This is not a meme. 😇 I intended to make a video on this one again with the reverse engineering process, and but then I really didn't want to download the trial of the Oxford Inflator and mess around with iLok licences... so I didn't. So I guess this is a "blind clone"... that is to say, how I think the Inflator PROBABLY works. Lazy, I know... but hey, I made another desmos graph, so be happy! :D www.desmos.com/calculator/fwfyfat197 There really isn't much to this one. I honestly spent more time making the GUI pretty colors than I did on the signal path. The intended use is to adjust the input gain until it is approximately 0dB. This pushes the signal into the "expansion" phase of the sine waveshaper. Too much lower, and its not doing much shaping, its just a lower amplitude signal. Much higher and it starts wavefolding (or hardclipping if enabled). (Of course this might be what you want, you sick freaks!) But assuming you do set it somewhere close to 0dB, the "Effect" slider does a good job of blending the expanded signal with the dry. It only adds a handful of harmonics, so its pretty controllable in this range. The output slider adjusts... well... the output gain. I added meters for the level into the plugin (pre-input gain) and the level leaving the plugin (post-output gain) so that they can be matched. This way, you can bypass the device with minimal level jump.