All aboard the Intel Arc! Or Ark? Intel's first true dedicated graphics cards are here, and we've got the Arc A750 review along with the Arc A770 review. Intel has set its sights on the value midrange market with the A750, hoping to earn a spot among the best graphics cards. We've thoroughly tested the card and have come away far more impressed than we were with the budget-friendly Arc A380.
This is a companion review to the A770, so there's a lot of additional detail in that article. You can also check out our deep dive into the Intel Arc Alchemist architecture. For the A750, we'll skip straight to the important bits and render our verdict.
Intel Arc A750 Specifications
Here's the quick rundown of the full Intel Arc desktop card lineup. The A580 hasn't launched yet, so we're missing some information like the price, but everything else should now be available. That's not quite true, as the A750 and A770 will actually go on sale next week, on October 12 — right alongside the Nvidia RTX 4090, which promises gobs more performance for slightly more than five times the price of the Arc A750. It's going to be a tough decision, we know!
Graphics Card | Arc A770 16GB | Arc A770 8GB | Arc A750 | Arc A580 | Arc A380 |
---|---|---|---|---|---|
Architecture | ACM-G10 | ACM-G10 | ACM-G10 | ACM-G10 | ACM-G11 |
Process Technology | TSMC N6 | TSMC N6 | TSMC N6 | TSMC N6 | TSMC N6 |
Transistors (Billion) | 21.7 | 21.7 | 21.7 | 21.7 | 7.2 |
Die size (mm^2) | 406 | 406 | 406 | 406 | 157 |
Xe-Cores | 32 | 32 | 28 | 24 | 8 |
GPU Shaders | 4096 | 4096 | 3584 | 3072 | 1024 |
Matrix Cores | 512 | 512 | 448 | 384 | 128 |
Ray Tracing Units | 32 | 32 | 28 | 24 | 8 |
Boost Clock (MHz) | 2100 | 2100 | 2050 | 1700 | 2000 |
VRAM Speed (Gbps) | 17.5 | 16 | 16 | 16 | 15.5 |
VRAM (GB) | 16 | 8 | 8 | 8 | 6 |
VRAM Bus Width | 256 | 256 | 256 | 256 | 96 |
L2 Cache | 16 | 16 | 16 | 16 | 6 |
ROPs | 128 | 128 | 128 | 128 | 32 |
TMUs | 256 | 256 | 224 | 192 | 64 |
TFLOPS FP32 | 17.2 | 17.2 | 14.7 | 10.4 | 4.1 |
TFLOPS FP16 (INT8) | 138 (275) | 138 (275) | 118 (235) | 84 (167) | 33 (66) |
Bandwidth (GB/s) | 560 | 512 | 512 | 512 | 186 |
TDP (watts) | 225 | 225 | 225 | 175 | 75 |
Launch Date | October 2022 | October 2022 | October 2022 | ? | June 2022 |
Launch Price | $349 | $329 | $289 | ? | $139 |
The Intel Arc A750 follows the familiar pattern of taking the same GPU and core design of a more expensive model and then trimming down some features. The A750 disables four of the potential 32 Xe-Cores and has a slightly lower boost clock, giving it about 85% of the theoretical compute of the A770. It also has half the memory of the 16GB A770 Limited Edition, clocked at 16 Gbps instead of 17.5 Gbps, so that's 9% less memory bandwidth. Memory capacity is our bigger concern.
8GB of VRAM was great back in 2016 when the GTX 1070 and 1080 launched. However, six years later, we're not quite as keen on only having 8GB of memory. Granted, the RX 6600-series cards from AMD are all packing 8GB, and everything from the RTX 3050 through the RTX 3070 Ti — with the exception of the RTX 3060 — also has 8GB. But one look at where games are heading with VRAM use, and we can't help but think the A770 16GB is probably worth the extra $60. The extra memory could definitely help big brother leave his little sibling sucking wind.
Looking at the direct competition, which, based on current GPU prices, would be the AMD RX 6600 or RX 6650 XT and the Nvidia RTX 3050, things are a bit messy. Let's just get this out of the way and say that the RTX 3050 ends up hopelessly outclassed. That was already true with the RX 6600, and the Arc A750 can pour some salt into the wound. But the AMD cards aren't going to roll over so easily.
In short, AMD promises good performance and excellent value for people that aren't worried about ray tracing or fancy schmancy AI upscaling technologies. On the other hand, Intel and Nvidia offer much better ray tracing performance along with matrix cores that can boost machine learning and AI performance.
With 28 Xe-Cores and a nominal 2050 MHz boost clock — and we say "nominal" because, as you'll see later, the Arc A750 easily exceeded that mark in our testing — Intel offers 14.7 teraflops of graphics compute performance. For deep learning and AI workloads, the A750 can perform 118 teraflops of FP16 calculations, or double that for INT8 work with 235 teraops of compute. Don't worry too much about the loss in precision, as companies like Google and Facebook have proven that 8-bits is sufficient for such work.
By comparison, AMD's RX 6650 XT has 10.8 teraflops of compute, while the RTX 3050 putters along with a meager 9.0 teraflops. Of course, that's on paper, and you can't just look at theoretical numbers to determine a winner — we've seen AMD's RDNA 2 chips punch well above their theoretical specs over the past two years. And that's why we run the benchmarks.
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