Playing at 1080p doesn’t reduce your texture size, for the most part. You still use those 4k textures because you’re only seeing a subset of the texture projected at a close distance. We’re still using 4k textures for terrain brushes to cover the 6km open worlds.
DLSS isn’t just a magic on switch for free perfect up scaling. If you rendered at 720p and DLSS’ed up to 1080 it’s still going to look pretty rubbish.Its always surprising to me just how many people have 1080 monitors though given we’ve had more than that for two generations of consoles.
And lastly - all the same points still apply about frame rate (which can be more than 60) and memory bandwidth per frame and cache invalidation etc at 360GB/S, as they do at 1.8TB/s
> Playing at 1080p doesn’t reduce your texture size, for the most part. You still use those 4k textures because you’re only seeing a subset of the texture projected at a close distance.
That greatly reduces your GPU memory bandwidth though. Sampling a subset of the texture only transfers that subset. Reading from higher mip levels uses less bandwidth. If your textures are high enough resolution to appear sharp at both resolutions (at least one texel per pixel), you need 4x more bandwidth to sample your material textures at 4k screen resolution for the same scene.
More importantly, material texture sampling is not most of your bandwidth to begin with. At 4k, most of your bandwidth is going to your full screen render passes. Especially with deferred rendering.
> DLSS isn’t just a magic on switch for free perfect up scaling. If you rendered at 720p and DLSS’ed up to 1080 it’s still going to look pretty rubbish.
I don't find this true at all. DLSS 4 Balanced looks excellent and renders at less than 720p for 1080p output.
DLSS isn’t just a magic on switch for free perfect up scaling. If you rendered at 720p and DLSS’ed up to 1080 it’s still going to look pretty rubbish.Its always surprising to me just how many people have 1080 monitors though given we’ve had more than that for two generations of consoles.
And lastly - all the same points still apply about frame rate (which can be more than 60) and memory bandwidth per frame and cache invalidation etc at 360GB/S, as they do at 1.8TB/s