[27] | 1 | module uwt_bior31
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| 2 | #(
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| 3 | parameter L = 1 // transform level
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| 4 | )
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| 5 | (
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| 6 | input wire clk, reset,
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[72] | 7 | input wire data_ready,
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[27] | 8 | input wire [31:0] x,
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| 9 | output wire [31:0] d,
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| 10 | output wire [31:0] a,
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| 11 | output wire [31:0] peak,
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| 12 | output wire [1:0] flag
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| 13 | );
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| 14 |
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| 15 | localparam index1 = 1 << (L - 1);
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| 16 | localparam index2 = 2 << (L - 1);
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| 17 | localparam index3 = 3 << (L - 1);
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[84] | 18 | localparam peak_index = ((index3 + 1) >> 1) + 1;
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[27] | 19 | localparam peak_shift = ((L - 1) << 1) + (L - 1);
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| 20 | localparam zero = 32'h80000000;
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| 21 |
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| 22 | // Tapped delay line
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| 23 | reg [31:0] tap [index3:0];
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| 24 |
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| 25 | reg [31:0] d_reg, d_next;
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| 26 | reg [31:0] a_reg, a_next;
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| 27 | reg [31:0] peak_reg, peak_next;
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| 28 |
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[84] | 29 | reg [31:0] tmp1_reg, tmp1_next;
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| 30 | reg [31:0] tmp2_reg, tmp2_next;
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| 31 |
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| 32 | reg less_reg, less_next;
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| 33 | reg more_reg, more_next;
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| 34 |
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[27] | 35 | reg [1:0] flag_reg;
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| 36 |
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| 37 | integer i;
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| 38 |
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[72] | 39 | always @(posedge clk)
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[27] | 40 | begin
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| 41 | if (reset)
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| 42 | begin
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| 43 | d_reg <= 0;
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| 44 | a_reg <= 0;
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| 45 | peak_reg <= 0;
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| 46 | flag_reg <= 0;
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[84] | 47 | tmp1_reg <= 0;
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| 48 | tmp2_reg <= 0;
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| 49 | less_reg <= 1'b0;
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| 50 | more_reg <= 1'b0;
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[27] | 51 |
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| 52 | for(i = 0; i <= index3; i = i + 1)
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| 53 | begin
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| 54 | tap[i] <= 0;
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| 55 | end
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| 56 | end
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[72] | 57 | else if (data_ready)
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[27] | 58 | begin
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| 59 | d_reg <= d_next;
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| 60 | a_reg <= a_next;
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| 61 | peak_reg <= peak_next;
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| 62 |
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[84] | 63 | tmp1_reg <= tmp1_next;
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| 64 | tmp2_reg <= tmp2_next;
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| 65 | less_reg <= less_next;
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| 66 | more_reg <= more_next;
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| 67 |
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| 68 | flag_reg[0] <= (more_reg) & (~more_next);
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| 69 | flag_reg[1] <= (less_reg) & (~less_next);
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| 70 |
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[27] | 71 | // Tapped delay line: shift one
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| 72 | for(i = 0; i < index3; i = i + 1)
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| 73 | begin
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| 74 | tap[i+1] <= tap[i];
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| 75 | end
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| 76 |
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| 77 | // Input in register 0
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| 78 | tap[0] <= x;
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| 79 | end
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| 80 | end
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| 81 |
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| 82 | always @*
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| 83 | begin
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| 84 | // Compute d and a with the filter coefficients.
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| 85 | // The coefficients are [1, 3, -3, -1] and [1, 3, 3, 1]
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| 86 |
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[84] | 87 | tmp1_next = tap[index3] + {tap[index2][30:0], 1'b0} + tap[index2];
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| 88 | tmp2_next = {tap[index1][30:0], 1'b0} + tap[index1] + tap[0];
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| 89 |
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| 90 | d_next = zero - tmp1_reg + tmp2_reg;
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| 91 | a_next = tmp1_reg + tmp2_reg;
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| 92 |
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| 93 | more_next = (d_reg > zero);
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| 94 | less_next = (d_reg < zero);
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| 95 |
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| 96 | /*
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[27] | 97 | d_next = zero - (tap[index3])
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| 98 | - (tap[index2] << 1) - tap[index2]
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| 99 | + (tap[index1] << 1) + tap[index1]
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| 100 | + (tap[0]);
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| 101 |
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| 102 | a_next = (tap[index3])
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[84] | 103 | + {tap[index2] << 1} + tap[index2]
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[27] | 104 | + (tap[index1] << 1) + tap[index1]
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| 105 | + (tap[0]);
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[84] | 106 | */
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[27] | 107 | peak_next = (tap[peak_index] >> peak_shift);
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| 108 | end
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| 109 |
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| 110 | // output logic
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| 111 | assign d = d_reg;
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| 112 | assign a = a_reg;
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| 113 | assign peak = peak_reg;
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| 114 | assign flag = flag_reg;
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| 115 |
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| 116 | endmodule
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