It’s truly amazing how just a few modules added to a semimodular snowball your ability sculpt electrons creatively. It opens up whole new ways to explore. It’s almost like meditation and a fever dream at the same time when it’s going well😂
You could do it. Maths would probably be the better of those two for envelopes - just because it's easier to adjust attack and decay. From here on out there's a lot of overlap. But it's the kind of thing - if you're using Maths for Envelopes, then you cant use it for complex LFOs or Attenuation. So in general, if I find I'm using Maths for the same thing a lot - it's probably time for a dedicated module. So if you really like having an extra envelope - might want to get a dedicated one. There's always multiple ways to get from point a to point b. :)
Very nice :)
It’s truly amazing how just a few modules added to a semimodular snowball your ability sculpt electrons creatively. It opens up whole new ways to explore. It’s almost like meditation and a fever dream at the same time when it’s going well😂
I couldn't agree more. It's why this stuff is so fun and rewarding.
so good
Thanks!!!
I have Maths and Pam’s lined up as my first steps. With those two I guess this scenario would be covered or am I missing something?
You could do it. Maths would probably be the better of those two for envelopes - just because it's easier to adjust attack and decay. From here on out there's a lot of overlap. But it's the kind of thing - if you're using Maths for Envelopes, then you cant use it for complex LFOs or Attenuation. So in general, if I find I'm using Maths for the same thing a lot - it's probably time for a dedicated module. So if you really like having an extra envelope - might want to get a dedicated one.
There's always multiple ways to get from point a to point b. :)
👏🏻👏🏻
🙏🙏