It’s more of a hobby and I do no professional work at all whatsoever. Besides, I only film family videos anyway. I have thought about upgrading but I’m just not sure that I can justify the cost. I don’t know why because my RX 580 should easily be able to handle it. However, when I used one of the new customisable OpenGL transitions in the VP 20 trial, VEGAS Pro 20 trial froze and went to ‘Not responding’ and I had to open Task Manager and force it to close. And when I tested it under VEGAS Pro 20 trial, it seemed alright also. My system manages it alright under VEGAS Pro 18. How’s it handle timeline playback? The highest resolution I work with with my R7 1700 and RX 580 is 4K25 from my Sony FDR-AX700 which uses Sony’s XAVC S (H.264/MP4 4K 100Mbps) CoDec for 4K25 recording. I did have a look at your results and it seems to get close to average FPS. The iGPU works well in Vegas for decoding.You can see it holds its own on the benchmarks and for price/power/heat I think it's the way to go for 13th generation Intel. I think I chose well as paired with a good air cooler (Fuma Scythe 2) and a case with good airflow I am unable to get close to thermal throttling with it, it normally peaks at <170W, and usually it's very quiet. I did have a look the link and the test results. All the instructions are on the form itself.Īh okay. It's only several minutes long so renders are between 30s and 5 min. NVIDIA DLSS, NVIDIA Reflex, Resizable BAR, NVIDIA Broadcast, NVIDIA Ansel, NVIDIA ShadowPlay®, NVIDIA G-SYNC®, Advanced Optimus, Nvidia Max-Q, Dynamic BoostĭisplayPort 1.4 w/DFSC, HDMI 2.0b, Radeon Media Engine (H.264 4K150 decode, 4K90 encode / H.The first link connects you to my Dropbox where you can download the project. used by AMD and also for the professional GA100 Ampere chip).ĭisplayPort 1.4 w/DFSC, HDMI 2.0b, Radeon Media Engine (H.264 4K150 decode, 4K90 encode / H.265 4K90 decode, 4K60 encode / VP9 4K90 decode) The GA107 chip is manufactured by Samsung in 8nm (8N), which is not quite able to keep up with the 7nm node at TSMC (e.g. The Ampere chips also include an improved 5th generation video encoder (NVENC for H.264 and H.265) and a 7th generation decoder (for various formats now including AV1). The raytracing and tensor cores on the chip were also improved according to Nvidia. With Turing all shaders could still execute FP32 or INT32 instructions. The RTX 3050 however maybe won't use all ALUs on the chip. The GA107 chip offers 3,072 FP32 ALUs of which half can also execute INT32 instructions (i.e. The faster RTX 3050 Ti offers 25% more cores at similar clock speeds and TGP settings. Beware, that the low TGP variants will offer a significantly lower performance. The performance is not sufficient to enable Raytracing in most games, but the Tensor cores can be used for DLSS in some games (and get performance boost with slight quality reduction). Therefore, it is best suited for full HD gaming (1920 x 1080) with high detail settings in demanding games. The performance should be between the old GTX 1650 Ti and the 1660 Ti Max-Q depending on the used TGP variant. Preliminary clock rates TGP (Power Consumption) The 3050 6GB Laptop GPU also offers 2,560 CUDA cores as the 3050 Ti mobile. In early 2023 Nvidia did refresh the RTX 3050 (GN20-P0-R) with a bigger VRAM of 6GB but reduced memory bandwidth. The memory bus is limited to 128 Bit and supports 4 GB of GDDR6 dedicated graphics memory.The clock speed depends on the TGP variant and can range from 713 - 1530 (base) and 1058 - 1740 (boost) for the TGP variants of 35 to 80 Watt (see table below). It offers 2048 CUDA, 16 Ray Tracing and 64 Tensor cores. The Nvidia GeForce RTX 3050 Laptop GPU (mobile, NVIDIA_DEV.2583, GN20-P0) is the slowest RTX 3000 mobile card and based on the GA107 Ampere chip.
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