:[ KEnsemble!EnsembleD ffACmacintosh HD:Users:johnfisher:Music:samples:granularRissetFlute.aif;VC ,ef qM` Panelset-1qۺ=>ҽ Panelset-2 qۺ=> ҽ Panelset-3 Panelset-4 qs6s7 Panelset-5qs6s7][KSModul!Module ?@ ??  P0@EnsembleCTop level instrument, containing all other modules and instruments.5.LLL F000dBank 1Set 1L=Bset 6L=Bset 7L=Bset 8L=Bset 2L=Bset 3L=Bset 4L=Bset 5L=B@BL=??][KSModul!$8kO][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort ][KOutPort ][KOutPort ][KOutPort ][KOutPort ][KOutPort][KOutPort][KSModul!xh][KInPort][KInPort][KInPort][KInPort][KInPort][KInPort][KInPort][KInPort][KInPort][KInPort ][KInPort ][KInPort ][KInPort ][KInPort ][KInPort][KInPort][KSModul! ?@ ??/0 X@MixerfThis is an empty instrument with stereo inputs and outputs. It can be used to start building your own effect or instrument. The voice combiners are necessary if you want to realize an polyphonic instrument, because the outputs are monophonic. If you create an effect processor the number of voices should be set to 1 and the voice combiners can be deleted. ءLT*ιwxa F0008dABank 1Set 1L=set 6L=set 7L=set 8L=set 2L=set 3L=set 4L=set 5L=@BL=???q][KInPortd1][KInPortd2][KInPortS.0][KInPortF.L][KInPortF.R][KInPortW.L][KInPortW.R][KOutPortL][KOutPortR][KSModul!(4OCd1q][KOutPort][KSModul!(DOSd2q][KOutPort ][KSModul!L[Lq][KInPort][KSModul!Rq][KInPort][KSModul!Hoq][KInPort][KOutPort][KSModul!q][KInPort][KOutPort][KSModul!S.0q][KOutPort ][KSModul!\kF.Lq][KOutPort][KSModul!n|4q][KInPort][KInPort][KInPort][KInPort][KOutPort][KSModul!nxq][KInPort][KInPort][KInPort][KInPort][KOutPort][KSModul!d?@ ? @?t 2.2q][KOutPort#][KSModul!l{F.Rq][KOutPort][KSModul!??b1?&><?>m6?^/?R)? `0??@|7JI@7nRI$Dry S.'q][KOutPort][KSModul!oq][KInPort][KInPort][KOutPort ][KSModul!~(q][KInPortc][KInPortd][KOutPort][KSModul!?@ ?Bq][KInPorth][KOutPort ][KSModul!?R)?V+?Z>m6?j5?A?>O?>O?A 4y?L?  @|SfI@SnnI$Filters'q][KOutPort][KSModul!o Oq][KInPort][KInPort][KOutPort][KSModul!o\q][KInPort][KInPort][KOutPort ][KSModul!~,/q][KInPortc][KInPortd][KOutPort][KSModul!?@ ?B'q][KInPorth][KOutPort][KSModul!n,$KSq][KInPort][KInPort][KOutPort][KSModul!rT0s_q][KInPort][KInPort][KOutPort][KSModul!d?@ ?@?XOg2q][KOutPort][KSModul!?@ ? @A8Gs0PD18PD1tsampsq][KInPort][KSModul!?@ ? @Ax7sLEFE7TEFEtDryq][KInPort][KSModul!?@ ? @AxSshEFESpEFEtFiltq][KInPort][KSModul!n;q][KInPort][KInPort][KOutPort][KSModul!rHgq][KInPort][KInPort][KOutPort][KSModul!d?@ ?@?;2q][KOutPort][KSModul!DpkW.Lӯ][KOutPort!][KSModul!DkW.Rԯ][KOutPort"][KSModul!?U*?f3?$ ?b1?>E"?m6?N'?@ ?@*,;@|sI@#v>I$Phase4'ޯ][KOutPort#][KSModul!o4c߯][KInPort][KInPort][KOutPort%][KSModul!od][KInPort][KInPort][KOutPort %][KSModul!~<(_][KInPortc][KInPortd][KOutPort$][KSModul!?@ ?B0W][KInPorth][KOutPort!"][KSModul!n`/][KInPort][KInPort][KOutPort&][KSModul!r8lW][KInPort][KInPort][KOutPort(][KSModul!d?@ ?@?32][KOutPort&][KSModul!?@ ? @A|xos././tPhase][KInPort][KSModul!_?@ ??: 6$Samples5'B][KOutPort][KSModul!@ ??; DSSK fHH$GrainSyn6'C][KOutPort][KSModul![@ ??= dSsk$PP$PhaseSyn8'E][KOutPort][KSModul!#h#/J J Samples][KSModul!7? @ ??@dHW(KPfLL$ GrainMIDI9'X][KOutPort][KSModul! \ ?!@ ??Atl{$kTTT$ PhaseMIDI:'X][KOutPort][KSModul!   ?@ ?? c \ GrainsuThis is an empty instrument without input or output. It can be used to start building your own effect or instrument. LT*ιwxa F000d2Bank 1Set 1L=set 6L=set 7L=set 2L=set 3L=set 5L=@BL=?? ۺ][KInPortSyn][KOutPortM mono Output][KSModul!2G3Just Harmony Granulatoromfg all the freqs are in here ݺ][KInPort][KOutPortL][KOutPortR][KSModul!?@ ??A ~`$pT@@@D,GB???? d?OA?tB`|A?PA?? Lt TRatiosFull of 4 Octaves of Just-intoned Chromatic scales. For the most part I chose the simplest ratios for the different notes, for the purest harmonies. For instance: index#7 is a fifth, 12 an octave, 17 an octave+fifth, 26 two octaves plus a second, etc etc. ZMacintosh HD:Users:johnfisher:Documents:Writings:overtone tables:justChromatic4Octaves.txt1?A?D,GB???@BB????Y?????33???}????@{@@@ @*@333@@@L@TU@`@p@@@@@@e@33@@@T@@@AfAAA Ae*A333A@ALARUUA`ApAA޺][KInPortF][KInPort][KInPortF][KInPort][KInPort][KInPort][KInPort][KInPort][KInPort][KInPort][KOutPort& ][KOutPort][KOutPort][KSModul!d?@ ?@?4ߺ][KOutPort&'][KSModul!x0@_g][KInPortgF][KOutPort&][KSModul! eC tchords][KInPorttrginput for gate signals ][KOutPort][KSModul!][KInPort][KSModul!?@ ?pB L@=d-@@@D,GB???? d?G1B?tBA?pB?@? L`d-ChordseAn event table which calls different harmonies from the "ratios" event table by calling groups of index numbers related to certain ratios. For instance, the overtone series would be 0, 12, 19, 24, 28 ...etc. Different harmonies are stored in different Y-indices. Index numbers are randomly selected from this table by the "weighted random" event table.  pB?D,GB???@BB???@AAAAABBB B$B@AAAAAAAAB$B A A@A@AAAAAA$B@ApApApAAAAAA$B@pApAAAAAAA@@@A@AAAAAA$B@@@A@AAAAAA$B@APA`AAAAAAA$B@A@AAAAAAB$B@A`AAAAAAAA B@A`ApApAAAAAAA@ApAAAAAAAA$B@APApAAAAAAA$B@A`ApAAAAAAA$B@APAAAAAAAAB@APAAAAAAAAA][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPort][KInPort][KInPortF][KInPort][KOutPort&][KOutPort][KOutPort][KSModul!#${<P`WriteGmodule for manually inputting semitone values for just-intoned notes. ][KOutPortwx][KOutPortOut][KSModul!,Swx][KInPort][KSModul!,S][KInPort][KSModul!  ?L>L>L>L>L>L>L>?pB_ 1[ 1[1This column of 12 notes is written to the current Y position of the "chords" event table. These are tones, in ascending semitones, selected from the "ratios" event table.-'][KOutPort !][KSModul!  ?h>h>h>h>h>h>h>?pB _1)[ 5[2.'][KOutPort!][KSModul!  ?{>{>{>{>{>{>{>?pB!_,19[9![3/'][KOutPort!][KSModul!?>>>>>>>?pB"_<1I[=%[40'][KOutPort!][KSModul!?>>>>>>>?pB#_L1Y[A)[51'][KOutPort!][KSModul!?>>>>>>>?pB$_\1i[ E-[62'][KOutPort!][KSModul!?ff>ff>ff>ff>ff>ff>ff>?pB%_l1y[ $I1[73'][KOutPort!][KSModul!?>>>>>>>?pB&_|1[$(M5[84'][KOutPort!][KSModul!?>>>>>>>?pB'_1[(0Q=[105'][KOutPort! ][KSModul!?1?1?1?1?1?1?1??pB(_'1[,0U=[106'][KOutPort! ][KSModul! t##][KInPort][KInPortF][KInPortF][KInPortF][KInPort][KInPort][KInPort][KInPortF][KInPortF][KInPortF][KOutPort&"][KSModul!?][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ??p+0][KOutPort ][KSModul!@w][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ???pTc][KOutPort][KSModul!x][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ?@?p2][KOutPort][KSModul!][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ?@@?p3][KOutPort][KSModul!][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ?@?p 4][KOutPort][KSModul! W][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ?@?p4C5][KOutPort][KSModul!X][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ?@?pl{6][KOutPort][KSModul!][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ?@?p7][KOutPort][KSModul!][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ?A?p8][KOutPort][KSModul!7][KInPortuF][KInPortF][KOutPort& ][KSModul!d?@ ?A?p#9][KOutPort][KSModul! h/ ][KInPort9#F][KInPort:#D0][KInPort;#1][KInPort<#D2][KInPort=#D3][KInPort>#D4][KInPort?#5][KInPort@#D6][KInPortA#7][KInPortB#D8][KInPortC#D9][KOutPort&][KSModul!@o][KInPortF][KOutPort][KOutPort&!][KOutPort][KSModul!?p?p?0??0??0?@ ??+4{ j^R O.t. seriesMajor?Dominant@Minor@@ Diminished@Fifths@Fifths#2@ Chromatic@ Only OctavesA Mixolyd ScaleA h.minor Scale A Blues Scale0APelog@A Japanese1PA Japanese2`ApersianpA Chords/HarmsThis list selects from a list of preset harmonies entered into this event table. These "chords" are played from the "ratios" event table and output to the grain cloud module.9'][KOutPort][KSModul!4Ctrginput for gate signals ][KOutPort ][KSModul!?4>4>>4>>B=e2>?A03@l|[0j@[ distroYchanges the distribution of the randomly selected values from the "chords." The chords table contains a bank of tables that select pitches from the table containing just-intoned ratios for generating frequencies.>' ][KOutPort][KSModul!PD{ ][KInPort"F][KInPortF][KOutPort ][KSModul!d?@ ?A?HKW22 ][KOutPort&][KSModul!d?@ ???C0.5 ][KOutPort ][KSModul!nL{][KInPortF][KInPort][KOutPort ][KSModul!o@o][KInPortF][KInPortF][KOutPort ][KSModul!d?@ ?B?(7100][KOutPort ][KSModul! 0;g][KInPortuF][KInPortF][KOutPort&][KSModul! `+][KInPortF][KOutPort&][KSModul!ot][KInPort4F][KInPort5][KOutPort ][KSModul!d?@ ? A?10][KOutPort&][KSModul!?@ ?? P8@<kd@@@D,GB???? d?? L? L?PA? 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P?Q?7QS?T?hV?W?RY?Z?=\?a]?Y^?_?Za?Jb?oc?ud?e?jf?_g?h?i?!j?Ùk?l?em?Cn?Vo?o?p?q? Nr?s?s?`t?8u?u?v??w?w?x?&y?y?-[z?z?Q{?|?|?'*}?}?6~?J9?< b5="߇=ڴ=Γ=S>5>2>XH>Q]>r>ߧ>Ս>ؗ>>Q>Ǵ> >>>ǧ> >f>y>hZ>m?B??v ?B?iL?ה??|??F!?$?l'?>*?0,??v/?1?Rh4?[6?a9?X;?U=?4??A?C?E?G?+I?dK?V-M?N?CP?#ER?S?avU?bW? X?Y?xg[?\?+^?_?V`?.b?Vc?s>%>4>AC>Q>|`>n>b}>rم>4>%>>>kߨ>>~>7>> z>>{>o>X:>&>>>r>t?k?%Z?? ? ??-?{?4???r* ?""?$M%?'?SM*?,?{+/?1?*3?%:6?8?:?U>8>`\(>2>a=>G>XcR>|\>bg>q>_|>\n>>8>|'>Hd>>hܢ>>|R>>XƷ>l>7>o>>>>H>T}>.>P>>TH>4y>T?G??S? ?F ?3?Fq?? ?-??S?!?w$?'?)?),?.?H1?H3?Ve6?8?;?' >?@?)#C?ǭE?7H?;J? JM??O?YR?T?gW?Y?q\?^?ya?c?4f?i?k?,n?Łp?s?~u?Ow?yz?|?_z??4|?hx?֝t?@p?4 m?Fi?>e?a?^?#HZ?V?R?/O?K?G?;AD?P@?G=?f9?5?}2?&/?J+?$(?$?6d!???x~?2B?H? ? ???G?>B(>K>> > >>(>j>^6>>>>e>\>Ze>~> >>/>>>pt>>꜁>8z>lr> i>Na>$Y> Q>xI>>A>9>1>|[*>">>Lk>dO >L>0=%=(=Xt=b=`=ɯ=(A===[}=@e=?N=,7=i = =<<ϐ?9?4?)/?W*?v%? ?q?-??o?L ?C?R?&>8z>&.>.>|%>.g>R>q>9>*>tE>>(>҃>9>>l>\/>Jo>>ύ>V>>p>h>@Aa>TY>mR>JK>TD>=>t6>u0>|&*>x#>>p> b> >tP> >P}=F=J= ===|==ɭ=6=8Ҝ=P===y=pj=[=[M=?=1=@f#===<2<`B<Ǭ< ">>\>~l>4>d>G>l>0ѹ>(r>vM>`>̩>X&>BԖ>|>>>lQ>h}>, u>l>d><\>2U>4M>LF>?>39>$2>t,>]&>t >ķ>%> >x >Z>0===X==l=-="=L==1=0=0є=`=P==t= vg=@[= O=pCC=7=p,=e!=Ж=p ==<$<`<`<<<@>{<X<@v5<@<;F;?7u?k?ia?W?M?pD?[;?02?A<*?9"??Q?Wl ??bc>>^>\>5>">>(>\>(>2 >I>,>@ˏ>>0>~>Đt>p k>a>NY>Q>I>A>C:>xM3>,>8&>l >'>w>> >ȥ>=@=@=`&==m=z==W=8!=@$=^=̠=8l=@<=0:=d= =Piz=o=Ae=[=`7Q=G=6>=05=*,=`{#=== =0=;<6<`<`3< /u>ZK>y>ݾ>X>ͨ> >=> >L}>~>r>(e>Z>JP>`F>\[=>4>,> %>><1>4>t >d>(.===h==82= =8E=Ѹ=`=P֪=E===X=u==0ف=y= o=f=]= T=[L= -D=@A<=4=$-=%=@=`&==0( ==@<<`>W>>z>R><>䇍>,>v>ag>"Y>PL>@>`5>T*>o!>> >>,>?