📄 dds.fit.eqn
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-- Copyright (C) 1991-2005 Altera Corporation
-- Your use of Altera Corporation's design tools, logic functions
-- and other software and tools, and its AMPP partner logic
-- functions, and any output files any of the foregoing
-- (including device programming or simulation files), and any
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-- to the terms and conditions of the Altera Program License
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-- without limitation, that your use is for the sole purpose of
-- programming logic devices manufactured by Altera and sold by
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--G1L16 is kbscan:inst6|int0~3 at LC1_C12
--operation mode is normal
G1L16 = row[0] & (row[1] & (row[2] $ row[3]) # !row[1] & row[2] & row[3]) # !row[0] & row[1] & row[2] & row[3];
--G1L17 is kbscan:inst6|int0~4 at LC1_C12
--operation mode is normal
G1L17 = row[0] & (row[1] & (row[2] $ row[3]) # !row[1] & row[2] & row[3]) # !row[0] & row[1] & row[2] & row[3];
--H1_bo_xing[7] is selec:inst8|bo_xing[7] at LC8_A15
--operation mode is normal
H1_bo_xing[7]_lut_out = bo_select[0] & (H1L18 & (H1_bo_xing[7]) # !H1L18 & K2_q[7]) # !bo_select[0] & (H1L18);
H1_bo_xing[7] = DFFEA(H1_bo_xing[7]_lut_out, clk, , , , , );
--H1L17Q is selec:inst8|bo_xing[7]~72 at LC8_A15
--operation mode is normal
H1L17Q = H1_bo_xing[7];
--H1_bo_xing[6] is selec:inst8|bo_xing[6] at LC2_A15
--operation mode is normal
H1_bo_xing[6]_lut_out = bo_select[1] & (H1L19 & (H1_bo_xing[6]) # !H1L19 & K1_q[6]) # !bo_select[1] & (H1L19);
H1_bo_xing[6] = DFFEA(H1_bo_xing[6]_lut_out, clk, , , , , );
--H1L15Q is selec:inst8|bo_xing[6]~73 at LC2_A15
--operation mode is normal
H1L15Q = H1_bo_xing[6];
--H1_bo_xing[5] is selec:inst8|bo_xing[5] at LC2_C17
--operation mode is normal
H1_bo_xing[5]_lut_out = bo_select[0] & (H1L20 & (H1_bo_xing[5]) # !H1L20 & K2_q[5]) # !bo_select[0] & (H1L20);
H1_bo_xing[5] = DFFEA(H1_bo_xing[5]_lut_out, clk, , , , , );
--H1L13Q is selec:inst8|bo_xing[5]~74 at LC2_C17
--operation mode is normal
H1L13Q = H1_bo_xing[5];
--H1_bo_xing[4] is selec:inst8|bo_xing[4] at LC3_C17
--operation mode is normal
H1_bo_xing[4]_lut_out = bo_select[1] & (H1L21 & (H1_bo_xing[4]) # !H1L21 & K1_q[4]) # !bo_select[1] & (H1L21);
H1_bo_xing[4] = DFFEA(H1_bo_xing[4]_lut_out, clk, , , , , );
--H1L11Q is selec:inst8|bo_xing[4]~75 at LC3_C17
--operation mode is normal
H1L11Q = H1_bo_xing[4];
--H1_bo_xing[3] is selec:inst8|bo_xing[3] at LC2_B19
--operation mode is normal
H1_bo_xing[3]_lut_out = bo_select[0] & (H1L22 & (H1_bo_xing[3]) # !H1L22 & K2_q[3]) # !bo_select[0] & (H1L22);
H1_bo_xing[3] = DFFEA(H1_bo_xing[3]_lut_out, clk, , , , , );
--H1L9Q is selec:inst8|bo_xing[3]~76 at LC2_B19
--operation mode is normal
H1L9Q = H1_bo_xing[3];
--H1_bo_xing[2] is selec:inst8|bo_xing[2] at LC1_B19
--operation mode is normal
H1_bo_xing[2]_lut_out = bo_select[1] & (H1L23 & (H1_bo_xing[2]) # !H1L23 & K1_q[2]) # !bo_select[1] & (H1L23);
H1_bo_xing[2] = DFFEA(H1_bo_xing[2]_lut_out, clk, , , , , );
--H1L7Q is selec:inst8|bo_xing[2]~77 at LC1_B19
--operation mode is normal
H1L7Q = H1_bo_xing[2];
