OpenFPGA/openfpga_flow/benchmarks/vtr_benchmark/stereovision2.v

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2021-03-17 16:24:26 -05:00
module sv_chip2_hierarchy_no_mem (reset, tm3_clk_v0, vidin_new_data, vidin_rgb_reg, vidin_addr_reg, svid_comp_switch, counter_out_2to1, bus_word_3_2to1, bus_word_4_2to1, bus_word_5_2to1, bus_word_6_2to1, vidin_new_data_fifo, vidin_rgb_reg_fifo_left, vidin_rgb_reg_fifo_right, vidin_addr_reg_2to0, v_nd_s1_left_2to0, v_nd_s2_left_2to0 , v_nd_s4_left_2to0 , v_d_reg_s1_left_2to0 , v_d_reg_s2_left_2to0 , v_d_reg_s4_left_2to0 , v_nd_s1_right_2to0, v_nd_s2_right_2to0 , v_nd_s4_right_2to0 , v_d_reg_s1_right_2to0 , v_d_reg_s2_right_2to0 , v_d_reg_s4_right_2to0,offchip_sram_data_in,offchip_sram_addr,offchip_sram_data_out,offchip_sram_we,offchip_sram_oe,tm3_sram_adsp);
input [63:0]offchip_sram_data_in;
output [18:0]offchip_sram_addr;
output [63:0]offchip_sram_data_out;
output [7:0]offchip_sram_we;
output [1:0]offchip_sram_oe;
input reset;
input tm3_clk_v0;
wire[63:0] tm3_sram_data_in;
wire[63:0] tm3_sram_data_out;
reg[63:0] tm3_sram_data_xhdl0;
reg[18:0] tm3_sram_addr;
reg[7:0] tm3_sram_we;
reg[1:0] tm3_sram_oe;
output tm3_sram_adsp;
reg tm3_sram_adsp;
input vidin_new_data;
input[7:0] vidin_rgb_reg;
input[18:0] vidin_addr_reg;
input svid_comp_switch;
output[2:0] counter_out_2to1;
wire[2:0] counter_out_2to1;
output[15:0] bus_word_3_2to1;
wire[15:0] bus_word_3_2to1;
output[15:0] bus_word_4_2to1;
wire[15:0] bus_word_4_2to1;
output[15:0] bus_word_5_2to1;
wire[15:0] bus_word_5_2to1;
output[15:0] bus_word_6_2to1;
wire[15:0] bus_word_6_2to1;
output vidin_new_data_fifo;
reg vidin_new_data_fifo;
output[7:0] vidin_rgb_reg_fifo_left;
reg[7:0] vidin_rgb_reg_fifo_left;
output[7:0] vidin_rgb_reg_fifo_right;
reg[7:0] vidin_rgb_reg_fifo_right;
output[3:0] vidin_addr_reg_2to0;
reg[3:0] vidin_addr_reg_2to0;
input v_nd_s1_left_2to0;
input v_nd_s2_left_2to0;
input v_nd_s4_left_2to0;
input[7:0] v_d_reg_s1_left_2to0;
input[7:0] v_d_reg_s2_left_2to0;
input[7:0] v_d_reg_s4_left_2to0;
input v_nd_s1_right_2to0;
input v_nd_s2_right_2to0;
input v_nd_s4_right_2to0;
input[7:0] v_d_reg_s1_right_2to0;
input[7:0] v_d_reg_s2_right_2to0;
input[7:0] v_d_reg_s4_right_2to0;
wire v_nd_s1;
wire vidin_new_data_v_fltr;
reg[9:0] horiz;
reg[9:0] vert;
reg[63:0] vidin_data_buf_sc_1;
reg[55:0] vidin_data_buf_2_sc_1;
reg[18:0] vidin_addr_buf_sc_1;
reg[13:0] vidin_addr_buf_sc_1_fifo;
wire[18:0] vidin_addr_reg_scld;
reg video_state;
wire[7:0] vidin_gray_scld_1;
reg[63:0] vidout_buf_fifo_1_left;
reg[63:0] vidout_buf_fifo_1_right;
reg[7:0] vidin_rgb_reg_tmp;
reg[7:0] vidin_data_buf_fifo_sc_1_l;
reg[7:0] vidin_data_buf_fifo_sc_1_r;
reg[63:0] vidout_buf_fifo_2_1_left;
reg[63:0] vidout_buf_fifo_2_1_right;
wire vidin_new_data_tmp;
reg[18:0] vidin_addr_reg_reg;
reg v_nd_s1_left;
reg v_nd_s1_right;
reg v_nd_s2_left;
reg v_nd_s2_right;
reg v_nd_s4_left;
reg v_nd_s4_right;
reg[7:0] v_d_reg_s1_left;
reg[7:0] v_d_reg_s1_right;
reg[7:0] v_d_reg_s2_left;
reg[7:0] v_d_reg_s2_right;
reg[7:0] v_d_reg_s4_left;
reg[7:0] v_d_reg_s4_right;
wire[15:0] vidin_v_out_1_f1_left;
wire[15:0] vidin_v_out_1_f2_left;
wire[15:0] vidin_v_out_1_f3_left;
wire[15:0] vidin_v_out_1_h1_left;
wire[15:0] vidin_v_out_1_h2_left;
wire[15:0] vidin_v_out_1_h3_left;
wire[15:0] vidin_v_out_1_h4_left;
wire[15:0] vidin_v_out_2_f1_left;
wire[15:0] vidin_v_out_2_f2_left;
wire[15:0] vidin_v_out_2_f3_left;
wire[15:0] vidin_v_out_2_h1_left;
wire[15:0] vidin_v_out_2_h2_left;
wire[15:0] vidin_v_out_2_h3_left;
wire[15:0] vidin_v_out_2_h4_left;
wire[15:0] vidin_v_out_4_f1_left;
wire[15:0] vidin_v_out_4_f2_left;
wire[15:0] vidin_v_out_4_f3_left;
wire[15:0] vidin_v_out_4_h1_left;
wire[15:0] vidin_v_out_4_h2_left;
wire[15:0] vidin_v_out_4_h3_left;
wire[15:0] vidin_v_out_4_h4_left;
wire[15:0] vidin_v_out_1_f1_right;
wire[15:0] vidin_v_out_1_f2_right;
wire[15:0] vidin_v_out_1_f3_right;
wire[15:0] vidin_v_out_1_h1_right;
wire[15:0] vidin_v_out_1_h2_right;
wire[15:0] vidin_v_out_1_h3_right;
wire[15:0] vidin_v_out_1_h4_right;
wire[15:0] vidin_v_out_2_f1_right;
wire[15:0] vidin_v_out_2_f2_right;
wire[15:0] vidin_v_out_2_f3_right;
wire[15:0] vidin_v_out_2_h1_right;
wire[15:0] vidin_v_out_2_h2_right;
wire[15:0] vidin_v_out_2_h3_right;
wire[15:0] vidin_v_out_2_h4_right;
wire[15:0] vidin_v_out_4_f1_right;
wire[15:0] vidin_v_out_4_f2_right;
wire[15:0] vidin_v_out_4_f3_right;
wire[15:0] vidin_v_out_4_h1_right;
wire[15:0] vidin_v_out_4_h2_right;
wire[15:0] vidin_v_out_4_h3_right;
wire[15:0] vidin_v_out_4_h4_right;
wire[7:0] v_d_reg_s1_2to3_left;
wire[7:0] v_d_reg_s2_2to3_left;
wire[7:0] v_d_reg_s4_2to3_left;
wire[7:0] v_d_reg_s1_2to3_right;
wire[7:0] v_d_reg_s2_2to3_right;
wire[7:0] v_d_reg_s4_2to3_right;
reg[18:0] vidin_addr_reg_2to3;
reg svid_comp_switch_2to3;
wire[15:0] real_z_4_left;
wire[15:0] imag_z_4_left;
wire[15:0] real_p_4_left;
wire[15:0] imag_p_4_left;
wire[15:0] real_n_4_left;
wire[15:0] imag_n_4_left;
wire[15:0] real_z_4_right;
wire[15:0] imag_z_4_right;
wire[15:0] real_p_4_right;
wire[15:0] imag_p_4_right;
wire[15:0] real_n_4_right;
wire[15:0] imag_n_4_right;
wire[15:0] real_z_2_left;
wire[15:0] imag_z_2_left;
wire[15:0] real_p_2_left;
wire[15:0] imag_p_2_left;
wire[15:0] real_n_2_left;
wire[15:0] imag_n_2_left;
wire[15:0] real_z_2_right;
wire[15:0] imag_z_2_right;
wire[15:0] real_p_2_right;
wire[15:0] imag_p_2_right;
wire[15:0] real_n_2_right;
wire[15:0] imag_n_2_right;
wire[15:0] real_z_1_left;
wire[15:0] imag_z_1_left;
wire[15:0] real_p_1_left;
wire[15:0] imag_p_1_left;
wire[15:0] real_n_1_left;
wire[15:0] imag_n_1_left;
wire[15:0] real_z_1_right;
wire[15:0] imag_z_1_right;
wire[15:0] real_p_1_right;
wire[15:0] imag_p_1_right;
wire[15:0] real_n_1_right;
wire[15:0] imag_n_1_right;
assign tm3_sram_data_in = offchip_sram_data_in;
assign offchip_sram_addr = tm3_sram_addr;
assign offchip_sram_data_out = tm3_sram_data_out;
assign offchip_sram_we = tm3_sram_we;
assign offchip_sram_oe = tm3_sram_oe;
assign tm3_sram_data_out = tm3_sram_data_xhdl0;
v_fltr_496x7 v_fltr_1_left(tm3_clk_v0, v_nd_s1_left, v_d_reg_s1_left, vidin_v_out_1_f1_left, vidin_v_out_1_f2_left, vidin_v_out_1_f3_left, vidin_v_out_1_h1_left, vidin_v_out_1_h2_left, vidin_v_out_1_h3_left, vidin_v_out_1_h4_left);
v_fltr_316x7 v_fltr_2_left(tm3_clk_v0, v_nd_s2_left, v_d_reg_s2_left, vidin_v_out_2_f1_left, vidin_v_out_2_f2_left, vidin_v_out_2_f3_left, vidin_v_out_2_h1_left, vidin_v_out_2_h2_left, vidin_v_out_2_h3_left, vidin_v_out_2_h4_left);
v_fltr_226x7 v_fltr_4_left(tm3_clk_v0, v_nd_s4_left, v_d_reg_s4_left, vidin_v_out_4_f1_left, vidin_v_out_4_f2_left, vidin_v_out_4_f3_left, vidin_v_out_4_h1_left, vidin_v_out_4_h2_left, vidin_v_out_4_h3_left, vidin_v_out_4_h4_left);