=8===x}=0=M=v=(=X=H=S=t= =@s=Dg=0[=@P=@FF=@*<=t2=)=0& ==P0=+=@<<< <<<`y<`C<o<<{<f<,Q<<<)<<8<!;;;k;u;4;::\:?b?RG?z.?c?W?r>$>ټ>>>ҋ>t>DRj>(W>CG>48>x+>>>B >h>===(T=x=@=(z=p==Ƚ=== &s=f=ЕY=@M=B= 8=-=pX$=0=r=P =P=`<L<@<<@ӽ<a>=>X܅> h>\!K>hC3>H>W>=l=g==xī=`===sm=pX=E=4=0~$===h<D">(I>r9>d2>>=x====y=Rd=@Q=A=3=P'==`=0 == Y< <`<@<;<<4 ?b?#?^/? 5?XEO?T?Z?KX_?d?i?{pk?N m?!n?Fp?q?I$r?dr?Kr?r?M&s?fs?Os?s?^o?j?Lf?a?q8\?=% >B!>w]>4>w>P?4wO?==2C=H=]=rc===>$ >4 >D">u:>R)>r9>&I>\W>sd>q>>$>:r>Pғ>e2>>>Z>r>z>>6>>>F>g>o>w>>>>>>>? ?$ ?4 ?@ ?M&?Y,?e2?m6?u:?B!?J%?N'?R)?V+?Z-?f3?p8?z=?E?G?&I?)?J?,J?.K?6M?>O?FQ?NS?VU?^W?fY?n[?v]?~_?a?Z`c?-d?f?6h?i?k?m??][KInPortF][KInPortF][KInPortF][KInPort][KInPortF][KInPort][KInPort][KInPort][KInPortF][KInPort][KOutPort&][KOutPort][KOutPort][KSModul!L][KInPort][KSModul!R][KInPort][KSModul!d?@ ???%\`k0.6][KOutPort ][KSModul!d?@ ?ȯG?$,_;90000][KOutPort ][KSModul! He< 8Trig*Generates random Trigs for Grain cloud etc][KOutPort1][KOutPort2][KOutPort3 ][KSModul!Ho1][KInPort][KSModul!Ho2][KInPort][KSModul!Ho#3][KInPort][KSModul!/7][KInPortF][KOutPort][KOutPort&][KOutPort&][KSModul!][KInPortF][KInPortF][KOutPort][KOutPort&][KSModul!xK ][KInPortgF][KOutPort&][KSModul!?={>==\=q>\<%QsR?  ף=?Bh)3[)/[ Freq%approximate frequency of grain eventsN'!][KOutPort][KSModul!?>>>>>>>@ ??C80?,U/[7[JitterJrandomness of grain trig gen. min = completely regular, max = max random.O'"][KOutPort][KSModul!o#'][KInPort4F][KInPort5F][KOutPort& ][KSModul!o'][KInPort4][KInPort5F][KOutPort& ][KSModul!d?@ ?pB?60'][KOutPort& ][KSModul!?@ ??o8)E EFE34)A EFE3Freq'][KInPortF][KSModul!1][KOutPort][KSModul!X?@ ?EehHd-Yd-2][KInPort][KInPort][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPort][KInPort F][KInPort ][KInPort F][KInPort F][KInPort F][KInPortF][KInPortF][KOutPort ][KOutPort ][KOutPort][KOutPort][KOutPort][KSModul!d?@ ??%L`[03][KOutPort ][KSModul!o<k4][KInPort4F][KInPort5][KOutPort&][KSModul!d?@ ?C?(74405][KOutPort& ][KSModul!s4c6][KInPortIF][KInPortJF][KOutPort ][KSModul!d?@ ?B?$(_7697][KOutPort&][KSModul!d?@ ??%`08][KOutPort ][KSModul!d?@ ??%`09][KOutPort ][KSModul!d?@ ??%<`K0:][KOutPort ][KSModul!d?@ ??%`0;][KOutPort ][KSModul!d?@ ??%` 0<][KOutPort ][KSModul!o1P=][KInPort4F][KInPort5F][KOutPort ][KSModul!d?@ ???,1.2>][KOutPort&][KSModul!?M&?GQ>4 ?M&?M&?M&?WU? ~_? #!t?,?'P4_|[LPu[ FBFeedback For Granular Module 2(W][KOutPort][KSModul!n!@X][KInPortF][KInPortF][KOutPort ][KSModul!  tyFB proc+processes, saturates, delays, EQs feedback.Y][KInPort][KOutPort][KSModul!Z][KInPort][KSModul![][KOutPort][KSModul!,L( d4| d4\][KInPort'F][KInPortF][KOutPort][KOutPort][KSModul!xl']][KInPortgF][KOutPort&][KSModul!d?@ ?HB?p50^][KOutPort&][KSModul!,x , d4 d4_][KInPort'F][KInPortF][KOutPort][KOutPort][KSModul!x|Pw`][KInPortgF][KOutPort&][KSModul!d?@ ?E?4Lo[8000a][KOutPort&][KSModul!V?@ ?HChb][KInPort<F][KInPort>F][KInPortF][KOutPort ][KSModul!d?@ ?L>?S0.2c][KOutPort&][KSModul!?y>y>y>y>y>y>=333333@C(LG[!*[!*[FB dlyFeedback Loop Delay 3(d][KOutPort][KSModul!h'e][KInPortF][KOutPort][KSModul!7?@ ??}g][KOutPort&',,][KSModul!@ ??+`t Keyb/KnobThis switches control of grain length, envelope, rate between control by the keyboard, or to the fixed values from the GUI controls. On = keyboard Off = knobs7(h][KOutPort"%'+][KSModul!(Loi][KInPortUF][KInPortVD1][KInPortW0][KOutPort& ][KSModul!s4cj][KInPortIF][KInPortJF][KOutPort&"][KSModul!d?@ ???8Gk][KOutPort&#][KSModul!Yl][KInPortUF][KInPortV1][KInPortW0][KOutPort& ][KSModul!?@ ?Bo][KInPorthF][KOutPort ][KSModul!#p][KInPortUF][KInPortVD1][KInPortW0][KOutPort&(][KSModul!(q][KInPort][KInPortYF][KOutPort&&][KOutPort][KSModul!d?@ ??(c0r][KOutPort(][KSModul!3?@ ?A7u][KOutPort&+][KSModul!|v][KInPortUF][KInPortVD1][KInPortW0][KOutPort ][KSModul!o0O][KInPort4][KInPort5F][KOutPort&#][KSModul!?={>==\=q>;&RsFT?  #<?2P$3[@y[  Grain Length%approximate frequency of grain events=('][KOutPort..][KSModul!o0_(][KInPort4F][KInPort5F][KOutPort&/][KSModul!o'(][KInPort4][KInPort5F][KOutPort&1%][KSModul!d?@ ?D?p1200(][KOutPort&/][KSModul!?@ ??W EFE3Hq EFE3G.Len(][KInPortF][KSModul!o][KInPort4F][KInPort5F][KOutPort][KSModul!?E"?E"?E"?E"?E"?E"?E"?Q??,s+T[ D[InputThe mix from these sounds all goes through the filterbank, and is also representative of what plays when the "grains" mix is turned up in the main mix. %(][KOutPort][KSModul!o][KInPortF][KInPort][KOutPort][KSModul!(OM mono Output][KInPort][KSModul!nh][KInPortF][KInPortF][KOutPort][KSModul!  ???????@ ??.-"`@ w`@ON<(g][KInPortM][KOutPort][KSModul!4[Syn][KOutPort][KSModul! !!?@ ?? lc (X @ Ratio SynthThis is a monophonic ratio-based FM/additive hybrid synth with built in automation tables and an 8 band bandpass harmonic filterbank. There are 8 Harmonics/oscillators, and each has a frequency related to the "fundamental" frequency (the input MIDI note) by a ratio. The oscillator type for each oscillator can be individually defined. The Frequency modulation is controlled by the 8x8 FM matrix. In the mod matrix, each row is for each harmonic, and each column controls how much each other harmonic frequency modulates the harmonic which is defined by the number to the left of the row. More details are in the comments for all the panel controls. LT*ιwxa F000dBank 1set 1L=set 6L=set 7L=set*L=Detuned TrianglesL=set 4L=set 5L=Set 2L=Ryth5thsL= OnlyPrimesL=OddharmsL= ChaoticFreak1L= ChaoticFreak2L= 3rdHarmonic AL=3rdHarmonic All5thsL= X/3 Drone AL= X/3 Drone BL= 5ths DroneL=5ths Drone FastL= X/3 Drone AL=Snap 2L=L=Snap 3L=L=Snap 2L=L=Snap 2L=L=Snap 3L=@BL= ?z? =>][KInPortgFinput for grains, or other sound to be filtered by the the filterbank.][KOutPortsynf][KOutPortL][KOutPortR][KSModul!4 [synf>>][KInPort][KSModul! (t 7@@@!partials harmonics and amplitudesL][KInPortP][KInPorta1][KInPorta2][KInPorta3][KInPorta4][KInPorta5][KInPorta6][KInPorta7][KInPorta8][KInPortPsl][KInPortdt detune amount for emulation of string tension/elasticity/weight. Harmonics will all be displaced upwards by a certain amount. This emulates the slight inharmonicity inherent in most string instruments but can be increased to larger amounts. This is the constant "J"][KOutPorta1][KOutPorta2][KOutPorta3][KOutPorta4][KOutPorta5][KOutPorta6][KOutPorta7][KOutPorta8][KOutPortf1 ][KOutPortf2 ][KOutPortf3 ][KOutPortf4 ][KOutPortf5 ][KOutPortf6 ][KOutPortf7 ][KOutPortf8 ][KSModul!;PL][KOutPort][KSModul! L[<0<0@ampsL][KOutPorta1][KOutPorta2][KOutPorta3][KOutPorta4 ][KOutPorta5!][KOutPorta6"][KOutPorta7#][KOutPorta8$][KSModul!x(\(\@multdL][KOutPort1 ][KOutPort2 ][KOutPort3 ][KOutPort4 ][KOutPort5 ][KOutPort6 ][KOutPort7 ][KOutPort8 ][KSModul!?Oh=ek?,???@ ??h?&Z&Z+D&Z&Z+DL][KInPortx][KInPorty][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KOutPort][KSModul!K$\$\@dispL][KInPortx][KInPorty][KInPort#][KInPortgap][KInPortObj][KOutPort1][KOutPort2][KOutPort3 ][KOutPort4 ][KOutPort5 ][KOutPort6 ][KOutPort7 ][KOutPort8][KSModul!lL[xL][KOutPort][KSModul!<tcyL][KOutPort][KSModul!l\k#L][KOutPort][KSModul!H(x<(x<@snapL][KInPortx][KInPort#][KInPortgap][KInPorty][KOutPortidx][KOutPortx1][KOutPortx2][KOutPorty][KSModul!<(c7xL][KOutPort][KSModul!Ho#L][KOutPort ][KSModul!`;oidxL][KInPort][KSModul!x1L][KInPort][KSModul!x2L][KInPort][KSModul!yhL][KInPort][KInPort][KOutPort][KOutPort][KSModul!d?@ ???L][KOutPort][KSModul!` L][KInPort][KOutPort][KOutPort ][KOutPort][KSModul!#+gap!L][KOutPort][KSModul!q"L][KInPort][KOutPort ][KSModul!st3#L][KInPortI][KInPortJ][KOutPort ][KSModul!d?@ ???$L][KOutPort ][KSModul!oL|k%L][KInPort4][KInPort5][KOutPort ][KSModul!n&L][KInPort][KInPort][KOutPort][KSModul!o,K/'L][KInPort4][KInPort5][KOutPort ][KSModul!n|(L][KInPort][KInPort][KOutPort][KSModul!s')L][KInPortI][KInPortJ][KOutPort][KSModul!tH*L][KInPortK][KInPortL][KInPortM][KOutPort][KSModul!0X+L][KInPort][KInPortY][KOutPort][KOutPort][KSModul!d$[,L][KInPortX][KInPortY][KOutPort][KSModul!d?@ ??(8cG0-L][KOutPort][KSModul!<<cKy.L][KOutPort][KSModul!4Cy/L][KInPort][KSModul!?_W?E?A?C?n7?m6????m?i?WU?v;?>>>i??i?e?w?i?n7?e2?i??i?e?w?i?n7?e2?i??i?e?w?i?n7?e2??m?i?WU?_?>O?w]??_W?z=?Z-?<?>>>?C?Z-?F#?B!?u:?u:?u:?y?_W?E?z=?j5?j5?b1?<??w?i?z=?v;?n7?>>y?i?c?gY?FQ?Z-??>_W?E?A?C?n7?m6????E?A?C?n7?C??y?WU?m?&I?>O??Z-??>B>A>b=B=?Z-??>B>A>b=B=?e?>O?E?C?^/?^/?N'??e?>O?E?C?^/?^/?N'??gY?v;?b>U*>y>gY>r9>?4 ?w]?n7?U*?<?<?<?s?Z-??>B>A>b=B=OS?r9?F#?>b>R)>=r9??D">B!=a>$ ???????????@ ??lO>)0L][KInPort][KInPort?][KInPort@][KOutPort][KOutPort][KOutPort][KOutPort][KSModul!d?@ ???Xhw1L][KOutPort][KSModul!`2L][KInPort][KInPort][KInPort][KOutPort][KSModul!?????????????????????????@ ??< CE)3L][KInPort][KOutPort][KSModul!d?@ ?? 3/04L][KOutPort][KSModul!ll{gap5L][KOutPort][KSModul!hObj6L][KOutPort][KSModul! H$\$\@disp.17L][KInPortidx][KInPortx1][KInPortx2][KInPorty2][KInPortobj][KSModul!l?{idx8L][KOutPort][KSModul!?x19L][KOutPort][KSModul!?x2:L][KOutPort][KSModul!?y2;L][KOutPort][KSModul!?@ ???@ ??T`W $Z$Z1024transparent "'($Z$Z"'(??0.2>L][KOutPort][KSModul!d?@ ?@???0.75?L][KOutPort ][KSModul!|?obj@L][KOutPort][KSModul!0,W;1AL][KInPort][KSModul!0<WK2BL][KInPort][KSModul!0LW[3CL][KInPort][KSModul!0\Wk4DL][KInPort][KSModul!0lW{5EL][KInPort][KSModul!0|W6FL][KInPort][KSModul!0W7GL][KInPort][KSModul!0W8HL][KInPort][KSModul!(IL][KInPort[#F][KInPort\#][KOutPort$0][KOutPort 1Output for the input signal.][KOutPort 2Output for the input signal. ][KOutPort 3Output for the input signal. ][KOutPort 4Output for the input signal. ][KOutPort 5Output for the input signal. ][KOutPort 6Output for the input signal. ][KOutPort 7Output for the input signal.][KSModul!s?JL][KInPortIF][KInPortJF][KOutPort&][KSModul!d?@ ???D /KL][KOutPort&][KSModul!0dOLL][KInPort][KInPort][KOutPort][KSModul!d?@ ??D0ML][KOutPort][KSModul!lGNL][KInPortu][KInPort][KOutPort][KSModul!OL][KInPort][KInPort][KOutPort][KSModul!GPL][KInPortu][KInPort][KOutPort][KSModul!d?@ ?A?D8QL][KOutPort][KSModul!1RL][KInPort][KSModul!2SL][KInPort][KSModul!3TL][KInPort][KSModul!4UL][KInPort][KSModul!5VL][KInPort][KSModul! 6WL][KInPort][KSModul! 7XL][KInPort][KSModul!+8YL][KInPort][KSModul!d?@ ?