--H1_bo_xing[1] is selec:inst8|bo_xing[1] at LC8_C21
--operation mode is normal
H1_bo_xing[1]_lut_out = bo_select[0] & (H1L24 & (H1_bo_xing[1]) # !H1L24 & K2_q[1]) # !bo_select[0] & (H1L24);
H1_bo_xing[1] = DFFEA(H1_bo_xing[1]_lut_out, clk, , , , , );
--H1L5Q is selec:inst8|bo_xing[1]~78 at LC8_C21
--operation mode is normal
H1L5Q = H1_bo_xing[1];
--H1_bo_xing[0] is selec:inst8|bo_xing[0] at LC7_C21
--operation mode is normal
H1_bo_xing[0]_lut_out = bo_select[1] & (H1L25 & (H1_bo_xing[0]) # !H1L25 & K1_q[0]) # !bo_select[1] & (H1L25);
H1_bo_xing[0] = DFFEA(H1_bo_xing[0]_lut_out, clk, , , , , );
--H1L3Q is selec:inst8|bo_xing[0]~79 at LC7_C21
--operation mode is normal
H1L3Q = H1_bo_xing[0];
--G1_cnt[0] is kbscan:inst6|cnt[0] at LC6_C7
--operation mode is normal
G1_cnt[0]_lut_out = !G1_cnt[0];
G1_cnt[0] = DFFEA(G1_cnt[0]_lut_out, clk, , , A1L42, , );
--G1L5Q is kbscan:inst6|cnt[0]~57 at LC6_C7
--operation mode is normal
G1L5Q = G1_cnt[0];
--G1_cnt[1] is kbscan:inst6|cnt[1] at LC4_C7
--operation mode is normal
G1_cnt[1]_lut_out = G1_cnt[0] $ G1_cnt[1];
G1_cnt[1] = DFFEA(G1_cnt[1]_lut_out, clk, , , A1L42, , );
--G1L7Q is kbscan:inst6|cnt[1]~58 at LC4_C7
--operation mode is normal
G1L7Q = G1_cnt[1];
--G1L8 is kbscan:inst6|col[0]~31 at LC7_C7
--operation mode is normal
G1L8 = !G1_cnt[1] # !G1_cnt[0];
--G1L12 is kbscan:inst6|col[0]~35 at LC7_C7
--operation mode is normal
G1L12 = !G1_cnt[1] # !G1_cnt[0];
--G1L9 is kbscan:inst6|col[0]~32 at LC5_C7
--operation mode is normal
G1L9 = G1_cnt[0] # !G1_cnt[1];
--G1L13 is kbscan:inst6|col[0]~36 at LC5_C7
--operation mode is normal
G1L13 = G1_cnt[0] # !G1_cnt[1];
--G1L10 is kbscan:inst6|col[0]~33 at LC3_C7
--operation mode is normal
G1L10 = G1_cnt[1] # !G1_cnt[0];
--G1L14 is kbscan:inst6|col[0]~37 at LC3_C7
--operation mode is normal
G1L14 = G1_cnt[1] # !G1_cnt[0];
--G1L11 is kbscan:inst6|col[0]~34 at LC1_C7
--operation mode is normal
G1L11 = G1_cnt[0] # G1_cnt[1];
--G1L15 is kbscan:inst6|col[0]~38 at LC1_C7
--operation mode is normal
G1L15 = G1_cnt[0] # G1_cnt[1];
--K2_q[7] is lpm_rom1:inst3|altsyncram:altsyncram_component|altrom:rom|q[7] at EC8_A
K2_q[7]_clock_0 = clk;
K2_q[7]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[7]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[7] = MEMORY_SEGMENT(, , K2_q[7]_clock_0, , , , , , K2_q[7]_write_address, K2_q[7]_read_address);
--K1_q[7] is lpm_rom3:inst4|altsyncram:altsyncram_component|altrom:rom|q[7] at EC2_A
K1_q[7]_clock_0 = clk;
K1_q[7]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[7]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[7] = MEMORY_SEGMENT(, , K1_q[7]_clock_0, , , , , , K1_q[7]_write_address, K1_q[7]_read_address);
--K3_q[7] is lpm_rom0:inst|altsyncram:altsyncram_component|altrom:rom|q[7] at EC5_A
K3_q[7]_clock_0 = clk;
K3_q[7]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[7]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[7] = MEMORY_SEGMENT(, , K3_q[7]_clock_0, , , , , , K3_q[7]_write_address, K3_q[7]_read_address);
--H1L18 is selec:inst8|bo_xing~56 at LC1_A15
--operation mode is normal
H1L18 = bo_select[0] & (bo_select[1]) # !bo_select[0] & (bo_select[1] & K1_q[7] # !bo_select[1] & (K3_q[7]));
--H1L26 is selec:inst8|bo_xing~80 at LC1_A15
