Version=Nord Modular G2 File Format 1 Type=Performance Version=22 Info=BUILD 234 NtechitrantourpongdrumWacky!,?JH@ 0A p , p(P $# 8K,  AHH$qPDHXP 3AHh`x  F@`x|  PJioA@R@3$B @@AAA@ `A `BB@BA B@B!B  !B"D"D"ā"@CB D"EB"E"Ł"EB`E@!E"C"E#E"A#G@C ƀC C FCADB!CAG#@`@#BC`@B`@C`ÀA`CaG#F#AC!AGRMC@H @ @ @ @ @ @ @ @ @,@ lA  8 8@0 Ap B Le (@0P2`@  @P@A MG@B@@@$@  @ `@  @X"@` P@@?` ?0@p@            " $(>@ Y @d\r @ F@9 P"@^ R , <,``AAAAAAA _@  @xBp@ @  @ ` ;`  0/o@0`)6#`6C`!4@      H0 @F@@@@,@@<@@ BOA#`m6 3`6, ?@ ` @ P oB?P@@  @4d@2T L @ @L@@ <0# <p#  H @X @@x`GxG xGx",@ >@ 2<@(@ A ,  "@ħ` @`@( @ `@h @ p@ 4@MeY bx`F[T@TBܛ\ @BQܛ\ Bܛ\ Bܛ\ Bܛ\ @BQܛ\ Bܛ\ Bܛ\[0@EBP @B BX@BBP @[Z5P OscD1Saturate1Constant12-Out1Saturate1LevMod1OscC1OscC2 Mix2-1A1 FltClassic1 EnvADSR1 OscMaster1 Overdrive1EnvD1NoteQuant1EnvD2RndTrig1X-Fade1RndTrig2NoteQuant1EnvD2X-Fade1Mix4-1A1RndClkA1ClkGen1SeqLev1SeqEvent1LevMult1Mix1-1A1LfoC1DelayA1 Constant2ZoWas passiert, wenn Ausgang LfoA1zum oberen Pitch-Eingang geht? Die Herzrate des LfoA1 steuert die Geschwindigkeit, der Pitch Modulation Attenuator Amplitude? !,?JE @P T A@ @P` @@ `4A8P TD\Edq0 @'"@J(@@ #X ` ,B.Ai `P*UR{@`EC D!C!@AA"@B!D!BD!B!D@"C"DA" BB" Â@@@`@@!@ ` B!@B!@@@ B!`CB@R+ A @ A`A`@MC@H @ @ @ @ @ @ @ @ @ ,@ lA  8 8@0 Ap B e (@0P2`@ @@P@A MDB@j(( 2((2PQ@EUPQ@!E@` P@X J(*(0 TPQ@ EETPQ@E Y&@ r |@d$PP5'2K @, $K @, DA@?   p@h@ B Xp4 ǀ xA@< ?`0` (@0 0 @H @ A< !€$ ;@ X@9`% @X@y`%  D@@`  @@x@ D`@ @$  @@ @  <!``9`Y`y`@`@  \@d M@A  @ A@ p@ @@0@@ À@IP D(x2E<!"J@% H$P C(A'R @@,@<@(0@@ `( A@@ L@ e\ $L'L  bx` F[T@TBܛ\ @BQܛ\ Bܛ\ Bܛ\ Bܛ\ @BQܛ\ Bܛ\ Bܛ\[@BP @BP @[ABP @Z@LevMult1WindSw1WindSw12-Out1WindSw1WindSw1Mix4-1A1Mix1-1A1 FltNord1 LfoC2 RndPattern1 Pan1 LfoC1FltNord2LfoC3LfoC4MinMax1LevAdd1FltLP1Mix1-1A2Z7 Fx-In12-Out1Compress1Reverb12-In1Mix1-1S1oWas passiert, wenn Ausgang LfoA1zum oberen Pitch-Eingang geht? Die Herzrate des LfoA1 steuert die Geschwindigkeit, der Pitch Modulation Attenuator Amplitude? !BX_ JN@ Z 0bp`A0p(l $B%" аFl0 4D#F @0 D b$ %HkG @`hX $p( H D@hAl@PtdA"i@q@܀P 0!d ȁr0`!@Ȑ``.%tDɀo BpC`E)@D@7*dD3JDP@+8H@ A1  A1 O s n An!@6t`!L B, Ji `R@%I$ %@ @%H##ABaE JE`KE%@J%@IBJJ`@ G@`Ȁ@` `F#`H#`H#ǀ#HA#G@H#@@KE @JA@BA`FEE A`FC@AC@DBC# FBEAġEâE¢@@@@@@@AAA@@  @# $D" @B`Eb`â`C`ABEEBEE B B¡Da¡á@E@DE@D@ B@ DCA@DB@Ca@@C@ADCCC BA` C A C BCC@BBA'K@& @& &@ @&` & FM&M&`M&@M& MCFMB&MA%M@ HAG@GAFF%N@RMC@H @ @ @ @ @ @ @ @ @ ,@ lA  8 8@0 Ap B e (@0P2`@ @@P@A MI@L`@@$  @4]x cO'rm3 0@0`@ @`J&Ldɓ <2d &Lrdɐ6L2ɓ&@2d( ɓ&@Y2d&Ldɓ \2d &LdɐFL2 0p   @ k{-o@ `` `HA`F P s܀rdɐL2ɓ&@2d&Ldɓ |2d&LA@ @ p@x@8` @@@$@,@4@<@D@ [l F[l6`m6 3`6B @@  @  4`m6 3`6FXlVl!