My power consumption is below 500 Watt at the wall, when using LLLMs,since I did some optimizations:
* Worked on power optimizations and after many weeks of benchmarking, the sweet spot on the RTX3060 12GB cards is a 105 Watt limit
* Created Patches for Ollama ( https://github.com/ollama/ollama/pull/10678) to group models to exactly memory allocation instead of spreading over all available GPUs (This also reduces the VRAM overhead)
* ensured that ASPM is used on all relevant PCI components (Powertop is your friend)
It's not all shiny:
* I still use PCIe3 X1 for most of the cards, which limits their capability, but all I found so far (PCIe Gen4 x4 extender and bifurcation/special PCIE routers) are just too expensive to be used on such low powered cards
* Due to the slow PCIe bandwidth, the performance drops significantly
* Max VRAM per GPU is king. If you split up a model over several cards, the RAM allocation overhead is huge! (See Examples in my ollama patch about). I would rather use 3x 48GB instead of 7x 12G.
* Some RTX 3060 12GB Cards do idle at 11-15 Watt, which is unacceptable. Good BIOSes like the one from Gigabyte (Windforce xxx) do idle at 3 Watt, which is a huge difference when you use 7 or more cards. These BIOSes can be patched, but this can be risky
All in all, this server idles at 90-100Watt currently, which is perfect as a central service for my tinkerings and my family usage.
Great info in this post with some uncommon questions answered. I have a 3060 with unimpressive idle power consumption, interesting that it varies so much.
I know it would increase the idle power consumption, but have you considered a server platform instead of Ryzen to get more lanes?
Even so, you could probably get at least 4x for 4 cards without getting to crazy. 2 m.2 -> pcie adapters, the main GPU slot and the fairly common 4x wired secondary slot.
Splitting the main 16x GPU slot is possible but whenever I looked into this I kind of found the same thing you did. In addition to being a cabling/mounting nightmare the necessary hardware started to eat up enough total system cost that just ponying up for a 3090 started to make more sense.
7x RTX 3060 - 12 GB which results in 84GB Vram AMD Ryzen 5 - 5500GT with 32GB Ram
All in a 19-inch rack with a nice cooling solution and a beefy power supply.
My costs? 1300 Euro, but yeah, I sourced my parts on ebay / second hand.
(Added some 3d printed parts into the mix: https://www.printables.com/model/1142963-inter-tech-and-gene... https://www.printables.com/model/1142973-120mm-5mm-rised-noc... https://www.printables.com/model/1142962-cable-management-fu... if you think about building something similar)
My power consumption is below 500 Watt at the wall, when using LLLMs,since I did some optimizations:
* Worked on power optimizations and after many weeks of benchmarking, the sweet spot on the RTX3060 12GB cards is a 105 Watt limit
* Created Patches for Ollama ( https://github.com/ollama/ollama/pull/10678) to group models to exactly memory allocation instead of spreading over all available GPUs (This also reduces the VRAM overhead)
* ensured that ASPM is used on all relevant PCI components (Powertop is your friend)
It's not all shiny:
* I still use PCIe3 X1 for most of the cards, which limits their capability, but all I found so far (PCIe Gen4 x4 extender and bifurcation/special PCIE routers) are just too expensive to be used on such low powered cards
* Due to the slow PCIe bandwidth, the performance drops significantly
* Max VRAM per GPU is king. If you split up a model over several cards, the RAM allocation overhead is huge! (See Examples in my ollama patch about). I would rather use 3x 48GB instead of 7x 12G.
* Some RTX 3060 12GB Cards do idle at 11-15 Watt, which is unacceptable. Good BIOSes like the one from Gigabyte (Windforce xxx) do idle at 3 Watt, which is a huge difference when you use 7 or more cards. These BIOSes can be patched, but this can be risky
All in all, this server idles at 90-100Watt currently, which is perfect as a central service for my tinkerings and my family usage.