📄 icolor_kc.uc
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RF:8:IN:0:REG:3 = B:31 STAGE:3 VAR: tmp#62 DATATYPE: HALF2,
B:29 = U0:OUT:0 INSTR_LOG:2|a1a3#||0 VAR: a1a3 DATATYPE: HALF2,
RF:4:IN:0:REG:1 = B:29 STAGE:3 VAR: a1a3 DATATYPE: HALF2,
B:15 = RF:8:OUT:0:REG:3 VAR: a2 DATATYPE: HALF2,
U1:IN:1 = B:15 VAR: a2 DATATYPE: HALF2,
B:14 = RF:4:OUT:0:REG:1 VAR: a4 DATATYPE: HALF2,
U1:IN:0 = B:14 VAR: a4 DATATYPE: HALF2,
B:38 = RF:18:OUT:1:REG:1 VAR: Y_combine DATATYPE: CC,
U7:IN:2 = B:38 VAR: Y_combine DATATYPE: CC,
B:8 = RF:2:OUT:0:REG:3 VAR: z2 DATATYPE: HALF2,
U7:IN:0 = B:8 VAR: z2 DATATYPE: HALF2,
B:9 = RF:15:OUT:0:REG:3 VAR: z1 DATATYPE: HALF2,
U7:IN:1 = B:9 VAR: z1 DATATYPE: HALF2,
B:27 = U7:OUT:0 INSTR_LOG:1|temp0#||0 VAR: temp0 DATATYPE: HALF2,
RF:3:IN:0:REG:1 = B:27 STAGE:3 VAR: temp0 DATATYPE: HALF2,
B:18 = RF:10:OUT:0:REG:1 VAR: RB_SCALE DATATYPE: HALF2,
U3:IN:0 = B:18 VAR: RB_SCALE DATATYPE: HALF2,
B:19 = RF:12:OUT:0:REG:7 VAR: tmp#19 DATATYPE: HALF2,
U3:IN:1 = B:19 VAR: tmp#19 DATATYPE: HALF2,
B:39 = RF:18:OUT:2:REG:0 VAR: hw_const#0 DATATYPE: ANYINT,
U5:IN:2 = B:39 VAR: hw_const#0 DATATYPE: ANYINT,
B:10 = RF:6:OUT:0:REG:4 VAR: color4 DATATYPE: UBYTE4,
U5:IN:0 = B:10 VAR: color4 DATATYPE: UBYTE4,
B:28 = U5:OUT:0 INSTR_LOG:1|color4#||0 VAR: color4 DATATYPE: UBYTE4,
RF:5:IN:0:REG:2 = B:28 STAGE:2 VAR: color4 DATATYPE: UBYTE4,
B:20 = RF:11:OUT:0:REG:1 VAR: color1 DATATYPE: UBYTE4,
U4:IN:0 = B:20 VAR: color1 DATATYPE: UBYTE4,
B:21 = RF:13:OUT:0:REG:5 VAR: shuf_func2 DATATYPE: BYTE4,
U4:IN:1 = B:21 VAR: shuf_func2 DATATYPE: BYTE4,
B:34 = U4:OUT:0 INSTR_LOG:1|b1#||0 VAR: b1 DATATYPE: HALF2,
RF:6:IN:0:REG:4 = B:34 STAGE:1 VAR: b1 DATATYPE: HALF2,
// IN:ADDER_2: ( tmp#66 ) = IADD16( z2 == UNITRF_1_3[3], z4 == UNITRF_0_4[2] )
// OUT:ADDER_2: IADD16 => ( tmp#62 == UNITRF_1_2[3] )
// OUT:ADDER_0: IADD16 => ( a1a3 == UNITRF_0_3[1] )
// IN:ADDER_1: ( a2a4 ) = IADD16( a2 == UNITRF_1_2[3], a4 == UNITRF_0_3[1] )
// IN:COMM_SCHED_0: ( temp0 ) = SELECT( Y_combine == CCRF_0[1], z2 == UNITRF_0_1[3], z1 == PERMRF_0[3] )
// OUT:COMM_SCHED_0: SELECT => ( temp0 == UNITRF_0_2[1] )
// IN:MULTIPLIER_0: ( tmp#42, tmp#21 ) = IMULRND16( RB_SCALE == MULRF_0_0[1], tmp#19 == MULRF_1_0[7] )
// IN:DIVIDER_0: ( color4 ) = NSELECT( hw_const#0 == CCRF_0[0], color4 == UNITRF_1_0[4] )
// OUT:DIVIDER_0: NSELECT => ( color4 == UNITRF_0_4[2] )
// IN:MULTIPLIER_1: ( b1 ) = SHUFFLED( color1 == MULRF_0_1[1], shuf_func2 == MULRF_1_1[5] )
