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<nettime> antiorp x 3
nettime's_digestive_system on Tue, 18 Aug 1998 23:30:14 +0200 (MET DST)


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<nettime> antiorp x 3


Date: Tue, 18 Aug 1998 12:53:10 -0600
To: nettime-l {AT} Desk.nl
From: antiorp {AT} tezcat.com (=cw4t7abs)

Last Trade:
                         44 1/8
          Net Change:
                          2
          Bid:
                         44 1/8
          Ask:
                         44 3/16
          Day High:
                         44 7/8
          Day Low:
                         42 1/8
          Volume:
                         1240400
          Yesterday:
                         42 1/8
          Last Quote Time:
                         13:35
          Last Quote Date:
                         08/18/1998

                                                 Annual Dividend/Share:
                                                                     0
                                                 Dividend Amount:
                                                                     0.000
                                                 Bid Size:
                                                                     5
                                                 Ask Size:
                                                                     3
                                                 52 Week High:
                                                                     55 1/2
                                                 52 Week Low:
                                                                     7 1/8
                                                 Current Yield:
                                                                     0.00
                                                 EPS:
                                                                     -1.42
                                                 P/E Ratio:
                                                                     N/A





                                            Symbol Help


b!nar+e to!z == m9ndfukc++





http://194.19.130.194/=cw4t7abs/0f0003/ztpd/=cw4t7abs.3nkod0r..0+2.html

2-----------------------


Date: Tue, 18 Aug 1998 08:30:30 -0600
To: nettime-l {AT} Desk.nl
From: antiorp {AT} tezcat.com (=cw4t7abs)
Subject:    $22       [locks up machine]         (Implied)        1/-
RLA      $23       M <- (M << 1) /\ (A)       (Ind,X)          2/8	*
BIT      $24       Z <- ~(A /\ M) N<-M7 V<-M6

>where are u from?

we !n dze eazt =3D dze future. future ov dze wezt.