h_fltr h_fltr_1_left (tm3_clk_v0, v_nd_s1_left, vidin_v_out_1_f1_left, vidin_v_out_1_f2_left, vidin_v_out_1_f3_left, vidin_v_out_1_h1_left, vidin_v_out_1_h2_left, vidin_v_out_1_h3_left, vidin_v_out_1_h4_left, real_z_1_left, imag_z_1_left, real_p_1_left, imag_p_1_left, real_n_1_left, imag_n_1_left);
h_fltr h_fltr_2_left (tm3_clk_v0, v_nd_s2_left, vidin_v_out_2_f1_left, vidin_v_out_2_f2_left, vidin_v_out_2_f3_left, vidin_v_out_2_h1_left, vidin_v_out_2_h2_left, vidin_v_out_2_h3_left, vidin_v_out_2_h4_left, real_z_2_left, imag_z_2_left, real_p_2_left, imag_p_2_left, real_n_2_left, imag_n_2_left);
h_fltr h_fltr_4_left (tm3_clk_v0, v_nd_s4_left, vidin_v_out_4_f1_left, vidin_v_out_4_f2_left, vidin_v_out_4_f3_left, vidin_v_out_4_h1_left, vidin_v_out_4_h2_left, vidin_v_out_4_h3_left, vidin_v_out_4_h4_left, real_z_4_left, imag_z_4_left, real_p_4_left, imag_p_4_left, real_n_4_left, imag_n_4_left);
v_fltr_496x7 v_fltr_1_right(tm3_clk_v0, v_nd_s1_right, v_d_reg_s1_right, vidin_v_out_1_f1_right, vidin_v_out_1_f2_right, vidin_v_out_1_f3_right, vidin_v_out_1_h1_right, vidin_v_out_1_h2_right, vidin_v_out_1_h3_right, vidin_v_out_1_h4_right);
v_fltr_316x7 v_fltr_2_right(tm3_clk_v0, v_nd_s2_right, v_d_reg_s2_right, vidin_v_out_2_f1_right, vidin_v_out_2_f2_right, vidin_v_out_2_f3_right, vidin_v_out_2_h1_right, vidin_v_out_2_h2_right, vidin_v_out_2_h3_right, vidin_v_out_2_h4_right);
v_fltr_226x7 v_fltr_4_right(tm3_clk_v0, v_nd_s4_right, v_d_reg_s4_right, vidin_v_out_4_f1_right, vidin_v_out_4_f2_right, vidin_v_out_4_f3_right, vidin_v_out_4_h1_right, vidin_v_out_4_h2_right, vidin_v_out_4_h3_right, vidin_v_out_4_h4_right);
h_fltr h_fltr_1_right (tm3_clk_v0, v_nd_s1_right, vidin_v_out_1_f1_right, vidin_v_out_1_f2_right, vidin_v_out_1_f3_right, vidin_v_out_1_h1_right, vidin_v_out_1_h2_right, vidin_v_out_1_h3_right, vidin_v_out_1_h4_right, real_z_1_right, imag_z_1_right, real_p_1_right, imag_p_1_right, real_n_1_right, imag_n_1_right);
h_fltr h_fltr_2_right (tm3_clk_v0, v_nd_s2_right, vidin_v_out_2_f1_right, vidin_v_out_2_f2_right, vidin_v_out_2_f3_right, vidin_v_out_2_h1_right, vidin_v_out_2_h2_right, vidin_v_out_2_h3_right, vidin_v_out_2_h4_right, real_z_2_right, imag_z_2_right, real_p_2_right, imag_p_2_right, real_n_2_right, imag_n_2_right);
h_fltr h_fltr_4_right (tm3_clk_v0, v_nd_s4_right, vidin_v_out_4_f1_right, vidin_v_out_4_f2_right, vidin_v_out_4_f3_right, vidin_v_out_4_h1_right, vidin_v_out_4_h2_right, vidin_v_out_4_h3_right, vidin_v_out_4_h4_right, real_z_4_right, imag_z_4_right, real_p_4_right, imag_p_4_right, real_n_4_right, imag_n_4_right);
port_bus_2to1 port_bus_2to1_inst (tm3_clk_v0, vidin_addr_reg_2to3, svid_comp_switch_2to3, v_nd_s1_left, real_p_1_left, imag_p_1_left, real_n_1_left, imag_n_1_left, real_p_2_left, imag_p_2_left, real_n_2_left, imag_n_2_left, real_p_4_left, imag_p_4_left, real_n_4_left, imag_n_4_left, real_p_1_right, imag_p_1_right, real_n_1_right, imag_n_1_right, real_p_2_right, imag_p_2_right, real_n_2_right, imag_n_2_right, real_p_4_right, imag_p_4_right, real_n_4_right, imag_n_4_right, bus_word_3_2to1, bus_word_4_2to1, bus_word_5_2to1, bus_word_6_2to1, counter_out_2to1);
always @(posedge tm3_clk_v0)
begin
if (reset == 1'b0)
begin
video_state <= 1'b0;
tm3_sram_adsp <= 1'b0 ;
horiz <= 10'b0000000000;
vert <= 10'b0000000000 ;
end
else
begin
video_state <= ~(video_state) ;
if (video_state == 1'b0)
begin
tm3_sram_data_xhdl0 <= 64'b0;
if (horiz == 800)
begin
horiz <= 10'b0000000000 ;
if (vert == 525)
begin
vert <= 10'b0000000000 ;
end
else
begin
vert <= vert + 1 ;
end
end
else
begin
horiz <= horiz + 1 ;
end
tm3_sram_adsp <= 1'b1;
tm3_sram_we <= 8'b11111111;
case (horiz[2:0])
3'b000 :
begin
tm3_sram_oe <= 2'b10 ;
end
3'b001 :
begin
tm3_sram_oe <= 2'b11 ;
end
3'b010 :
begin
tm3_sram_oe <= 2'b10 ;
end
3'b011 :
begin
tm3_sram_oe <= 2'b11 ;
end
3'b100 :
begin
tm3_sram_oe <= 2'b11 ;
end
3'b101 :
begin
tm3_sram_oe <= 2'b11 ;
end
3'b110 :
begin
tm3_sram_oe <= 2'b11 ;
end
3'b111 :
begin
tm3_sram_oe <= 2'b11 ;
end
endcase
end
else
begin
tm3_sram_adsp <= 1'b0 ;
case (horiz[2:0])
3'b000 :
begin
tm3_sram_addr <= {5'b00000, vidin_addr_buf_sc_1_fifo} ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= 0;
end
3'b001 :
begin
vidout_buf_fifo_1_left <= tm3_sram_data_in ;
tm3_sram_addr <= vidin_addr_buf_sc_1 ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= vidin_data_buf_sc_1 ;
end
3'b010 :
begin
tm3_sram_addr <= {5'b00001, vidin_addr_buf_sc_1_fifo} ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= 0;
end
3'b011 :
begin
vidout_buf_fifo_1_right <= tm3_sram_data_in ;
tm3_sram_addr <= vidin_addr_buf_sc_1 ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= vidin_data_buf_sc_1 ;
end
3'b100 :
begin
tm3_sram_addr <= {5'b00000, vidin_addr_buf_sc_1_fifo} ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= 0;
end
3'b101 :
begin
tm3_sram_addr <= vidin_addr_buf_sc_1 ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= vidin_data_buf_sc_1 ;
end
3'b110 :
begin
if ((vert[8]) == 1'b0)
begin
tm3_sram_addr <= {5'b00000, vert[7:0], horiz[8:3]} ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= 0;
end
else
begin
tm3_sram_addr <= {5'b00001, vert[7:0], horiz[8:3]} ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= 0;
end
end
3'b111 :
begin
tm3_sram_addr <= vidin_addr_buf_sc_1 ;
tm3_sram_we <= 8'b11111111 ;
tm3_sram_oe <= 2'b11 ;
tm3_sram_data_xhdl0 <= vidin_data_buf_sc_1 ;
end
endcase
end
if (vidin_new_data_fifo == 1'b1)
begin
case (vidin_addr_reg_reg[2:0])
3'b000 :
begin
vidin_data_buf_2_sc_1[7:0] <= vidin_rgb_reg_tmp ;
vidin_data_buf_fifo_sc_1_l <= vidout_buf_fifo_2_1_left[7:0] ;
vidin_data_buf_fifo_sc_1_r <= vidout_buf_fifo_2_1_right[7:0] ;
end
3'b001 :
begin
vidin_data_buf_2_sc_1[15:8] <= vidin_rgb_reg_tmp ;
vidin_data_buf_fifo_sc_1_l <= vidout_buf_fifo_2_1_left[15:8] ;
vidin_data_buf_fifo_sc_1_r <= vidout_buf_fifo_2_1_right[15:8] ;
end
3'b010 :
begin
vidin_data_buf_2_sc_1[23:16] <= vidin_rgb_reg_tmp ;
vidin_data_buf_fifo_sc_1_l <= vidout_buf_fifo_2_1_left[23:16] ;
vidin_data_buf_fifo_sc_1_r <= vidout_buf_fifo_2_1_right[23:16] ;
end
3'b011 :
begin
vidin_data_buf_2_sc_1[31:24] <= vidin_rgb_reg_tmp ;
vidin_data_buf_fifo_sc_1_l <= vidout_buf_fifo_2_1_left[31:24] ;
vidin_data_buf_fifo_sc_1_r <= vidout_buf_fifo_2_1_right[31:24] ;
end
3'b100 :
begin
vidin_data_buf_2_sc_1[39:32] <= vidin_rgb_reg_tmp ;
vidin_data_buf_fifo_sc_1_l <= vidout_buf_fifo_2_1_left[39:32] ;
vidin_data_buf_fifo_sc_1_r <= vidout_buf_fifo_2_1_right[39:32] ;
end
3'b101 :
begin
vidin_data_buf_2_sc_1[47:40] <= vidin_rgb_reg_tmp ;
vidin_data_buf_fifo_sc_1_l <= vidout_buf_fifo_2_1_left[47:40] ;