--operation mode is normal
H1L26 = bo_select[0] & (bo_select[1]) # !bo_select[0] & (bo_select[1] & K1_q[7] # !bo_select[1] & (K3_q[7]));
--K1_q[6] is lpm_rom3:inst4|altsyncram:altsyncram_component|altrom:rom|q[6] at EC7_A
K1_q[6]_clock_0 = clk;
K1_q[6]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[6]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[6] = MEMORY_SEGMENT(, , K1_q[6]_clock_0, , , , , , K1_q[6]_write_address, K1_q[6]_read_address);
--K2_q[6] is lpm_rom1:inst3|altsyncram:altsyncram_component|altrom:rom|q[6] at EC3_A
K2_q[6]_clock_0 = clk;
K2_q[6]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[6]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[6] = MEMORY_SEGMENT(, , K2_q[6]_clock_0, , , , , , K2_q[6]_write_address, K2_q[6]_read_address);
--K3_q[6] is lpm_rom0:inst|altsyncram:altsyncram_component|altrom:rom|q[6] at EC6_A
K3_q[6]_clock_0 = clk;
K3_q[6]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[6]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[6] = MEMORY_SEGMENT(, , K3_q[6]_clock_0, , , , , , K3_q[6]_write_address, K3_q[6]_read_address);
--H1L19 is selec:inst8|bo_xing~58 at LC3_A15
--operation mode is normal
H1L19 = bo_select[1] & (bo_select[0]) # !bo_select[1] & (bo_select[0] & K2_q[6] # !bo_select[0] & (K3_q[6]));
--H1L27 is selec:inst8|bo_xing~81 at LC3_A15
--operation mode is normal
H1L27 = bo_select[1] & (bo_select[0]) # !bo_select[1] & (bo_select[0] & K2_q[6] # !bo_select[0] & (K3_q[6]));
--K2_q[5] is lpm_rom1:inst3|altsyncram:altsyncram_component|altrom:rom|q[5] at EC6_C
K2_q[5]_clock_0 = clk;
K2_q[5]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[5]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[5] = MEMORY_SEGMENT(, , K2_q[5]_clock_0, , , , , , K2_q[5]_write_address, K2_q[5]_read_address);
--K1_q[5] is lpm_rom3:inst4|altsyncram:altsyncram_component|altrom:rom|q[5] at EC3_C
K1_q[5]_clock_0 = clk;
K1_q[5]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[5]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[5] = MEMORY_SEGMENT(, , K1_q[5]_clock_0, , , , , , K1_q[5]_write_address, K1_q[5]_read_address);
--K3_q[5] is lpm_rom0:inst|altsyncram:altsyncram_component|altrom:rom|q[5] at EC5_C
K3_q[5]_clock_0 = clk;
K3_q[5]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[5]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[5] = MEMORY_SEGMENT(, , K3_q[5]_clock_0, , , , , , K3_q[5]_write_address, K3_q[5]_read_address);
--H1L20 is selec:inst8|bo_xing~60 at LC5_C17
--operation mode is normal
H1L20 = bo_select[0] & (bo_select[1]) # !bo_select[0] & (bo_select[1] & K1_q[5] # !bo_select[1] & (K3_q[5]));
--H1L28 is selec:inst8|bo_xing~82 at LC5_C17
--operation mode is normal
H1L28 = bo_select[0] & (bo_select[1]) # !bo_select[0] & (bo_select[1] & K1_q[5] # !bo_select[1] & (K3_q[5]));
--K1_q[4] is lpm_rom3:inst4|altsyncram:altsyncram_component|altrom:rom|q[4] at EC6_B
K1_q[4]_clock_0 = clk;
K1_q[4]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[4]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[4] = MEMORY_SEGMENT(, , K1_q[4]_clock_0, , , , , , K1_q[4]_write_address, K1_q[4]_read_address);
--K2_q[4] is lpm_rom1:inst3|altsyncram:altsyncram_component|altrom:rom|q[4] at EC2_C
