Thank you for your comment!
Thanks to the Rngs you developed, I was able to do interesting sound experiments.
The M4L patches I made play a role in controlling the effects of AL. There are slightly different patches for each, including creating and scoping some options, such as random, fixed, and customizing.
I’m creating a virtual trigger input on the M4L patch to control the signals coming from the modular system in real time.
PNW -> TT -> SSP -> CV Tools -> M4L input -> AL effects
Events that occur on TT seem to vary from task to task. By default, the trigger signal is being emitted. CV Out uses the granularity of the voltage. In TT, you can set 1v by subdividing it into 100. These CVs are used for many purposes, such as controlling the pitch of SSP modules, modularizing the point of the sampler start, length, etc., or modularizing the gradation of the granular. and so on.
I’m writing a script with TT that doesn’t use a set pattern, like a grid, but rather allows me to control it probabilistically.
I’m worried about the explanation and ‘translation’, but I’m working on it like this anyway.
Now I’m going to have to test the Clds in earnest.