<?D0.03ZL][KOutPort][KSModul!a1[L][KInPort][KSModul!a2\L][KInPort][KSModul!a3]L][KInPort][KSModul!a4^L][KInPort][KSModul!a5_L][KInPort][KSModul!a6`L][KInPort][KSModul!a7aL][KInPort][KSModul!a8bL][KInPort][KSModul! xw  expon.cL][KInPort1][KInPort2][KInPort3][KInPort4][KInPort5][KInPort6][KInPort7][KInPort8][KOutPort1][KOutPort2][KOutPort3][KOutPort4][KOutPort5][KOutPort6][KOutPort7][KOutPort8][KSModul!1dL][KInPort][KSModul!2eL][KInPort][KSModul!3fL][KInPort][KSModul!4gL][KInPort][KSModul! 5hL][KInPort][KSModul!6iL][KInPort][KSModul!$37jL][KInPort][KSModul!8G8kL][KInPort][KSModul!1lL][KOutPort][KSModul!2mL][KOutPort][KSModul!3nL][KOutPort][KSModul!4oL][KOutPort][KSModul!5pL][KOutPort][KSModul!6qL][KOutPort][KSModul!'7rL][KOutPort][KSModul!(78sL][KOutPort][KSModul!o|#tL][KInPort4F][KInPort5F][KOutPort&][KSModul!o#uL][KInPort4F][KInPort5F][KOutPort&][KSModul!o#vL][KInPort4F][KInPort5F][KOutPort&][KSModul!o#GwL][KInPort4F][KInPort5F][KOutPort&][KSModul!oL#{xL][KInPort4F][KInPort5F][KOutPort&][KSModul!o#yL][KInPort4F][KInPort5F][KOutPort&][KSModul!o#zL][KInPort4F][KInPort5F][KOutPort&][KSModul!o#{L][KInPort4F][KInPort5F][KOutPort&][KSModul! H\ 0< 0<pitch|L][KInPortP][KOutPortf1%][KOutPortf2%][KOutPortf3%][KOutPortf4%][KOutPortf5%][KOutPortf6%][KOutPortf7%][KOutPortf8%][KSModul!Cf1}L][KInPort][KSModul!Cf2~L][KInPort][KSModul!Cf3L][KInPort][KSModul!Cf4L][KInPort][KSModul!Cf5L][KInPort][KSModul!Cf6L][KInPort][KSModul!Cf7L][KInPort][KSModul!Cf8L][KInPort][KSModul!(OPL][KOutPort ][KSModul!uXL][KInPorteF][KOutPort& ][KSModul!1 (0(0preset1L][KInPortF.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPortF1][KOutPortF2][KOutPortF3][KOutPortF4][KOutPortF5][KOutPortF6][KOutPortF7][KOutPortF8][KSModul!hHW F.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort   ,][KSModul!F1L][KInPort][KSModul!F2L][KInPort][KSModul!F3L][KInPort][KSModul!F4L][KInPort][KSModul!F5L][KInPort][KSModul!F6L][KInPort][KSModul!F7L][KInPort][KSModul!+F8L][KInPort][KSModul!o83gL][KInPort4F][KInPort5F][KOutPort&][KSModul!""`?RI9RI9RI9RI9RI9k:k:RI9RI9RI9RI9RI9RI9RI9RI9RI9RI9RI9RI9RI9::::RI9?'@E8G)[)[H1Harmonic Numerator. This Fraction defines the ratio of the frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 3/1, then the frequency of this harmonic would be 1320 hz (440*3).(L][KOutPort ][KSModul!oh3L][KInPort4F][KInPort5F][KOutPort&][KSModul!##?47:47:47:47:47:l :l :o:RI:RI:RI:RI:RI:RI:RI:Q;Q;99:k;k;k;k;RI:?'@Ehw$M[$M[H2Harmonic Numerator. This Fraction defines the ratio of the frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 3/1, then the frequency of this harmonic would be 1320 hz (440*3).(L][KOutPort ][KSModul!o3L][KInPort4F][KInPort5F][KOutPort&][KSModul!$$?RI:RI:o:o:RI:o;-;47:RI:-:-:d:d:RI:RI:o;o;RI:RI:o;o;o;o;o;-:?'@EHq[Hq[H3Harmonic Numerator. This Fraction defines the ratio of the frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 3/1, then the frequency of this harmonic would be 1320 hz (440*3).(L][KOutPort ][KSModul!o3L][KInPort4F][KInPort5F][KOutPort&][KSModul!%%?k:k:l :l ::.;KY;:l :::::k:k:.;.;k:k: #;$;$;$;$;:?'@El[l[H4Harmonic Numerator. This Fraction defines the ratio of the frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 3/1, then the frequency of this harmonic would be 1320 hz (440*3).(L][KOutPort][KSModul!o3'L][KInPort4F][KInPort5F][KOutPort&][KSModul!&&?RI:RI:D;D;' ; #; #;k: #;;l :B`e;B`e;4:4: >; >;4:4: >;;p;;p;;p;;p;l :?'@E[[H5Harmonic Numerator. This Fraction defines the ratio of the frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 3/1, then the frequency of this harmonic would be 1320 hz (440*3).(L][KOutPort][KSModul!o(3WL][KInPort4F][KInPort5F][KOutPort&!][KSModul!''?::{r;{r; >;47;47;o;D;d*;D; ף; ף;::DX;DX;::DX;_<_<_<_<D;?'@E(7[[H6Harmonic Numerator. This Fraction defines the ratio of the frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 3/1, then the frequency of this harmonic would be 1320 hz (440*3).(L][KOutPort][KSModul!oX3L][KInPort4F][KInPort5F][KOutPort&#][KSModul!((?::KY;KY;;D;D;k;{r;B`e;^;RI9RI9RI;RI;k;k;RI;RI;k;X94<X94<X94<X94<^;?'@EXg[[H7Harmonic Numerator. This Fraction defines the ratio of the frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 3/1, then the frequency of this harmonic would be 1320 hz (440*3).(L][KOutPort][KSModul!r0_L][KInPortF][KInPortF][KOutPort][KSModul!))?o:o:RI9RI9Q9k::9o:999RI9Q9Q999999-;-;-;-;9?'@EL@O )-[ )-[Div1Harmonic Denominator. frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 1/2, then the frequency of this harmonic would be 220 hz.(L][KOutPort][KSModul!r`L][KInPortF][KInPortF][KOutPort&][KSModul!**?99Q9Q9Q99Q9Q:Q9Q9Q9Q9Q9o:o:47:47:RI9RI947:|0;|0;|0;|0;Q9?'@ELp$ M-[$ M-[Div2Harmonic Denominator. frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 1/2, then the frequency of this harmonic would be 220 hz.(L][KOutPort][KSModul!rL][KInPortF][KInPortF][KOutPort&][KSModul!++?RI:Q9Q9Q9Q9o:RI99Q9Q9RI9RI9RI9Q9Q9RI:RI:RI9RI9RI:::::RI9?'@ELH q-[H q-[Div3Harmonic Denominator. frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 1/2, then the frequency of this harmonic would be 220 hz.(L][KOutPort][KSModul!rL][KInPortF][KInPortF][KOutPort&][KSModul!,,?47:RI9RI9RI9RI9o:RI9k:RI9RI9RI9RI9RI9RI9RI947:47:Q9Q947:d:d:d:d:RI9?'@ELl -[l -[Div4Harmonic Denominator. frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 1/2, then the frequency of this harmonic would be 220 hz.(L][KOutPort][KSModul!rL][KInPortF][KInPortF][KOutPort&][KSModul!--?RI:Q9Q9Q9Q9o:RI9Q9Q9Q9Q9Q9Q9Q9Q9RI:RI:RI9RI9RI:D;D;D;D;Q9?'@EL -[ -[Div5Harmonic Denominator. frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 1/2, then the frequency of this harmonic would be 220 hz.(L][KOutPort][KSModul!r OL][KInPortF][KInPortF][KOutPort&][KSModul!..?RI:Q9Q9Q9Q99Q99Q9RI9RI9RI9RI9Q9Q9RI:RI:Q9Q9RI:::::RI9?'@EL0? -[ -[Div6Harmonic Denominator. frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 1/2, then the frequency of this harmonic would be 220 hz.(L][KOutPort!][KSModul!rPL][KInPortF][KInPortF][KOutPort&][KSModul!//?47:RI9RI9RI9RI9o:RI9RI:Q9Q9Q9L?L?Q9Q947:47:RI9RI947:RI:RI:RI:RI:Q9?'@EL`o -[ -[Div7Harmonic Denominator. frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 1/2, then the frequency of this harmonic would be 220 hz.(L][KOutPort#][KSModul!#$dcsLk$ Lk$ -----L][KSModul!#(hgw(G$ (G$ -----L][KSModul!#,lk{#$ #$ -----L][KSModul!#0pop$ p$ -----L][KSModul!#4ts$ $ -----L][KSModul!#8xw$ $ -----L][KSModul!#<|{$ $ -----L][KSModul!o3L][KInPort4F][KInPort5F][KOutPort&.][KSModul!00?k;k; ף; ף;.;KY;KY;RI:';l y;$;Q9Q9Q;Q;o<o<RI;RI;o;DX<DX<DX<DX<$;?'@E%[%[H8Harmonic Numerator. frequency of this oscillator to the "root" note, which is the received midi note. so, if the midi note is A 440, and this ratio is 1/2, then the frequency of this harmonic would be 220 hz.(L][KOutPort,][KSModul!rL][KInPortF][KInPortF][KOutPort&][KSModul!11?RI:Q9Q9Q9Q9o:RI9Q9Q9Q9Q9??Q9Q9RI:RI:Q9Q9RI:o:o:o:o:Q9?'@EL %-[ %-[Div8(L][KOutPort.][KSModul!#@$ $ -----L][KSModul!d,;a1L][KInPort][KSModul!d<Ka2L][KInPort][KSModul!dL[a3L][KInPort][KSModul!d\ka4L][KInPort][KSModul!dl{a5L][KInPort][KSModul!d|a6L][KInPort][KSModul!da7L][KInPort][KSModul!da8L][KInPort][KSModul!xf1L][KInPort][KSModul! f2L][KInPort][KSModul! f3L][KInPort][KSModul! f4L][KInPort][KSModul! f5L][KInPort][KSModul! f6L][KInPort][KSModul!f7L][KInPort][KSModul!f8L][KInPort][KSModul!a1L][KOutPort][KSModul!a2L][KOutPort][KSModul!a3L][KOutPort][KSModul!#a4L][KOutPort ][KSModul!$3a5L][KOutPort!][KSModul!4Ca6L][KOutPort"][KSModul!DSa7L][KOutPort#][KSModul!Tca8L][KOutPort$][KSModul! !,P 8x Slew LimitGSmooths all the incoming amplitude envelopes to avoid clicking/popping.L][KInPortPsl][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input2 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input3 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input4 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input5 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input6 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input7 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input8 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPort1 ][KOutPort2 ][KOutPort3 ][KOutPort4][KOutPort5][KOutPort6][KOutPort7][KOutPort8][KSModul! In1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul! In2.Input2 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul! In3.Input3 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul! In4.Input4 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul!  In5.Input5 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul!  In6.Input6 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul!+ In7.Input7 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul!,; In8.Input8 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul!C 1L][KInPort][KSModul!C 2L][KInPort][KSModul!C 3L][KInPort][KSModul!C 4L][KInPort][KSModul!C 5L][KInPort][KSModul!C 6L][KInPort][KSModul!C# 7L][KInPort][KSModul!(C7 8L][KInPort][KSModul!t${OL][KInPort][KInPortF][KInPortF][KOutPort][KSModul!t$T{L][KInPort][KInPortF][KInPortF][KOutPort][KSModul!t${L][KInPort][KInPortF][KInPortF][KOutPort][KSModul!t${7L][KInPort][KInPortF][KInPortF][KOutPort][KSModul!t$@{L][KInPort][KInPortF][KInPortF][KOutPort][KSModul!t${L][KInPort][KInPortF][KInPortF][KOutPort][KSModul!t${L][KInPort][KInPortF][KInPortF][KOutPort][KSModul!t$({oL][KInPort][KInPortF][KInPortF][KOutPort ][KSModul!#PslL][KOutPort][KSModul!T{L][KInPortF][KOutPort&][KSModul!L][KInPortF][KOutPort& ][KSModul!L][KInPortF][KOutPort& ][KSModul!L][KInPortF][KOutPort& ][KSModul!+L][KInPortF][KOutPort& ][KSModul!0WL][KInPortF][KOutPort& ][KSModul!