// OUT:MULTIPLIER_1: SHUFFLED => ( b1 == UNITRF_1_0[4] )
DEAD_REGS: { };
instr: 20
MC: OP: NONE LINE:-1,
U1: OP: ISUB16 LINE:149 STAGE:3, // D:\working\im_apps\h264\icolor_kc.i:149
U0: OP: SHIFT16 LINE:137 STAGE:3, // D:\working\im_apps\h264\icolor_kc.i:137
U4: OP: SHUFFLED LINE:92 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:92
U3: OP: IMULRND16 LINE:107 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:107
U5: OP: NSELECT LINE:-1 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:-1
B:31 = U2:OUT:0 INSTR_LOG:2|tmp#66#||0 VAR: tmp#66 DATATYPE: HALF2,
RF:8:IN:0:REG:3 = B:31 STAGE:3 VAR: tmp#66 DATATYPE: HALF2,
B:14 = RF:4:OUT:0:REG:1 VAR: a1a3 DATATYPE: HALF2,
U1:IN:0 = B:14 VAR: a1a3 DATATYPE: HALF2,
B:15 = RF:8:OUT:0:REG:3 VAR: tmp#62 DATATYPE: HALF2,
U1:IN:1 = B:15 VAR: tmp#62 DATATYPE: HALF2,
B:12 = RF:3:OUT:0:REG:1 VAR: temp0 DATATYPE: HALF2,
U0:IN:0 = B:12 VAR: temp0 DATATYPE: HALF2,
B:13 = RF:7:OUT:0:REG:0 VAR: hw_const#1 DATATYPE: ANYINT,
U0:IN:1 = B:13 VAR: hw_const#1 DATATYPE: ANYINT,
B:29 = U0:OUT:0 INSTR_LOG:1|tmp#54#||0 VAR: tmp#54 DATATYPE: HALF2,
RF:11:IN:0:REG:1 = B:29 STAGE:3 VAR: tmp#54 DATATYPE: HALF2,
B:30 = U1:OUT:0 INSTR_LOG:2|a2a4#||0 VAR: a2a4 DATATYPE: HALF2,
RF:4:IN:0:REG:1 = B:30 STAGE:3 VAR: a2a4 DATATYPE: HALF2,
B:20 = RF:11:OUT:0:REG:2 VAR: color3 DATATYPE: UBYTE4,
U4:IN:0 = B:20 VAR: color3 DATATYPE: UBYTE4,
B:21 = RF:13:OUT:0:REG:6 VAR: shuf_func1 DATATYPE: BYTE4,
U4:IN:1 = B:21 VAR: shuf_func1 DATATYPE: BYTE4,
B:34 = U4:OUT:0 INSTR_LOG:1|a3#||0 VAR: a3 DATATYPE: HALF2,
RF:5:IN:0:REG:3 = B:34 STAGE:2 VAR: a3 DATATYPE: HALF2,
RF:3:IN:0:REG:1 = B:34 STAGE:2 VAR: a3 DATATYPE: HALF2,
B:19 = RF:12:OUT:0:REG:3 VAR: G_SCALE DATATYPE: HALF2,
U3:IN:1 = B:19 VAR: G_SCALE DATATYPE: HALF2,
B:18 = RF:10:OUT:0:REG:2 VAR: tmp#31 DATATYPE: HALF2,
U3:IN:0 = B:18 VAR: tmp#31 DATATYPE: HALF2,
B:39 = RF:18:OUT:2:REG:0 VAR: hw_const#0 DATATYPE: ANYINT,
U5:IN:2 = B:39 VAR: hw_const#0 DATATYPE: ANYINT,
B:10 = RF:6:OUT:0:REG:3 VAR: color3 DATATYPE: UBYTE4,
U5:IN:0 = B:10 VAR: color3 DATATYPE: UBYTE4,
B:28 = U5:OUT:0 INSTR_LOG:1|color3#||0 VAR: color3 DATATYPE: UBYTE4,
RF:10:IN:0:REG:2 = B:28 STAGE:2 VAR: color3 DATATYPE: UBYTE4,
// OUT:ADDER_2: IADD16 => ( tmp#66 == UNITRF_1_2[3] )
// IN:ADDER_1: ( tmp#63 ) = ISUB16( a1a3 == UNITRF_0_3[1], tmp#62 == UNITRF_1_2[3] )
// IN:ADDER_0: ( tmp#54 ) = SHIFT16( temp0 == UNITRF_0_2[1], hw_const#1 == UNITRF_1_1[0] )