Std Mnemonic Hex Value Description                Addressing Mode  Bytes/Tim=
e
*   BRK      $00       Stack <- PC, PC <- ($fffe) (Immediate)      1/7
*   ORA      $01       A <- (A) V M               (Ind,X)          6/2
    JAM      $02       [locks up machine]         (Implied)        1/-
    SLO      $03       M <- (M >> 1) + A + C      (Ind,X)          2/8
    NOP      $04       [no operation]             (Z-Page)         2/3
*   ORA      $05       A <- (A) V M               (Z-Page)         2/3
*   ASL      $06       C <- A7, A <- (A) << 1     (Z-Page)         2/5
    SLO      $07       M <- (M >> 1) + A + C      (Z-Page)         2/5
*   PHP      $08       Stack <- (P)               (Implied)        1/3
*   ORA      $09       A <- (A) V M               (Immediate)      2/2
*   ASL      $0A       C <- A7, A <- (A) << 1     (Accumalator)    1/2
    ANC      $0B       A <- A /\ M, C=3D~A7         (Immediate)      1/2
    NOP      $0C       [no operation]             (Absolute)       3/4
*   ORA      $0D       A <- (A) V M               (Absolute)       3/4
*   ASL      $0E       C <- A7, A <- (A) << 1     (Absolute)       3/6
    SLO      $0F       M <- (M >> 1) + A + C      (Absolute)       3/6
*   BPL      $10       if N=3D0, PC =3D PC + offset   (Relative)       2/2'2
*   ORA      $11       A <- (A) V M               ((Ind),Y)        2/5'1
    JAM      $12       [locks up machine]         (Implied)        1/-
    SLO      $13       M <- (M >. 1) + A + C      ((Ind),Y)        2/8'5
    NOP      $14       [no operation]             (Z-Page,X)       2/4
*   ORA      $15       A <- (A) V M               (Z-Page,X)       2/4
*   ASL      $16       C <- A7, A <- (A) << 1     (Z-Page,X)       2/6
    SLO      $17       M <- (M >> 1) + A + C      (Z-Page,X)       2/6
*   CLC      $18       C <- 0                     (Implied)        1/2
*   ORA      $19       A <- (A) V M               (Absolute,Y)     3/4'1
    NOP      $1A       [no operation]             (Implied)        1/2
    SLO      $1B       M <- (M >> 1) + A + C      (Absolute,Y)     3/7
    NOP      $1C       [no operation]             (Absolute,X)     2/4'1
*   ORA      $1D       A <- (A) V M               (Absolute,X)     3/4'1
*   ASL      $1E       C <- A7, A <- (A) << 1     (Absolute,X)     3/7
    SLO      $1F       M <- (M >> 1) + A + C      (Absolute,X)     3/7
*   JSR      $20       Stack <- PC, PC <- Address (Absolute)       3/6
*   AND      $21       A <- (A) /\ M              (Ind,X)          2/6
    JAM      $22       [locks up machine]         (Implied)        1/-
    RLA      $23       M <- (M << 1) /\ (A)       (Ind,X)          2/8
*   BIT      $24       Z <- ~(A /\ M) N<-M7 V<-M6 (Z-Page)         2/3
*   AND      $25       A <- (A) /\ M              (Z-Page)         2/3
*   ROL      $26       C <- A7 & A <- A << 1 + C  (Z-Page)         2/5
    RLA      $27       M <- (M << 1) /\ (A)       (Z-Page)         2/5'5
*   PLP      $28       A <- (Stack)               (Implied)        1/4
*   AND      $29       A <- (A) /\ M              (Immediate)      2/2
*   ROL      $2A       C <- A7 & A <- A << 1 + C  (Accumalator)    1/2
    ANC      $2B       A <- A /\ M, C <- ~A7      (Immediate9      1/2
*   BIT      $2C       Z <- ~(A /\ M) N<-M7 V<-M6 (Absolute)       3/4
*   AND      $2D       A <- (A) /\ M              (Absolute)       3/4
*   ROL      $2E       C <- A7 & A <- A << 1 + C  (Absolute)       3/6
    RLA      $2F       M <- (M << 1) /\ (A)       (Absolute)       3/6'5
*   BMI      $30       if N=3D1, PC =3D PC + offset   (Relative)       2/2'2
*   AND      $31       A <- (A) /\ M              ((Ind),Y)        2/5'1
