https://github.com/brucehoult/k3_ai
Or my longer top level comment.
Unlike a GPU or NPU, you can just run all your normal RISC-V Linux programs on the AI cores. Bash, gcc, emacs, nodejs ... whatever you want. It's an extra 40% of scalar processing power, for free.
Build Linux kernel 7503345ac5f5 14m25.56s SpacemiT K3 8 X100 cores plus 8x A100 cores distcc 18m3.871s SpacemiT K3 8 X100 cores @2.4 GHz 19m12.787s i9-13900HX, 24C/32T @5.4 GHz, riscv64/ubuntu docker 39m23.187s SpacemiT K3 8 A100 cores @2.0 GHz 42m12.414s Milk-V Megrez 4 P550 cores @1.8 GHz 67m35.189s VisionFive 2, 4 U74 cores @1.5 GHz 70m57.001s LicheePi 3A, 8 X60 cores @1.6 GHz 88m04.185s LicheePi 4A, 4 C910 cores @1.85 GHz
https://github.com/brucehoult/k3_ai
Or my longer top level comment.
Unlike a GPU or NPU, you can just run all your normal RISC-V Linux programs on the AI cores. Bash, gcc, emacs, nodejs ... whatever you want. It's an extra 40% of scalar processing power, for free.
The A100 cores, all by themselves, give more normal processing power e.g. `gcc` than any previous RISC-V SBC except the $2500 64 core Milk-V Pioneer.