mirror of
https://github.com/jhshi/openofdm.git
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239 lines
6.7 KiB
Verilog
239 lines
6.7 KiB
Verilog
/*
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* OFDM deinterleaver
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*/
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module deinterleave
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(
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input clock,
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input reset,
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input enable,
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input [7:0] rate,
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input [5:0] in_bits,
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input [5:0] soft_in_bits,
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input [3:0] soft_in_bits_pos,
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input input_strobe,
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input soft_decoding,
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output reg [5:0] out_bits,
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output [1:0] erase,
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output output_strobe
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);
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wire ht = rate[7];
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wire [5:0] num_data_carrier = ht? 52: 48;
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wire [5:0] half_data_carrier = ht? 26: 24;
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reg [5:0] addra;
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reg [5:0] addrb;
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reg [11:0] lut_key;
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wire [21:0] lut_out;
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wire [21:0] lut_out_delayed;
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reg lut_valid;
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wire lut_valid_delayed;
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assign erase[0] = lut_out_delayed[21];
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assign erase[1] = lut_out_delayed[20];
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wire [2:0] lut_bita = lut_out_delayed[7:5];
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wire [2:0] lut_bitb = lut_out_delayed[4:2];
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wire [5:0] bit_outa;
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wire [5:0] bit_outb;
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wire [5:0] soft_bit_outa;
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wire [5:0] soft_bit_outb;
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wire [3:0] soft_bit_outa_pos;
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wire [3:0] soft_bit_outb_pos;
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// Soft and hard decoding
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wire [4:0] MOD_TYPE = {rate[7], rate[3:0]};
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wire BPSK = MOD_TYPE == 5'b01011 || MOD_TYPE == 5'b01111 || MOD_TYPE == 5'b10000;
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wire QPSK = MOD_TYPE == 5'b01010 || MOD_TYPE == 5'b01110 || MOD_TYPE == 5'b10001 || MOD_TYPE == 5'b10010;
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wire QAM_16 = MOD_TYPE == 5'b01001 || MOD_TYPE == 5'b01101 || MOD_TYPE == 5'b10011 || MOD_TYPE == 5'b10100;
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wire QAM_64 = MOD_TYPE == 5'b01000 || MOD_TYPE == 5'b01100 || MOD_TYPE == 5'b10101 || MOD_TYPE == 5'b10110 || MOD_TYPE == 5'b10111;
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wire [2:0] N_BPSC_DIV_2 = BPSK ? 3'b000 : (QPSK ? 3'b001 : (QAM_16 ? 3'b010: (QAM_64 ? 3'b011 : 3'b111)));
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always @* begin
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if(lut_valid_delayed == 1'b1) begin
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// Soft decoding
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if(soft_decoding && (BPSK || QPSK || QAM_16 || QAM_64)) begin
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if(BPSK || lut_bita < N_BPSC_DIV_2) begin
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if(lut_bita[1:0] == soft_bit_outa_pos[1:0]) begin
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out_bits[2:0] = soft_bit_outa[2:0];
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end else begin
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if(bit_outa[lut_bita] == 1'b1)
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out_bits[2:0] = 3'b111;
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else
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out_bits[2:0] = 3'b011;
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end
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end else begin
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if(lut_bita == ({1'b0,soft_bit_outa_pos[3:2]} + N_BPSC_DIV_2)) begin
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out_bits[2:0] = soft_bit_outa[5:3];
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end else begin
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if(bit_outa[lut_bita] == 1'b1)
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out_bits[2:0] = 3'b111;
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else
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out_bits[2:0] = 3'b011;
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end
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end
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if(BPSK || lut_bitb < N_BPSC_DIV_2) begin
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if(lut_bitb[1:0] == soft_bit_outb_pos[1:0]) begin
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out_bits[5:3] = soft_bit_outb[2:0];
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end else begin
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if(bit_outb[lut_bitb] == 1'b1)
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out_bits[5:3] = 3'b111;
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else
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out_bits[5:3] = 3'b011;
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end
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end else begin
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if(lut_bitb == ({1'b0,soft_bit_outb_pos[3:2]} + N_BPSC_DIV_2)) begin
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out_bits[5:3] = soft_bit_outb[5:3];
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end else begin
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if(bit_outb[lut_bitb] == 1'b1)
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out_bits[5:3] = 3'b111;
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else
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out_bits[5:3] = 3'b011;
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end
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end
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// Hard decoding
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end else begin
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if(bit_outa[lut_bita] == 1'b1)
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out_bits[2:0] = 3'b111;
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else
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out_bits[2:0] = 3'b011;
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if(bit_outb[lut_bitb] == 1'b1)
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out_bits[5:3] = 3'b111;
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else
