NVIDIA recently introduced its GeForce MX550 Discrete GPU which aims to be a replacement for integrated graphics on mobility platforms but its leaked benchmark show that it barely surpasses the performance of current iGPUs.
NVIDIA’s entry-level GeForce MX550 GPU is barely faster than Vega integrated graphics on AMD’s Cezanne APUs
The NVIDIA GeForce MX550 graphics processor is based on NVIDIA Turing architecture (TU117 GPU), with increased CUDA Cores and faster memory speeds. The MX550 offers speedier photo editing, video editing, and gaming than the latest integrated graphics. Working in tandem with NVIDIA Optimus technology, the MX550 gives you the ideal proportion between performance and long battery life.
The first proof of performance of the NVIDIA GeForce MX550 GPU comes from the PassMark benchmark. The NVIDIA GeForce MX550 GPU scored 5014 points in the PassMark test, similar to AMD’s Vega integrated graphics found on its Ryzen 5000 APUs. On the G3D Mark test, the MX550 was pitted against the AMD Ryzen 9 5900HS iGPU. Regardless, the AMD Vega iGPU scored 4968 points, a difference of 46 points (0.9% less), showing that NVIDIA’s low-level GeForce GPU barely outperformed the Ryzen 9 5900HS integrated graphics processor.
The G3D score illustrates an overview of the test suite. These values only arise if all the tests in a singular suite have been conducted. There are a minuscule amount of test samples available in this particular case, so the scores between the two brands are for one MX550 score and nine Ryzen 9 5900HS samples. It is notable that PassMark GPU benchmarks are not highly regarded and are rarely used.
The lack of raytracing and DLSS support is apparent on NVIDIA’s new MX550 graphics processor, making it less than suitable for any gaming, but that is not its primary focus. The MX550 will possibly be billed as a replacement GPU that is perfect for everyday consumer use, focused on remote working and casual gaming.
But what’s important to note is that even if the TDP falls between 15-25W, a discrete GPU will take in more power, reducing the overall battery life of the laptop versus an integrated solution. The company has not currently verified the exact TDP of NVIDIA’s MX550. We expect to hear more over the next few months since NVIDIA has mentioned a release sometime this spring.
NVIDIA GeForce MX Series GPU Family Specifications:
GPU Name | GPU Architecture | CUDA Cores | GPU Clock | Memory Speed | Memory Bus | TDP |
---|---|---|---|---|---|---|
GeForce MX570 | Ampere GA107 | 2048 | TBA – 1155 MHz | 12 Gbps GDDR6 | 64-bit | 25W |
GeForce MX550 | Turing TU117 | 1024 | TBA – 1320 MHz | 12 Gbps GDDR6 | 64-bit | 25W |
GeForce MX 450 | Turing TU117 | 896 | 540 – 1575 MHz | 10 Gbps GDDR6 | 64-bit | 25W |
GeForce MX 430 | Turing TU117 | 896 | TBA – TBA MHz | 10 Gbps GDDR6 7 Gbps GDDR5 | 64-bit | 25W |
GeForce MX 350 | Pascal GP107 | 640 | 1354-1468 MHz | 7 Gbps GDDR5 | 64-bit | 25W |
GeForce MX 350 | Pascal GP107 | 640 | 746-937 MHz | 7 Gbps GDDR5 | 64-bit | 15W |
GeForce MX 330 | Pascal GP108 | 384 | 1531-1594 MHz | 6/7 Gbps GDDR5 | 64-bit | 25W |
GeForce MX 310 | Pascal GP108 | 256 | 1341-1379 MHz | 6/7 Gbps GDDR5 | 64-bit | 25W |
GeForce MX 250 | Pascal GP108 | 384 | 1518-1582 MHz | 6/7 Gbps GDDR5 | 64-bit | 25W |
GeForce MX 250 | Pascal GP108 | 384 | 937-1038 MHz | 6 Gbps GDDR5 | 64-bit | 10.5W |
GeForce MX 230 | Pascal GP108 | 256 | 1518-1531 MHz | 6/7 Gbps GDDR5 | 64-bit | 25W |
GeForce MX 150 | Pascal GP108 | 384 | 1468-1531 MHz | 6 Gbps GDDR5 | 64-bit | 25W |
GeForce MX 150 | Pascal GP108 | 384 | 937-1038 MHz | 5 Gbps GDDR5 | 64-bit | 10W |
GeForce MX 130 | Maxwell GM108 | 384 | 1122-1242 MHz | 6 Gbps GDDR5 | 64-bit | 25W |
GeForce MX 110 | Maxwell GM108 | 256 | 963-993 MHz | 1.8 Gbps DDR3 | 64-bit | 10W |
News Sources: TUM_APISAK , Videocardz