When compared to AMD RDNA 3, Intel Arc iGPUs on Meteor Lake CPUs
Since AMD began providing its APUs with powerful integrated graphics, Intel’s advantage in the iGPU market has steadily decreased. AMD’s hold on the market was solidified at the time by the Vega iGPU family, but with RDNA, the red team opened up a whole new range of products that offered small PCs and handhelds with top-notch graphics performance. As for Intel’s Iris Xe solutions, its graphics performance was lacking and will now be greatly improved with the release of the Intel Arc iGPUs in the Core Ultra line. To provide competitive gaming performance.
Under the code name “Xe-LPG,” three different Arc Alchemist iGPU configurations are installed in Intel Core Ultra “Meteor Lake” CPUs.
There are three different configurations available: eight, seven, and four cores. When utilizing faster memory, like LPDDR5X, the GPUs can overclock to 2350 MHz (Core Ultra 9 185H) and provide a significant boost in performance. Along with other things, these GPUs support AV1, XeSS (DP4a), and DX12 Ultimate.
All things considered, these Intel Arc iGPUs are a crucial part of Chipzilla’s most recent CPUs. Since They have already seen synthetic benchmarks for the Intel Arc iGPU, today’s news focuses exclusively on gaming benchmarks. Golden Pig Upgrade (Bilibili) carried out the tests, which comprised testing a variety of games at both high and low settings and 1080p resolution.
The highest configurations of the AMD RDNA 3 and Intel Arc iGPUs seem to be quite competitive with each other, winning an identical amount of games at low 1080p resolution.
The Arc iGPU of the Core Ultra 7 155H outperforms in 7 out of 8 games evaluated in the 1080p High testing. Even yet, the RDNA 3 graphics solution trails behind the Core Ultra 5 125H. Additionally, the analysis demonstrates that the Meteor Lake CPUs are now nearly as fast as the discrete GTX 1650 Max-Q GPUs and far quicker than NVIDIA’s MX solutions.
Because of the 100 MHz clock speed differential, the Core Ultra 9 185H’s iGP clearly performs better than the Core Ultra 7 155H. The LPDDR5X-7467 memory is used in the results, which explains why the RDNA 3 GPUs do not scale as well as the faster Meteor Lake Arc iGPUs.
Although having quicker RAM is usually desired, it should be remembered that these computers are always more expensive. The Meteor Lake laptops are priced in a very expensive sector based on their prior prices. Consequently, it is important to recognize that AMD has a price edge with its Ryzen 7040/8040 range of laptops. The power efficiency performance data is the last one. It demonstrates that while AMD is superior at lower TDPs below 25W, Core Ultra 100H CPUs outperform AMD Ryzen 7040 “Phoenix” CPUs in the graphics domain at 28W TDPs.
With TDP ratings of 9–15W, Intel also offers the more power-efficient Core Ultra 100U processors, which would be a better option for entry-level and mobile gadgets that are anticipated to enter the market in the upcoming months.
The Intel Core Ultra Arc iGPU outperforms AMD’s RDNA 3 iGPUs in gaming, according to tests published by a number of tech sites. Tests conducted by Dave2D, HardwareCanucks, and Jarrod’s Tech all demonstrate competitive placement versus AMD’s RDNA 3 GPUs and considerable performance increases over prior generation Iris/UHD GPU systems. These figures also provide insight into AMD’s possible decision to maintain the same specifications and clock rates in its RDNA 3 GPUs for the Ryzen 8040 “Hawk Point” update.
AMD can likely provide a performance bump in places where they are not as strong as they could be, or when the Intel Arc iGPUs is only marginally faster, via driver upgrades. Although Intel has also issued a new driver, should anticipate more advancements on the driver front from both sides as competition in the Intel Arc iGPUs market is expected to resume.
This will be particularly important for the next generation of gaming handhelds that utilize these Intel Arc iGPUs solutions, which are built on the AMD RDNA 3 and Intel Arc architectures. When tiny PCs are released, it will be fascinating to observe the full potential of Intel Arc iGPUs, as these chips can scale up to 115W (Core Ultra 9 185H) and have unlimited access to greater power, which can result in notable performance boosts and excellent overclocking capabilities. The Core Ultra iGPU department has more enhancements in store as additional devices and solutions become available, so these performance figures are only a taste of what’s to come.
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