![]() Finally, you might want to use something like one of the arduino modules or the qu-bit nebulae where you can program what you want to accomplish. If you have something specific you'd like to accomplish in mind, there might be modules that do all/some of the math already, and that'll save effort and money. ![]() (For instance, if you're going to add two signals, then multiply them by another, then add another signal to the result, you'll need a mixer for the first add, a ring mod for the multiply, and another mixer for the second add.) So to recreate a patch you can easily wire up in Reaktor (or Max or PD or whatever), you'll often need lots of lots of modules when doing it modularly. I'm not really sure what parts are the actual math in the patch, but you can pretty safely assume that most operations you want to perform will require their own module. I don't really get what your patch is doing (been far too long since I dealt with that software), but if each of those waves is getting a different pitch (as I think they are), that means you're going to want 5 VCOs to reproduce it. Regarding your Reaktor patch specifically. Regarding integration and differentiation, one of those is the slope, I believe? Or related to the slope? Slew has to do with that somehow, and that's where Maths comes in. ![]() And since subtraction can be viewed as adding a negative number, if you run a signal through an inverter, and then add (either via Mixer or Precision Adder) it to another signal you will essentially be subtracting it. +1 to everything everyone's said already.īut also, if you need exact adding/subtracting (for instance of pitch CVs), you're going to want a. ![]()
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