The NVIDIA GeForce RTX 2070 with Max-Q design is the power saving variant of the mobile RTX 2070 graphics card with reduced clock speeds and power consumption. Therefore, it is suitable for thin gaming laptops. It is based on the same TU106 chip with 2,304 shaders and 8 GB GDDR6 memory connected by a 256 bit interface (12 GHz).
Currently it looks like there will be two variants, a low power 80 Watt variant with 885 - 1185 MHz core clock and a faster 90 Watt variant with 1080 - 1305 MHz core clock). Both clock the memory at 6 GHz versus 7 GHz of the normal RTX 2070 (115 Watt TDP).
The clock is not the only difference compared to the regular GTX 1080 though. The drivers for the Max-Q version were optimized for efficiency (and not performance; only for Max-Q models), there are optimized voltage converters for 1V operation, high-end cooling methods, and a 40 dB limit for the fan noise (with clock adjustments to ensure this at all times).
NVIDIA manufacturers the TU106 chip on a 12 nm FinFET process and includes features like Deep Learning Super Sampling (DLSS) and Real-Time Ray Tracing (RTRT), which should combine to create more realistic lighting effects than older GPUs based on the company's Pascal architecture (if the games supports it). The RTX 20870 is also DisplayPort 1.4 ready, while there is also support for HDMI 2.0b, HDR, Simultaneous Multi-Projection (SMP) and H.265 video en/decoding (PlayReady 3.0).
The Max-Q version of the RTX 2070 should perform a bit slower than the mobile RTX 2070. Therefore, it should be able to run all demanding games in 2560x1440 with maximum details. Raytracing features however may reduce framerates a lot.
The NVIDIA GeForce RTX 2080 sits behind the GeForce RTX 2080 Ti as the second fastest desktop GPU in NVIDIA's current Turing line-up. The RTX 2080 has 2,944 shader units, 8 GB GDDR6 VRAM and a 256-bit interface that runs at 14 GHz and delivers up to 448 GB/s.
NVIDIA manufacturers the TU104 chip on a 12 nm FinFET process and includes features like Deep Learning Super Sampling (DLSS) and Real-Time Ray Tracing (RTRT), which should combine to create more realistic lighting effects than older GPUs based on the company's Pascal architecture (if the games supports it). The RTX 2080 is also DisplayPort 1.4 ready, while there is also support for HDMI 2.0b, HDR, Simultaneous Multi-Projection (SMP) and H.265 video en/decoding (PlayReady 3.0).
The RTX 2080 should perform on par with a GeForce GTX 1080 Ti, but it will outclass the latter in games that support DLSS and RTRT. The RTX 2080 is at the pinnacle of consumer desktop GPUs and can play most triple-A games released in 2018 at high graphics in 4K.
NVIDIA estimates that the RTX 2080 should consume a maximum of 215 W, which is 35 W higher than the company rates its GeForce GTX 1080.
The NVIDIA GeForce RTX 2050 for laptops (GN20-S7) is a fast mid-range gaming graphics card for laptops. The RTX 2050 is based on the modern Ampere GA107 chip (like the RTX 3050) which is manufactured on an 8nm Samsung process (8N). Compared to the similar GeForce MX570, the RTX2050 offers Raytracing and DLSS support.
Compared to the old Geforce RTX 2060 Mobile, the 2050 offers more shaders (2,048) but a greatly reduced memory bus (64 Bit). It is available in different versions with with TGPs ranging from 30 to 45 Watt. The maximum boost clock ranges from 1155 to 1477 MHz. It features up to 4 GB GDDR6 graphics memory (14 Gbps leading to 112 GB/s max throughput).
The gaming performance of the mobile RTX 2050 should be clearly lower than the RTX 2060 thanks to the greatly reduced graphics memory bus. First benchmarks position a fast version slightly above a GeForce GTX 1650 and on the same level of a GeForce MX570. However, games that support DLSS can offer clear performance advantages thanks to the Tensor cores.
Average Benchmarks NVIDIA GeForce RTX 2070 Max-Q → 100%n=13
Average Benchmarks NVIDIA GeForce RTX 2080 (Desktop) → 153%n=13
Average Benchmarks NVIDIA GeForce RTX 2050 Mobile → 73%n=13
- Range of benchmark values for this graphics card - Average benchmark values for this graphics card * Smaller numbers mean a higher performance 1 This benchmark is not used for the average calculation
The following benchmarks stem from our benchmarks of review laptops. The performance depends on the used graphics memory, clock rate, processor, system settings, drivers, and operating systems. So the results don't have to be representative for all laptops with this GPU. For detailed information on the benchmark results, click on the fps number.