Out with the old

In with the new

Windows Server 2019 is the advanced operating system which bridges on-premises and cloud - helping you modernise your applications and infrastructure effectively.


All support for Windows Server 2008 and 2008 R2 will officially end on January 14, 2020. What does that mean? It means no more security updates, so it’s important that you get protectionfor your infrastructure and applications. But don’t panic, we canadvise you on how to purchase the correct upgrade.
Where do we start? There are so many reasons you need to have Windows Server 2019: Start using cloud services to support and strengthen your own environments, the Admin Centre is the future of remote server management, it introduces advanced storage migration services, and is the perfect partner for all things Linux. And that’s just for starters.
Check out our range of Windows Server 2019 Operating Systems:
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 Not Supported
 Partially Supported
 Fully Supported
FeaturesWindows server 2008 R2Windows Server 2012 R2Windows Server 2016Windows Server 2019

  Unique hybrid capabilities with Azure

Storage Migration Service helps to inventory and migrate data, security, and configurations from legacy systems to Windows Server 2019 and/or Azure.
Synchronizing file servers to Azure helps centralize your organization's file shares in Azure Files while keeping the flexibility, performance, and compatibility of an on-premises file server.
System Insights brings local predictive analytics capabilities native to Windows Server. These predictive capabilities, each backed by a machine-learning model, locally analyze Windows Server system data to provide high-accuracy predictions that help reduce the operational expenses associated with reactively managing Windows Server instances.
Azure network adaptor easily connects to Azure virtual networks. Windows Admin Center performs the heavy lifting of configuring the VPN to a new network adapter that will connect Windows Server 2019 to a point-to-site Azure virtual network VPN.
VM protection replicates workloads running on physical and virtual machines (VMs) from a primary site to a secondary location.

  Enhanced security capabilities

Enhanced Windows Defender Advanced Threat Protection (ATP) is a new set of host intrusion prevention capabilities such as preventative protection, attack detection, and zero-day exploits.
Shielded VMs for Windows use BitLocker to encrypt disk and state for Windows OS-based VMs.
Shielded VMs for Linux protects Linux VMs from attacks and compromised administrators in the underlying fabric and extensive threat resistance components.
HGS offline mode for shielded VMs allows shielded VMs to turn on when HGS cannot be reached, if the security configuration of your Hyper-V host has not changed.
VM Connect for shielded VMs enhances the interactive session experience by providing a secure console connection while interacting with a shielded VM for Windows and Linux machines.
Cluster hardening new clusters running Windows Server 2019 will not require NTLM, which completely removes the requirement of Active Directory for clusters in Windows Server.
SDN encrypted subnet virtual network encryption provides the ability for the virtual network traffic to be encrypted between VMs that communicate with each other within subnets.
Just-enough administration limits administrative privileges to the bare minimum required set of actions (limited in space).
Just-in-time administration provides privileged access through a workflow that is audited and limited in time.
Credential guard uses virtualization-based security to help secure credential information against advanced persistent threats on the system and to protect it from being stolen by a compromised administrator or malware.
Control flow guard helps protect against classes of memory corruption attacks.
Remote credential guard works in conjunction with credential guard for Remote Desktop Protocol (RDP) sessions to deliver single sign-on (SSO), eliminating the need to pass credentials to the RDP host.
Device guard (code integrity) helps ensure only authorized executables run on the server.
Dynamic access control enables administrators to apply access-control permissions and restrictions based on well-defined rules.
AppLocker provides policy-based access control management for applications.
BitLocker uses a hardware or virtual Trusted Platform Module (TPM) chip to provide disk encryption for data and system volumes.

