>Still, no consumer based RV23 mini-ITX or micro-ATX or ATX form factor devices.
Sure. But there are RVA22+V such devices. RVA23 will eventually succeed these.
Many IP vendors announced RVA23 cores, but understand that the process from having a core design available for licensing to having a chip is very long, measured in years.
Among the designs that are further down in the pipeline of development, a highlight is Tenstorrent's Ascalon. According to them, a tapeout is "imminent". This was in the RISC-V Summit EU a few weeks ago. That'd mean RVA23 chips competitive with Zen5 in early 2026.
Ascalon is about half as fast as Veyron V2, partially due to lower clock frequency (~2.6 GHz): https://riscv.or.jp/wp-content/uploads/Japan_RISC-V_day_Spri...
It's really more designed as a "we need a decently fast and efficient CPU for our AI accelerator" then a "let's build the fastes CPU possible".
We need to be able Math software on modern open hardware
We need to be able to program with a better assembly
We need to be able to have predictable code generation from our compilers
We need to play with a new architecture and port software as an exercise
We need to have choice
Sure. But there are RVA22+V such devices. RVA23 will eventually succeed these.
Many IP vendors announced RVA23 cores, but understand that the process from having a core design available for licensing to having a chip is very long, measured in years.
Among the designs that are further down in the pipeline of development, a highlight is Tenstorrent's Ascalon. According to them, a tapeout is "imminent". This was in the RISC-V Summit EU a few weeks ago. That'd mean RVA23 chips competitive with Zen5 in early 2026.