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<p class="p1">//SLUGens released under the GNU GPL as extensions for SuperCollider 3, by Nick Collins, http://composerprogrammer.com/index.html</p>
<p class="p2"><b></b><br></p>
<p class="p3"><b>DoubleWell<span class="Apple-tab-span"> </span><span class="Apple-tab-span"> </span><span class="Apple-tab-span"> </span>Forced DoubleWell Oscillator</b></p>
<p class="p2"><b></b><br></p>
<p class="p4"><b>DoubleWell.ar(reset,ratex,ratey,f,w,delta,initx,inity, mul, add)</b></p>
<p class="p5"><br></p>
<p class="p4">Runge-Kutta ODE solver implementation of the chaotic Forced Double Well Oscillator (see Strogatz, Steven H. (1994) Nonlinear Dynamics and Chaos. Addison-Wesley, Reading, MA. pp441-7).<span class="Apple-converted-space"> </span></p>
<p class="p5"><br></p>
<p class="p4">D2x +delta*Dx-x+x^3 = F*cos(w*t)</p>
<p class="p5"><br></p>
<p class="p4">All inputs can have .kr rate UGens plugged in.</p>
<p class="p5"><br></p>
<p class="p4"><b>reset</b>- restart with new initial conditions sampled from initx, inity</p>
<p class="p4"><b>ratex</b>- update rate for x</p>
<p class="p4"><b>ratey</b>- update rate for y<span class="Apple-converted-space"> </span></p>
<p class="p4"><b>f-</b> equation constant</p>
<p class="p4"><b>w</b>- equation constant</p>
<p class="p4"><b>delta</b>- equation constant</p>
<p class="p4"><b>initx</b>- reset value for x</p>
<p class="p4"><b>inity</b>- reset value for y</p>
<p class="p5"><br></p>
<p class="p4">note for me- add a t rate control? or arbitary oscillator input rather than Fcos(wt)</p>
<p class="p5"><br></p>
<p class="p6">//Can be very noisy, high pitched and aliases badly- ie great fun, but watch out for your ears, filter, try out odd param settings. I've turned all the amplitudes down in the following</p>
<p class="p7"><br></p>
<p class="p7"><br></p>
<p class="p1">//defaults, high pitched! WARNING</p>
<p class="p8">{<span class="s1">Out</span>.ar(0,<span class="s1">Pan2</span>.ar(0.1*<span class="s1">DoubleWell</span>.ar(Impulse.kr(0),MouseX.kr(0.01,1,<span class="s2">'exponential'</span>),MouseY.kr(0.01,1,<span class="s2">'exponential'</span>),0.9,0.0001,0.25,<span class="s1">LFNoise0</span>.kr(1,0.4,0.5),<span class="s1">LFNoise0</span>.kr(1,0.4,0.5)),0.0))}.play</p>
<p class="p7"><br></p>
<p class="p7"><br></p>
<p class="p1">//2 per second</p>
<p class="p1">(</p>
<p class="p8">{<span class="s1">Out</span>.ar(0,<span class="s1">Pan2</span>.ar(</p>
<p class="p9"><br></p>
<p class="p10">CombN.ar(</p>
<p class="p8"><span class="s1">Resonz.ar(DoubleWell</span>.ar(Impulse.kr(2),MouseX.kr(0.01,1,<span class="s2">'exponential'</span>),MouseY.kr(0.01,1,<span class="s2">'exponential'</span>),3.9,MouseX.kr(0.0001,0.01,<span class="s2">'exponential'</span>),0.25,<span class="s1">LFNoise0</span>.kr(1,0.4,0.5),<span class="s1">LFNoise0</span>.kr(1,10.4,10.5)),500,0.1),</p>
<p class="p8">0.05,0.05,2</p>
<p class="p8">)</p>
<p class="p8">,0.0))}.play</p>
<p class="p8">)</p>
<p class="p7"><br></p>
<p class="p7"><br></p>
<p class="p1">//plotting check of first samples</p>
<p class="p8">{<span class="s1">DoubleWell</span>.ar(1,0.025,0.025,0.4,1,0.25,-0.5,-0.2)}.plot(0.01, minval:-1, maxval:1)</p>
<p class="p7"><br></p>
<p class="p7"><br></p>
<p class="p7"><br></p>
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