vidin_data_buf_fifo_sc_1_r <= vidout_buf_fifo_2_1_right[47:40] ;
end
3'b110 :
begin
vidin_data_buf_2_sc_1[55:48] <= vidin_rgb_reg_tmp ;
vidin_data_buf_fifo_sc_1_l <= vidout_buf_fifo_2_1_left[55:48] ;
vidin_data_buf_fifo_sc_1_r <= vidout_buf_fifo_2_1_right[55:48] ;
end
3'b111 :
begin
vidin_data_buf_sc_1 <= {vidin_rgb_reg_tmp, vidin_data_buf_2_sc_1[55:0]} ;
vidout_buf_fifo_2_1_left <= vidout_buf_fifo_1_left ;
vidout_buf_fifo_2_1_right <= vidout_buf_fifo_1_right ;
vidin_data_buf_fifo_sc_1_l <= vidout_buf_fifo_2_1_left[63:56] ;
vidin_data_buf_fifo_sc_1_r <= vidout_buf_fifo_2_1_right[63:56] ;
vidin_addr_buf_sc_1 <= {4'b0000, svid_comp_switch, vidin_addr_reg_reg[16:3]} ;
if (vidin_addr_reg_reg[8:3] == 43)
begin
vidin_addr_buf_sc_1_fifo <= {(vidin_addr_reg_reg[16:9] + 8'b00000001), 6'b000000} ;
end
else
begin
if (vidin_addr_reg_reg[8:3] == 44)
begin
vidin_addr_buf_sc_1_fifo <= {(vidin_addr_reg_reg[16:9] + 8'b00000001), 6'b000001} ;
end
else
begin
vidin_addr_buf_sc_1_fifo <= (vidin_addr_reg_reg[16:3]) + 2 ;
end
end
end
endcase
end
end
end
always @(posedge tm3_clk_v0)
begin
vidin_rgb_reg_tmp <= vidin_rgb_reg ;
vidin_addr_reg_2to3 <= vidin_addr_reg ;
vidin_addr_reg_reg <= vidin_addr_reg ;
vidin_addr_reg_2to0 <= {vidin_addr_reg[1:0], vidin_addr_reg[10:9]} ;
vidin_new_data_fifo <= vidin_new_data ;
svid_comp_switch_2to3 <= svid_comp_switch ;
vidin_rgb_reg_fifo_left <= vidin_data_buf_fifo_sc_1_l ;
vidin_rgb_reg_fifo_right <= vidin_data_buf_fifo_sc_1_r ;
v_nd_s1_left <= v_nd_s1_left_2to0 ;
v_nd_s2_left <= v_nd_s2_left_2to0 ;
v_nd_s4_left <= v_nd_s4_left_2to0 ;
v_d_reg_s1_left <= v_d_reg_s1_left_2to0 ;
v_d_reg_s2_left <= v_d_reg_s2_left_2to0 ;
v_d_reg_s4_left <= v_d_reg_s4_left_2to0 ;
v_nd_s1_right <= v_nd_s1_right_2to0 ;
v_nd_s2_right <= v_nd_s2_right_2to0 ;
v_nd_s4_right <= v_nd_s4_right_2to0 ;
v_d_reg_s1_right <= v_d_reg_s1_right_2to0 ;
v_d_reg_s2_right <= v_d_reg_s2_right_2to0 ;
v_d_reg_s4_right <= v_d_reg_s4_right_2to0 ;
end
endmodule
// Discription: this block creates a long fifo
// of lengh of one line and then applies the
// the first and last byte of the fifo into a
// that finally creates horizontal edge detection
// filter.
// note: it uses fifo component to implement the fifo
// date: Oct.7 ,2001
// By: Ahmad darabiha
module h_fltr (tm3_clk_v0, vidin_new_data, vidin_in_f1, vidin_in_f2, vidin_in_f3, vidin_in_h1, vidin_in_h2, vidin_in_h3, vidin_in_h4, real_z_reg, imag_z_reg, real_p_reg, imag_p_reg, real_n_reg, imag_n_reg);
input tm3_clk_v0;
input vidin_new_data;
input[15:0] vidin_in_f1;
input[15:0] vidin_in_f2;
input[15:0] vidin_in_f3;
input[15:0] vidin_in_h1;
input[15:0] vidin_in_h2;
input[15:0] vidin_in_h3;
input[15:0] vidin_in_h4;
output[15:0] real_z_reg;
reg[15:0] real_z_reg;
output[15:0] imag_z_reg;
reg[15:0] imag_z_reg;
output[15:0] real_p_reg;
reg[15:0] real_p_reg;
output[15:0] imag_p_reg;
reg[15:0] imag_p_reg;
output[15:0] real_n_reg;
reg[15:0] real_n_reg;
output[15:0] imag_n_reg;
reg[15:0] imag_n_reg;
wire[27:0] vidin_out_temp_f1;
reg[27:0] vidin_out_reg_f1;
wire my_fir_rdy_f1;
wire[27:0] vidin_out_temp_f2;
reg[27:0] vidin_out_reg_f2;
wire my_fir_rdy_f2;
wire[27:0] vidin_out_temp_f3;
reg[27:0] vidin_out_reg_f3;
wire my_fir_rdy_f3;
wire[27:0] vidin_out_temp_h1;
reg[27:0] vidin_out_reg_h1;
wire my_fir_rdy_h1;
wire[27:0] vidin_out_temp_h2;
reg[27:0] vidin_out_reg_h2;
wire my_fir_rdy_h2;
wire[27:0] vidin_out_temp_h3;
reg[27:0] vidin_out_reg_h3;
wire my_fir_rdy_h3;
wire[27:0] vidin_out_temp_h4;
reg[27:0] vidin_out_reg_h4;
wire my_fir_rdy_h4;
wire[28:0] sum_tmp_1;
wire[28:0] sum_tmp_2;
wire[28:0] sum_tmp_3;
wire[28:0] sum_tmp_4;
wire[30:0] sum_tmp_5;
wire[15:0] real_p;
wire[15:0] imag_p;
wire[15:0] real_z;
wire[15:0] imag_z;
wire[15:0] real_n;
wire[15:0] imag_n;
wire[16:0] tmp;
my_fir_f1 your_instance_name_f1 (tm3_clk_v0, vidin_new_data, my_fir_rdy_f1, vidin_in_f2, vidin_out_temp_f1);
my_fir_f2 your_instance_name_f2 (tm3_clk_v0, vidin_new_data, my_fir_rdy_f2, vidin_in_f1, vidin_out_temp_f2);
my_fir_f3 your_instance_name_f3 (tm3_clk_v0, vidin_new_data, my_fir_rdy_f3, vidin_in_f3, vidin_out_temp_f3);
my_fir_h1 your_instance_name_h1 (tm3_clk_v0, vidin_new_data, my_fir_rdy_h1, vidin_in_h2, vidin_out_temp_h1);
my_fir_h2 your_instance_name_h2 (tm3_clk_v0, vidin_new_data, my_fir_rdy_h2, vidin_in_h1, vidin_out_temp_h2);
my_fir_h3 your_instance_name_h3 (tm3_clk_v0, vidin_new_data, my_fir_rdy_h3, vidin_in_h4, vidin_out_temp_h3);
my_fir_h4 your_instance_name_h4 (tm3_clk_v0, vidin_new_data, my_fir_rdy_h4, vidin_in_h3, vidin_out_temp_h4);
steer_fltr my_steer_fltr_inst (tm3_clk_v0, vidin_new_data, vidin_out_reg_f1, vidin_out_reg_f2, vidin_out_reg_f3, vidin_out_reg_h1, vidin_out_reg_h2, vidin_out_reg_h3, vidin_out_reg_h4, real_z, imag_z, real_p, imag_p, real_n, imag_n);
always @(posedge tm3_clk_v0)
begin
if (my_fir_rdy_f1 == 1'b1)
begin
vidin_out_reg_f1 <= vidin_out_temp_f1 ;
end
if (my_fir_rdy_f2 == 1'b1)
begin
vidin_out_reg_f2 <= vidin_out_temp_f2 ;
end
if (my_fir_rdy_f3 == 1'b1)
begin
vidin_out_reg_f3 <= vidin_out_temp_f3 ;
end
if (my_fir_rdy_h1 == 1'b1)
begin
vidin_out_reg_h1 <= vidin_out_temp_h1 ;
end
if (my_fir_rdy_h2 == 1'b1)
begin
vidin_out_reg_h2 <= vidin_out_temp_h2 ;
end
if (my_fir_rdy_h3 == 1'b1)
begin
vidin_out_reg_h3 <= vidin_out_temp_h3 ;
end
if (my_fir_rdy_h4 == 1'b1)
begin
vidin_out_reg_h4 <= vidin_out_temp_h4 ;
end
end
always @(posedge tm3_clk_v0)
begin
real_z_reg <= real_z ;
imag_z_reg <= imag_z ;
real_p_reg <= real_p ;
imag_p_reg <= imag_p ;
real_n_reg <= real_n ;
imag_n_reg <= imag_n ;
end
endmodule
module steer_fltr (clk, new_data, f1, f2, f3, h1, h2, h3, h4, re_z, im_z, re_p, im_p, re_n, im_n);
input clk;
input new_data;
input[27:0] f1;
input[27:0] f2;
input[27:0] f3;
input[27:0] h1;
input[27:0] h2;
input[27:0] h3;
input[27:0] h4;
output[15:0] re_z;
reg[15:0] re_z;
output[15:0] im_z;
reg[15:0] im_z;
output[15:0] re_p;
reg[15:0] re_p;
output[15:0] im_p;
reg[15:0] im_p;
output[15:0] re_n;
reg[15:0] re_n;
output[15:0] im_n;
reg[15:0] im_n;
reg[27:0] f1_reg;
reg[27:0] f2_reg;
reg[27:0] f3_reg;
reg[27:0] h1_reg;
reg[27:0] h2_reg;
reg[27:0] h3_reg;
reg[27:0] h4_reg;
reg[28:0] re_z_tmp_1;
reg[28:0] im_z_tmp_1;
reg[28:0] re_p_tmp_1;
reg[28:0] re_p_tmp_2;
reg[28:0] re_p_tmp_3;
reg[28:0] im_p_tmp_1;
reg[28:0] im_p_tmp_2;
reg[28:0] im_p_tmp_3;
reg[28:0] im_p_tmp_4;
reg[30:0] re_z_tmp;
reg[30:0] im_z_tmp;
reg[30:0] re_p_tmp;
reg[30:0] im_p_tmp;
reg[30:0] re_n_tmp;
reg[30:0] im_n_tmp;
always @(posedge clk)
begin
if (new_data == 1'b1)
begin
f1_reg <= f1 ;
f2_reg <= f2 ;
f3_reg <= f3 ;
h1_reg <= h1 ;
h2_reg <= h2 ;
h3_reg <= h3 ;
h4_reg <= h4 ;
end
end
