Intel Arc Pro A-Series GPUs for Workstations
Explore Intel Arc Pro A-series GPUs, a professional range of GPUs that brings built-in ray tracing and graphics acceleration to workstations.
Professional Graphics
Meet the newest Intel Arc Pro A-series GPUs for workstations.
Great for On-the-Go Creatives, Designers, and Engineers
Available on select Intel Core Ultra H-series processors, built-in Intel Arc Pro GPUs1 unlock 2x graphics performance improvements2 with Independent Software Vendor (ISV) certifications for added reliability and provide efficient AI and ray-tracing hardware acceleration for stunning content creation on-the-go.
Software Certifications
Intel has worked hand-in-hand with hundreds of software companies over the years, and this unmatched experience goes into our Intel Arc Pro A-series GPU cards. Certifications are as important to us as they are to you.
Ray Tracing
Graphics cards need to do more than simply push pixels to displays, they also need to accelerate the creation of beautiful images. Ray tracing hardware technology built into Intel Arc Pro A-series GPUs allows your compatible software to start to explore these new pro workflows. Ray tracing is typically thought of as only available on expensive GPUs, but our latest graphics card series breaks that expectation.
Multiple Large Displays with Small Cards
Despite the condensed forms of Intel Arc Pro A40 and Intel Arc Pro A50 GPUs, the high-performing Small Form Factor (SFF) cards bring support for up to four ultra-large displays to enhance your workflow efficiencies. This is matched by the latest and more powerful Intel Arc Pro A60 standard single-slot GPU card. Add high dynamic range (HDR) and audio support too and you have all you need for that next social-media-worthy home or office multi-display setup.
Pro Resolutions Supported
Our discrete GPUs support Ultra High-Definition (UHD) and ultrawide UHD display resolutions with HDR enabled. Although laptop specific, our mobile graphics cards can also support the same resolutions.
Ultra High-Definition 60 Hz
7680x4320
Ultrawide High-Definition 240 Hz
5120x1440
Ultra High-Definition 120 Hz
5120x2880
Ultra High-Definition 60 Hz
3820x2160
Modern Viewport Technology Support
Professional software can use varying viewport API languages, which is why we optimize our graphics for a range of technologies. Working with long-established partners we aim to squeeze as much performance as possible out of the graphics cards while not disadvantaging overall stability.
The latest standard from Microsoft for high-resolution textures and ray tracing (DXR), improving visuals within the viewport and real-time software.
An API for Heterogeneous Computing (systems with more than one kind of processor or cores).
A cross-vendor, cross-platform API for 3D graphics and compute, Vulkan offers support for advanced features such as ray tracing.
Even with Support for Dolby Vision
With dedicated hardware decoding on the Pro GPUs, Dolby Vision helps to add greater depth, sharper contrast, and more colors to your compatible display. Dolby Vision unlocks the full potential of HDR technology by dynamically optimizing the image quality based on your service, display device, and platform to deliver stunning visuals every time.
Impressive Bandwidth. No Fast Lanes Cut
The bandwidth of your workstation graphics card is an important consideration. Get it wrong and you can slow down professional workflows. Which is why we made sure that Small Form Factor (SFF) Intel Arc Pro A-series GPUs have support for modern PCIe 4.0 x8 systems, but also do not penalize backwards compatibility. The larger cards support PCIe 4.0 x16 for enhanced performance. A competitively high bandwidth speed across the range further enhances graphics memory, meaning project data can be accessed by your software even faster.
Full AV1 Support
Full AV1 hardware acceleration. Get 4.4x faster hardware encoding with Intel Arc GPU compared to software encoding.
Accelerating Your AI Workflows
This GPU range includes a wide selection of great technology, including support for your compatible AI tools with built-in dedicated AI acceleration where you need it.
Additional Features and Technologies
There’s more to a professional GPU than the hardware. Meet some of the Intel Deep Link innovations that you can get access to:
Hyper Compute
Enables multi-engine content creation by harnessing the combined power of Intel CPUs and GPUs to unleash even greater performance. Hyper Compute uses all available compute engines or AI accelerators on the Intel CPU and GPU platform for tasks such as machine learning services during image processing.
Dynamic Power Share
Intelligently routes power between the laptop CPU and GPU enabling a performance boost for your task. A unified power envelope governed by a smart algorithm allocates power between your Intel Core processor and your Intel Arc graphics card—whichever needs it most.
Hyper Encode
Helps you spend less time waiting for your project to export. Hyper Encode is made possible by the multiple media engines found on the Intel Core processor and Intel Arc graphics card working in conjunction inside your laptop or desktop system.
A History of Innovation
Intel has helped developed a range of industry innovations that you may now take for granted in your workflow.
USB
In 1994, Intel developed the first internal draft of the Universal Serial Bus (USB) specification. Two years later, USB was officially launched as the “plug and play” standard, making it easier for users to add peripherals to their PCs.
Thunderbolt Technology
In 2011, Intel introduced the first generation of Thunderbolt technology. Developed through a special collaboration with Apple, the Thunderbolt interface allowed for high-speed data transfer and high-definition displays via a single cable, paving the way for devices that were smaller, sleeker, and simpler to connect to peripherals.
Hyper-Threading
In 2002, Intel released Intel Hyper-Threading Technology featured in the latest version of the Pentium® 4 processor. Hyper-threading enabled multiple threads of information to run simultaneously on one processor. The technology boosted Pentium 4's performance by up to 25 percent.