The Intel Corporation has created a new line of graphics processing units (GPUs) under the name Intel Arc. These GPUs are made to tackle graphically demanding jobs and games at rapid speeds. They also come with amazing features to provide you with an excellent gaming experience at affordable costs. The Arc GPUs are launched in the market to give tough competition to AMD and Nvidia. Here are the 10 prominent features of Arc GPU to boost your gaming performance.
#1. XeSS – AI-Accelerated Super Sampling
Intel has created a new technology called XeSS for their future graphics architecture. It is a feature that enhances video game performance and image quality. It works by rendering the game at a higher resolution than the display resolution. After completing this they down sampled the image to fit the display. This is how the super sampling technique is used in video games to increase visual quality.
Moreover, it can also put a lot of strain on the hardware by lowering framerates. XeSS uses machine learning methods to speed up the Super Sampling process by predicting the color of pixels that are not reproduced at full resolution.
#2. Adaptive Sync Technology
Intel Arc GPUs feature adaptive sync to enhance the visual experience in games. This feature prevents screen tearing and stuttering by matching the display’s refresh rate to the game’s frame rate. Displays typically refresh at a predetermined rate 60Hz. As a result, new images are displayed every 16.67 milliseconds.
This technology causes various portions of the screen to display various images simultaneously. AMD FreeSync and NVIDIA G-Sync are the two Adaptive Sync technologies that Intel Arc GPUs support.
What else? Both of these technologies operate utilizing a variable refresh rate (VRR). It modifies the display’s refresh rate to correspond to the game’s frame rate. Also, G-Sync is a proprietary technology created by NVIDIA and is only supported on a select few screens. On the other hand, FreeSync is an open standard that is compatible with a broad variety of displays.
#3. Variable Rate Shading
The Arc GPUs offer Variable Rate Shading (VRS). It is a feature that boosts gaming performance effectively. VRS is a method that enables games to change the shading rate of various areas of the screen without compromising visual quality.
Moreover, VRS enables games to lower the shading rate for less critical sections of the screen. Such as those in the distance or those covered by other objects. Because of this, certain sections require less time and material to shade. It directly leads to better framerates and more fluid gameplay.
VRS can be applied in a variety of ways, such as pixel shading, per-primitive shading, and coarse shading. In this method, the per-primitive shading adjusts the shading rate based on the complexity of individual objects. Also, coarse shading lowers the shading rate for significant portions of the screen.
#4. Real-time Ray Tracing
Arc GPUs support real-time ray tracing to enhance visual fidelity in games. Ray tracing is a rendering method that enables extremely realistic lighting and shadows. Also, this method has grown in popularity in recent years among video games.
Rasterization is a technique that projects 3D objects onto a 2D plane. This method has been used previously in video games to create scenes. Although this method can create photos of excellent quality it comes with limitations as it relies on guesswork and trickery to approximate these effects.
#5. DirectX 12 Ultimate Support
DirectX 12 Ultimate is a collection of new features and technologies that enhances gaming performance and visual fidelity. The most recent DirectX graphics API is DirectX 12 Ultimate. It has several new features that benefit from the most recent hardware developments. The most prominent feature of this technology is hardware-accelerated ray tracing.
#6. High-Bandwidth Memory
Intel’s GPUs support High Bandwidth Memory (HBM). This technology has substantially better bandwidth and lower power consumption than conventional GDDR memory. It is considered a huge improvement in the memory standards of GPU.
Additionally, in HBM memory the chips are stacked on top of one another and connected by vertical channels known as Through-Silicon Vias (TSVs). As a result, data can easily move between memory chips much more quickly than with conventional memory layouts.
Summary
Intel Arc has raised the gaming standards with several fresh and cutting-edge innovations. It provides a more realistic and immersive gaming experience due to capabilities like XeSS, Adaptive Sync, VRS, and real-time ray tracing. Moreover, it uses newly emerged technologies like mesh shading and hardware-accelerated ray tracing.
In addition, functions like MIG, HBM, and superior driver technology work effectively in performance optimization. It also guarantees that gamers can play their preferred games at the highest efficiency.