always @(posedge clk)
begin
re_z_tmp_1 <= {f1_reg[27], f1_reg} ;
im_z_tmp_1 <= {h1_reg[27], h1_reg} ;
re_p_tmp_1 <= {f1_reg[27], f1_reg[27], f1_reg[27:1]} ;
re_p_tmp_2 <= {f3_reg[27], f3_reg[27:0]} ;
re_p_tmp_3 <= {f2_reg[27], f2_reg[27], f2_reg[27:1]} ;
im_p_tmp_1 <= ({h1_reg[27], h1_reg[27], h1_reg[27], h1_reg[27:2]}) + ({h1_reg[27], h1_reg[27], h1_reg[27], h1_reg[27], h1_reg[27:3]}) ;
im_p_tmp_2 <= ({h4_reg[27], h4_reg}) + ({h4_reg[27], h4_reg[27], h4_reg[27], h4_reg[27], h4_reg[27], h4_reg[27:4]}) ;
im_p_tmp_3 <= ({h3_reg[27], h3_reg}) + ({h3_reg[27], h3_reg[27], h3_reg[27], h3_reg[27], h3_reg[27], h3_reg[27:4]}) ;
im_p_tmp_4 <= ({h2_reg[27], h2_reg[27], h2_reg[27], h2_reg[27:2]}) + ({h2_reg[27], h2_reg[27], h2_reg[27], h2_reg[27], h2_reg[27:3]}) ;
re_z_tmp <= {re_z_tmp_1[28], re_z_tmp_1[28], re_z_tmp_1} ;
im_z_tmp <= {im_z_tmp_1[28], im_z_tmp_1[28], im_z_tmp_1} ;
re_p_tmp <= ({re_p_tmp_1[28], re_p_tmp_1[28], re_p_tmp_1}) - ({re_p_tmp_2[28], re_p_tmp_2[28], re_p_tmp_2}) + ({re_p_tmp_3[28], re_p_tmp_3[28], re_p_tmp_3}) ;
im_p_tmp <= ({im_p_tmp_1[28], im_p_tmp_1[28], im_p_tmp_1}) - ({im_p_tmp_2[28], im_p_tmp_2[28], im_p_tmp_2}) + ({im_p_tmp_3[28], im_p_tmp_3[28], im_p_tmp_3}) - ({im_p_tmp_4[28], im_p_tmp_4[28], im_p_tmp_4}) ;
re_n_tmp <= ({re_p_tmp_1[28], re_p_tmp_1[28], re_p_tmp_1}) + ({re_p_tmp_2[28], re_p_tmp_2[28], re_p_tmp_2}) + ({re_p_tmp_3[28], re_p_tmp_3[28], re_p_tmp_3}) ;
im_n_tmp <= ({im_p_tmp_1[28], im_p_tmp_1[28], im_p_tmp_1}) + ({im_p_tmp_2[28], im_p_tmp_2[28], im_p_tmp_2}) + ({im_p_tmp_3[28], im_p_tmp_3[28], im_p_tmp_3}) + ({im_p_tmp_4[28], im_p_tmp_4[28], im_p_tmp_4}) ;
re_z <= re_z_tmp[30:15] ;
im_z <= im_z_tmp[30:15] ;
re_p <= re_p_tmp[30:15] ;
im_p <= im_p_tmp[30:15] ;
re_n <= re_n_tmp[30:15] ;
im_n <= im_n_tmp[30:15] ;
end
endmodule
// Discription: this block creates a long fifo
// of lengh of one line and then applies the
// the first and last byte of the fifo into a
// that finally creates horizontal edge detection
// filter.
// note: it uses fifo component to implement the fifo
// date: Oct.22 ,2001
// By: Ahmad darabiha
module v_fltr_496x7 (tm3_clk_v0, vidin_new_data, vidin_in, vidin_out_f1, vidin_out_f2, vidin_out_f3, vidin_out_h1, vidin_out_h2, vidin_out_h3, vidin_out_h4); // PAJ var never used, vidin_out_or);
parameter horiz_length = 9'b111110000;
parameter vert_length = 3'b111; // PAJ constant for all
input tm3_clk_v0;
input vidin_new_data;
input[7:0] vidin_in;
output[15:0] vidin_out_f1;
wire[15:0] vidin_out_f1;
output[15:0] vidin_out_f2;
wire[15:0] vidin_out_f2;
output[15:0] vidin_out_f3;
wire[15:0] vidin_out_f3;
output[15:0] vidin_out_h1;
wire[15:0] vidin_out_h1;
output[15:0] vidin_out_h2;
wire[15:0] vidin_out_h2;
output[15:0] vidin_out_h3;
wire[15:0] vidin_out_h3;
output[15:0] vidin_out_h4;
wire[15:0] vidin_out_h4;
// output[7:0] vidin_out_or;
// reg[7:0] vidin_out_or;
wire[7:0] buff_out0;
wire[7:0] buff_out1;
wire[7:0] buff_out2;
wire[7:0] buff_out3;
wire[7:0] buff_out4;
wire[7:0] buff_out5;
wire[7:0] buff_out6;
wire[7:0] buff_out7;
fifo496 fifo0(tm3_clk_v0, vidin_new_data, buff_out0, buff_out1);
fifo496 fifo1(tm3_clk_v0, vidin_new_data, buff_out1, buff_out2);
fifo496 fifo2(tm3_clk_v0, vidin_new_data, buff_out2, buff_out3);
fifo496 fifo3(tm3_clk_v0, vidin_new_data, buff_out3, buff_out4);
fifo496 fifo4(tm3_clk_v0, vidin_new_data, buff_out4, buff_out5);
fifo496 fifo5(tm3_clk_v0, vidin_new_data, buff_out5, buff_out6);
fifo496 fifo6(tm3_clk_v0, vidin_new_data, buff_out6, buff_out7);
fltr_compute_f1 inst_fltr_compute_f1 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f1);
fltr_compute_f2 inst_fltr_compute_f2 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f2);
fltr_compute_f3 inst_fltr_compute_f3 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f3);
fltr_compute_h1 inst_fltr_compute_h1 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h1);
fltr_compute_h2 inst_fltr_compute_h2 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h2);
fltr_compute_h3 inst_fltr_compute_h3 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h3);
fltr_compute_h4 inst_fltr_compute_h4 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h4);
assign buff_out0 = vidin_in ;
/*
always @(posedge tm3_clk_v0)
begin
buff_out0 <= vidin_in ;
//vidin_out_or <= buff_out6;
end
*/
endmodule
module v_fltr_316x7 (tm3_clk_v0, vidin_new_data, vidin_in, vidin_out_f1, vidin_out_f2, vidin_out_f3, vidin_out_h1, vidin_out_h2, vidin_out_h3, vidin_out_h4); // PAJ var never used, vidin_out_or);
parameter horiz_length = 9'b100111100;
parameter vert_length = 3'b111; // PAJ constant for all
input tm3_clk_v0;
input vidin_new_data;
input[7:0] vidin_in;
output[15:0] vidin_out_f1;
wire[15:0] vidin_out_f1;
output[15:0] vidin_out_f2;
wire[15:0] vidin_out_f2;
output[15:0] vidin_out_f3;
wire[15:0] vidin_out_f3;
output[15:0] vidin_out_h1;
wire[15:0] vidin_out_h1;
output[15:0] vidin_out_h2;
wire[15:0] vidin_out_h2;
output[15:0] vidin_out_h3;
wire[15:0] vidin_out_h3;
output[15:0] vidin_out_h4;
wire[15:0] vidin_out_h4;
// output[7:0] vidin_out_or;
// reg[7:0] vidin_out_or;
wire[7:0] buff_out0;
wire[7:0] buff_out1;
wire[7:0] buff_out2;
wire[7:0] buff_out3;
wire[7:0] buff_out4;
wire[7:0] buff_out5;
wire[7:0] buff_out6;
wire[7:0] buff_out7;
fifo316 fifo0(tm3_clk_v0, vidin_new_data, buff_out0, buff_out1);
fifo316 fifo1(tm3_clk_v0, vidin_new_data, buff_out1, buff_out2);
fifo316 fifo2(tm3_clk_v0, vidin_new_data, buff_out2, buff_out3);
fifo316 fifo3(tm3_clk_v0, vidin_new_data, buff_out3, buff_out4);
fifo316 fifo4(tm3_clk_v0, vidin_new_data, buff_out4, buff_out5);
fifo316 fifo5(tm3_clk_v0, vidin_new_data, buff_out5, buff_out6);
fifo316 fifo6(tm3_clk_v0, vidin_new_data, buff_out6, buff_out7);
fltr_compute_f1 inst_fltr_compute_f1 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f1);
fltr_compute_f2 inst_fltr_compute_f2 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f2);
fltr_compute_f3 inst_fltr_compute_f3 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f3);
fltr_compute_h1 inst_fltr_compute_h1 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h1);
fltr_compute_h2 inst_fltr_compute_h2 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h2);
fltr_compute_h3 inst_fltr_compute_h3 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h3);
fltr_compute_h4 inst_fltr_compute_h4 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h4);
assign buff_out0 = vidin_in ;
/*
always @(posedge tm3_clk_v0)
begin
buff_out0 <= vidin_in ;
//vidin_out_or <= buff_out6;
end
*/
endmodule
module v_fltr_226x7 (tm3_clk_v0, vidin_new_data, vidin_in, vidin_out_f1, vidin_out_f2, vidin_out_f3, vidin_out_h1, vidin_out_h2, vidin_out_h3, vidin_out_h4); // PAJ var never used, vidin_out_or);