\L][KInPortF][KOutPort&][KSModul!L][KInPortF][KOutPort&][KSModul! h PslL][KOutPort'][KSModul!o7L][KInPort4F][KInPort5F][KOutPort&][KSModul!o8gL][KInPort4F][KInPort5F][KOutPort&][KSModul!ohL][KInPort4F][KInPort5F][KOutPort&][KSModul!oL][KInPort4F][KInPort5F][KOutPort&][KSModul!oL][KInPort4F][KInPort5F][KOutPort&][KSModul!o'L][KInPort4F][KInPort5F][KOutPort&][KSModul!o(WL][KInPort4F][KInPort5F][KOutPort& ][KSModul!oXL][KInPort4F][KInPort5F][KOutPort& ][KSModul! \l$l$DetuneL][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input2 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input3 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input4 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input5 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input6 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input7 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input8 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortdt detune amount for emulation of string tension/elasticity/weight. Harmonics will all be displaced upwards by a certain amount. This emulates the slight inharmonicity inherent in most string instruments but can be increased to larger amounts. This is the constant "J"][KOutPortF1][KOutPortF2][KOutPortF3][KOutPortF4][KOutPortF5][KOutPortF6][KOutPortF7][KOutPortF8][KSModul!Dk In1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul!Dk In2.Input2 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul!Dk In3.Input3 of the matrix. Typ. Range: [ -1 ... 1 ]L][KOutPort][KSModul!Dk In4.Input4 of the matrix. Typ. Range: [ -1 ... 1 ]M][KOutPort][KSModul!Dk In5.Input5 of the matrix. Typ. Range: [ -1 ... 1 ]M][KOutPort][KSModul!Dk  In6.Input6 of the matrix. Typ. Range: [ -1 ... 1 ]M][KOutPort][KSModul!Dk In7.Input7 of the matrix. Typ. Range: [ -1 ... 1 ]M][KOutPort][KSModul!D$k3 In8.Input8 of the matrix. Typ. Range: [ -1 ... 1 ]M][KOutPort][KSModul!F1M][KInPort][KSModul!F2M][KInPort][KSModul!'F3M][KInPort][KSModul!,;F4M][KInPort][KSModul!@OF5 M][KInPort][KSModul!TcF6 M][KInPort][KSModul!hwF7 M][KInPort][KSModul!|F8 M][KInPort][KSModul!D$k3dt detune amount for emulation of string tension/elasticity/weight. Harmonics will all be displaced upwards by a certain amount. This emulates the slight inharmonicity inherent in most string instruments but can be increased to larger amounts. This is the constant "J" M][KOutPort][KSModul!2?@ ?BP8GM][KOutPort&][KSModul!u4[M][KInPorteF][KOutPort&][KSModul! 8`     Detune AlgoSimple Detuning Algo M][KInPortF][KInPortJ][KInPortinF][KOutPort ][KSModul!|@OM][KInPort][KSModul!FM][KOutPort][KSModul!p JM][KOutPort][KSModul!oM][KInPort4F][KInPort5F][KOutPort&][KSModul!~pM][KInPortcF][KInPortdF][KOutPort&][KSModul!d?@ ?@? W2M][KOutPort&][KSModul!rDcM][KInPort][KInPortF][KOutPort&][KSModul!n +M][KInPortF][KInPortF][KOutPort& ][KSModul!d?@ ??? /M][KOutPort&][KSModul!o<8[gM][KInPort4F][KInPort5F][KOutPort][KSModul!lHWinFM][KOutPort ][KSModul! 8 $ $ Detune AlgoSimple Detuning Algo M][KInPortF][KInPortJ][KInPortinF][KOutPort ][KSModul!|@OM][KInPort][KSModul!FM][KOutPort][KSModul!p JM][KOutPort][KSModul!o M][KInPort4F][KInPort5F][KOutPort&][KSModul!~p!M][KInPortcF][KInPortdF][KOutPort&][KSModul!d?@ ?@? W2"M][KOutPort&][KSModul!rDc#M][KInPort][KInPortF][KOutPort&][KSModul!n +$M][KInPortF][KInPortF][KOutPort& ][KSModul!d?@ ??? /%M][KOutPort&][KSModul!o<8[g&M][KInPort4F][KInPort5F][KOutPort][KSModul!lHWinF'M][KOutPort ][KSModul! 87 ( ( Detune AlgoSimple Detuning Algo (M][KInPortF][KInPortJ][KInPortinF][KOutPort ][KSModul!|@O)M][KInPort][KSModul!F*M][KOutPort][KSModul!p J+M][KOutPort][KSModul!o,M][KInPort4F][KInPort5F][KOutPort&][KSModul!~p-M][KInPortcF][KInPortdF][KOutPort&][KSModul!d?@ ?@? W2.M][KOutPort&][KSModul!rDc/M][KInPort][KInPortF][KOutPort&][KSModul!n +0M][KInPortF][KInPortF][KOutPort& ][KSModul!d?@ ??? /1M][KOutPort&][KSModul!o<8[g2M][KInPort4F][KInPort5F][KOutPort][KSModul!lHWinF3M][KOutPort ][KSModul! 88     Detune AlgoSimple Detuning Algo 4M][KInPortF][KInPortJ][KInPortinF][KOutPort ][KSModul!|@O5M][KInPort][KSModul!F6M][KOutPort][KSModul!p J7M][KOutPort][KSModul!o8M][KInPort4F][KInPort5F][KOutPort&][KSModul!~p9M][KInPortcF][KInPortdF][KOutPort&][KSModul!d?@ ?@? W2:M][KOutPort&][KSModul!rDc;M][KInPort][KInPortF][KOutPort&][KSModul!n +M][KInPort4F][KInPort5F][KOutPort][KSModul!lHWinF?M][KOutPort ][KSModul! 8 $ $ Detune AlgoSimple Detuning Algo @M][KInPortF][KInPortJ][KInPortinF][KOutPort ][KSModul!|@OAM][KInPort][KSModul!FBM][KOutPort][KSModul!p JCM][KOutPort][KSModul!oDM][KInPort4F][KInPort5F][KOutPort&][KSModul!~pEM][KInPortcF][KInPortdF][KOutPort&][KSModul!d?@ ?@? W2FM][KOutPort&][KSModul!rDcGM][KInPort][KInPortF][KOutPort&][KSModul!n +HM][KInPortF][KInPortF][KOutPort& ][KSModul!d?@ ??? /IM][KOutPort&][KSModul!o<8[gJM][KInPort4F][KInPort5F][KOutPort][KSModul!lHWinFKM][KOutPort ][KSModul! 8 ( ( Detune AlgoSimple Detuning Algo LM][KInPortF][KInPortJ][KInPortinF][KOutPort][KSModul!|@OMM][KInPort][KSModul!FNM][KOutPort][KSModul!p JOM][KOutPort][KSModul!oPM][KInPort4F][KInPort5F][KOutPort&][KSModul!~pQM][KInPortcF][KInPortdF][KOutPort&][KSModul!d?@ ?@? W2RM][KOutPort&][KSModul!rDcSM][KInPort][KInPortF][KOutPort&][KSModul!n +TM][KInPortF][KInPortF][KOutPort& ][KSModul!d?@ ??? /UM][KOutPort&][KSModul!o<8[gVM][KInPort4F][KInPort5F][KOutPort][KSModul!lHWinFWM][KOutPort ][KSModul! 8W$,$, Detune AlgoSimple Detuning Algo XM][KInPortF][KInPortJ][KInPortinF][KOutPort][KSModul!|@OYM][KInPort][KSModul!FZM][KOutPort][KSModul!p J[M][KOutPort][KSModul!o\M][KInPort4F][KInPort5F][KOutPort&][KSModul!~p]M][KInPortcF][KInPortdF][KOutPort&][KSModul!d?@ ?@? W2^M][KOutPort&][KSModul!rDc_M][KInPort][KInPortF][KOutPort&][KSModul!n +`M][KInPortF][KInPortF][KOutPort& ][KSModul!d?@ ??? /aM][KOutPort&][KSModul!o<8[gbM][KInPort4F][KInPort5F][KOutPort][KSModul!lHWinFcM][KOutPort ][KSModul! |<Kdt detune amount for emulation of string tension/elasticity/weight. Harmonics will all be displaced upwards by a certain amount. This emulates the slight inharmonicity inherent in most string instruments but can be increased to larger amounts. This is the constant "J"dM][KOutPort%][KSModul!7     SliderZone7][KInPort][KOutPort][KSModul!Pw7][KInPort][KSModul!x7][KOutPort][KSModul!;7][KInPort9#][KInPort:#D0][KInPort;#D1][KOutPort][KSModul!|07][KInPort_][KInPort`F][KOutPort&][KOutPort][KSModul!d?@ ?@?57][KOutPort&][KSModul!d?@ ??H07][KOutPort&][KSModul!,D8HD\ oscs+amps++FMeM][KInPorta1][KInPorta2][KInPorta3][KInPorta4][KInPorta5][KInPorta6][KInPorta7][KInPorta8][KInPortf1][KInPortf2][KInPortf3][KInPortf4][KInPortf5][KInPortf6][KInPortf7][KInPortf8][KInPortfm1][KInPortfm2][KInPortfm3][KInPortfm4][KInPortfm5][KInPortfm6][KInPortfm7][KInPortfm8][KInPortGfm][KOutPort1][KOutPort2][KOutPort3][KOutPort4][KOutPort5][KOutPort6][KOutPort7][KOutPort8][KSModul!a1fM][KOutPort#][KSModul!a2gM][KOutPort# ][KSModul!#a3hM][KOutPort# ][KSModul!$3a4iM][KOutPort# ][KSModul!4Ca5jM][KOutPort# ][KSModul!DSa6kM][KOutPort# ][KSModul!Tca7lM][KOutPort#][KSModul!dsa8mM][KOutPort#][KSModul!+f1nM][KOutPort][KSModul! ,;f2oM][KOutPort][KSModul! <Kf3pM][KOutPort][KSModul! L[f4qM][KOutPort][KSModul! \kf5rM][KOutPort][KSModul! l{f6sM][KOutPort][KSModul!|f7tM][KOutPort][KSModul!f8uM][KOutPort][KSModul!P;_fm1vM][KOutPort][KSModul!`;ofm2wM][KOutPort][KSModul!p;fm3xM][KOutPort][KSModul!;fm4yM][KOutPort][KSModul!Hofm5zM][KOutPort][KSModul!Hofm6{M][KOutPort ][KSModul!Hofm7|M][KOutPort!][KSModul!Hofm8}M][KOutPort"][KSModul! 43   oscs~M][KInPortf1][KInPortf2][KInPortf3][KInPortf4][KInPortf5][KInPortf6][KInPortf7][KInPortf8][KInPortfm1][KInPortfm2][KInPortfm3][KInPortfm4][KInPortfm5][KInPortfm6][KInPortfm7][KInPortfm8][KOutPorto1#][KOutPorto2#][KOutPorto3#][KOutPorto4#][KOutPorto5#][KOutPorto6#][KOutPorto7#][KOutPorto8#][KSModul!4Cf1M][KOutPort][KSModul!DSf2M][KOutPort][KSModul!Tcf3M][KOutPort][KSModul!dsf4M][KOutPort][KSModul!tf5M][KOutPort][KSModul!f6M][KOutPort][KSModul!f7M][KOutPort][KSModul!f8M][KOutPort][KSModul!o1M][KInPort][KSModul!o2M][KInPort][KSModul!o3M][KInPort][KSModul!o4M][KInPort][KSModul! o5M][KInPort][KSModul! o6M][KInPort][KSModul!+o7M][KInPort][KSModul!,;o8M][KInPort][KSModul! 0_gx$x$Harm1M][KInPortF][KInPortFM][KOutPort][KSModul!sM][KInPort][KSModul!FM][KOutPort][KSModul!\M][KInPort"][KInPort][KInPort][KOutPort][KSModul!;M][KInPort"][KInPort][KInPort][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!@M][KInPort"F][KInPortF][KInPort][KInPortF][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!22L>>>>L?>>L???>??>>L??L?>>>>>>>@ ??bK %c`@ %c`@OscType1(M][KInPort$sin][KInPort$tri][KInPort$saw][KInPortpls][KInPort$imp][KOutPort][KSModul!xM][KInPortgF][KOutPort&][KSModul!@OFMM][KOutPort][KSModul!d?@ ???/jM][KOutPort][KSModul!3?B>@ ?ffffff?/tnpw1receives pilse widthM][KOutPort][KSModul!\kfm1M][KOutPort][KSModul! l{fm2M][KOutPort][KSModul! |fm3M][KOutPort][KSModul! fm4M][KOutPort][KSModul! fm5M][KOutPort][KSModul! fm6M][KOutPort][KSModul!fm7M][KOutPort][KSModul!fm8M][KOutPort][KSModul! h_| (| (Harm2M][KInPortF][KInPortFM][KOutPort ][KSModul!sM][KInPort][KSModul!FM][KOutPort][KSModul!\M][KInPort"][KInPort][KInPort][KOutPort][KSModul!;M][KInPort"][KInPort][KInPort][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!@M][KInPort"F][KInPortF][KInPort][KInPortF][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!34L>L?>>L?L?L?L??L?>??>>????>>>>>>@ ??bK %c`@ %c`@OscType1 )M][KInPort&][KInPort&][KInPort&][KInPort][KInPort&][KOutPort][KSModul!xM][KInPortgF][KOutPort&][KSModul!@OFMM][KOutPort][KSModul!d?@ ???/jM][KOutPort][KSModul!5?B>@ ?ffffff?/tnpw1receives pilse widthM][KOutPort][KSModul! _,,Harm3M][KInPortF][KInPortFM][KOutPort ][KSModul!sM][KInPort][KSModul!FM][KOutPort][KSModul!\M][KInPort"][KInPort][KInPort][KOutPort][KSModul!;M][KInPort"][KInPort][KInPort][KOutPort][KSModul!M][KInPort"F][KInPortF][KInPortF][KOutPort][KSModul!@M][KInPort"][KInPort][KInPort][KInPort][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!46>L?>>L???L?L?L?L???>>????>>>>>L?@ ??bK %c`@ %c`@OscType1 )M][KInPort&][KInPort][KInPort&][KInPort&][KInPort&][KOutPort][KSModul!xM][KInPortgF][KOutPort&][KSModul!@OFMM][KOutPort][KSModul!d?@ ???/jM][KOutPort][KSModul!7?B>@ ?ffffff?/tnpw1receives pilse widthM][KOutPort][KSModul! _00Harm4M][KInPortF][KInPortFM][KOutPort ][KSModul!sM][KInPort][KSModul!FM][KOutPort][KSModul!