Microsoft announced Windows 10 Pro for Workstations
Microsoft has confirmed the launch of the new version of Windows 10 Pro, dubbed Windows 10 Pro for Workstations
Microsoft has today announced that the company is maintaining a touch with the advances in computer hardware while keeping its flagship product in. The company has confirmed the launch of the new version of Windows 10 Pro, dubbed Windows 10 Pro for Workstations.
This operating system by Microsoft is scheduled to arrive with the Fall edition of Windows Creators Update, the one for which users are waiting with bated breath. While AMD and Intel has already released 32- and 28-core processors, which report as much as 128 cores/threads in a 2P (dual socket) configuration, the question now arises is that how will Microsoft follow the breakneck pace of CPU and GPU wars?
New Windows 10 Pro will essentially be a highly tuned version of the operating system that will focus on reducing system latency and increasing responsiveness as much as possible. First and foremost, Windows 10 Pro will support four socket (4P) systems along with the two socket (2P) ones.
GPU support now grows to what AMD and NVIDIA physically support (CUDA 9.0 enables 64 GPUs in a single OS image. So, if you have a motherboard with 20 PCIe slots, you need not run the server version of Windows – Windows 10 Pro will take care of it.
Here are highlights of “Windows 10 Pro for Workstations Creators Update November 2017”:
- ReFS (Resilient file system): Codenamed Protogon, ReFS provides cloud-grade resiliency for data on fault-tolerant storage spaces and manages very large volumes with ease. ReFS is designed to be resilient to data corruption, optimized for handling large data volumes, auto-correcting and more. It protects your data with integrity streams on your mirrored storage spaces. Using its integrity streams, ReFS detects when data becomes corrupt on one of the mirrored drives and uses a healthy copy of your data on the other drive to correct and protect your precious data.
- Persistent memory: Windows 10 Pro for Workstations provides the most demanding apps and data with the performance they require with non-volatile memory modules (NVDIMM-N) hardware. NVDIMM-N enables you to read and write your files with the fastest speed possible, the speed of the computer’s main memory. Because NVDIMM-N is non-volatile memory, your files will still be there, even when you switch your workstation off.
- Faster file sharing: Windows 10 Pro for Workstations includes a feature called SMB Direct, which supports the use of network adapters that have Remote Direct Memory Access (RDMA) capability. Network adapters that have RDMA can function at full speed with very low latency, while using very little CPU.
- Increased throughput: Leverages the full throughput of high speed networks where the network adapters coordinate the transfer of large amounts of data at line speed.
- Low latency: Provides extremely fast responses to network requests, and, as a result, makes remote file storage feel as if it is directly attached storage.
- Low CPU utilization: Uses fewer CPU cycles when transferring data over the network, which leaves more power available to other applications running on the system.
- Expanded hardware support in Windows 10 Pro for Workstations. Users will now be able to run Windows 10 Pro for Workstations on devices with high performance configurations including server grade Intel Xeon or AMD Opteron processors, with up to 4 CPUs (today limited to 2 CPUs) and add massive memory up to 6TB (today limited to 2TB).
- Performance is a very important requirement in this new world of fast paced innovation and we will continue to invest on Windows 10 Pro for Workstations to enable Windows power users to maximize every aspect of their high-performance device. Windows 10 Pro for Workstations utilizes significant investments, that Windows has made in recent releases, for scaling up across a high number of logical processors and large amounts of memory. Our architectural changes in the Windows kernel take full advantage of high-end processors families, such as Intel Xeon or AMD Opteron, that package a high number of cores in single or multi-processor configurations.