a user-friendly Graphical User Interface (GUI) that makes managing containers, images, and settings a breeze. The GUI provides a visual representation of your Docker environment, allowing you to easily monitor and control your containers without needing to rely solely on command-line instructions.

Seamless Integration with WSL 2

For developers working with both Windows and Linux containers, Docker Desktop offers seamless integration with Windows Subsystem for Linux 2 (WSL 2). This integration allows you to switch between Linux and Windows containers effortlessly, leveraging the best of both worlds. WSL 2 provides a lightweight Linux kernel that runs alongside your Windows OS, ensuring optimal performance and compatibility.

Resource Management

Docker Desktop includes robust resource management features, enabling developers to allocate CPU, memory, and disk resources to their containers. This ensures that your development environment remains responsive and efficient, even when running multiple containers simultaneously.

Automatic Updates

Docker Desktop Automatically check for updates.

Keeping your Docker environment up-to-date is crucial for security and performance. Docker Desktop simplifies this process with automatic updates, ensuring that you always have the latest features and security patches without manual intervention.

Docker Compose Integration

Docker Compose is a powerful tool for defining and running multi-container Docker applications. Docker Desktop integrates seamlessly with Docker Compose, allowing developers to easily manage complex applications with multiple services. This integration simplifies the orchestration of containers, making it easier to develop, test, and deploy applications.

Kubernetes Support

For developers looking to dive into the world of Kubernetes, Docker Desktop offers built-in support for Kubernetes. This feature allows you to run a single-node Kubernetes cluster on your local machine, providing a convenient environment for learning and experimentation. With Kubernetes support, you can develop and test containerized applications before deploying them to a production cluster.

Volume Management

Docker Desktop Volumes management

Managing data within containers is made simple with Docker Desktop’s volume management capabilities. You can easily create, manage, and share volumes between containers, ensuring that your data persists across container restarts and updates.

Benefits for Developers

Enhanced Productivity

Docker Desktop Dev Environments

Docker Desktop streamlines the development process by providing a consistent environment across different stages of development. This consistency reduces the “it works on my machine” problem, ensuring that applications run smoothly from development to production.

Simplified Collaboration

With Docker Desktop, sharing your development environment with team members is as simple as sharing a Docker image. This ensures that everyone on your team is working with the same setup, reducing discrepancies and improving collaboration.

Flexibility and Portability

Docker containers are inherently portable, allowing you to run your applications on any system that supports Docker. This flexibility is particularly beneficial for developers working in diverse environments or deploying applications across different platforms.

Improved Security

Docker Desktop Scout

Docker Desktop provides a secure environment for running containers, isolating applications from the host system and each other. This isolation reduces the risk of security vulnerabilities and ensures that your development environment remains protected.

Conclusion

Docker Desktop for Windows is a game-changer for developers, offering a comprehensive suite of features that enhance productivity, simplify collaboration, and improve security. Whether you’re a seasoned developer or just starting with containerization, Docker Desktop provides the tools you need to build, share, and run applications with ease. Embrace the power of Docker Desktop and take your development workflow to the next level.

Here you find more information about Docker Desktop:

The Website of Docker Desktop

Docker Desktop Documentation

Skill up with Docker

Whalecome to the Docker Community

Docker in VSCode

Happy coding!

Once upon a time, in a world where technology and holiday cheer intertwined, there was a bustling community of developers eagerly awaiting the latest updates from the Microsoft Windows 11 and Windows Server Insider programs. As the festive season approached, the air was filled with excitement and anticipation.

In the heart of this community were the Microsoft MVPs (Most Valuable Professionals) and Docker Captains, who were known for their expertise and passion for technology. They decided to come together to create something truly magical for developers around the world.

One snowy evening, as the MVPs and Docker Captains gathered around a virtual fireplace, they began to brainstorm ideas. “What if we could combine the power of Windows 11, Windows Server, and Docker Containers to create a seamless development experience?” suggested one MVP, their eyes twinkling with excitement.