    JAM      $32       [locks up machine]         (Implied)        1/-
    RLA      $33       M <- (M << 1) /\ (A)       ((Ind),Y)        2/8'5
    NOP      $34       [no operation]             (Z-Page,X)       2/4
*   AND      $35       A <- (A) /\ M              (Z-Page,X)       2/4
*   ROL      $36       C <- A7 & A <- A << 1 + C  (Z-Page,X)       2/6
    RLA      $37       M <- (M << 1) /\ (A)       (Z-Page,X)       2/6'5
*   SEC      $38       C <- 1                     (Implied)        1/2
*   AND      $39       A <- (A) /\ M              (Absolute,Y)     3/4'1
    NOP      $3A       [no operation]             (Implied)        1/2
    RLA      $3B       M <- (M << 1) /\ (A)       (Absolute,Y)     3/7'5
    NOP      $3C       [no operation]             (Absolute,X)     3/4'1
*   AND      $3D       A <- (A) /\ M              (Absolute,X)     3/4'1
*   ROL      $3E       C <- A7 & A <- A << 1 + C  (Absolute,X)     3/7
    RLA      $3F       M <- (M << 1) /\ (A)       (Absolute,X)     3/7'5
*   RTI      $40       P <- (Stack), PC <-(Stack) (Implied)        1/6
*   EOR      $41       A <- (A) \-/ M             (Ind,X)          2/6
    JAM      $42       [locks up machine]         (Implied)        1/-
    SRE      $43       M <- (M >> 1) \-/ A        (Ind,X)          2/8
    NOP      $44       [no operation]             (Z-Page)         2/3
*   EOR      $45       A <- (A) \-/ M             (Z-Page)         2/3
*   LSR      $46       C <- A0, A <- (A) >> 1     (Absolute,X)     3/7
    SRE      $47       M <- (M >> 1) \-/ A        (Z-Page)         2/5
*   PHA      $48       Stack <- (A)               (Implied)        1/3
*   EOR      $49       A <- (A) \-/ M             (Immediate)      2/2
*   LSR      $4A       C <- A0, A <- (A) >> 1     (Accumalator)    1/2
    ASR      $4B       A <- [(A /\ M) >> 1]       (Immediate)      1/2
*   JMP      $4C       PC <- Address              (Absolute)       3/3
*   EOR      $4D       A <- (A) \-/ M             (Absolute)       3/4
*   LSR      $4E       C <- A0, A <- (A) >> 1     (Absolute)       3/6
    SRE      $4F       M <- (M >> 1) \-/ A        (Absolute)       3/6
*   BVC      $50       if V=3D0, PC =3D PC + offset   (Relative)       2/2'2
*   EOR      $51       A <- (A) \-/ M             ((Ind),Y)        2/5'1
    JAM      $52       [locks up machine]         (Implied)        1/-
    SRE      $53       M <- (M >> 1) \-/ A        ((Ind),Y)        2/8
    NOP      $54       [no operation]             (Z-Page,X)       2/4
*   EOR      $55       A <- (A) \-/ M             (Z-Page,X)       2/4
*   LSR      $56       C <- A0, A <- (A) >> 1     (Z-Page,X)       2/6
    SRE      $57       M <- (M >> 1) \-/ A        (Z-Page,X)       2/6
*   CLI      $58       I <- 0                     (Implied)        1/2
*   EOR      $59       A <- (A) \-/ M             (Absolute,Y)     3/4'1
    NOP      $5A       [no operation]             (Implied)        1/2
    SRE      $5B       M <- (M >> 1) \-/ A        (Absolute,Y)     3/7
    NOP      $5C       [no operation]             (Absolute,X)     3/4'1
*   EOR      $5D       A <- (A) \-/ M             (Absolute,X)     3/4'1
    SRE      $5F       M <- (M >> 1) \-/ A        (Absolute,X)     3/7
*   RTS      $60       PC <- (Stack)              (Implied)        1/6
*   ADC      $61       A <- (A) + M + C           (Ind,X)          2/6
    JAM      $62       [locks up machine]         (Implied)        1/-
    RRA      $63       M <- (M >> 1) + (A) + C    (Ind,X)          2/8'5
    NOP      $64       [no operation]             (Z-Page)         2/3
*   ADC      $65       A <- (A) + M + C           (Z-Page)         2/3
*   ROR      $66       C<-A0 & A<- (A7=3DC + A>>1)  (Z-Page)         2/5