// OUT:ADDER_0: SHIFT16 => ( tmp#54 == MULRF_0_1[1] )
// OUT:ADDER_1: IADD16 => ( a2a4 == UNITRF_0_3[1] )
// IN:MULTIPLIER_1: ( a3 ) = SHUFFLED( color3 == MULRF_0_1[2], shuf_func1 == MULRF_1_1[6] )
// OUT:MULTIPLIER_1: SHUFFLED => ( a3 == UNITRF_0_4[3], a3 == UNITRF_0_2[1] )
// IN:MULTIPLIER_0: ( tmp#32, tmp#33 ) = IMULRND16( G_SCALE == MULRF_1_0[3], tmp#31 == MULRF_0_0[2] )
// IN:DIVIDER_0: ( color3 ) = NSELECT( hw_const#0 == CCRF_0[0], color3 == UNITRF_1_0[3] )
// OUT:DIVIDER_0: NSELECT => ( color3 == MULRF_0_0[2] )
DEAD_REGS: { };
instr: 21
MC: OP: NONE LINE:-1,
U1: OP: ISUB16 LINE:150 STAGE:3, // D:\working\im_apps\h264\icolor_kc.i:150
U4: OP: IMULRND16 LINE:137 STAGE:3, // D:\working\im_apps\h264\icolor_kc.i:137
U2: OP: SHIFT16 LINE:102 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:102
U3: OP: SHUFFLED LINE:93 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:93
U0: OP: SHUFFLE LINE:94 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:94
U7: OP: NSELECT LINE:-1 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:-1
B:14 = RF:4:OUT:0:REG:1 VAR: a2a4 DATATYPE: HALF2,
U1:IN:0 = B:14 VAR: a2a4 DATATYPE: HALF2,
B:15 = RF:8:OUT:0:REG:3 VAR: tmp#66 DATATYPE: HALF2,
U1:IN:1 = B:15 VAR: tmp#66 DATATYPE: HALF2,
B:30 = U1:OUT:0 INSTR_LOG:2|tmp#63#||0 VAR: tmp#63 DATATYPE: HALF2,
RF:11:IN:0:REG:1 = B:30 STAGE:3 VAR: tmp#63 DATATYPE: HALF2,
B:21 = RF:13:OUT:0:REG:1 VAR: Ymadj DATATYPE: HALF2,
U4:IN:1 = B:21 VAR: Ymadj DATATYPE: HALF2,
B:20 = RF:11:OUT:0:REG:1 VAR: tmp#54 DATATYPE: HALF2,
U4:IN:0 = B:20 VAR: tmp#54 DATATYPE: HALF2,
B:16 = RF:5:OUT:0:REG:3 VAR: a3 DATATYPE: HALF2,
U2:IN:0 = B:16 VAR: a3 DATATYPE: HALF2,
B:17 = RF:9:OUT:0:REG:0 VAR: hw_const#1 DATATYPE: ANYINT,
U2:IN:1 = B:17 VAR: hw_const#1 DATATYPE: ANYINT,
B:31 = U2:OUT:0 INSTR_LOG:1|tmp#22#||0 VAR: tmp#22 DATATYPE: HALF2,
RF:10:IN:0:REG:2 = B:31 STAGE:2 VAR: tmp#22 DATATYPE: HALF2,
B:18 = RF:10:OUT:0:REG:2 VAR: color3 DATATYPE: UBYTE4,
U3:IN:0 = B:18 VAR: color3 DATATYPE: UBYTE4,
B:19 = RF:12:OUT:0:REG:6 VAR: shuf_func2 DATATYPE: BYTE4,
U3:IN:1 = B:19 VAR: shuf_func2 DATATYPE: BYTE4,
B:32 = U3:OUT:0 INSTR_LOG:1|b3#||0 VAR: b3 DATATYPE: HALF2,
RF:3:IN:0:REG:3 = B:32 STAGE:2 VAR: b3 DATATYPE: HALF2,
B:12 = RF:3:OUT:0:REG:3 VAR: color4 DATATYPE: UBYTE4,
U0:IN:0 = B:12 VAR: color4 DATATYPE: UBYTE4,
B:13 = RF:7:OUT:0:REG:4 VAR: shuf_func1 DATATYPE: BYTE4,
U0:IN:1 = B:13 VAR: shuf_func1 DATATYPE: BYTE4,
B:29 = U0:OUT:0 INSTR_LOG:1|a4#||0 VAR: a4 DATATYPE: HALF2,
