If I were an enthusiast, I would rather consider a mini PC with AMD Strix Halo APU. These things have been coming soon for a few months now.
The memory is slower but not by much, 256 GB/s is much faster than system memory found in most consumer-targeted PCs. The devices have way more memory, up to 128 GB. A system with a Strix Halo APU is a general-purpose computer; these special accelerator cards can only be used for one thing.
256 GB/s is excruciatingly slow for LLM interference. The 5090 has roughly 8x as much and since the task is mostly RAM BW bound, performance scales almost linearly with it.
The specialized accelerators discussed in the article have much slower memory than a 5090 GPU. The memory in them delivers 448 or 512 GB/s, only around 2x compared to Strix Halo.
There's a sweet spot for running MoE models, though. If you need the entire model in VRAM but only need to retrieve a part of it per token, trading more memory for less bandwidth can be a win.
I have a 4090, and given the MoE trend, I'd be more tempted to purchase a Strix Halo next than a 5090.
7 comments
[ 3.8 ms ] story [ 23.3 ms ] threadThe memory is slower but not by much, 256 GB/s is much faster than system memory found in most consumer-targeted PCs. The devices have way more memory, up to 128 GB. A system with a Strix Halo APU is a general-purpose computer; these special accelerator cards can only be used for one thing.
I have a 4090, and given the MoE trend, I'd be more tempted to purchase a Strix Halo next than a 5090.
And that means I have no idea what these cards could be useful for. They are more expensive, have roughly the same VRAM, but are much slower.