    RRA      $67       M <- (M >> 1) + (A) + C    (Z-Page)         2/5'5
*   PLA      $68       A <- (Stack)               (Implied)        1/4
*   ADC      $69       A <- (A) + M + C           (Immediate)      2/2
*   ROR      $6A       C<-A0 & A<- (A7=3DC + A>>1)  (Accumalator)    1/2
    ARR      $6B       A <- [(A /\ M) >> 1]       (Immediate)      1/2'5
*   JMP      $6C       PC <- Address              (Indirect)       3/5
*   ADC      $6D       A <- (A) + M + C           (Absolute)       3/4
*   ROR      $6E       C<-A0 & A<- (A7=3DC + A>>1)  (Absolute)       3/6
    RRA      $6F       M <- (M >> 1) + (A) + C    (Absolute)       3/6'5
*   BVS      $70       if V=3D1, PC =3D PC + offset   (Relative)       2/2'2
*   ADC      $71       A <- (A) + M + C           ((Ind),Y)        2/5'1
    JAM      $72       [locks up machine]         (Implied)        1/-
    RRA      $73       M <- (M >> 1) + (A) + C    ((Ind),Y)        2/8'5
    NOP      $74       [no operation]             (Z-Page,X)       2/4
*   ADC      $75       A <- (A) + M + C           (Z-Page,X)       2/4
*   ROR      $76       C<-A0 & A<- (A7=3DC + A>>1)  (Z-Page,X)       2/6
    RRA      $77       M <- (M >> 1) + (A) + C    (Z-Page,X)       2/6'5
*   SEI      $78       I <- 1                     (Implied)        1/2
*   ADC      $79       A <- (A) + M + C           (Absolute,Y)     3/4'1
    NOP      $7A       [no operation]             (Implied)        1/2
    RRA      $7B       M <- (M >> 1) + (A) + C    (Absolute,Y)     3/7'5
    NOP      $7C       [no operation]             (Absolute,X)     3/4'1
*   ADC      $7D       A <- (A) + M + C           (Absolute,X)     3/4'1
*   ROR      $7E       C<-A0 & A<- (A7=3DC + A>>1)  (Absolute,X)     3/7
    RRA      $7F       M <- (M >> 1) + (A) + C    (Absolute,X)     3/7'5
    NOP      $80       [no operation]             (Immediate)      2/2
*   STA      $81       M <- (A)                   (Ind,X)          2/6
    NOP      $82       [no operation]             (Immediate)      2/2
    SAX      $83       M <- (A) /\ (X)            (Ind,X)          2/6
*   STY      $84       M <- (Y)                   (Z-Page)         2/3
*   STA      $85       M <- (A)                   (Z-Page)         2/3
*   STX      $86       M <- (X)                   (Z-Page)         2/3
    SAX      $87       M <- (A) /\ (X)            (Z-Page)         2/3
*   DEY      $88       Y <- (Y) - 1               (Implied)        1/2
    NOP      $89       [no operation]             (Immediate)      2/2
*   TXA      $8A       A <- (X)                   (Implied)        1/2
    ANE      $8B       M <-[(A)\/$EE] /\ (X)/\(M) (Immediate)      2/2^4
*   STY      $8C       M <- (Y)                   (Absolute)       3/4
*   STA      $8D       M <- (A)                   (Absolute)       3/4
*   STX      $8E       M <- (X)                   (Absolute)       3/4
    SAX      $8F       M <- (A) /\ (X)            (Absolute)       3/4
*   BCC      $90       if C=3D0, PC =3D PC + offset   (Relative)       2/2'2
*   STA      $91       M <- (A)                   ((Ind),Y)        2/6
    JAM      $92       [locks up machine]         (Implied)        1/-
    SHA      $93       M <- (A) /\ (X) /\ (PCH+1) (Absolute,X)     3/6'3
*   STY      $94       M <- (Y)                   (Z-Page,X)       2/4
*   STA      $95       M <- (A)                   (Z-Page,X)       2/4
    SAX      $97       M <- (A) /\ (X)            (Z-Page,Y)       2/4
*   STX      $96       M <- (X)                   (Z-Page,Y)       2/4
*   TYA      $98       A <- (Y)                   (Implied)        1/2
*   STA      $99       M <- (A)                   (Absolute,Y)     3/5