\M][KInPort"][KInPort][KInPort][KOutPort][KSModul!;M][KInPort"][KInPort][KInPort][KOutPort][KSModul!M][KInPort"F][KInPortF][KInPortF][KOutPort][KSModul!@M][KInPort"][KInPort][KInPort][KInPort][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!58>L?>>L???L?L?L?L?L?L?>>L?L?L?L?>>>>>L?@ ??bK %c`@ %c`@OscType1 )M][KInPort&][KInPort][KInPort&][KInPort&][KInPort&][KOutPort][KSModul!xM][KInPortgF][KOutPort&][KSModul!@OFMM][KOutPort][KSModul!d?@ ???/jM][KOutPort][KSModul!9?B>@ ?ffffff?/tnpw1receives pilse widthM][KOutPort][KSModul! _G44Harm5M][KInPortF][KInPortFM][KOutPort ][KSModul!sM][KInPort][KSModul!FM][KOutPort][KSModul!\M][KInPort"][KInPort][KInPort][KOutPort][KSModul!;M][KInPort"][KInPort][KInPort][KOutPort][KSModul!M][KInPort"F][KInPortF][KInPortF][KOutPort][KSModul!@M][KInPort"][KInPort][KInPort][KInPort][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!6:>L?>>L?L?L?L?L?L?L?L?L?>>????>>>>>L?@ ??bK %c`@ %c`@OscType1 )M][KInPort&][KInPort][KInPort&][KInPort&][KInPort&][KOutPort][KSModul!xM][KInPortgF][KOutPort&][KSModul!@OFMM][KOutPort][KSModul!d?@ ???/jM][KOutPort][KSModul!;?B>@ ?ffffff?/tnpw1receives pilse widthM][KOutPort][KSModul! H_00Harm6M][KInPortF][KInPortFM][KOutPort ][KSModul!sM][KInPort][KSModul!FM][KOutPort][KSModul!\M][KInPort"][KInPort][KInPort][KOutPort][KSModul!;M][KInPort"][KInPort][KInPort][KOutPort][KSModul!M][KInPort"F][KInPortF][KInPortF][KOutPort][KSModul!@M][KInPort"][KInPort][KInPort][KInPort][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!7<>L?>>L?L?L?L?L?L?L?L?L?>>L?L?L?L?>>>>>L?@ ??bK %c`@ %c`@OscType1 )M][KInPort&][KInPort][KInPort&][KInPort&][KInPort&][KOutPort][KSModul!xM][KInPortgF][KOutPort&][KSModul!@OFMM][KOutPort][KSModul!d?@ ???/jM][KOutPort][KSModul!=?B>@ ?ffffff?/tnpw1receives pilse widthM][KOutPort][KSModul! _44Harm7M][KInPortF][KInPortFM][KOutPort][KSModul!sM][KInPort][KSModul!FM][KOutPort][KSModul!\M][KInPort"][KInPort][KInPort][KOutPort][KSModul!;M][KInPort"][KInPort][KInPort][KOutPort][KSModul!M][KInPort"F][KInPortF][KInPortF][KOutPort][KSModul!@M][KInPort"][KInPort][KInPort][KInPort][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!8>>L?L?L?L?L?L?L?L?L?L?>>>>L?L?L?L?>>>>>L?@ ??bK %c`@ %c`@OscType1)M][KInPort&][KInPort][KInPort&][KInPort&][KInPort&][KOutPort][KSModul!xM][KInPortgF][KOutPort&][KSModul!@OFMM][KOutPort][KSModul!d?@ ???/jM][KOutPort][KSModul!??B>@ ?ffffff?/tnpw1receives pilse widthM][KOutPort][KSModul! [88Harm8M][KInPortF][KInPortFM][KOutPort][KSModul!sM][KInPort][KSModul!FM][KOutPort][KSModul!\M][KInPort"][KInPort][KInPort][KOutPort][KSModul!;M][KInPort"][KInPort][KInPort][KOutPort][KSModul!M][KInPort"F][KInPortF][KInPortF][KOutPort][KSModul!@M][KInPort"][KInPort][KInPort][KInPort][KOutPort][KSModul!M][KInPort"][KInPort][KInPort][KOutPort][KSModul!9@>>L?L?L???L?L?L?L???>>L?L?L?L?>>>>>L?@ ??bK %c`@ %c`@OscType1)M][KInPort&][KInPort][KInPort&][KInPort&][KInPort&][KOutPort][KSModul!xM][KInPortgF][KOutPort&][KSModul!@OFMM][KOutPort][KSModul!d?@ ???/jM][KOutPort][KSModul!A?B>@ ?ffffff?/tnpw1receives pilse widthM][KOutPort][KSModul!!4TX8` 8 Mod Matrix@Modulation matrix for Frequency Modulaiton of all 8 oscillators M][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input2 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input3 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input4 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input5 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input6 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input7 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input8 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPortDOutput for the mixed signals of the 1. row. Typ. Range: [ -1 ... 1 ]][KOutPortDOutput for the mixed signals of the 2. row. Typ. Range: [ -1 ... 1 ]][KOutPortDOutput for the mixed signals of the 3. row. Typ. Range: [ -1 ... 1 ]][KOutPortDOutput for the mixed signals of the 4. row. Typ. Range: [ -1 ... 1 ]][KOutPortDOutput for the mixed signals of the 5. row. Typ. Range: [ -1 ... 1 ]][KOutPortDOutput for the mixed signals of the 6. row. Typ. Range: [ -1 ... 1 ] ][KOutPortDOutput for the mixed signals of the 7. row. Typ. Range: [ -1 ... 1 ]!][KOutPortDOutput for the mixed signals of the 8. row. Typ. Range: [ -1 ... 1 ]"][KSModul!+ 8 8 E Mod Mixer 1C3-channel mixer for event modulation signals. For mixing audio modulation signals please use a "Mod Mixer". To obtain the whole range of modulation you have to make sure that the modulation amount knob of the modulation input of the destination macro is turned fully clockwise. Made by erik.wiegand@native-instruments.comN][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPort6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]][KSModul!:B??????????????????????????@ ?  PPExp1Changes the characteristic of the knobs in this row from linear to exponential. Then they have a higher resolution at smaller levels. E.g. useful if the mix is used to modulate the pitch, frequency or level at another macro.(N][KOutPort ][KSModul!;C?{Gz??[[[[1Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ??? N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave N][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1] N][KOutPort][KSModul!oLL N][KInPort4F][KInPort5F][KOutPort&][KSModul!<D? >B!>B!>B!>Z-?Z-?Z-?Z-?{Gz??XX1[[1[[2Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed( N][KOutPort][KSModul! lDlDPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!=E?a>B>$ >$ >z>z>z>z>{Gz??0I[[0I[[3Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave N][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]!N][KOutPort][KSModul!oLL"N][KInPort4F][KInPort5F][KOutPort&][KSModul!>F?{Gz??Ha[[Ha[[4Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(#N][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.$N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]%N][KInPort][KSModul!v((&N][KInPortdF][KOutPort&][KSModul!p<8<8'N][KInPort F][KOutPort&][KSModul!nl,l,(N][KInPortF][KInPortF][KOutPort&][KSModul!o$$)N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???*N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave+N][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1],N][KOutPort][KSModul!oLL-N][KInPort4F][KInPort5F][KOutPort&][KSModul!?G?B=>GQ>>e2>e2>e2>B>B>B>?e2>{Gz??  `y[[`y[[5Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(.N][KOutPort ][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve./N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]0N][KInPort][KSModul!v((1N][KInPortdF][KOutPort&][KSModul!p<8<82N][KInPort F][KOutPort&][KSModul!nl,l,3N][KInPortF][KInPortF][KOutPort&][KSModul!o$$4N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???5N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave6N][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]7N][KOutPort][KSModul!oLL8N][KInPort4F][KInPort5F][KOutPort&][KSModul!@H?r>E">E">E">A>}>?y>G>{Gz??HHx[[x[[6Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(9N][KOutPort ][KSModul! l4l4PPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.:N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ];N][KInPort][KSModul!v((N][KInPortF][KInPortF][KOutPort&][KSModul!o$$?N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???@N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveAN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]BN][KOutPort][KSModul!oLLCN][KInPort4F][KInPort5F][KOutPort&][KSModul!AI?y>A>==R)?R)?== ?======{Gz??[[[[7Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(DN][KOutPort][KSModul! lplpPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.EN][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]FN][KInPort][KSModul!v((GN][KInPortdF][KOutPort&][KSModul!p<8<8HN][KInPort F][KOutPort&][KSModul!nl,l,IN][KInPortF][KInPortF][KOutPort&][KSModul!o$$JN][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???KN][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveLN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]MN][KOutPort][KSModul!oLLNN][KInPort4F][KInPort5F][KOutPort&][KSModul!BJ?a>B>B>B>a=>A?}>??>E">N'?k?==i>i>i>>=====E">{Gz??[[[[8Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(ON][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.PN][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ] ][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]QN][KInPort][KSModul!v((RN][KInPortdF][KOutPort&][KSModul!p<8<8SN][KInPort F][KOutPort&][KSModul!nl,l,TN][KInPortF][KInPortF][KOutPort&][KSModul!o$$UN][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???VN][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveWN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]XN][KOutPort][KSModul!oLLYN][KInPort4F][KInPort5F][KOutPort&][KSModul!ppZN][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KOutPort"][KSModul!wpp[N][KInPortfF][KOutPort#][KSModul!In1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]\N][KOutPort][KSModul!w]N][KInPortfF][KOutPort$][KSModul!In2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]^N][KOutPort][KSModul!w_N][KInPortfF][KOutPort%][KSModul!In3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]`N][KOutPort][KSModul!waN][KInPortfF][KOutPort&][KSModul!In4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]bN][KOutPort][KSModul!wcN][KInPortfF][KOutPort'][KSModul!In5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]dN][KOutPort ][KSModul!weN][KInPortfF][KOutPort(][KSModul!$$In6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]fN][KOutPort ][KSModul!w00gN][KInPortfF][KOutPort)][KSModul!DDIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]hN][KOutPort ][KSModul!wPPiN][KInPortfF][KOutPort*][KSModul!ddIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]jN][KOutPort][KSModul!6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]kN][KInPort][KSModul!?@ ?HCAPpPplN][KInPortF][KOutPort&][KSModul!?@ ?HCAPPmN][KInPortF][KOutPort&][KSModul!?@ ?HCAPPnN][KInPortF][KOutPort&][KSModul!?