K2_q[4]_clock_0 = clk;
K2_q[4]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[4]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[4] = MEMORY_SEGMENT(, , K2_q[4]_clock_0, , , , , , K2_q[4]_write_address, K2_q[4]_read_address);
--K3_q[4] is lpm_rom0:inst|altsyncram:altsyncram_component|altrom:rom|q[4] at EC1_B
K3_q[4]_clock_0 = clk;
K3_q[4]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[4]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[4] = MEMORY_SEGMENT(, , K3_q[4]_clock_0, , , , , , K3_q[4]_write_address, K3_q[4]_read_address);
--H1L21 is selec:inst8|bo_xing~62 at LC7_C17
--operation mode is normal
H1L21 = bo_select[1] & (bo_select[0]) # !bo_select[1] & (bo_select[0] & K2_q[4] # !bo_select[0] & (K3_q[4]));
--H1L29 is selec:inst8|bo_xing~83 at LC7_C17
--operation mode is normal
H1L29 = bo_select[1] & (bo_select[0]) # !bo_select[1] & (bo_select[0] & K2_q[4] # !bo_select[0] & (K3_q[4]));
--K2_q[3] is lpm_rom1:inst3|altsyncram:altsyncram_component|altrom:rom|q[3] at EC8_B
K2_q[3]_clock_0 = clk;
K2_q[3]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[3]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[3] = MEMORY_SEGMENT(, , K2_q[3]_clock_0, , , , , , K2_q[3]_write_address, K2_q[3]_read_address);
--K1_q[3] is lpm_rom3:inst4|altsyncram:altsyncram_component|altrom:rom|q[3] at EC3_B
K1_q[3]_clock_0 = clk;
K1_q[3]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[3]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[3] = MEMORY_SEGMENT(, , K1_q[3]_clock_0, , , , , , K1_q[3]_write_address, K1_q[3]_read_address);
--K3_q[3] is lpm_rom0:inst|altsyncram:altsyncram_component|altrom:rom|q[3] at EC5_B
K3_q[3]_clock_0 = clk;
K3_q[3]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[3]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K3_q[3] = MEMORY_SEGMENT(, , K3_q[3]_clock_0, , , , , , K3_q[3]_write_address, K3_q[3]_read_address);
--H1L22 is selec:inst8|bo_xing~64 at LC3_B19
--operation mode is normal
H1L22 = bo_select[0] & (bo_select[1]) # !bo_select[0] & (bo_select[1] & K1_q[3] # !bo_select[1] & (K3_q[3]));
--H1L30 is selec:inst8|bo_xing~84 at LC3_B19
--operation mode is normal
H1L30 = bo_select[0] & (bo_select[1]) # !bo_select[0] & (bo_select[1] & K1_q[3] # !bo_select[1] & (K3_q[3]));
--K1_q[2] is lpm_rom3:inst4|altsyncram:altsyncram_component|altrom:rom|q[2] at EC7_B
K1_q[2]_clock_0 = clk;
K1_q[2]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[2]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K1_q[2] = MEMORY_SEGMENT(, , K1_q[2]_clock_0, , , , , , K1_q[2]_write_address, K1_q[2]_read_address);
--K2_q[2] is lpm_rom1:inst3|altsyncram:altsyncram_component|altrom:rom|q[2] at EC2_B
K2_q[2]_clock_0 = clk;
K2_q[2]_write_address = WR_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[2]_read_address = RD_ADDR(C1_address[0], C1_address[1], C1_address[2], C1_address[3], C1_address[4], C1_address[5], C1_address[6], C1_address[7]);
K2_q[2] = MEMORY_SEGMENT(, , K2_q[2]_clock_0, , , , , , K2_q[2]_write_address, K2_q[2]_read_address);
--K3_q[2] is lpm_rom0:inst|altsyncram:altsyncram_component|altrom:rom|q[2] at EC4_B
K3_q[2]_clock_0 = clk;
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