The idea quickly gained momentum, and soon, the group was hard at work. They envisioned a world where developers could effortlessly build, test, and deploy applications using the latest features of Windows 11 and Windows Server, all within the flexible and scalable environment of Docker Containers.

With the help of the Insider programs, they gained early access to cutting-edge features and updates. The MVPs and Docker Captains worked tirelessly, sharing their knowledge and expertise to create a series of tutorials, guides, and sample projects. These resources were designed to help developers harness the full potential of Windows 11, Windows Server, and Docker Containers.

As the holiday season progressed, the community began to see the fruits of their labor. Developers from all corners of the globe started to adopt the new tools and techniques, marveling at the ease and efficiency they brought to their workflows. The combination of Windows 11’s sleek interface, Windows Server’s robust capabilities, and Docker Containers’ flexibility created a harmonious symphony of technology.

To celebrate their success, the MVPs and Docker Captains organized a virtual holiday party. Developers joined from far and wide, sharing stories of their experiences and the innovative projects they had created. The virtual room was filled with laughter, camaraderie, and a shared sense of accomplishment.

As the night drew to a close, one of the Docker Captains raised a toast. “Here’s to the power of collaboration, the spirit of innovation, and the joy of the holiday season. May we continue to push the boundaries of technology and inspire developers everywhere.”

And so, the story of the Microsoft Windows 11 and Windows Server Insider Christmas, made possible by the dedication and expertise of the MVPs and Docker Captains, became a cherished tale in the developer community. It was a reminder that, with passion and teamwork, even the most ambitious dreams could come true.

Happy holidays, and may your coding adventures be merry and bright!

New Docker Desktop for Windows version Available

• You can now perform key operations such as starting, stopping, restarting, and checking the status of Docker Desktop directly from the command line.
• The AI Catalog in Docker Hub is directly available through Docker Desktop.

More information about this release 4.37.0 on Docker docs.

Installing new release

Enable Docker AI (Beta feature) here

Click on Apply & Restart

The New AI Docker Beta feature known as Gordon

The new AI Docker beta feature, known as “Ask Gordon,” allows you to interact with Docker’s AI assistant to get help, guidance, and answers to your Docker-related questions. Here’s how you can use it:

1. Using “Ask Gordon” in Docker CLI

• Open your terminal or command line interface.
• Use the command: docker ai.
• This will activate the “Ask Gordon” feature, and you can type your questions or commands directly.

2. Using “Ask Gordon” in Docker Desktop

• Open Docker Desktop.
• Look for the “Ask Gordon” feature, which is integrated into the interface.
• You can type your questions or requests in the provided input field.

3. Requirements

• Ensure you have an active internet connection.
• Make sure your system allows communication to https://ai-backend-service.docker.com/.

4. Enabling or Disabling “Ask Gordon”

• For Individual Users:
  • Open Docker Desktop.
  • Go to Settings > Features in development > Beta features.
  • Tick or untick the “Enable Docker AI” option.
  • Click “Apply and restart” to save changes.
• For Organizations:
  • Administrators can disable “Ask Gordon” for the entire organization using the “Cloud Settings” feature.

5. What You Can Do with “Ask Gordon”

• Ask questions about Docker commands, configurations, and best practices.
• Get help troubleshooting Docker issues.
• Learn about Docker features and updates.

Docker Public Roadmap on GitHub

Docker Desktop Software Update 4.36.0 (175267)

• WSL2 is now faster, more reliable, and has enhanced security
• Enhance Container Isolation (ECI) has been improved to support images with wildcard tags
• Admins can now:
  • Allow any container to mount the Docker socket with ECI
  • Enforce sign-in with macOS configuration profiles (Early Access)
  • Enforce sign-in for more than one organization at a time (Early Access)
  • Deploy Docker Desktop for Mac in bulk with the PKG installer (Early Access)
  • Use Desktop Settings Management to manage and enforce defaults via admin.docker.com (Early Access)

See here the Docker Desktop Update Release notes

Docker Desktop for Windows is Up-to-date
together with Kubernetes version 1.30.5