• Intel Opengl 4.6 Download Windows 10 64 Bit

Intel has published a new graphics driver for its GPUs (Intel 6th, 7th, 8th and 9th Gen processors) on Windows 10. This new driver (version 25.20.100.6861) comes with the following new features:

GAMING HIGHLIGHTS:
Launch Driver for:
– A Plague Tale: Innocence
– Total War: Three Kingdoms
– Conan Unconquered

Dive into the medieval era this month, with intricate swordsmanship battles in Mordhau, or relive the horrors of the time in A Plague Tale: Innocence. Real-time strategy fans have a chance to double dip in the action, right on the release days of Total War: Three Kingdoms and Conan Unconquered, all on Intel UHD Graphics 620 or better.

DEVELOPER HIGHLIGHTS:
– Support for OpenGL 4.6 API
– Various additions to D3D12 MetaCommand support in DirectML.
– The Intel® Graphics Control Panel SDK now allows for control of Local Adaptive Contrast Enhancement (LACE)
sensitivity (low/med/high) on platforms where available
– Vulkan 1.1.103 + new Vulkan extensions

PERFORMANCE IMPROVEMENTS:
– Improved performance and image quality when Conservative Morphological Anti-Aliasing (CMAA) is enabled for
DX12 games and 3D applications.
– Reduced compilation time on OpenCL shaders
– Playability improvements and performance optimizations for Total War: Three Kingdoms*, Totally Accurate
Battle Simulator*, and Risk of Rain 2

About Save Legacy Intel OpenGL. This repository is intended to be a catalog of fixes to get OpenGL working on Windows 10 for programs coded to advertise Window 10 compatibility on old Intel graphics controllers.

This driver fixes the following issues:

• Intel Quick Sync Video; For Windows 10, the total system memory that is available for graphics use is half the system memory. For Windows 8, it is up to 3840 MB. On Windows 7, it is up to about 1.7 GB through DVMT. WDDM 2.2 support with Windows.
• For example my machine now says on windows 10 with latest driver for intel hd graphics when i run newest blender that i need a more newer card with opengl 3.3 support - while in linux i saw the open source intel driver already supports it! Opengl 4.3 intel has started the road to opengl.

– Intermittent crashes or hangs may occur in World War Z* (Vulkan), Rocket Arena*, World of Warships*, Maxon
Cinema 4D*
– Minor graphics anomalies may be observed in Apex Legends* (low settings with TSAA disabled on 6th
generation Intel® Core Processors only), Generation Zero*, Imperator Rome*, Devotion* (when anti-aliasing
enabled), Maxon Cinema 4D*, Creo View* while hovering mouse over objects
– Content protection may be disabled when hotplugging a display by DisplayPort, in connected standby mode,
with monitors turned off
– A display hotplugged to a type-c DisplayPort hub may not be detected
– Video output may not update while changing the input range from ‘Full’ to ‘Limited’ in the Intel® Graphics
Command Center
– Miracast display may show black screen when connected over an HDCP 2.3 dongle
– Intermittent hangs may occur when using Media SDK to encode MPEG2 on 7th Generation Intel® Core
processors or higher
– Aniostropic filtering and CMAA Anti-aliasing settings may not apply to games and 3D applications in Intel
Graphics Command Center (IGCC)

Downloads

A thread is available HERE for any feedback about this driver.

Quick test of this driver on an Intel Core i7-8700K (with an UHD 630 GPU):

OpenGL support

Finally Intel has decided to add the old (nearly 2-year old) OpenGL 4.6 support to its driver! Better late than never. Intel v6709 is an OpenGL 4.5 driver and exposes 251 OpenGL extensions. It’s the same OpenGL support than previous v6519.

The complete list of all 250 extensions exposed for an UHD 630 GPU on Windows 10 64-bit:

Vulkan support

Intel v6861 exposes Vulkan 1.1.103. This new driver adds four new device extensions:

– VK_EXT_depth_clip_enable : allows the explicitly control depth clipping operation
– VK_EXT_host_query_reset : adds a new function to reset queries from the host
– VK_EXT_scalar_block_layout : enables C-like structure layout for SPIR-V blocks
– VK_KHR_shader_float16_int8 : allows use of 16-bit floating-point types and 8-bit integer types in
shaders for arithmetic operations

Here is the report from GPU Caps Viewer 1.42.0:

Related posts:

Deploy OpenCL™ Runtimes

Obtain runtimes to execute or develop OpenCL™ applications on Intel­® Processors

• Intel® Graphics Technology Runtimes
  • Target Intel® GEN Compute Architectures on Intel® Processors only
• Intel® Xeon® Processor or Intel® Core™ Processor Runtimes
  • Target Intel® x86/x86-64 only

Important Change

There is a change in OpenCL™ CPU runtime for Windows* distribution in the 2020 February release to be consistent with Linux* distribution. The OpenCL CPU runtime is removed from the OpenCL driver for Windows starting in the 2020 February release version 'igfx_win10_100.7870.exe'.