parameter horiz_length = 8'b11100010;
parameter vert_length = 3'b111; // PAJ constant for all
input tm3_clk_v0;
input vidin_new_data;
input[7:0] vidin_in;
output[15:0] vidin_out_f1;
wire[15:0] vidin_out_f1;
output[15:0] vidin_out_f2;
wire[15:0] vidin_out_f2;
output[15:0] vidin_out_f3;
wire[15:0] vidin_out_f3;
output[15:0] vidin_out_h1;
wire[15:0] vidin_out_h1;
output[15:0] vidin_out_h2;
wire[15:0] vidin_out_h2;
output[15:0] vidin_out_h3;
wire[15:0] vidin_out_h3;
output[15:0] vidin_out_h4;
wire[15:0] vidin_out_h4;
// output[7:0] vidin_out_or;
// reg[7:0] vidin_out_or;
wire[7:0] buff_out0;
wire[7:0] buff_out1;
wire[7:0] buff_out2;
wire[7:0] buff_out3;
wire[7:0] buff_out4;
wire[7:0] buff_out5;
wire[7:0] buff_out6;
wire[7:0] buff_out7;
fifo226 fifo0(tm3_clk_v0, vidin_new_data, buff_out0, buff_out1);
fifo226 fifo1(tm3_clk_v0, vidin_new_data, buff_out1, buff_out2);
fifo226 fifo2(tm3_clk_v0, vidin_new_data, buff_out2, buff_out3);
fifo226 fifo3(tm3_clk_v0, vidin_new_data, buff_out3, buff_out4);
fifo226 fifo4(tm3_clk_v0, vidin_new_data, buff_out4, buff_out5);
fifo226 fifo5(tm3_clk_v0, vidin_new_data, buff_out5, buff_out6);
fifo226 fifo6(tm3_clk_v0, vidin_new_data, buff_out6, buff_out7);
fltr_compute_f1 inst_fltr_compute_f1 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f1);
fltr_compute_f2 inst_fltr_compute_f2 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f2);
fltr_compute_f3 inst_fltr_compute_f3 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_f3);
fltr_compute_h1 inst_fltr_compute_h1 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h1);
fltr_compute_h2 inst_fltr_compute_h2 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h2);
fltr_compute_h3 inst_fltr_compute_h3 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h3);
fltr_compute_h4 inst_fltr_compute_h4 (tm3_clk_v0, {buff_out1, buff_out2, buff_out3, buff_out4, buff_out5, buff_out6, buff_out7}, vidin_out_h4);
assign buff_out0 = vidin_in ;
/*
always @(posedge tm3_clk_v0)
begin
buff_out0 <= vidin_in ;
//vidin_out_or <= buff_out6;
end
*/
endmodule
module fltr_compute_f1 (clk, din, dout);
input clk;
input[55:0] din;
output[15:0] dout;
reg[15:0] dout;
reg[16:0] q1;
reg[16:0] q2;
reg[16:0] q3;
reg[16:0] q4;
reg[16:0] q5;
reg[16:0] q6;
reg[16:0] q7;
reg[19:0] d_out_tmp;
always @(posedge clk)
begin
// PAJ - grabbed these from the mult_const declarations
q1 <= din[55:48] * 5'b11101;
q2 <= din[47:40] * 7'b1100101;
q3 <= din[39:32] * 5'b10001;
q4 <= din[31:24] * 9'b100010101;
q5 <= din[23:16] * 5'b10001;
q6 <= din[15:8] * 7'b1100101;
q7 <= din[7:0] * 5'b11101;
d_out_tmp <= ({q1[16], q1[16], q1[16], q1}) + ({q2[16], q2[16], q2[16], q2}) + ({q3[16], q3[16], q3[16], q3}) + ({q4[16], q4[16], q4[16], q4}) + ({q5[16], q5[16], q5[16], q5}) + ({q6[16], q6[16], q6[16], q6}) + ({q7[16], q7[16], q7[16], q7});
dout <= d_out_tmp[18:3] ;
end
endmodule
module fltr_compute_f2 (clk, din, dout);
input clk;
input[55:0] din;
output[15:0] dout;
reg[15:0] dout;
reg[16:0] q1;
reg[16:0] q2;
reg[16:0] q3;
reg[16:0] q4;
reg[16:0] q5;
reg[16:0] q6;
reg[16:0] q7;
reg[19:0] d_out_tmp;
always @(posedge clk)
begin
// PAJ - grabbed these from the mult_const declarations
q1 <= din[55:48] * 3'b100;
q2 <= din[47:40] * 6'b101010;
q3 <= din[39:32] * 8'b10100011;
q4 <= din[31:24] * 8'b11111111;
q5 <= din[23:16] * 8'b10100011;
q6 <= din[15:8] * 6'b101010;
q7 <= din[7:0] * 3'b100;
d_out_tmp <= ({q1[16], q1[16], q1[16], q1}) + ({q2[16], q2[16], q2[16], q2}) + ({q3[16], q3[16], q3[16], q3}) + ({q4[16], q4[16], q4[16], q4}) + ({q5[16], q5[16], q5[16], q5}) + ({q6[16], q6[16], q6[16], q6}) + ({q7[16], q7[16], q7[16], q7});
dout <= d_out_tmp[18:3] ;
end
endmodule
module fltr_compute_f3 (clk, din, dout);
input clk;
input[55:0] din;
output[15:0] dout;
reg[15:0] dout;
reg[16:0] q1;
reg[16:0] q2;
reg[16:0] q3;
reg[16:0] q4;
reg[16:0] q5;
reg[16:0] q6;
reg[16:0] q7;
reg[19:0] d_out_tmp;
always @(posedge clk)
begin
// PAJ - grabbed these from the mult_const declarations
q1 <= din[55:48] * 5'b10100;
q2 <= din[47:40] * 8'b10110011;
q3 <= din[39:32] * 9'b101101100;
q4 <= din[31:24] * 16'b0000000000000000;
q5 <= din[23:16] * 9'b101101100;
q6 <= din[15:8] * 8'b10110011;
q7 <= din[7:0] * 5'b10100;
d_out_tmp <= ({q1[16], q1[16], q1[16], q1}) + ({q2[16], q2[16], q2[16], q2}) + ({q3[16], q3[16], q3[16], q3}) + ({q4[16], q4[16], q4[16], q4}) + ({q5[16], q5[16], q5[16], q5}) + ({q6[16], q6[16], q6[16], q6}) + ({q7[16], q7[16], q7[16], q7});
dout <= d_out_tmp[18:3] ;
end
endmodule
module fltr_compute_h1 (clk, din, dout);
input clk;
input[55:0] din;
output[15:0] dout;
reg[15:0] dout;
reg[16:0] q1;
reg[16:0] q2;
reg[16:0] q3;
reg[16:0] q4;
reg[16:0] q5;
reg[16:0] q6;
reg[16:0] q7;
reg[19:0] d_out_tmp;
always @(posedge clk)
begin
// PAJ - grabbed these from the mult_const declarations
q1 <= din[55:48] * 5'b10001;
q2 <= din[47:40] * 5'b11001;
q3 <= din[39:32] * 8'b11000001;
q4 <= din[31:24] * 16'b0000000000000000;
q5 <= din[23:16] * 8'b11000001;
q6 <= din[15:8] * 5'b11001;
q7 <= din[7:0] * 5'b10001;
d_out_tmp <= ({q1[16], q1[16], q1[16], q1}) + ({q2[16], q2[16], q2[16], q2}) + ({q3[16], q3[16], q3[16], q3}) + ({q4[16], q4[16], q4[16], q4}) + ({q5[16], q5[16], q5[16], q5}) + ({q6[16], q6[16], q6[16], q6}) + ({q7[16], q7[16], q7[16], q7});
dout <= d_out_tmp[18:3] ;
end
endmodule
module fltr_compute_h2 (clk, din, dout);
input clk;
input[55:0] din;
output[15:0] dout;
reg[15:0] dout;
reg[16:0] q1;
reg[16:0] q2;
reg[16:0] q3;
reg[16:0] q4;
reg[16:0] q5;
reg[16:0] q6;
reg[16:0] q7;
reg[19:0] d_out_tmp;
always @(posedge clk)
begin
// PAJ - grabbed these from the mult_const declarations
q1 <= din[55:48] * 3'b100;
q2 <= din[47:40] * 6'b101010;
q3 <= din[39:32] * 8'b10100011;
q4 <= din[31:24] * 8'b11111111;
q5 <= din[23:16] * 8'b10100011;
q6 <= din[15:8] * 6'b101010;
q7 <= din[7:0] * 3'b100;
d_out_tmp <= ({q1[16], q1[16], q1[16], q1}) + ({q2[16], q2[16], q2[16], q2}) + ({q3[16], q3[16], q3[16], q3}) + ({q4[16], q4[16], q4[16], q4}) + ({q5[16], q5[16], q5[16], q5}) + ({q6[16], q6[16], q6[16], q6}) + ({q7[16], q7[16], q7[16], q7});
dout <= d_out_tmp[18:3] ;
end
endmodule
module fltr_compute_h3 (clk, din, dout);
input clk;
input[55:0] din;
output[15:0] dout;
reg[15:0] dout;
reg[16:0] q1;
reg[16:0] q2;
reg[16:0] q3;
reg[16:0] q4;
reg[16:0] q5;
reg[16:0] q6;
reg[16:0] q7;
reg[19:0] d_out_tmp;
always @(posedge clk)
begin
// PAJ - grabbed these from the mult_const declarations
q1 <= din[55:48] * 5'b10111;
q2 <= din[47:40] * 7'b1001000;
q3 <= din[39:32] * 8'b10010011;
q4 <= din[31:24] * 16'b0000000000000000;
q5 <= din[23:16] * 8'b10010011;