RF:5:IN:0:REG:3 = B:29 STAGE:2 VAR: a4 DATATYPE: HALF2,
RF:4:IN:0:REG:1 = B:29 STAGE:2 VAR: a4 DATATYPE: HALF2,
B:38 = RF:18:OUT:1:REG:0 VAR: hw_const#0 DATATYPE: ANYINT,
U7:IN:2 = B:38 VAR: hw_const#0 DATATYPE: ANYINT,
B:8 = RF:2:OUT:0:REG:4 VAR: tmp#40 DATATYPE: INT,
U7:IN:0 = B:8 VAR: tmp#40 DATATYPE: INT,
B:27 = U7:OUT:0 INSTR_LOG:1|tmp#40#||0 VAR: tmp#40 DATATYPE: INT,
RF:8:IN:0:REG:3 = B:27 STAGE:2 VAR: tmp#40 DATATYPE: INT,
// IN:ADDER_1: ( tmp#67 ) = ISUB16( a2a4 == UNITRF_0_3[1], tmp#66 == UNITRF_1_2[3] )
// OUT:ADDER_1: ISUB16 => ( tmp#63 == MULRF_0_1[1] )
// IN:MULTIPLIER_1: ( tmp#55, tmp#56 ) = IMULRND16( Ymadj == MULRF_1_1[1], tmp#54 == MULRF_0_1[1] )
// IN:ADDER_2: ( tmp#22 ) = SHIFT16( a3 == UNITRF_0_4[3], hw_const#1 == UNITRF_1_3[0] )
// OUT:ADDER_2: SHIFT16 => ( tmp#22 == MULRF_0_0[2] )
// IN:MULTIPLIER_0: ( b3 ) = SHUFFLED( color3 == MULRF_0_0[2], shuf_func2 == MULRF_1_0[6] )
// OUT:MULTIPLIER_0: SHUFFLED => ( b3 == UNITRF_0_2[3] )
// IN:ADDER_0: ( a4 ) = SHUFFLE( color4 == UNITRF_0_2[3], shuf_func1 == UNITRF_1_1[4] )
// OUT:ADDER_0: SHUFFLE => ( a4 == UNITRF_0_4[3], a4 == UNITRF_0_3[1] )
// IN:COMM_SCHED_0: ( tmp#40 ) = NSELECT( hw_const#0 == CCRF_0[0], tmp#40 == UNITRF_0_1[4] )
// OUT:COMM_SCHED_0: NSELECT => ( tmp#40 == UNITRF_1_2[3] )
DEAD_REGS: { };
instr: 22
MC: OP: NONE LINE:-1,
U4: OP: IMULRND16 LINE:149 STAGE:3, // D:\working\im_apps\h264\icolor_kc.i:149
U0: OP: SHIFT16 LINE:108 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:108
U3: OP: IMULRND16 LINE:102 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:102
U2: OP: SHUFFLE LINE:95 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:95
U1: OP: IADD16 LINE:106 STAGE:2, // D:\working\im_apps\h264\icolor_kc.i:106
U5: OP: NSELECT LINE:-1 STAGE:1, // D:\working\im_apps\h264\icolor_kc.i:-1
U7: OP: SELECT LINE:-1 STAGE:1, // D:\working\im_apps\h264\icolor_kc.i:-1
B:30 = U1:OUT:0 INSTR_LOG:2|tmp#67#||0 VAR: tmp#67 DATATYPE: HALF2,
RF:10:IN:0:REG:2 = B:30 STAGE:3 VAR: tmp#67 DATATYPE: HALF2,
B:20 = RF:11:OUT:0:REG:1 VAR: tmp#63 DATATYPE: HALF2,
U4:IN:0 = B:20 VAR: tmp#63 DATATYPE: HALF2,
B:21 = RF:13:OUT:0:REG:2 VAR: C_SCALE DATATYPE: HALF2,
U4:IN:1 = B:21 VAR: C_SCALE DATATYPE: HALF2,
B:12 = RF:3:OUT:0:REG:3 VAR: b3 DATATYPE: HALF2,
U0:IN:0 = B:12 VAR: b3 DATATYPE: HALF2,
B:13 = RF:7:OUT:0:REG:0 VAR: hw_const#1 DATATYPE: ANYINT,
U0:IN:1 = B:13 VAR: hw_const#1 DATATYPE: ANYINT,