*   TXS      $9A       S <- (X)                   (Implied)        1/2
    SHS      $9B       X <- (A) /\ (X), S <- (X)  (Absolute,Y)     3/5
                       M <- (X) /\ (PCH+1)
    SHY      $9C       M <- (Y) /\ (PCH+1)        (Absolute,Y)     3/5'3
*   STA      $9D       M <- (A)                   (Absolute,X)     3/5
    SHX      $9E       M <- (X) /\ (PCH+1)        (Absolute,X)     3/5'3
    SHA      $9F       M <- (A) /\ (X) /\ (PCH+1) (Absolute,Y)     3/5'3
*   LDY      $A0       Y <- M                     (Immediate)      2/2
*   LDA      $A1       A <- M                     (Ind,X)          2/6
*   LDX      $A2       X <- M                     (Immediate)      2/2
    LAX      $A3       A <- M, X <- M             (Ind,X)          2/6
*   LDY      $A4       Y <- M                     (Z-Page)         2/3
*   LDA      $A5       A <- M                     (Z-Page)         2/3
*   LDX      $A6       X <- M                     (Z-Page)         2/3
    LAX      $A7       A <- M, X <- M             (Z-Page)         2/3
*   TAY      $A8       Y <- (A)                   (Implied)        1/2
*   LDA      $A9       A <- M                     (Immediate)      2/2
*   TAX      $AA       X <- (A)                   (Implied)        1/2
    LXA      $AB       X04 <- (X04) /\ M04        (Immediate)      1/2
                       A04 <- (A04) /\ M04
*   LDY      $AC       Y <- M                     (Absolute)       3/4
*   LDA      $AD       A <- M                     (Absolute)       3/4
*   LDX      $AE       X <- M                     (Absolute)       3/4
    LAX      $AF       A <- M, X <- M             (Absolute)       3/4
*   BCS      $B0       if C=3D1, PC =3D PC + offset   (Relative)       2/2'2
*   LDA      $B1       A <- M                     ((Ind),Y)        2/5'1
    JAM      $B2       [locks up machine]         (Implied)        1/-
    LAX      $B3       A <- M, X <- M             ((Ind),Y)        2/5'1
*   LDY      $B4       Y <- M                     (Z-Page,X)       2/4
*   LDA      $B5       A <- M                     (Z-Page,X)       2/4
*   LDX      $B6       X <- M                     (Z-Page,Y)       2/4
    LAX      $B7       A <- M, X <- M             (Z-Page,Y)       2/4
*   CLV      $B8       V <- 0                     (Implied)        1/2
*   LDA      $B9       A <- M                     (Absolute,Y)     3/4'1
*   TSX      $BA       X <- (S)                   (Implied)        1/2
    LAE      $BB       X,S,A <- (S /\ M)          (Absolute,Y)     3/4'1
*   LDY      $BC       Y <- M                     (Absolute,X)     3/4'1
*   LDA      $BD       A <- M                     (Absolute,X)     3/4'1
*   LDX      $BE       X <- M                     (Absolute,Y)     3/4'1
    LAX      $BF       A <- M, X <- M             (Absolute,Y)     3/4'1
*   CPY      $C0       (Y - M) -> NZC             (Immediate)      2/2
*   CMP      $C1       (A - M) -> NZC             (Ind,X)          2/6
    NOP      $C2       [no operation]             (Immediate)      2/2
    DCP      $C3       M <- (M)-1, (A-M) -> NZC   (Ind,X)          2/8
*   CPY      $C4       (Y - M) -> NZC             (Z-Page)         2/3
*   CMP      $C5       (A - M) -> NZC             (Z-Page)         2/3
*   DEC      $C6       M <- (M) - 1               (Z-Page)         2/5
    DCP      $C7       M <- (M)-1, (A-M) -> NZC   (Z-Page)         2/5
*   INY      $C8       Y <- (Y) + 1               (Implied)        1/2
*   CMP      $C9       (A - M) -> NZC             (Immediate)      2/2
*   DEX      $CA       X <- (X) - 1               (Implied)        1/2
    SBX      $CB       X <- (X)/\(A) - M          (Immediate)      2/2
*   CPY      $CC       (Y - M) -> NZC             (Absolute)       3/4