q6 <= din[15:8] * 7'b1001000;
q7 <= din[7:0] * 5'b10111;
d_out_tmp <= ({q1[16], q1[16], q1[16], q1}) + ({q2[16], q2[16], q2[16], q2}) + ({q3[16], q3[16], q3[16], q3}) + ({q4[16], q4[16], q4[16], q4}) + ({q5[16], q5[16], q5[16], q5}) + ({q6[16], q6[16], q6[16], q6}) + ({q7[16], q7[16], q7[16], q7});
dout <= d_out_tmp[18:3] ;
end
endmodule
module fltr_compute_h4 (clk, din, dout);
input clk;
input[55:0] din;
output[15:0] dout;
reg[15:0] dout;
reg[16:0] q1;
reg[16:0] q2;
reg[16:0] q3;
reg[16:0] q4;
reg[16:0] q5;
reg[16:0] q6;
reg[16:0] q7;
reg[19:0] d_out_tmp;
always @(posedge clk)
begin
// PAJ - grabbed these from the mult_const declarations
q1 <= din[55:48] * 4'b1110;
q2 <= din[47:40] * 6'b101011;
q3 <= din[39:32] * 7'b1010000;
q4 <= din[31:24] * 9'b101000100;
q5 <= din[23:16] * 7'b1010000;
q6 <= din[15:8] * 6'b101011;
q7 <= din[7:0] * 4'b1110;
d_out_tmp <= ({q1[16], q1[16], q1[16], q1}) + ({q2[16], q2[16], q2[16], q2}) + ({q3[16], q3[16], q3[16], q3}) + ({q4[16], q4[16], q4[16], q4}) + ({q5[16], q5[16], q5[16], q5}) + ({q6[16], q6[16], q6[16], q6}) + ({q7[16], q7[16], q7[16], q7});
dout <= d_out_tmp[18:3] ;
end
endmodule
// Discription: this block creates a long fifo
// of lengh of the specified length as an input
// parameter and with a specified width
// date: Oct.7 ,2001
// By: Ahmad darabiha
`define WIDTH_4B 4'b1000
module fifo496 (clk, wen, din, dout);
// parameter WIDTH = 4'b1000;
input clk;
input wen;
input[`WIDTH_4B - 1:0] din;
output[`WIDTH_4B - 1:0] dout;
reg[`WIDTH_4B - 1:0] dout;
reg[`WIDTH_4B-1:0]buff1;
reg[`WIDTH_4B-1:0]buff2;
always @(posedge clk)
begin
if (wen == 1'b1)
begin
buff1 <= din;
buff2 <= buff1;
dout <= buff2;
end
end
endmodule
module fifo316 (clk, wen, din, dout);
// parameter `WIDTH = 4'b1000;
input clk;
input wen;
input[`WIDTH_4B - 1:0] din;
output[`WIDTH_4B - 1:0] dout;
reg[`WIDTH_4B - 1:0] dout;
reg[`WIDTH_4B-1:0]buff1;
reg[`WIDTH_4B-1:0]buff2;
always @(posedge clk)
begin
if (wen == 1'b1)
begin
buff1 <= din;
buff2 <= buff1;
dout <= buff2;
end
end
endmodule
module fifo226 (clk, wen, din, dout);
// parameter `WIDTH = 4'b1000;
input clk;
input wen;
input[`WIDTH_4B - 1:0] din;
output[`WIDTH_4B - 1:0] dout;
reg[`WIDTH_4B - 1:0] dout;
reg[`WIDTH_4B-1:0]buff1;
reg[`WIDTH_4B-1:0]buff2;
always @(posedge clk)
begin
if (wen == 1'b1)
begin
buff1 <= din;
buff2 <= buff1;
dout <= buff2;
end
end
endmodule
module port_bus_2to1 (clk, vidin_addr_reg, svid_comp_switch, vidin_new_data_scld_1_2to3_left,
vidin_data_reg_scld_1_2to3_left_rp, vidin_data_reg_scld_1_2to3_left_ip,
vidin_data_reg_scld_1_2to3_left_rn, vidin_data_reg_scld_1_2to3_left_in,
vidin_data_reg_scld_2_2to3_left_rp, vidin_data_reg_scld_2_2to3_left_ip,
vidin_data_reg_scld_2_2to3_left_rn, vidin_data_reg_scld_2_2to3_left_in,
vidin_data_reg_scld_4_2to3_left_rp, vidin_data_reg_scld_4_2to3_left_ip,
vidin_data_reg_scld_4_2to3_left_rn, vidin_data_reg_scld_4_2to3_left_in,
vidin_data_reg_scld_1_2to3_right_rp, vidin_data_reg_scld_1_2to3_right_ip,
vidin_data_reg_scld_1_2to3_right_rn, vidin_data_reg_scld_1_2to3_right_in,
vidin_data_reg_scld_2_2to3_right_rp, vidin_data_reg_scld_2_2to3_right_ip,
vidin_data_reg_scld_2_2to3_right_rn, vidin_data_reg_scld_2_2to3_right_in,
vidin_data_reg_scld_4_2to3_right_rp, vidin_data_reg_scld_4_2to3_right_ip,
vidin_data_reg_scld_4_2to3_right_rn, vidin_data_reg_scld_4_2to3_right_in,
bus_word_3, bus_word_4, bus_word_5, bus_word_6, counter_out);
input clk;
input[18:0] vidin_addr_reg;
input svid_comp_switch;
input vidin_new_data_scld_1_2to3_left;
input[15:0] vidin_data_reg_scld_1_2to3_left_rp;
input[15:0] vidin_data_reg_scld_1_2to3_left_ip;
input[15:0] vidin_data_reg_scld_1_2to3_left_rn;
input[15:0] vidin_data_reg_scld_1_2to3_left_in;
input[15:0] vidin_data_reg_scld_2_2to3_left_rp;
input[15:0] vidin_data_reg_scld_2_2to3_left_ip;
input[15:0] vidin_data_reg_scld_2_2to3_left_rn;
input[15:0] vidin_data_reg_scld_2_2to3_left_in;
input[15:0] vidin_data_reg_scld_4_2to3_left_rp;
input[15:0] vidin_data_reg_scld_4_2to3_left_ip;
input[15:0] vidin_data_reg_scld_4_2to3_left_rn;
input[15:0] vidin_data_reg_scld_4_2to3_left_in;
input[15:0] vidin_data_reg_scld_1_2to3_right_rp;
input[15:0] vidin_data_reg_scld_1_2to3_right_ip;
input[15:0] vidin_data_reg_scld_1_2to3_right_rn;
input[15:0] vidin_data_reg_scld_1_2to3_right_in;
input[15:0] vidin_data_reg_scld_2_2to3_right_rp;
input[15:0] vidin_data_reg_scld_2_2to3_right_ip;
input[15:0] vidin_data_reg_scld_2_2to3_right_rn;
input[15:0] vidin_data_reg_scld_2_2to3_right_in;
input[15:0] vidin_data_reg_scld_4_2to3_right_rp;
input[15:0] vidin_data_reg_scld_4_2to3_right_ip;
input[15:0] vidin_data_reg_scld_4_2to3_right_rn;
input[15:0] vidin_data_reg_scld_4_2to3_right_in;
output[15:0] bus_word_3;
reg[15:0] bus_word_3;
output[15:0] bus_word_4;
reg[15:0] bus_word_4;
output[15:0] bus_word_5;
reg[15:0] bus_word_5;
output[15:0] bus_word_6;
reg[15:0] bus_word_6;
output[2:0] counter_out;
reg[2:0] counter_out;
reg[15:0] bus_word_3_tmp;
reg[15:0] bus_word_4_tmp;
reg[15:0] bus_word_5_tmp;
reg[15:0] bus_word_6_tmp;
reg[18:0] vidin_addr_reg_tmp;
reg svid_comp_switch_tmp;
wire vidin_new_data_scld_1_2to3_left_tmp;
wire vidin_new_data_scld_2_2to3_left_tmp;
wire vidin_new_data_scld_4_2to3_left_tmp;
wire vidin_new_data_scld_1_2to3_right_tmp;
wire vidin_new_data_scld_2_2to3_right_tmp;
wire vidin_new_data_scld_4_2to3_right_tmp;
reg[3:0] counter;
reg[2:0] counter_out_tmp;
reg[15:0] vidin_data_reg_scld_1_2to3_left_rp_tmp;
reg[15:0] vidin_data_reg_scld_2_2to3_left_rp_tmp;
reg[15:0] vidin_data_reg_scld_4_2to3_left_rp_tmp;
reg[15:0] vidin_data_reg_scld_1_2to3_right_rp_tmp;
reg[15:0] vidin_data_reg_scld_2_2to3_right_rp_tmp;
reg[15:0] vidin_data_reg_scld_4_2to3_right_rp_tmp;
reg[15:0] vidin_data_reg_scld_1_2to3_left_ip_tmp;
reg[15:0] vidin_data_reg_scld_2_2to3_left_ip_tmp;
reg[15:0] vidin_data_reg_scld_4_2to3_left_ip_tmp;
reg[15:0] vidin_data_reg_scld_1_2to3_right_ip_tmp;
reg[15:0] vidin_data_reg_scld_2_2to3_right_ip_tmp;
reg[15:0] vidin_data_reg_scld_4_2to3_right_ip_tmp;
reg[15:0] vidin_data_reg_scld_1_2to3_left_rn_tmp;
reg[15:0] vidin_data_reg_scld_2_2to3_left_rn_tmp;
reg[15:0] vidin_data_reg_scld_4_2to3_left_rn_tmp;
reg[15:0] vidin_data_reg_scld_1_2to3_right_rn_tmp;
reg[15:0] vidin_data_reg_scld_2_2to3_right_rn_tmp;
reg[15:0] vidin_data_reg_scld_4_2to3_right_rn_tmp;
reg[15:0] vidin_data_reg_scld_1_2to3_left_in_tmp;
reg[15:0] vidin_data_reg_scld_2_2to3_left_in_tmp;
reg[15:0] vidin_data_reg_scld_4_2to3_left_in_tmp;
reg[15:0] vidin_data_reg_scld_1_2to3_right_in_tmp;
reg[15:0] vidin_data_reg_scld_2_2to3_right_in_tmp;
reg[15:0] vidin_data_reg_scld_4_2to3_right_in_tmp;
always @(posedge clk)
begin
if (vidin_new_data_scld_1_2to3_left == 1'b1)