  Unprecedented Hyper-converged Infrastructure

Unified management in Windows Admin Center is an elegant browser-based HCI remote management interface that includes software-defined network configuration and monitoring.
Storage Spaces protect your data from drive failures and extend storage over time as you add drives to your servers.
Enhanced Storage Spaces Direct (S2D) build software-defined storage using industry standard servers with local storage that can scale up to 1PB per storage pool in Windows Server 2016 and 4PB per storage pool and 64TB per volume in Windows Server 2019.
Mirror-accelerated parity lets you create volumes that are part mirror and part parity for 2x better performance on storage spaces direct deployments. Writes land first in the mirrored portion and are gradually moved into the parity portion.
Nested Mirror Accelerated parity enables two-node clusters at the edge to survive multiple simultaneous failures.
Storage class memory support for new generation of server hardware including storage class memory, which drastically improves performance for server applications.
USB thumb drive (as cluster witness) support for USB thumb drive as cluster witness allows true 2 node HCI deployments, with no additional dependencies.
Storage Replica provides storage-agnostic, block-level, and asynchronous and synchronous replication between servers for disaster recovery and allows stretching of a failover cluster for high availability.
Storage Quality of Service (QoS) uses policies to define and monitor storage input/output minimums and maximums for VMs to enable consistent performance across VMs.
Data deduplication provides volume savings of up to 90% by storing duplicate files on a volume once using logical pointers. Windows Server 2019 add support for deduplication with ReFS volumes.
Deduplication for ReFS supported on ReFS to optimize free space on a volume by examining the data for duplicated portions.
Virtual machine storage resiliency provides intelligent means to retain VM session states to minimize the impact of minor storage disruptions.
Cloud Witness enables Azure blob storage as a witness in a quorum for a stretched cluster. Additionally, in Windows Server 2019 you can now create a file share witness that does not utilize the Cluster Name Object (CNO), but simply uses a local user account on the server the FSW is connected to.
Storage health monitoring provides continuous monitoring, reporting, and maintenance to support storage spaces directly.
Cluster-wide monitoring monitors memory and CPU usage, storage capacity, IOPS, throughput, and latency in real time with clear alerts when something's not right.
Cluster sets allows you to create large scale-out clusters with greater flexibility (deploying and retiring clusters) without sacrificing resiliency.
Cluster OS rolling upgrade enables an administrator to seamlessly upgrade the operating system of nodes in a failover cluster from Windows Server 2012 R2 and Windows Server 2016 to Windows Server 2019.
Mixed OS mode cluster enables Windows Server 2012 R2 cluster nodes to operate with Windows Server 2016 nodes.
Site-aware failover clusters groups nodes in stretched clusters based on physical location, enhancing key cluster-lifecycle operations such as failover, placement policies, heart-beating between nodes, and quorum behavior.
Kernel soft reboot provides WSSD-validated hardware faster reboot time, reducing application downtime.
Persistent memory support for persistent memory (PM) technology provides byte-level access to non-volatile media while also reducing the latency of storing or retrieving data significantly.
Linux and FreeBSD workloads enables most of the Windows Server software-defined datacenter features for Linux and FreeBSD guests running on Hyper-V for increased functionality, performance, and manageability.
Hot add and remove for disk, memory, and network allows you to add or remove a network adapter and adjust the amount of memory assigned while the VM is running, without any interruption. The memory adjustment capability works even when you have dynamic memory turned on for a Hyper-V host.
Network controller provides a centralized, programmable point of automation to manage, configure, monitor, and troubleshoot virtualized network infrastructure in your datacenter.
Virtual networking helps create network overlays on top of a shared multi-tenant physical fabric.
Software load balancer (SLB) a cloud-optimized Layer 3 and Layer 4 load balancer that provides both North-South and East-West load balancing.
Virtual network peering provides high speed connectivity between two virtual networks. Traffic between the virtual networks goes through the underlying fabric network with no gateway. Both virtual networks must be part of the same datacenter stamp.
Distributed firewall and micro-segmentation dynamically segment networks based on evolving security or application needs using a stateful firewall and network security groups.
Hybrid SDN gateways multi-tenanted, highly available gateways that connect customer virtual networks to Azure, other Windows Server-powered clouds, high speed WANs, and local non-virtualized resources.
Improved SDN gateway improvements up to 3x for GRE tunnels and IPSec site-to-site VPN.
Converged RDM storage traffic and tenant Ethernet traffic on the same underlying NIC team for significant cost savings, while also getting the desired throughput and quality of service.
Precision Time Protocol (PTP) enables network devices to add the latency introduced by each network device into the timing measurements, thereby providing a far more accurate time sample than Network Time Protocol (NTP).
Leap Second support for occasional 1-second additions to UTC to adjust as earth’s rotation slows increases accuracy, compliance, and traceability.
HTTP/2 support for HTTP/2 (RFC 7540) in the native HTTP server. Now, Windows Server 2019 delivers performance and security benefits to your website deployments with HTTP/2.
Latency Optimized Background Transport - LEDBAT with Windows Server 2019, we bring a latency optimized, network congestion control provider, Low Extra Delay Background Transfer (LEDBAT). LEDBAT is designed to automatically yield bandwidth to users and applications, while consuming the entire bandwidth available when the network is not in use.
IP address management (IPAM) and DNS now supports comprehensive DNS and DHCP management with role-based access control across multiple AD forests. DNS provides for traffic management, load balancing, split-brain deployments, and prevention of DNS amplification attacks.
High-availability RDS connection broker helps create a fault-tolerance connection broker for Remote Desktop Services (RDS) scenarios.
Software defined networking (SDN) with IPv4/IPv6 provides a method to centrally configure and manage physical and virtual network devices. Additionally, Windows Server 2019 now supports IPv6 and dual stack IPv4/IPv6 addressing as well.

  Faster innovation for applications

Linux containers allow application admins to manage both Windows and Linux applications on the same environment, reducing the management overhead.
Windows Server containers creates an isolated application environment in which you can run an application without fear of changes due to applications or configuration.
Server Core base container image reduced Server Core base container image size will reduce download time and further optimize the development time and performance.
Nano Server base container image will reduce download time and further optimize the development time and performance. For Windows Server 2016, Nano Server base container image optimization is available with Semi-Annual Channel updates. This capability comes with Windows Server 2019 out-of-the-box.
Server Core Features on Demand (FoD) significantly improve the app compatibility of Windows Server Core by including a set of binaries and packages from Windows Server with Desktop without adding any of the Windows Server Desktop GUI or Windows 10 GUI experiences.
Kubernetes platform support with major improvements to computing, storage, and networking components.
Group Managed Service Accounts (gMSA) provides a single identity solution for services running on a server farm, or on systems behind network load balancer. Using a gMSA, services or service administrators do not need to manage password synchronization between service instances. In Windows Server 2019, gMSA improves the scalability and reliability of containers to access network resources.
Windows Subsystem for Linux (WSL) allows developers and application administrators to use tools in Linux environments alongside Command Prompt and PowerShell.
Hyper-V isolation provides a highly isolated container environment in which the host operating system cannot be affected in any way by any other running container.
Azure Service Fabric for Windows Server enables you to create a multi-machine Azure Service Fabric cluster in your own datacenter or in other public clouds.
PowerShell 5.1 provides enhanced scripting capabilities for configuration, management, and deployment of software-defined datacenter components.
PowerShell Desired State Configuration (DSC) provides a set of PowerShell language extensions and cmdlets to declaratively specify how you want your software environment to be configured.
Visual Studio Code supports development operations such as debugging, task running, and version control to provide the tools a developer needs for a quick code-build-debug cycle.
.NET Core helps create modern web apps, microservices, libraries, and console applications that run on Windows, Mac, and Linux.

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