*   CMP      $CD       (A - M) -> NZC             (Absolute)       3/4
*   DEC      $CE       M <- (M) - 1               (Absolute)       3/6
    DCP      $CF       M <- (M)-1, (A-M) -> NZC   (Absolute)       3/6
*   BNE      $D0       if Z=3D0, PC =3D PC + offset   (Relative)       2/2'2
*   CMP      $D1       (A - M) -> NZC             ((Ind),Y)        2/5'1
    JAM      $D2       [locks up machine]         (Implied)        1/-
    DCP      $D3       M <- (M)-1, (A-M) -> NZC   ((Ind),Y)        2/8
    NOP      $D4       [no operation]             (Z-Page,X)       2/4
*   CMP      $D5       (A - M) -> NZC             (Z-Page,X)       2/4
*   DEC      $D6       M <- (M) - 1               (Z-Page,X)       2/6
    DCP      $D7       M <- (M)-1, (A-M) -> NZC   (Z-Page,X)       2/6
*   CLD      $D8       D <- 0                     (Implied)        1/2
*   CMP      $D9       (A - M) -> NZC             (Absolute,Y)     3/4'1
    NOP      $DA       [no operation]             (Implied)        1/2
    DCP      $DB       M <- (M)-1, (A-M) -> NZC   (Absolute,Y)     3/7
    NOP      $DC       [no operation]             (Absolute,X)     3/4'1
*   CMP      $DD       (A - M) -> NZC             (Absolute,X)     3/4'1
*   DEC      $DE       M <- (M) - 1               (Absolute,X)     3/7
    DCP      $DF       M <- (M)-1, (A-M) -> NZC   (Absolute,X)     3/7
*   CPX      $E0       (X - M) -> NZC             (Immediate)      2/2
*   SBC      $E1       A <- (A) - M - ~C          (Ind,X)          2/6
    NOP      $E2       [no operation]             (Immediate)      2/2
    ISB      $E3       M <- (M) - 1,A <- (A)-M-~C (Ind,X)          3/8'1
*   CPX      $E4       (X - M) -> NZC             (Z-Page)         2/3
*   SBC      $E5       A <- (A) - M - ~C          (Z-Page)         2/3
*   INC      $E6       M <- (M) + 1               (Z-Page)         2/5
    ISB      $E7       M <- (M) - 1,A <- (A)-M-~C (Z-Page)         2/5
*   INX      $E8       X <- (X) +1                (Implied)        1/2
*   SBC      $E9       A <- (A) - M - ~C          (Immediate)      2/2
*   NOP      $EA       [no operation]             (Implied)        1/2
    SBC      $EB       A <- (A) - M - ~C          (Immediate)      1/2
*   SBC      $ED       A <- (A) - M - ~C          (Absolute)       3/4
*   CPX      $EC       (X - M) -> NZC             (Absolute)       3/4
*   INC      $EE       M <- (M) + 1               (Absolute)       3/6
    ISB      $EF       M <- (M) - 1,A <- (A)-M-~C (Absolute)       3/6
*   BEQ      $F0       if Z=3D1, PC =3D PC + offset   (Relative)       2/2'2
*   SBC      $F1       A <- (A) - M - ~C          ((Ind),Y)        2/5'1
    JAM      $F2       [locks up machine]         (Implied)        1/-
    ISB      $F3       M <- (M) - 1,A <- (A)-M-~C ((Ind),Y)        2/8
    NOP      $F4       [no operation]             (Z-Page,X)       2/4
*   SBC      $F5       A <- (A) - M - ~C          (Z-Page,X)       2/4
*   INC      $F6       M <- (M) + 1               (Z-Page,X)       2/6
    ISB      $F7       M <- (M) - 1,A <- (A)-M-~C (Z-Page,X)       2/6
*   SED      $F8       D <- 1                     (Implied)        1/2
*   SBC      $F9       A <- (A) - M - ~C          (Absolute,Y)     3/4'1
    NOP      $FA       [no operation]             (Implied)        1/2
    ISB      $FB       M <- (M) - 1,A <- (A)-M-~C (Absolute,Y)     3/7
    NOP      $FC       [no operation]             (Absolute,X)     3/4'1
*   SBC      $FD       A <- (A) - M - ~C          (Absolute,X)     3/4'1
*   INC      $FE       M <- (M) + 1               (Absolute,X)     3/7
    ISB      $FF       M <- (M) - 1,A <- (A)-M-~C (Absolute,X)     3/7