begin
counter <= 4'b0001 ;
end
else
begin
case (counter)
4'b0000 :
begin
counter <= 4'b1000 ;
end
4'b0001 :
begin
counter <= 4'b0010 ;
end
4'b0010 :
begin
counter <= 4'b0011 ;
end
4'b0011 :
begin
counter <= 4'b0100 ;
end
4'b0100 :
begin
counter <= 4'b0101 ;
end
4'b0101 :
begin
counter <= 4'b0110 ;
end
4'b0110 :
begin
counter <= 4'b0111 ;
end
4'b0111 :
begin
counter <= 4'b1000 ;
end
4'b1000 :
begin
counter <= 4'b1000 ;
end
default :
begin
counter <= 4'b1000 ;
end
endcase
end
end
always @(posedge clk)
begin
case (counter[2:0])
3'b000 :
begin
counter_out_tmp <= 3'b000 ;
bus_word_3_tmp <= 16'b0000000000000000 ;
bus_word_4_tmp <= 16'b0000000000000000 ;
bus_word_5_tmp <= 16'b0000000000000000 ;
bus_word_6_tmp <= 16'b0000000000000000 ;
end
3'b001 :
begin
counter_out_tmp <= 3'b001 ;
bus_word_3_tmp <= vidin_addr_reg_tmp[15:0] ;
bus_word_4_tmp <= {vidin_addr_reg_tmp[18:16], svid_comp_switch_tmp, 12'b000000000000} ;
bus_word_5_tmp <= 16'b0000000000000000 ;
bus_word_6_tmp <= 16'b0000000000000000 ;
end
3'b010 :
begin
counter_out_tmp <= 3'b010 ;
bus_word_3_tmp <= vidin_data_reg_scld_1_2to3_left_rp_tmp ;
bus_word_4_tmp <= vidin_data_reg_scld_1_2to3_left_ip_tmp ;
bus_word_5_tmp <= vidin_data_reg_scld_1_2to3_left_rn_tmp ;
bus_word_6_tmp <= vidin_data_reg_scld_1_2to3_left_in_tmp ;
end
3'b011 :
begin
counter_out_tmp <= 3'b011 ;
bus_word_3_tmp <= vidin_data_reg_scld_1_2to3_right_rp_tmp ;
bus_word_4_tmp <= vidin_data_reg_scld_1_2to3_right_ip_tmp ;
bus_word_5_tmp <= vidin_data_reg_scld_1_2to3_right_rn_tmp ;
bus_word_6_tmp <= vidin_data_reg_scld_1_2to3_right_in_tmp ;
end
3'b100 :
begin
counter_out_tmp <= 3'b100 ;
bus_word_3_tmp <= vidin_data_reg_scld_2_2to3_left_rp_tmp ;
bus_word_4_tmp <= vidin_data_reg_scld_2_2to3_left_ip_tmp ;
bus_word_5_tmp <= vidin_data_reg_scld_2_2to3_left_rn_tmp ;
bus_word_6_tmp <= vidin_data_reg_scld_2_2to3_left_in_tmp ;
end
3'b101 :
begin
counter_out_tmp <= 3'b101 ;
bus_word_3_tmp <= vidin_data_reg_scld_2_2to3_right_rp_tmp ;
bus_word_4_tmp <= vidin_data_reg_scld_2_2to3_right_ip_tmp ;
bus_word_5_tmp <= vidin_data_reg_scld_2_2to3_right_rn_tmp ;
bus_word_6_tmp <= vidin_data_reg_scld_2_2to3_right_in_tmp ;
end
3'b110 :
begin
counter_out_tmp <= 3'b110 ;
bus_word_3_tmp <= vidin_data_reg_scld_4_2to3_left_rp_tmp ;
bus_word_4_tmp <= vidin_data_reg_scld_4_2to3_left_ip_tmp ;
bus_word_5_tmp <= vidin_data_reg_scld_4_2to3_left_rn_tmp ;
bus_word_6_tmp <= vidin_data_reg_scld_4_2to3_left_in_tmp ;
end
3'b111 :
begin
counter_out_tmp <= 3'b111 ;
bus_word_3_tmp <= vidin_data_reg_scld_4_2to3_right_rp_tmp ;
bus_word_4_tmp <= vidin_data_reg_scld_4_2to3_right_ip_tmp ;
bus_word_5_tmp <= vidin_data_reg_scld_4_2to3_right_rn_tmp ;
bus_word_6_tmp <= vidin_data_reg_scld_4_2to3_right_in_tmp ;
end
endcase
end
always @(posedge clk)
begin
counter_out <= counter_out_tmp ;
bus_word_3 <= bus_word_3_tmp ;
bus_word_4 <= bus_word_4_tmp ;
bus_word_5 <= bus_word_5_tmp ;
bus_word_6 <= bus_word_6_tmp ;
if (vidin_new_data_scld_1_2to3_left == 1'b1)
begin
vidin_addr_reg_tmp <= vidin_addr_reg ;
svid_comp_switch_tmp <= svid_comp_switch ;
vidin_data_reg_scld_1_2to3_left_rp_tmp <= vidin_data_reg_scld_1_2to3_left_rp ;
vidin_data_reg_scld_2_2to3_left_rp_tmp <= vidin_data_reg_scld_2_2to3_left_rp ;
vidin_data_reg_scld_4_2to3_left_rp_tmp <= vidin_data_reg_scld_4_2to3_left_rp ;
vidin_data_reg_scld_1_2to3_right_rp_tmp <= vidin_data_reg_scld_1_2to3_right_rp ;
vidin_data_reg_scld_2_2to3_right_rp_tmp <= vidin_data_reg_scld_2_2to3_right_rp ;
vidin_data_reg_scld_4_2to3_right_rp_tmp <= vidin_data_reg_scld_4_2to3_right_rp ;
vidin_data_reg_scld_1_2to3_left_ip_tmp <= vidin_data_reg_scld_1_2to3_left_ip ;
vidin_data_reg_scld_2_2to3_left_ip_tmp <= vidin_data_reg_scld_2_2to3_left_ip ;
vidin_data_reg_scld_4_2to3_left_ip_tmp <= vidin_data_reg_scld_4_2to3_left_ip ;
vidin_data_reg_scld_1_2to3_right_ip_tmp <= vidin_data_reg_scld_1_2to3_right_ip ;
vidin_data_reg_scld_2_2to3_right_ip_tmp <= vidin_data_reg_scld_2_2to3_right_ip ;
vidin_data_reg_scld_4_2to3_right_ip_tmp <= vidin_data_reg_scld_4_2to3_right_ip ;
vidin_data_reg_scld_1_2to3_left_rn_tmp <= vidin_data_reg_scld_1_2to3_left_rn ;
vidin_data_reg_scld_2_2to3_left_rn_tmp <= vidin_data_reg_scld_2_2to3_left_rn ;
vidin_data_reg_scld_4_2to3_left_rn_tmp <= vidin_data_reg_scld_4_2to3_left_rn ;
vidin_data_reg_scld_1_2to3_right_rn_tmp <= vidin_data_reg_scld_1_2to3_right_rn ;
vidin_data_reg_scld_2_2to3_right_rn_tmp <= vidin_data_reg_scld_2_2to3_right_rn ;
vidin_data_reg_scld_4_2to3_right_rn_tmp <= vidin_data_reg_scld_4_2to3_right_rn ;
vidin_data_reg_scld_1_2to3_left_in_tmp <= vidin_data_reg_scld_1_2to3_left_in ;
vidin_data_reg_scld_2_2to3_left_in_tmp <= vidin_data_reg_scld_2_2to3_left_in ;
vidin_data_reg_scld_4_2to3_left_in_tmp <= vidin_data_reg_scld_4_2to3_left_in ;
vidin_data_reg_scld_1_2to3_right_in_tmp <= vidin_data_reg_scld_1_2to3_right_in ;
vidin_data_reg_scld_2_2to3_right_in_tmp <= vidin_data_reg_scld_2_2to3_right_in ;
vidin_data_reg_scld_4_2to3_right_in_tmp <= vidin_data_reg_scld_4_2to3_right_in ;
end
end
endmodule
`define COEF0_b 29
`define COEF1_b 101
// `define COEF2_b -15
// `define COEF3_b -235
// `define COEF4_b -15
`define COEF2_b 15
`define COEF3_b 235
`define COEF4_b 15
`define COEF5_b 101
`define COEF6_b 29
`define WIDTH_5B 5'b10000
module my_fir_f1 (clk, new_data_rdy, output_data_ready, din, dout);
//coefdata=29,101,-15,-235,-15,101,29;
//parameter `WIDTH = 5'b10000;
input clk;
input[`WIDTH_5B - 1:0] din;
output[28 - 1:0] dout;
reg[28 - 1:0] dout;
input new_data_rdy;
output output_data_ready;
reg output_data_ready;
reg[`WIDTH_5B - 1:0]n_delay_reg1;
reg[`WIDTH_5B - 1:0]n_delay_reg2;
reg[`WIDTH_5B - 1:0]n_delay_reg3;
reg[`WIDTH_5B - 1:0]n_delay_reg4;
reg[`WIDTH_5B - 1:0]n_delay_reg5;
reg[`WIDTH_5B - 1:0]n_delay_reg6;
always @(posedge clk)
begin
if (new_data_rdy == 1'b1)
begin
n_delay_reg1 <= din;
n_delay_reg2 <= n_delay_reg1;
n_delay_reg3 <= n_delay_reg2;
n_delay_reg4 <= n_delay_reg3;
n_delay_reg5 <= n_delay_reg4;
n_delay_reg6 <= n_delay_reg5;
output_data_ready <= 1'b1;
dout <= (din * `COEF0_b) +
(n_delay_reg1 * `COEF1_b) +
(n_delay_reg2 * `COEF2_b) +
(n_delay_reg3 * `COEF3_b) +
(n_delay_reg4 * `COEF4_b) +
(n_delay_reg5 * `COEF5_b) +
(n_delay_reg6 * `COEF6_b);
end
else
begin
output_data_ready <= 1'b0;
end
end
endmodule
`define COEF0_c 4
`define COEF1_c 42
`define COEF2_c 163
`define COEF3_c 255
`define COEF4_c 163
`define COEF5_c 42
`define COEF6_c 4
module my_fir_f2 (clk, new_data_rdy, output_data_ready, din, dout);
//coefdata=4,42,163,255,163,42,4;
// parameter WIDTH = 5'b10000;
input clk;
input[`WIDTH_5B - 1:0] din;
output[28 - 1:0] dout;
reg[28 - 1:0] dout;
input new_data_rdy;