@` X@%@@@p 8P0& @(  8pc_ 0 @@   @@<%@(@9 y @lr@ 2H`  8@l 6lv+0p  @l 2@`2@ `d dhP@@ @  @\ ` x  8@:   p@h@ B  P@ @  @d(@ A ,  "@ 0 @H @ A< &@?   p@h@ B  ``H`BD <<+<;<MeU  0@P`pbx`F[T@TBY[BU[B^XBY B\ BP B XB˕ [$@BT] BP @B [ZI8FlipFlop1ClkGen1SeqCtr1ClkDiv2Gate1Mix4-1B1DACFlipFlop1 Gate2 FlipFlop1 RndTrig2 FlipFlop1 Gate1Gate2Gate1Gate1Gate2Gate2FlipFlop1Gate1Gate1Gate2Gate2SeqCtr2LevAdd1ClkDiv1S&H1Mix4-1B12-Out1OscC1EnvD1 EnvD2!Saturate1"EnvD3#EnvD4$Count%EnvAHD1&Noise1'OscPerc1(Mix2-1A1)ClkDiv3*EnvD5+RndTrig1,Mix2-1B1-LfoC1.ValSw2-11/ValSw2-120LfoC21LfoC12LfoC23LfoC14LfoC25Gate16Gate18Constant19FltHP1ZoThe purpose of this patch is to implement the missing direction input on the logic binary counter using a synchronous counter to achive the best stability as possible. Note that this is not the case for the countdir flipflop that makes the zig zag count... i wasnt able to hook it to the main clock Another good idea would be to implement the 8 counter with a direction count also expandable to n outputs... probably will be easier using the scheme of shift registers. This was the most clean implementation i could get but i think that it will be possible to make a cleaner implementation using n d-type flipflops to store the machine state and one AD before them to transmit the next state and one DA after them to receive the state... working on it, this would allow increments different than -1 and +1 This model was implemented using the demo software 1.32 I am expecting that in the future the binary and the 8count modules will have a direction input. have fun bantri pvb256@hotmail.com (mail or msn) !uJfC@ !CW<@$pP8p`- p@ \ p$p(W 0@+ 8 @`@ JpQ@ !4 [,0A@40KD# А(  A/ A ,@`8ieϙs@RO@CB` A@` A` A` @@@B@!@B``B``A@!B````A`@@CCR_!DA!C@!@! C A""CÁC`C@A AB@@@@ B@AC@ @@ @`A@A@@@MC@H @ @ @ @ @ @ @ @ @ ,@ lA  8 8@0 Ap B $ e (@0P2`@ @@P@A MCB@U <<+<;< 0@@`( @} `9`Y`y``, R,  , ,!  P 3, R,  , ,!@X@"@  <`9`Y`y`@ <P`@@ ` @l(6 tx7xWxwx< 0A@0@!MS@B@@@$  @$Gx@GxG xGxGx `  ` " '@' p@  ?ؠH@L$ H@(Hh @  0 A1Ld  @ @,  @ @`0` (@. 0 @H @ A< ! @8  Cr 9 H2@ l#$ ???    @0eU  0@P`pbx`F[T@TBܛ\ @BQܛ\ Bܛ\ Bܛ\ Bܛ\ @BQܛ\ Bܛ\ Bܛ\[@[ABX@ZGGate1FltLP3Invert12-Out1FltLP1FltLP2LevConv1FltLP4 DlySingleB1 Constant1 FltLP4 Constant1 EnvAHD1FltHP1Overdrive1Z2ClkGen1SeqEvent1RndTrig1FlipFlop1Gate1RndClkA1NoteQuant1NoteSend1 RndTrig2 Fx-In1 DelayA1 Pan1 LfoC12-Out1NoteSend1NoteQuant2CtrlSend1oWas passiert, wenn Ausgang LfoA1zum oberen Pitch-Eingang geht? Die Herzrate des LfoA1 steuert die Geschwindigkeit, der Pitch Modulation Attenuator Amplitude? _x1