| ▲ | rowanG077 2 days ago | ||||||||||||||||||||||
This is definitely citation needed. I very much expect a combined GPU/CPU/NPU load to saturate the memory channels if necessary. This is not some marketing fluff. The channels are real, the number of RAM ICs are physically there and connected. | |||||||||||||||||||||||
| ▲ | menaerus a day ago | parent | next [-] | ||||||||||||||||||||||
We are talking about the memory bandwidth available to the CPU cores and not all the co-processors/accelerators present in the SoC so you're pulling in the argument that is not valid. https://web.archive.org/web/20240902200818/https://www.anand... > While 243GB/s is massive, and overshadows any other design in the industry, it’s still quite far from the 409GB/s the chip is capable of. > That begs the question, why does the M1 Max have such massive bandwidth? The GPU naturally comes to mind, however in my testing, I’ve had extreme trouble to find workloads that would stress the GPU sufficiently to take advantage of the available bandwidth. > Granted, this is also an issue of lacking workloads, but for actual 3D rendering and benchmarks, I haven’t seen the GPU use more than 90GB/s (measured via system performance counters) | |||||||||||||||||||||||
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| ▲ | Rohansi a day ago | parent | prev [-] | ||||||||||||||||||||||
https://web.archive.org/web/20250125040351/anandtech.com/sho... You're realistically going to reach power/thermal limits before you saturate the memory bandwidth. Otherwise I'd like to hear about a workload that'll make use of the CPU, GPU, NPU, etc. to make use of Apple's marketing point. | |||||||||||||||||||||||