output output_data_ready;
reg output_data_ready;
reg[`WIDTH_5B - 1:0]n_delay_reg1;
reg[`WIDTH_5B - 1:0]n_delay_reg2;
reg[`WIDTH_5B - 1:0]n_delay_reg3;
reg[`WIDTH_5B - 1:0]n_delay_reg4;
reg[`WIDTH_5B - 1:0]n_delay_reg5;
reg[`WIDTH_5B - 1:0]n_delay_reg6;
always @(posedge clk)
begin
if (new_data_rdy == 1'b1)
begin
n_delay_reg1 <= din;
n_delay_reg2 <= n_delay_reg1;
n_delay_reg3 <= n_delay_reg2;
n_delay_reg4 <= n_delay_reg3;
n_delay_reg5 <= n_delay_reg4;
n_delay_reg6 <= n_delay_reg5;
output_data_ready <= 1'b1;
dout <= (din * `COEF0_c) +
(n_delay_reg1 * `COEF1_c) +
(n_delay_reg2 * `COEF2_c) +
(n_delay_reg3 * `COEF3_c) +
(n_delay_reg4 * `COEF4_c) +
(n_delay_reg5 * `COEF5_c) +
(n_delay_reg6 * `COEF6_c);
end
else
begin
output_data_ready <= 1'b0;
end
end
endmodule
// `define COEF0_d -12
// `define COEF1_d -77
// `define COEF2_d -148
`define COEF0_d 12
`define COEF1_d 77
`define COEF2_d 148
`define COEF3_d 0
`define COEF4_d 148
`define COEF5_d 77
`define COEF6_d 12
module my_fir_f3 (clk, new_data_rdy, output_data_ready, din, dout);
//coefdata=-12,-77,-148,0,148,77,12;
// parameter `WIDTH = 5'b10000;
input clk;
input[`WIDTH_5B - 1:0] din;
output[28 - 1:0] dout;
reg[28 - 1:0] dout;
input new_data_rdy;
output output_data_ready;
reg output_data_ready;
reg[`WIDTH_5B - 1:0]n_delay_reg1;
reg[`WIDTH_5B - 1:0]n_delay_reg2;
reg[`WIDTH_5B - 1:0]n_delay_reg3;
reg[`WIDTH_5B - 1:0]n_delay_reg4;
reg[`WIDTH_5B - 1:0]n_delay_reg5;
reg[`WIDTH_5B - 1:0]n_delay_reg6;
always @(posedge clk)
begin
if (new_data_rdy == 1'b1)
begin
n_delay_reg1 <= din;
n_delay_reg2 <= n_delay_reg1;
n_delay_reg3 <= n_delay_reg2;
n_delay_reg4 <= n_delay_reg3;
n_delay_reg5 <= n_delay_reg4;
n_delay_reg6 <= n_delay_reg5;
output_data_ready <= 1'b1;
dout <= (din * `COEF0_d) +
(n_delay_reg1 * `COEF1_d) +
(n_delay_reg2 * `COEF2_d) +
(n_delay_reg4 * `COEF4_d) +
(n_delay_reg5 * `COEF5_d) +
(n_delay_reg6 * `COEF6_d);
end
else
begin
output_data_ready <= 1'b0;
end
end
endmodule
`define COEF0_1 15
//`define COEF0_1 -15
`define COEF1_1 25
`define COEF2_1 193
`define COEF3_1 0
// `define COEF4_1 -193
// `define COEF5_1 -25
`define COEF4_1 193
`define COEF5_1 25
`define COEF6_1 15
module my_fir_h1 (clk, new_data_rdy, output_data_ready, din, dout);
//coefdata=-15,25,193,0,-193,-25,15;
// parameter `WIDTH = 5'b10000;
input clk;
input[`WIDTH_5B - 1:0] din;
output[28 - 1:0] dout;
reg[28 - 1:0] dout;
input new_data_rdy;
output output_data_ready;
reg output_data_ready;
reg[`WIDTH_5B - 1:0]n_delay_reg1;
reg[`WIDTH_5B - 1:0]n_delay_reg2;
reg[`WIDTH_5B - 1:0]n_delay_reg3;
reg[`WIDTH_5B - 1:0]n_delay_reg4;
reg[`WIDTH_5B - 1:0]n_delay_reg5;
reg[`WIDTH_5B - 1:0]n_delay_reg6;
always @(posedge clk)
begin
if (new_data_rdy == 1'b1)
begin
n_delay_reg1 <= din;
n_delay_reg2 <= n_delay_reg1;
n_delay_reg3 <= n_delay_reg2;
n_delay_reg4 <= n_delay_reg3;
n_delay_reg5 <= n_delay_reg4;
n_delay_reg6 <= n_delay_reg5;
output_data_ready <= 1'b1;
dout <= (din * `COEF0_1) +
(n_delay_reg1 * `COEF1_1) +
(n_delay_reg2 * `COEF2_1) +
(n_delay_reg4 * `COEF4_1) +
(n_delay_reg5 * `COEF5_1) +
(n_delay_reg6 * `COEF6_1);
end
else
begin
output_data_ready <= 1'b0;
end
end
endmodule
`define COEF0_2 4
`define COEF1_2 42
`define COEF2_2 163
`define COEF3_2 255
`define COEF4_2 163
`define COEF5_2 42
`define COEF6_2 4
module my_fir_h2 (clk, new_data_rdy, output_data_ready, din, dout);
//coefdata=4,42,163,255,163,42,4;
// parameter `WIDTH = 5'b10000;
input clk;
input[`WIDTH_5B - 1:0] din;
output[28 - 1:0] dout;
reg[28 - 1:0] dout;
input new_data_rdy;
output output_data_ready;
reg output_data_ready;
reg[`WIDTH_5B - 1:0]n_delay_reg1;
reg[`WIDTH_5B - 1:0]n_delay_reg2;
reg[`WIDTH_5B - 1:0]n_delay_reg3;
reg[`WIDTH_5B - 1:0]n_delay_reg4;
reg[`WIDTH_5B - 1:0]n_delay_reg5;
reg[`WIDTH_5B - 1:0]n_delay_reg6;
always @(posedge clk)
begin
if (new_data_rdy == 1'b1)
begin
n_delay_reg1 <= din;
n_delay_reg2 <= n_delay_reg1;
n_delay_reg3 <= n_delay_reg2;
n_delay_reg4 <= n_delay_reg3;
n_delay_reg5 <= n_delay_reg4;
n_delay_reg6 <= n_delay_reg5;
output_data_ready <= 1'b1;
dout <= (din * `COEF0_2) +
(n_delay_reg1 * `COEF1_2) +
(n_delay_reg2 * `COEF2_2) +
(n_delay_reg3 * `COEF3_2) +
(n_delay_reg4 * `COEF4_2) +
(n_delay_reg5 * `COEF5_2) +
(n_delay_reg6 * `COEF6_2);
end
else
begin
output_data_ready <= 1'b0;
end
end
endmodule
// `define COEF0_3 -9
// `define COEF1_3 -56
// `define COEF2_3 -109
`define COEF0_3 9
`define COEF1_3 56
`define COEF2_3 109
`define COEF3_3 0
`define COEF4_3 109
`define COEF5_3 56
`define COEF6_3 9
module my_fir_h3 (clk, new_data_rdy, output_data_ready, din, dout);
//coefdata=-9,-56,-109,0,109,56,9;
// parameter WIDTH = 5'b10000;
input clk;
input[`WIDTH_5B - 1:0] din;
output[28 - 1:0] dout;
reg[28 - 1:0] dout;
input new_data_rdy;
output output_data_ready;
reg output_data_ready;
reg[`WIDTH_5B - 1:0]n_delay_reg1;
reg[`WIDTH_5B - 1:0]n_delay_reg2;
reg[`WIDTH_5B - 1:0]n_delay_reg3;
reg[`WIDTH_5B - 1:0]n_delay_reg4;
reg[`WIDTH_5B - 1:0]n_delay_reg5;
reg[`WIDTH_5B - 1:0]n_delay_reg6;
always @(posedge clk)
begin
if (new_data_rdy == 1'b1)
begin
n_delay_reg1 <= din;
n_delay_reg2 <= n_delay_reg1;
n_delay_reg3 <= n_delay_reg2;
n_delay_reg4 <= n_delay_reg3;
n_delay_reg5 <= n_delay_reg4;
n_delay_reg6 <= n_delay_reg5;
output_data_ready <= 1'b1;
dout <= (din * `COEF0_3) +
(n_delay_reg1 * `COEF1_3) +
(n_delay_reg2 * `COEF2_3) +
(n_delay_reg4 * `COEF4_3) +
(n_delay_reg5 * `COEF5_3) +
(n_delay_reg6 * `COEF6_3);
end
else
begin
output_data_ready <= 1'b0;
end
end
endmodule
// `define COEF0_4 -9
// `define COEF1_4 -56
// `define COEF2_4 -109
`define COEF0_4 9
`define COEF1_4 56
`define COEF2_4 109
`define COEF3_4 0
`define COEF4_4 109
`define COEF5_4 56
`define COEF6_4 9
module my_fir_h4 (clk, new_data_rdy, output_data_ready, din, dout);
//coefdata=-9,-56,-109,0,109,56,9;
// parameter WIDTH = 5'b10000;
input clk;
input[`WIDTH_5B - 1:0] din;
output[28 - 1:0] dout;
reg[28 - 1:0] dout;
input new_data_rdy;
output output_data_ready;
reg output_data_ready;
reg[`WIDTH_5B - 1:0]n_delay_reg1;
reg[`WIDTH_5B - 1:0]n_delay_reg2;
reg[`WIDTH_5B - 1:0]n_delay_reg3;
reg[`WIDTH_5B - 1:0]n_delay_reg4;
reg[`WIDTH_5B - 1:0]n_delay_reg5;
reg[`WIDTH_5B - 1:0]n_delay_reg6;
always @(posedge clk)
begin
if (new_data_rdy == 1'b1)
begin
n_delay_reg1 <= din;
n_delay_reg2 <= n_delay_reg1;
n_delay_reg3 <= n_delay_reg2;
n_delay_reg4 <= n_delay_reg3;
n_delay_reg5 <= n_delay_reg4;
n_delay_reg6 <= n_delay_reg5;
output_data_ready <= 1'b1;
dout <= (din * `COEF0_4) +
(n_delay_reg1 * `COEF1_4) +
(n_delay_reg2 * `COEF2_4) +
(n_delay_reg4 * `COEF4_4) +
(n_delay_reg5 * `COEF5_4) +
(n_delay_reg6 * `COEF6_4);
end
else
begin
output_data_ready <= 1'b0;
end
end
endmodule