• But the installer of the new driver did not remove the old OpenCL CPU runtime when you upgrade the newer driver, so you may have two OpenCL CPU runtimes on your system. This issue is already fixed in the installation script on github here.
• To download the OpenCL CPU runtime for Windows, please follow any of the following methods:
  • Follow the section 'Intel® CPU Runtime for OpenCL™ Applications 18.1 for Windows* OS (64bit or 32bit)' below to download and install.
  • Github: https://github.com/intel/llvm/releases
    • Search for 'oneAPI DPC++ Compiler dependencies' and find latest release to download, e.g. https://github.com/intel/llvm/releases/tag/2020-WW20
    • Following the installation instructions to install

Intel® Graphics Technology Runtimes

Execute OpenCL™ applications on Intel® Processors with Intel® Graphics Technology.

• Specifically target Intel® HD Graphics, Intel® Iris® Graphics, and Intel® Iris® Pro Graphics if available on Intel® Processors.
• Runtimes for Intel® Graphics Technology are often deployed in tandem with an Intel® CPU runtime.
• Consider graphics runtimes when developing OpenCL™ applications with the Intel® SDK for OpenCL™ Applications or Intel® System Studio.

Check release notes to ensure supported targets include your target device. For Intel® processors older than supported targets, please see the legacy deployment page.

Linux* OS

Repository Install Guidance *Easy* | Manual Download and Install | Build | README | FAQ

Note: The latest OpenCL runtime for CPU requires GNU* gcc version 7.3 or newer.

Intel® Graphics Compute Runtime for OpenCL™ Driver is deployed with package managers for multiple distributions. Please see the documentation on the GitHub* portal for deployment instructions.

Considerations for deployment:

• Ensure the deployment system has the (libOpenCL.so) ICD loader runtime from either:
  • Your system package manager (for example with the unofficial ocl-icd )
    • Useful package manager search hints:
      • apt update; apt-file find libOpenCL.so
      • yum provides '*/libOpenCL.so'
  • Build from the official Khronos ICD Loader reference repository.
  • Part of the Intel® SDK for OpenCL™ Applications.
• The Intel® Graphics Compute Runtime for OpenCL™ Driver depends on the i915 kernel driver. Necessary i915 features are available with relatively recent Linux* OS kernels. The recommended kernel is the validation kernel cited in documentation. In general, deployments after the 4.11 kernel should be OK. Make sure to review the release notes and documentation for more specifics.

Windows* OS

• Intel® Graphics Compute Runtime for OpenCL™ Driver is included with the Intel® Graphics Driver package for Windows* OS.
• Download Options
  • System Vendor
    • See your vendor website for a graphics or video driver download for the system
  • Intel® Download Center
    • Navigate to “Graphics Drivers” for recent releases.
    • Try the system vendor first in consideration of vendor support. System vendors may disable Intel® Graphics Driver install.
  • The graphics driver package is built in with Windows* 10 OS install. However, the built-in default deployment may not contain latest features.
• Release Notes
  • In the Download Center navigate to “Graphics Drivers” for Release Notes.

Intel® Xeon® Processor OR Intel® Core™ Processor (CPU) Runtimes

Execute OpenCL™ kernels directly on Intel® CPUs as OpenCL™ target devices.

• Consider an OpenCL™ CPU implementation for Intel® systems without Intel® Graphics Technology.
• Systems with Intel® Graphics Technology can simultaneously deploy runtimes for Intel® Graphics Technology and runtimes for Intel® CPU (x86-64).
• For application developers, the CPU-only runtime is pre-included with the Intel® SDK for OpenCL™ Applications or Intel® System Studio: OpenCL™ Tools component.

Check release notes to ensure supported targets include your target device. For Intel® processors older than supported targets, see the legacy deployment page.

Intel® CPU Runtime for OpenCL™ Applications 18.1 for Linux* OS (64bit only)

​Download

• Size 125 MB
• See supported platform details in the Release Notes.
• Ubuntu* install uses an rpm translator
• The Linux* OS CPU runtime package also includes the ICD loader runtime (libOpenCL.so). The runtime installer should set the deployment system to see this ICD loader runtime by default. When examining system libraries, administrators may observe ICD loader runtimes obtained from other places. Examples include the system package manager (for example with ocl-icd) or as part of the Intel® SDK for OpenCL™ Applications.
• Maintenance and updates are now provided in the Experimental Intel® CPU Runtime for OpenCL™ Applications with SYCL support implementation. This implementation is listed later in this article.
• MD5 83c428ab9627268fc61f4d8219a0d670
• SHA1 5f2fa6e6bc400ca04219679f89ec289f17e94e5d

Intel® CPU Runtime for OpenCL™ Applications 18.1 for Windows* OS (64bit or 32bit)