B:29 = U0:OUT:0 INSTR_LOG:1|tmp#34#||0 VAR: tmp#34 DATATYPE: HALF2,
RF:11:IN:0:REG:1 = B:29 STAGE:2 VAR: tmp#34 DATATYPE: HALF2,
B:19 = RF:12:OUT:0:REG:4 VAR: RB_SCALE DATATYPE: HALF2,
U3:IN:1 = B:19 VAR: RB_SCALE DATATYPE: HALF2,
B:18 = RF:10:OUT:0:REG:2 VAR: tmp#22 DATATYPE: HALF2,
U3:IN:0 = B:18 VAR: tmp#22 DATATYPE: HALF2,
B:16 = RF:5:OUT:0:REG:2 VAR: color4 DATATYPE: UBYTE4,
U2:IN:0 = B:16 VAR: color4 DATATYPE: UBYTE4,
B:17 = RF:9:OUT:0:REG:1 VAR: shuf_func2 DATATYPE: BYTE4,
U2:IN:1 = B:17 VAR: shuf_func2 DATATYPE: BYTE4,
B:31 = U2:OUT:0 INSTR_LOG:1|b4#||0 VAR: b4 DATATYPE: HALF2,
RF:3:IN:0:REG:3 = B:31 STAGE:2 VAR: b4 DATATYPE: HALF2,
B:33 = U3:OUT:1 INSTR_LOG:4|tmp#42#||1 VAR: tmp#42 DATATYPE: INT,
RF:9:IN:0:REG:3 = B:33 STAGE:2 VAR: tmp#42 DATATYPE: INT,
RF:6:IN:0:REG:4 = B:33 STAGE:2 VAR: tmp#42 DATATYPE: INT,
B:15 = RF:8:OUT:0:REG:3 VAR: tmp#40 DATATYPE: INT,
U1:IN:1 = B:15 VAR: tmp#40 DATATYPE: INT,
B:14 = RF:4:OUT:0:REG:2 VAR: tmp#29 DATATYPE: HALF2,
U1:IN:0 = B:14 VAR: tmp#29 DATATYPE: HALF2,
B:39 = RF:18:OUT:2:REG:0 VAR: hw_const#0 DATATYPE: ANYINT,
U5:IN:2 = B:39 VAR: hw_const#0 DATATYPE: ANYINT,
B:10 = RF:6:OUT:0:REG:4 VAR: b1 DATATYPE: HALF2,
U5:IN:0 = B:10 VAR: b1 DATATYPE: HALF2,
B:28 = U5:OUT:0 INSTR_LOG:1|b1#||0 VAR: b1 DATATYPE: HALF2,
RF:4:IN:0:REG:2 = B:28 STAGE:1 VAR: b1 DATATYPE: HALF2,
B:38 = RF:18:OUT:1:REG:0 VAR: hw_const#0 DATATYPE: ANYINT,
U7:IN:2 = B:38 VAR: hw_const#0 DATATYPE: ANYINT,
B:9 = RF:15:OUT:0:REG:2 VAR: color2 DATATYPE: UBYTE4,
U7:IN:1 = B:9 VAR: color2 DATATYPE: UBYTE4,
B:27 = U7:OUT:0 INSTR_LOG:1|color2#||0 VAR: color2 DATATYPE: UBYTE4,
RF:14:IN:0:REG:1 = B:27 STAGE:1 VAR: color2 DATATYPE: UBYTE4,
B:22 = IN:0 STAGE:0 LINE:84 VAR: color1 DATATYPE: UBYTE4,
RF:2:IN:0:REG:4 = B:22 STAGE:0 VAR: color1 DATATYPE: UBYTE4,
// OUT:ADDER_1: ISUB16 => ( tmp#67 == MULRF_0_0[2] )
// IN:MULTIPLIER_1: ( tmp#64, tmp#65 ) = IMULRND16( tmp#63 == MULRF_0_1[1], C_SCALE == MULRF_1_1[2] )
// IN:ADDER_0: ( tmp#34 ) = SHIFT16( b3 == UNITRF_0_2[3], hw_const#1 == UNITRF_1_1[0] )
// OUT:ADDER_0: SHIFT16 => ( tmp#34 == MULRF_0_1[1] )
// IN:MULTIPLIER_0: ( tmp#44, tmp#24 ) = IMULRND16( RB_SCALE == MULRF_1_0[4], tmp#22 == MULRF_0_0[2] )
// IN:ADDER_2: ( b4 ) = SHUFFLE( color4 == UNITRF_0_4[2], shuf_func2 == UNITRF_1_3[1] )
// OUT:ADDER_2: SHUFFLE => ( b4 == UNITRF_0_2[3] )
// OUT:MULTIPLIER_0: IMULRND16 => ( tmp#42 == UNITRF_1_3[3], tmp#42 == UNITRF_1_0[4] )
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