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out_bits[5:3] = 3'b011;
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end
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end else begin
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out_bits[2:0] = 0;
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out_bits[5:3] = 0;
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end
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end
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//assign out_bits[0] = lut_valid_delayed? bit_outa[lut_bita]: 0;
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//assign out_bits[1] = lut_valid_delayed? bit_outb[lut_bitb]: 0;
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assign output_strobe = enable & lut_valid_delayed & lut_out_delayed[1];
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wire [5:0] lut_addra = lut_out[19:14];
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wire [5:0] lut_addrb = lut_out[13:8];
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wire lut_done = lut_out[0];
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reg ram_delay;
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reg ht_delayed;
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ram_2port #(.DWIDTH(16), .AWIDTH(6)) ram_inst (
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.clka(clock),
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.ena(1),
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.wea(input_strobe),
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.addra(addra),
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.dia({in_bits, soft_in_bits, soft_in_bits_pos}),
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.doa({bit_outa,soft_bit_outa,soft_bit_outa_pos}),
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.clkb(clock),
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.enb(1),
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.web(0),
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.addrb(addrb),
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.dib(32'hFFFF),
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.dob({bit_outb,soft_bit_outb,soft_bit_outb_pos})
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);
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deinter_lut lut_inst (
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.clka(clock),
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.addra(lut_key),
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.douta(lut_out)
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);
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delayT #(.DATA_WIDTH(23), .DELAY(2)) delay_inst (
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.clock(clock),
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.reset(reset),
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.data_in({lut_valid, lut_out}),
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.data_out({lut_valid_delayed, lut_out_delayed})
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);
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localparam S_INPUT = 0;
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localparam S_GET_BASE = 1;
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localparam S_OUTPUT = 2;
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reg [1:0] state;
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always @(posedge clock) begin
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if (reset) begin
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addra <= num_data_carrier>>1;
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addrb <= 0;
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lut_key <= 0;
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lut_valid <= 0;
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ht_delayed <= 0;
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ram_delay <= 0;
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state <= S_INPUT;
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end else if (enable) begin
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ht_delayed <= ht;
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if (ht != ht_delayed) begin
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addra <= num_data_carrier>>1;
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end
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case(state)
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S_INPUT: begin
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if (input_strobe) begin
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if (addra == half_data_carrier-1) begin
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lut_key <= {7'b0, ht, rate[3:0]};
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ram_delay <= 0;
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lut_valid <= 0;
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state <= S_GET_BASE;
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end else begin
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if (addra == num_data_carrier-1) begin
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addra <= 0;
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end else begin
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addra <= addra + 1;
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end
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end
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end
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end
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S_GET_BASE: begin
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if (ram_delay) begin
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lut_key <= lut_out;
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ram_delay <= 0;
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state <= S_OUTPUT;
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end else begin
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ram_delay <= 1;
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end
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end
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S_OUTPUT: begin
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if (ram_delay) begin
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addra <= lut_addra;
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addrb <= lut_addrb;
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if (lut_done) begin
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lut_key <= 0;
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lut_valid <= 0;
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state <= S_INPUT;
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end else begin
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lut_valid <= 1;
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lut_key <= lut_key + 1;
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end
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end else begin
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ram_delay <= 1;
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lut_valid <= 1;
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lut_key <= lut_key + 1;
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end
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end
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default: begin
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end
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endcase
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end
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end
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endmodule
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