For the better part of the past 5 years, NVIDIA has held an extremely solid grip on the market for discrete laptop GPUs. From the top to bottom, unless it’s a MacBook the odds are it’s powered by a GeForce. This is the case even at the very bottom of the discrete market, where next to the grues and the 4200 RPM hard drives, you’ll find NVIDIA’s series of discrete adapters for entry-level laptops. Designed to be the first step up above Intel’s integrated graphics, these parts do fill an important role in the market, but they don’t get much attention – even from NVIDIA.

At any rate, this week the company has updated those adapters for 2020 with the release of the Pascal-based GeForce MX350 and MX330.

As has become an annoying tradition for NVIDIA, they’re officially saying very little about the new parts. The official specifications don’t include anything about clockspeeds, CUDA core counts, ROPs, etc. Instead, NVIDIA only confirms a basic set of features: both parts use GDDR5 memory, both feature GPU boost functionality, and both support DirectX12 up to feature level 12_1. Past that you won’t get much else from NVIDIA; even the architecture isn’t officially published in their spec sheets, though in this case we can make a very reasonable assumption that it’s once again Pascal.

Meanwhile, NVIDIA has once again moved up their Intel reference point; for the MX300 series, it’s now Intel’s 64EU Gen11 Iris Plus iGPU found in the Core i7-1065G7. This is Intel’s fastest iGPU for their 15W U-series parts, and is reasonably potent on its own, so it helps to inform what kind of performance NVIDIA needs to hit to offer something that’s a meaningful step up.

NVIDIA Laptop Video Adapter Specification Comparison
  Typical MX350 Typical MX330
CUDA Cores 640 384
ROPs 16? 16?
Memory Type GDDR5 GDDR5
Memory Bus Width 64-bit 64-bit
VRAM <=4GB <=2GB
GPU GP107 GP108
Manufacturing Process Samsung 14nm Samsung 14nm
Launch Date 02/12/2020 02/12/2020

At any rate, while NVIDIA doesn’t publish much in the way of specifications, this year NotebookCheck claims to have the specifications for the parts. We haven’t been able to independently validate these figures, but they are quite reasonable, and very close to what I was expecting anyhow based on NVIDIA’s loose performance claims. In particular, these are both low-end Pascal-based parts, which remain NVIDIA’s smallest (and thus cheapest to produce) GPUs among their current Pascal and Turing product stacks.

Coming from last year’s MX200 series parts, the big change here is at the top. With Intel’s baseline going up, so does NVIDIA’s performance; and as a result NVIDIA has tapped a more powerful GPU than in past years. For the MX350 then, we’re looking at a GP107 GPU, a notably more powerful part than NVIDIA’s normal entry-level parts. Essentially a further cut-down GTX 1050, according to NotebookCheck this part has 640 CUDA cores enabled, as well as half of its usual ROP/memory controller partitions, leaving 16 ROPs and a 64-bit memory bus.

Meanwhile the MX330 is the more traditional GP108 showing. At a high level, take last year’s MX250, tweak the clockspeeds a bit, and you have an MX330. Which means 384 CUDA cores paired with 16 ROPs and a 64-bit memory bus.

Like past MX-series parts, NotebookCheck notes that both the MX350 and MX330 are informally rated for TDPs of 25W. However laptop manufacturers can and will adjust TDPs and clockspeeds to meet the specific power/cooling limitations of their notebooks, so like other laptop discrete graphics implementations, expect to see performance vary from design to design.

Based on NVIDIA's previous release cadences for their low-end laptop parts, expect to see these new processors show up in laptops in the very near future. Traditionally these parts are paired with Intel U-series processors, and I expect to see the same here.

Source: NVIDIA & NotebookCheck

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  • timecop1818 - Saturday, February 15, 2020 - link

    You can get GTX1660 or 1650 with 4 display outputs, 3x DP and 1x HDMI. That's more than enough. For more, you can go to some shitty AMD workstation card with 6 miniDP. All of these can be had for < $200-ish Reply
  • Spunjji - Thursday, February 20, 2020 - link

    I just don't think there's a good reason for either competitor to do so. AMD have gone to 7nm, which is more costly per wafer, so manufacturing low-end mass-market products on it probably doesn't make much sense right now - and neither does back-porting RDNA to an older process. Maybe in a year or two when 7nm is less in demand?

    Nvidia had success rebranding Fermi and Kepler for so long that I doubt they see any reason to change that winning formula. The MX150 was a nice change in that area, and now it's on its third outing. Again, maybe once 7nm is more mature we'll see something shift.
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  • watzupken - Sunday, March 22, 2020 - link

    For low end GPUs, the objective is to keep power consumption low, cost low and just enough to be ahead of any integrated GPU. There is very little incentive for them to create new low end GPUs. As you have observed, both Nvidia and AMD are doing the same of rebranding their old GPUs each year. Nvidia is somewhat under pressure to release a better GPU only because the new integrated GPUs are going to give the old GPUs a hard time. Reply

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