When you're rendering video, it tends to be more sustained and can stay very high for a very long time-some renders can take many hours and some can literally take days!!! The cooling systems in most gaming notebooks cannot handle the sustained workload. It may peak super high momentarily, then drop to a medium level for a while before peaking again. The loads tend to be transitory and vary a lot while gaming. 16 MB is not enough for what you want to do.Ĥ - The kind of workload placed on the CPU and dGPU can vary significantly between gaming and rendering. Some of MSI's top-of-the-line GT-series gaming notebooks can handle up to 64 MB of RAM. And it's very rare in mobile workstations and non-existent in consumer gaming notebooks (MSI gaming notebooks only use non-ECC memory). Most any decent desktop workstation will use ECC memory but it's harder to find and more expensive. And, ideally, I'd like ECC memory (it has built-in error protection). It doesn't need to be the fastest memory on the planet-quantity is more important than speed. For my work, I wouldn't consider a desktop with less than 128 MB. For example, I needed mirrored RAID-1 support and it was difficult to find a workstation model that would accommodate the number of internal SSDs that I wanted to use (four SSDs in two mirrored arrays).ģ - It is nearly impossible to get enough memory in a notebook. And some features are more rare on the mobile workstations. The gaming models often get the "latest, greatest" tech long before the workstation models (the workstation models may never get some of the tech). And, because the mobile workstations typically go through a lengthy "certification" process to verify their suitability to run powerful programs like AutoCAD (and some 3D-renderers), they tend to lag behind the consumer-oriented gaming notebooks with regard to technology. Without CUDA support, renders in Premiere Pro and After Effects will be waaaaaay slower.Ģ - A mobile workstation with a powerful Quadro GPU can literally cost thousands of dollars more than a top-of-the-line gaming notebook. And you'll have to check each Adobe program on a case-by-case basis to see which ones can be run like this. However, this only works with NVidia GPUs that have CUDA cores. This enables some Adobe programs to use the CUDA cores in the consumer-grade GPUs. (All MSI notebooks whose model name begins with a "W" is a mobile "workstation" and all model names that begin with a "G" are a "gaming" notebook.) You can get the consumer notebooks, like MSI's "G" series, to do hardware acceleration for some (not all) Adobe programs by editing each program's GPU file to add the consumer GPU to the list. You don't normally find a Quadro GPU in a consumer notebook (like an MSI gaming notebook) but you can find them in MSI's workstation notebooks like their various "W" series. These programs often include a GPU file that lists the model Quadro GPUs for which they have been tested or "approved". 1 - The Adobe programs were designed in partnership with NVidia to use NVidia's Quadro GPUs to accelerate the heavy processing load with their powerful CUDA cores for programs like Premiere Pro and After Effects.
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