• Size 60 MB
• CPU-only deployments should use the .msi installer linked in the Download button, and consider removal of the Intel® Graphics Technology drivers where applicable.
• CPU & Graphics deployments should use the Intel® Graphics Technology driver package, which contains both CPU (x86-64) and Intel® Graphics Technology implementations.
• See supported operating system details in the Release Notes
• Maintenance and updates are now provided in the Experimental Intel® CPU Runtime for OpenCL™ Applications with SYCL support implementation. This implementation is listed later in this article.
• MD5 8e24048001fb46ed6921d658dd71b8ff
• SHA1 451d96d37259cb111fe8832d5513c5562efa3e56

Experimental Intel® CPU Runtime for OpenCL™ Applications with SYCL support

Download from Intel staging area for llvm.org contribution: prerequisites.

Installation Guide on Github*

• This OpenCL™ implementation for Intel® CPUs is actively maintained. It is currently in *beta* as of article publication date.
  • OpenCL 1.2, 2.0, and 2.1 programs can use this runtime.
  • The DPC++/SYCL implementation can use this runtime. This runtime additionally supports the SYCL runtime stack. OpenCL™ developers are highly encouraged to explore Intel® DPC++ compiler and SYCL.
• Deployments with the Intel® CPU Runtime for OpenCL™ Applications 18.1 and this Experimental runtime are not jointly validated at article publication time. Use one or the other implementation, but not both.
• Feedback can be provided at the Intel® oneAPI Data Parallel C++ forum. Issues are also communicated at the Intel staging area for llvm.org contribution.

Develop OpenCL™ Applications

Tools to develop OpenCL™ applications for Intel® Processors

Intel® oneAPI: DPC++ Compiler

• DPC++/SYCL programs can run SYCL kernels by way of underlying OpenCL™ implementations.
• OpenCL-C kernels can also be directly ingested and run by a SYCL runtime. Users of the OpenCL C++ API wrapper may find the SYCL specification particularly appealing.
• Explore the Intel® oneAPI: DPC++ Compiler, Github* hosted DPC++/SYCL code samples, OpenCL™ injection tests, as well as training videos part1 and part2 on techdecoded.intel.io.
• As of article publication, this compiler is in Beta.

Intel® System Studio

• For compilation, cross-platform, IoT, power considerate development, and performance analysis.
  • OpenCL™ development tools component:
    • Develop OpenCL™ applications targeting Intel® Xeon® Processors, Intel® Core™ Processors, and/or Intel® Graphics Technology.
    • Develop applications with expanded IDE functionality, debug, and analysis tools.
      • Note: Some debug and analysis features have been removed from recent versions of the SDK.
    • Earlier versions of the SDK contain an experimental OpenCL™ 2.1 implementation. Intel® CPU Runtime for OpenCL™ Applications 18.1 was intended as a replacement for the experimental implementation.
• Visit the Intel® System Studio portal

Intel® SDK for OpenCL™ Applications

• Standalone distribution of Intel® System Studio: OpenCL™ Tools component.
• Develop OpenCL™ Applications targeting Intel® Xeon® Processors, Intel® Core™ Processors, and/or Intel® Graphics Technology.
• Develop applications with expanded IDE functionality, debug, and analysis tools.
  • Note: Some debug and analysis features have been removed from recent versions of the SDK.
  • Earlier versions of the SDK contain an experimental OpenCL™ 2.1 implementation suitable for development testing on CPU OpenCL™ targets. Intel® CPU Runtime for OpenCL™ Applications 18.1 was intended as a replacement for that experimental implementation.
• See release notes, requirements, and download links through the Intel® SDK for OpenCL™ Applications portal.

Intel® FPGA SDK for OpenCL™ Software Technology

• Build OpenCL™ Applications and OpenCL™ kernels for Intel® FPGA devices.
• See release notes, requirements, and download links through the SDK’s portal webpage.
• For OpenCL™ runtimes and required system drivers, visit Download Center for FPGAs.

Intel® Distribution of OpenVINO™ toolkit

• The Intel® Distribution of OpenVINO™ toolkit is available for vision and deep learning inference. It benefits from OpenCL™ acceleration for each of these components:
  • Intel® Deep Learning Deployment Toolkit
  • OpenCV
  • OpenVX*
• For a developer oriented overview, see videos on the techdecoded.intel.io training hub.

Intercept Layer for Debugging and Analyzing OpenCL™ Applications

• The Intercept Layer for Debugging and Analyzing OpenCL™ Applications (clIntercept) can intercept, report, and modify OpenCL™ API calls.
• No application-level modifications nor OpenCL™ implementation modifications are necessary.
• clIntercept functionality can supplement removed functionality from recent releases of the Intel® SDK for OpenCL™ Applications.

Additional resources

Intel Opengl 4.6 Download Windows 10 64 Bit

*OpenCL and the OpenCL logo are trademarks of Apple Inc. used by permission by Khronos.