                 |=7F=7F|
               |=7F=7F=3D=3D=7F=7F|
       v ! R u s |=7F=7F| p u N K t


[p-un_kT-pr_o-T=96k_oL] =D8 f =D8 =D8 =D8 3
                 herausgegeben v=F8m !nternat!onalen
!nst!tut f:ur ordnung |+| d!sz!pl!n
                 hTTp://www.tezcat.com/~antiorp



3-----------------------


Date: Tue, 18 Aug 1998 07:45:14 -0600
To: nettime-l {AT} Desk.nl
From: antiorp {AT} tezcat.com (=cw4t7abs)
Subject: re: lease .  b 1 2 5 7 + 1 2 |  v. 0+2


-----------------------
: b 1 2 5 7 + 1 2 |
-----------------------

-_ ....realtime hyp[er|er]active sound processing for the power macintosh.

b1257+12 enables digital scrubbing on any power macintosh eliminating
the need for third party dsp cards.  it provides the first software based
turntable-style scrub. scratch + granulation environment.

b1257+12 allows one to experiment with sound via mousedrawing. cursor tracki=
ng.
macintosh keyboard. lfo.s. number generators. random processes midi _+
audio input.
routing audio-in signals to control playback rate and direction _
placing a mic connected to a macintosh in an ambient environment or
simply speaking into it can be utilized to provide continuously evolving
sound textures.




b 1 2 5 7 + 1 2 |  v. 0+2  release inkorporatez :

\\ additional realtime routines for ultra m9ndfukc++

----------------
midi module  : :
----------------

provides for full midi control
of b1257+12 parameters.
there are approx 45 parameters which may be controlled
simultaneously via :

- pitchbend
- any controller number
- midi note pitch
- midi note velocity

-------------------------____
120 soundfile \ koll-age module : :
-----------------------------

the 120 soundfile module moves b!257+!2 towards
becoming a gallery \ installation \ performance piece
[the original intent - an automated version
of b!257+!2 should be available at one vienna gallery when complete]

it allows one to load 120 sound files [automatically or manually]
and alternate between them in real time -

- via the variable rate number generator
  which allows for random + sequential change or

- via midi control : including
  - pitchbend
  - any controller number
  - midi note pitch
  - midi note velocity

-----------------------------
soundhack function module : :
-----------------------------

this module permits the loading of
soundhack generated functions - once loaded
they can be utilized to control b1257+12.

-----------------------------
amplitude shaping module : :
-----------------------------

allows for amplitude shaping [sep for each channel]
the envelopes may be set to loop + sync.
+ they may be altered \ edited in real time.


-
all processes can occur simultaneously + in parallel
=3D=3D ultra kaot!k m9ndfukc rout!n.


_____________________________
availability + inf=BA | propaganda
__________________________---


http://www.god-emil.dk/=3Dcw4t7abs/0f0003/ztpd/lakk.shtml
[kode section]
or for a more exhilarating experience
http://www.god-emil.dk/=3Dcw4t7abs/0f0003/ztpd/0009.html
[java script required]


____++-_______________
0f0003 maschinenkunst
___________________--_

0f0003 maschinenkunst develops + publishes cutting edge
multimedia. graphic.web. audio + video design.
and interactive applications for the macintosh platform.

in addition to b1257+12 0f0003 maschinenkunst publishes :

[3kxpoL]      _- clavia nordlead editor . librarian + chaotic patch
                 generation application
[rebirthzmak] _- propellerheads rebirth sample editor . editor . librarian +
                 chaotic patch generation software
[0f0003pRpG]  _- incorporates realtime sound +
                 gfx generation + random film playback.
krop3rom||a9ff 0+2 . nord[0002] . in .symb!os!s . 8'|sine.x(2^n) . etc




kontact information :

0f0003 maschinenkunst
$1
$2, $3
denmark $4

tel: $5
fax: $6

  web  :  http://www.god-emil.dk/=3Dcw4t7abs
email  []  antiorp {AT} tezcat.com


a most important and serendipitous recent discovery is of a bona fide
planetary system around an unlikely star - some 1300 light years away found
by a most unexpected technique. the pulsar designated b1257+12 is a rapidly
rotating neutron star. an unbelievably dense sun - the remnant of a massive
star that suffered a supernova explosion. it spins at a rate measured to
impressive precision - once every 0.00621185319388187 seconds =3D 10000 rpm.
the energy put out by b1257+12 is 4.7 times that of the sun.


=3Dcw4t7abs _\- 0f0003..mask!nenkunzt.m9ndfukc.98o. \+\ apres []>




                                        |=7F|
                                      |=7F|9|=7F|
[p-un_kT-pr_o-T=96k_oL] =D8 f =D8 =D8 =D8 3       |=7F|
                 herausgegeben v=F8m internat!onalen
!nstitut f:ur ordnung |+| d!sz!pl!n
                 hTTp://www.tezcat.com/~antiorp



-\\_humanzsukc
    =D8 f =D8 =D8 =D8 3    dze d.l ov konsc!ousnesz.
neuro-hak.erz vs nwo _||-
le masculin             et la fraktur symbol!que.
       la r!poste hysterique
tezcat.com|~antiorp


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