@ ?HCAPPoN][KInPortF][KOutPort&][KSModul!?@ ?HCAPPpN][KInPortF][KOutPort&][KSModul!?@ ?HCAPPqN][KInPortF][KOutPort& ][KSModul!?@ ?HCAP0P0rN][KInPortF][KOutPort& ][KSModul!?@ ?HCAPPPPsN][KInPortF][KOutPort&][KSModul!+<<8P8P E Mod Mixer 2C3-channel mixer for event modulation signals. For mixing audio modulation signals please use a "Mod Mixer". To obtain the whole range of modulation you have to make sure that the modulation amount knob of the modulation input of the destination macro is turned fully clockwise. Made by erik.wiegand@native-instruments.comtN][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPort6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]][KSModul!CK??????????????????????????@ ?  PPExp2Changes the characteristic of the knobs in this row from linear to exponential. Then they have a higher resolution at smaller levels. E.g. useful if the mix is used to modulate the pitch, frequency or level at another macro.(uN][KOutPort ][KSModul!DL?{Gz??[[[[1Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(vN][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.wN][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]xN][KInPort][KSModul!v((yN][KInPortdF][KOutPort&][KSModul!p<8<8zN][KInPort F][KOutPort&][KSModul!nl,l,{N][KInPortF][KInPortF][KOutPort&][KSModul!o$$|N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???}N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave~N][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!EM?Z>Z>{Gz??XX1[[1[[2Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! lDlDPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!FN?a>a>R>R>R>b1>b1>q>q>q>R)?b1>b1>b1>b1>b1>R>{Gz??0I[[0I[[3Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!GO?E">E">E">{Gz??Ha[[Ha[[4Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!HP?>>>i>M&?U*>U*>U*>>{Gz??  `y[[`y[[5Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort ][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!IQ?====r9>{Gz??HHx[[x[[6Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort ][KSModul! l4l4PPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ] ][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!JR?b1>b1>$ ?$>$>$>J>J>a>a>j>j>j>j>a>a>a>a>a>$>{Gz??[[[[7Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! lplpPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]!][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!KS?q>J%?J%?J%?q>q>, ?>>Z-?Z-?>{Gz??[[[[8Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]"][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!ddIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]N][KOutPort][KSModul!ddIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]N][KOutPort][KSModul!ddIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]N][KOutPort][KSModul!ddIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]N][KOutPort][KSModul!ddIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]N][KOutPort ][KSModul!d(d(In6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]N][KOutPort ][KSModul!dHdHIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]N][KOutPort ][KSModul!dhdhIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]N][KOutPort][KSModul!6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]N][KInPort][KSModul!ttN][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KOutPort][KSModul!wttN][KInPortfF][KOutPort#][KSModul!wN][KInPortfF][KOutPort$][KSModul!wN][KInPortfF][KOutPort%][KSModul!wN][KInPortfF][KOutPort&][KSModul!wN][KInPortfF][KOutPort'][KSModul!wN][KInPortfF][KOutPort(][KSModul!w44N][KInPortfF][KOutPort)][KSModul!wTTN][KInPortfF][KOutPort*][KSModul!?@ ?HCA4t4tN][KInPortF][KOutPort&][KSModul!?@ ?HCA44N][KInPortF][KOutPort&][KSModul!?@ ?HCA44N][KInPortF][KOutPort&][KSModul!?@ ?HCA44N][KInPortF][KOutPort&][KSModul!?@ ?HCA44N][KInPortF][KOutPort&][KSModul!?@ ?HCA44N][KInPortF][KOutPort& ][KSModul!?@ ?HCA4444N][KInPortF][KOutPort& ][KSModul!?@ ?HCA4T4TN][KInPortF][KOutPort&][KSModul!+PhPh E Mod Mixer 3C3-channel mixer for event modulation signals. For mixing audio modulation signals please use a "Mod Mixer". To obtain the whole range of modulation you have to make sure that the modulation amount knob of the modulation input of the destination macro is turned fully clockwise. Made by erik.wiegand@native-instruments.comN][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPort6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]][KSModul!LT??????????????????????????@ ?  PPExp3Changes the characteristic of the knobs in this row from linear to exponential. Then they have a higher resolution at smaller levels. E.g. useful if the mix is used to modulate the pitch, frequency or level at another macro.(N][KOutPort ][KSModul!MU?{Gz??[[[[1Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!NV?i>i>i>{Gz??XX1[[1[[2Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(N][KOutPort][KSModul! lDlDPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.N][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]N][KInPort][KSModul!v((N][KInPortdF][KOutPort&][KSModul!p<8<8N][KInPort F][KOutPort&][KSModul!nl,l,N][KInPortF][KInPortF][KOutPort&][KSModul!o$$N][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???N][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveN][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]N][KOutPort][KSModul!oLLN][KInPort4F][KInPort5F][KOutPort&][KSModul!OW?B=B=B={Gz??0I[[0I[[3Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1] O][KOutPort][KSModul!oLL O][KInPort4F][KInPort5F][KOutPort&][KSModul!PX?B!>B!>B!>B!>B!>B!>B!>B!>{Gz??Ha[[Ha[[4Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed( O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve. O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ] O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!QY?e2>gY>E">E">{Gz??  `y[[`y[[5Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort ][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLL O][KInPort4F][KInPort5F][KOutPort&][KSModul!RZ?>>>e2>J>>$ >$ >$ >q>$ >{Gz??HHx[[x[[6Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(!O][KOutPort ][KSModul! l4l4PPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve."O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ] ][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]#O][KInPort][KSModul!v(($O][KInPortdF][KOutPort&][KSModul!p<8<8%O][KInPort F][KOutPort&][KSModul!nl,l,&O][KInPortF][KInPortF][KOutPort&][KSModul!o$$'O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???(O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave)O][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]*O][KOutPort][KSModul!oLL+O][KInPort4F][KInPort5F][KOutPort&][KSModul!S[?z>{Gz??[[[[7Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(,O][KOutPort][KSModul! lplpPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.-O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]!][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ].O][KInPort][KSModul!v((/O][KInPortdF][KOutPort&][KSModul!p<8<80O][KInPort F][KOutPort&][KSModul!nl,l,1O][KInPortF][KInPortF][KOutPort&][KSModul!o$$2O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???3O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave4O][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]5O][KOutPort][KSModul!oLL6O][KInPort4F][KInPort5F][KOutPort&][KSModul!T\?b1>z>A>J>J>u:>u:>u:> ?J>J>J>J>J>{Gz??[[[[8Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(7O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.8O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]"][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]9O][KInPort][KSModul!v((:O][KInPortdF][KOutPort&][KSModul!p<8<8;O][KInPort F][KOutPort&][KSModul!nl,l,O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave?O][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]@O][KOutPort][KSModul!oLLAO][KInPort4F][KInPort5F][KOutPort&][KSModul!llIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]BO][KOutPort][KSModul!llIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]CO][KOutPort][KSModul!llIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]DO][KOutPort][KSModul!llIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]EO][KOutPort][KSModul!llIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]FO][KOutPort ][KSModul!l$l$In6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]GO][KOutPort ][KSModul!lDlDIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]HO][KOutPort ][KSModul!ldldIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]IO][KOutPort][KSModul!6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]JO][KInPort][KSModul!ppKO][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KOutPort][KSModul!wppLO][KInPortfF][KOutPort#][KSModul!wMO][KInPortfF][KOutPort$][KSModul!wNO][KInPortfF][KOutPort%][KSModul!wOO][KInPortfF][KOutPort&][KSModul!wPO][KInPortfF][KOutPort'][KSModul!wQO][KInPortfF][KOutPort(][KSModul!w00RO][KInPortfF][KOutPort)][KSModul!wPPSO][KInPortfF][KOutPort*][KSModul!?@ ?HCA<p<pTO][KInPortF][KOutPort&][KSModul!?@ ?HCA<<UO][KInPortF][KOutPort&][KSModul!?@ ?HCA<<VO][KInPortF][KOutPort&][KSModul!?@ ?HCA<<WO][KInPortF][KOutPort&][KSModul!?@ ?HCA<<XO][KInPortF][KOutPort&][KSModul!?@ ?HCA<<YO][KInPortF][KOutPort& ][KSModul!?@ ?HCA<0<0ZO][KInPortF][KOutPort& ][KSModul!?@ ?HCA<P<P[O][KInPortF][KOutPort&][KSModul!+||hh E Mod Mixer 4C3-channel mixer for event modulation signals. For mixing audio modulation signals please use a "Mod Mixer". To obtain the whole range of modulation you have to make sure that the modulation amount knob of the modulation input of the destination macro is turned fully clockwise. Made by erik.wiegand@native-instruments.com\O][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPort6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]][KSModul!U]??????????????????????????@ ? SPPExp4Changes the characteristic of the knobs in this row from linear to exponential. Then they have a higher resolution at smaller levels. E.g. useful if the mix is used to modulate the pitch, frequency or level at another macro.