> which plausibly has far more precision than a float32
+/- 1e-45 to 3.4e38. granted, roughly half of that is between -1 and 1.
When we worked with low power silicon, much of the optimization was running with minimal headroom - no point railing the bits 0/1 when .4/.6 will do just fine.
> Additionally, you can e.g. wire two values directly together rather than loading numbers into an ALU
You may want an adder. Wiring two circuit outputs directly together makes them fight, which is usually bad for signals.
+/- 1e-45 to 3.4e38. granted, roughly half of that is between -1 and 1.
When we worked with low power silicon, much of the optimization was running with minimal headroom - no point railing the bits 0/1 when .4/.6 will do just fine.
> Additionally, you can e.g. wire two values directly together rather than loading numbers into an ALU
You may want an adder. Wiring two circuit outputs directly together makes them fight, which is usually bad for signals.