(]O][KOutPort ][KSModul!V^?Z>Z>Z>Z>{Gz??[[[[1Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(^O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve._O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]`O][KInPort][KSModul!v((aO][KInPortdF][KOutPort&][KSModul!p<8<8bO][KInPort F][KOutPort&][KSModul!nl,l,cO][KInPortF][KInPortF][KOutPort&][KSModul!o$$dO][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???eO][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concavefO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]gO][KOutPort][KSModul!oLLhO][KInPort4F][KInPort5F][KOutPort&][KSModul!W_?{Gz??XX1[[1[[2Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(iO][KOutPort][KSModul! lDlDPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.jO][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]kO][KInPort][KSModul!v((lO][KInPortdF][KOutPort&][KSModul!p<8<8mO][KInPort F][KOutPort&][KSModul!nl,l,nO][KInPortF][KInPortF][KOutPort&][KSModul!o$$oO][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???pO][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveqO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]rO][KOutPort][KSModul!oLLsO][KInPort4F][KInPort5F][KOutPort&][KSModul!X`?A>{Gz??0I[[0I[[3Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(tO][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.uO][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]vO][KInPort][KSModul!v((wO][KInPortdF][KOutPort&][KSModul!p<8<8xO][KInPort F][KOutPort&][KSModul!nl,l,yO][KInPortF][KInPortF][KOutPort&][KSModul!o$$zO][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???{O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave|O][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]}O][KOutPort][KSModul!oLL~O][KInPort4F][KInPort5F][KOutPort&][KSModul!Ya?R>{Gz??Ha[[Ha[[4Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!Zb?, ?{Gz??  `y[[`y[[5Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort ][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul![c?{Gz??HHx[[x[[6Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort ][KSModul! l4l4PPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ] ][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!\d?$ ?$ ?$ ?G=E">E">E">E">E">$ ?$ ?$ ?u:?E">{Gz??[[[[7Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort][KSModul! lplpPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]!][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!]e?>>>= ?r9>>R>R>R>R>R>{Gz??[[[[8Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]"][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!In1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]O][KOutPort][KSModul!In2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]O][KOutPort][KSModul!In3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]O][KOutPort][KSModul!In4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]O][KOutPort][KSModul!In5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]O][KOutPort ][KSModul!((In6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]O][KOutPort ][KSModul!HHIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]O][KOutPort ][KSModul!hhIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]O][KOutPort][KSModul!6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]O][KInPort][KSModul!ttO][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KOutPort][KSModul!wttO][KInPortfF][KOutPort#][KSModul!wO][KInPortfF][KOutPort$][KSModul!wO][KInPortfF][KOutPort%][KSModul!wO][KInPortfF][KOutPort&][KSModul!wO][KInPortfF][KOutPort'][KSModul!wO][KInPortfF][KOutPort(][KSModul!w44O][KInPortfF][KOutPort)][KSModul!wTTO][KInPortfF][KOutPort*][KSModul!?@ ?HCAPtPtO][KInPortF][KOutPort&][KSModul!?@ ?HCAPPO][KInPortF][KOutPort&][KSModul!?@ ?HCAPPO][KInPortF][KOutPort&][KSModul!?@ ?HCAPPO][KInPortF][KOutPort&][KSModul!?@ ?HCAPPO][KInPortF][KOutPort&][KSModul!?@ ?HCAPPO][KInPortF][KOutPort& ][KSModul!?@ ?HCAP4P4O][KInPortF][KOutPort& ][KSModul!?@ ?HCAPTPTO][KInPortF][KOutPort&][KSModul!+ E Mod Mixer 5C3-channel mixer for event modulation signals. For mixing audio modulation signals please use a "Mod Mixer". To obtain the whole range of modulation you have to make sure that the modulation amount knob of the modulation input of the destination macro is turned fully clockwise. Made by erik.wiegand@native-instruments.comO][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPort6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]][KSModul!^f??????????????????????????@ ?  PPExp5Changes the characteristic of the knobs in this row from linear to exponential. Then they have a higher resolution at smaller levels. E.g. useful if the mix is used to modulate the pitch, frequency or level at another macro.(O][KOutPort ][KSModul!_g?{Gz??[[[[1Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!`h?{Gz??XX1[[1[[2Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort][KSModul! lDlDPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!ai?{Gz??0I[[0I[[3Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!bj?{Gz??Ha[[Ha[[4Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]O][KInPort][KSModul!v((O][KInPortdF][KOutPort&][KSModul!p<8<8O][KInPort F][KOutPort&][KSModul!nl,l,O][KInPortF][KInPortF][KOutPort&][KSModul!o$$O][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???O][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveO][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]O][KOutPort][KSModul!oLLO][KInPort4F][KInPort5F][KOutPort&][KSModul!ck?GQ>GQ>GQ>=R)?e2>{Gz??  `y[[`y[[5Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(O][KOutPort ][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.O][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!dl?{Gz??HHx[[x[[6Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed( P][KOutPort ][KSModul! l4l4PPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve. P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ] ][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ] P][KInPort][KSModul!v(( P][KInPortdF][KOutPort&][KSModul!p<8<8 P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!em?&>&>&>j>{Gz??[[[[7Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! lplpPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]!][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!fn?u:?u:?u:?a>E">&I>gY>gY>gY>gY>gY>gY>gY>gY>gY>gY>gY>gY>{Gz??[[[[8Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve. P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]"][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]!P][KInPort][KSModul!v(("P][KInPortdF][KOutPort&][KSModul!p<8<8#P][KInPort F][KOutPort&][KSModul!nl,l,$P][KInPortF][KInPortF][KOutPort&][KSModul!o$$%P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???&P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave'P][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1](P][KOutPort][KSModul!oLL)P][KInPort4F][KInPort5F][KOutPort&][KSModul!xxIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]*P][KOutPort][KSModul!xxIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]+P][KOutPort][KSModul!xxIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ],P][KOutPort][KSModul!xxIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]-P][KOutPort][KSModul!xxIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ].P][KOutPort ][KSModul!x$x$In6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]/P][KOutPort ][KSModul!xDxDIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]0P][KOutPort ][KSModul!xdxdIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]1P][KOutPort][KSModul!6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]2P][KInPort][KSModul!pp3P][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KOutPort][KSModul!wpp4P][KInPortfF][KOutPort#][KSModul!w5P][KInPortfF][KOutPort$][KSModul!w6P][KInPortfF][KOutPort%][KSModul!w7P][KInPortfF][KOutPort&][KSModul!w8P][KInPortfF][KOutPort'][KSModul!w9P][KInPortfF][KOutPort(][KSModul!w00:P][KInPortfF][KOutPort)][KSModul!wPP;P][KInPortfF][KOutPort*][KSModul!?@ ?HCAHpHpP][KInPortF][KOutPort&][KSModul!?@ ?HCAHH?P][KInPortF][KOutPort&][KSModul!?@ ?HCAHH@P][KInPortF][KOutPort&][KSModul!?@ ?HCAHHAP][KInPortF][KOutPort& ][KSModul!?@ ?HCAH0H0BP][KInPortF][KOutPort& ][KSModul!?@ ?HCAHPHPCP][KInPortF][KOutPort&][KSModul!+<< E Mod Mixer 6C3-channel mixer for event modulation signals. For mixing audio modulation signals please use a "Mod Mixer". To obtain the whole range of modulation you have to make sure that the modulation amount knob of the modulation input of the destination macro is turned fully clockwise. Made by erik.wiegand@native-instruments.comDP][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPort6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]][KSModul!go??????????????????????????@ ?  PPExp6Changes the characteristic of the knobs in this row from linear to exponential. Then they have a higher resolution at smaller levels. E.g. useful if the mix is used to modulate the pitch, frequency or level at another macro.(EP][KOutPort ][KSModul!hp?{Gz??[[[[1Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(FP][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.GP][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]HP][KInPort][KSModul!v((IP][KInPortdF][KOutPort&][KSModul!p<8<8JP][KInPort F][KOutPort&][KSModul!nl,l,KP][KInPortF][KInPortF][KOutPort&][KSModul!o$$LP][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???MP][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveNP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]OP][KOutPort][KSModul!oLLPP][KInPort4F][KInPort5F][KOutPort&][KSModul!iq?{Gz??XX1[[1[[2Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(QP][KOutPort][KSModul! lDlDPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.RP][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]SP][KInPort][KSModul!v((TP][KInPortdF][KOutPort&][KSModul!p<8<8UP][KInPort F][KOutPort&][KSModul!nl,l,VP][KInPortF][KInPortF][KOutPort&][KSModul!o$$WP][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???XP][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveYP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]ZP][KOutPort][KSModul!oLL[P][KInPort4F][KInPort5F][KOutPort&][KSModul!jr?z>z>{Gz??0I[[0I[[3Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(\P][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.]P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]^P][KInPort][KSModul!v((_P][KInPortdF][KOutPort&][KSModul!p<8<8`P][KInPort F][KOutPort&][KSModul!nl,l,aP][KInPortF][KInPortF][KOutPort&][KSModul!o$$bP][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???cP][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concavedP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]eP][KOutPort][KSModul!oLLfP][KInPort4F][KInPort5F][KOutPort&][KSModul!ks?e2>{Gz??Ha[[Ha[[4Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(gP][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.hP][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]iP][KInPort][KSModul!v((jP][KInPortdF][KOutPort&][KSModul!p<8<8kP][KInPort F][KOutPort&][KSModul!nl,l,lP][KInPortF][KInPortF][KOutPort&][KSModul!o$$mP][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???nP][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveoP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]pP][KOutPort][KSModul!oLLqP][KInPort4F][KInPort5F][KOutPort&][KSModul!lt?_?{Gz??  `y[[`y[[5Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(rP][KOutPort ][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.sP][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]tP][KInPort][KSModul!v((uP][KInPortdF][KOutPort&][KSModul!p<8<8vP][KInPort F][KOutPort&][KSModul!nl,l,wP][KInPortF][KInPortF][KOutPort&][KSModul!o$$xP][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???yP][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concavezP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]{P][KOutPort][KSModul!oLL|P][KInPort4F][KInPort5F][KOutPort&][KSModul!mu?{Gz??HHx[[x[[6Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(}P][KOutPort ][KSModul! l4l4PPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.~P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ] ][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!nv?z>z>z> >{Gz??[[[[7Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! lplpPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]!][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!ow? ? ? ? >].?Z>&I>&I>&I>&I>{Gz??[[[[8Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]"][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!llIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]P][KOutPort][KSModul!llIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]P][KOutPort][KSModul!llIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]P][KOutPort][KSModul!llIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]P][KOutPort][KSModul!llIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]P][KOutPort ][KSModul!l$l$In6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]P][KOutPort ][KSModul!lDlDIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]P][KOutPort ][KSModul!ldldIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]P][KOutPort][KSModul!6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]P][KInPort][KSModul!ppP][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KOutPort][KSModul!wppP][KInPortfF][KOutPort#][KSModul!wP][KInPortfF][KOutPort$][KSModul!wP][KInPortfF][KOutPort%][KSModul!wP][KInPortfF][KOutPort&][KSModul!wP][KInPortfF][KOutPort'][KSModul!wP][KInPortfF][KOutPort(][KSModul!w00P][KInPortfF][KOutPort)][KSModul!wPPP][KInPortfF][KOutPort*][KSModul!?@ ?HCA<p<pP][KInPortF][KOutPort&][KSModul!?@ ?HCA<<P][KInPortF][KOutPort&][KSModul!?@ ?HCA<<P][KInPortF][KOutPort&][KSModul!?@ ?HCA<<P][KInPortF][KOutPort&][KSModul!?@ ?HCA<<P][KInPortF][KOutPort&][KSModul!?@ ?HCA<<P][KInPortF][KOutPort& ][KSModul!?@ ?HCA<0<0P][KInPortF][KOutPort& ][KSModul!?@ ?HCA<P<PP][KInPortF][KOutPort&][KSModul!+ E Mod Mixer 7C3-channel mixer for event modulation signals. For mixing audio modulation signals please use a "Mod Mixer". To obtain the whole range of modulation you have to make sure that the modulation amount knob of the modulation input of the destination macro is turned fully clockwise. Made by erik.wiegand@native-instruments.comP][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KOutPort6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]][KSModul!px??????????????????????????@ ?  PPExp7Changes the characteristic of the knobs in this row from linear to exponential. Then they have a higher resolution at smaller levels. E.g. useful if the mix is used to modulate the pitch, frequency or level at another macro.(P][KOutPort ][KSModul!qy?{Gz??[[[[1Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!rz?>b={Gz??XX1[[1[[2Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! lDlDPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!s{?{Gz??0I[[0I[[3Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!t|?{Gz??Ha[[Ha[[4Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!u}?<u:?u:?u:?<<<<<<<U*>U*><<<<<<<<<<<<{Gz??  `y[[`y[[5Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort ][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!v~?{Gz??HHx[[x[[6Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort ][KSModul! l4l4PPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ] ][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8P][KInPort F][KOutPort&][KSModul!nl,l,P][KInPortF][KInPortF][KOutPort&][KSModul!o$$P][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???P][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveP][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]P][KOutPort][KSModul!oLLP][KInPort4F][KInPort5F][KOutPort&][KSModul!w?{Gz??[[[[7Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(P][KOutPort][KSModul! lplpPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.P][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]!][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ]P][KInPort][KSModul!v((P][KInPortdF][KOutPort&][KSModul!p<8<8Q][KInPort F][KOutPort&][KSModul!nl,l,Q][KInPortF][KInPortF][KOutPort&][KSModul!o$$Q][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???Q][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveQ][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]Q][KOutPort][KSModul!oLLQ][KInPort4F][KInPort5F][KOutPort&][KSModul!x?y>j>GQ>y>z>z>z>z>z>z>z>{Gz??[[[[8Sets the level of the corresponding modulation signal. The characteristic can be set with the "Exp"-button. 0 = Incoming signal is mutet 1 = Level of the incoming signal isn't changed(Q][KOutPort][KSModul! llPPConcaveExponential scale. Input values between 0 and 1 are converted to output values between 0 and 1 by an concave exponential curve.Q][KInPortFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concave][KInPort;Input for the events to be scaled. Typical range: [0 ... 1]][KOutPort>Output for events with scaled values. Typ. Range: [ -1 ... A ]"][KSModul!4T4T>Output for events with scaled values. Typ. Range: [ -1 ... A ] Q][KInPort][KSModul!v(( Q][KInPortdF][KOutPort&][KSModul!p<8<8 Q][KInPort F][KOutPort&][KSModul!nl,l, Q][KInPortF][KInPortF][KOutPort&][KSModul!o$$ Q][KInPort4F][KInPort5F][KOutPort&][KSModul!d?@ ???Q][KOutPort&][KSModul!llFormedetermines the form of the curve: Typical range: [0 ... -40] 0->linear negative values ->more concaveQ][KOutPort][KSModul!\\;Input for the events to be scaled. Typical range: [0 ... 1]Q][KOutPort][KSModul!oLLQ][KInPort4F][KInPort5F][KOutPort&][KSModul!ddIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]Q][KOutPort][KSModul!ddIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]Q][KOutPort][KSModul!ddIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]Q][KOutPort][KSModul!ddIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]Q][KOutPort][KSModul!ddIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]Q][KOutPort ][KSModul!d$d$In6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]Q][KOutPort ][KSModul!dDdDIn7.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]Q][KOutPort ][KSModul!ddddIn8.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]Q][KOutPort][KSModul!6Output for the mixed signals. Typ. Range: [ -1 ... 1 ]Q][KInPort][KSModul!ppQ][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KInPortF][KOutPort][KSModul!wppQ][KInPortfF][KOutPort#][KSModul!wQ][KInPortfF][KOutPort$][KSModul!wQ][KInPortfF][KOutPort%][KSModul!wQ][KInPortfF][KOutPort&][KSModul!w Q][KInPortfF][KOutPort'][KSModul!w!Q][KInPortfF][KOutPort(][KSModul!w00"Q][KInPortfF][KOutPort)][KSModul!wPP#Q][KInPortfF][KOutPort*][KSModul!?@ ?HCA4p4p$Q][KInPortF][KOutPort&][KSModul!?@ ?HCA44%Q][KInPortF][KOutPort&][KSModul!?@ ?HCA44&Q][KInPortF][KOutPort&][KSModul!?@ ?HCA44'Q][KInPortF][KOutPort&][KSModul!?@ ?HCA44(Q][KInPortF][KOutPort&][KSModul!?@ ?HCA44)Q][KInPortF][KOutPort& ][KSModul!?@ ?HCA4040*Q][KInPortF][KOutPort& ][KSModul!?@ ?HCA4P4P+Q][KInPortF][KOutPort&][KSModul!+|| E Mod Mixer 8C3-channel mixer for event modulation signals. For mixing audio modulation signals please use a "Mod Mixer". To obtain the whole range of modulation you have to make sure that the modulation amount knob of the modulation input of the destination macro is turned fully clockwise. Made by erik.wiegand@native-instruments.com,Q][KInPortIn1.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn2.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn3.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn4.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn5.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPortIn6.Input1 of the matrix. Typ. Range: [ -1 ... 1 ]][KInPort