[27] | 1 | module oscilloscope
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| 2 | (
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| 3 | input wire clk, reset,
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| 4 | input wire data_ready,
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| 5 | input wire [15:0] raw_data, uwt_data, threshold,
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| 6 | input wire [9:0] address,
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| 7 | output wire [9:0] start_address,
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| 8 | output wire [15:0] q
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| 9 | );
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| 10 |
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| 11 | // signal declaration
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| 12 | reg [3:0] state_reg, state_next;
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[51] | 13 | reg flag_reg, flag_next;
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[27] | 14 | reg wren_reg, wren_next;
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| 15 | reg [9:0] addr_reg, addr_next;
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| 16 | reg [15:0] data_reg, data_next;
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| 17 |
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| 18 | reg trig_reg, trig_next;
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| 19 | reg [9:0] trig_addr_reg, trig_addr_next;
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| 20 | reg [9:0] counter_reg, counter_next;
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| 21 |
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| 22 | wire [15:0] q_wire;
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| 23 |
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[51] | 24 | wire [15:0] data_wire;
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| 25 |
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| 26 | assign data_wire = (flag_reg) ? raw_data : data_reg;
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[27] | 27 |
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[51] | 28 | altsyncram #(
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| 29 | .address_reg_b("CLOCK0"),
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| 30 | .clock_enable_input_a("BYPASS"),
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| 31 | .clock_enable_input_b("BYPASS"),
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| 32 | .clock_enable_output_a("BYPASS"),
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| 33 | .clock_enable_output_b("BYPASS"),
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| 34 | .intended_device_family("Cyclone III"),
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| 35 | .lpm_type("altsyncram"),
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| 36 | .numwords_a(1024),
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| 37 | .numwords_b(1024),
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| 38 | .operation_mode("DUAL_PORT"),
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| 39 | .outdata_aclr_b("NONE"),
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| 40 | .outdata_reg_b("UNREGISTERED"),
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| 41 | .power_up_uninitialized("FALSE"),
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| 42 | .read_during_write_mode_mixed_ports("OLD_DATA"),
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| 43 | .widthad_a(10),
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| 44 | .widthad_b(10),
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| 45 | .width_a(16),
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| 46 | .width_b(16),
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| 47 | .width_byteena_a(1)) osc_ram_unit(
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| 48 | .wren_a(wren_reg),
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[52] | 49 | .clock0(clk),
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[51] | 50 | .address_a(addr_reg),
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| 51 | .address_b(address),
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| 52 | .data_a(data_wire),
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| 53 | .q_b(q_wire),
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| 54 | .aclr0(1'b0),
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| 55 | .aclr1(1'b0),
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| 56 | .addressstall_a(1'b0),
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| 57 | .addressstall_b(1'b0),
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| 58 | .byteena_a(1'b1),
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| 59 | .byteena_b(1'b1),
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| 60 | .clock1(1'b1),
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| 61 | .clocken0(1'b1),
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| 62 | .clocken1(1'b1),
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| 63 | .clocken2(1'b1),
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| 64 | .clocken3(1'b1),
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| 65 | .data_b({16{1'b1}}),
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| 66 | .eccstatus(),
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| 67 | .q_a(),
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| 68 | .rden_a(1'b1),
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| 69 | .rden_b(1'b1),
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| 70 | .wren_b(1'b0));
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| 71 |
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[27] | 72 | // body
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| 73 | always @(posedge clk)
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| 74 | begin
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| 75 | if (reset)
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| 76 | begin
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| 77 | state_reg <= 4'b1;
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[51] | 78 | flag_reg <= 1'b0;
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| 79 | wren_reg <= 1'b1;
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| 80 | addr_reg <= 10'd0;
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| 81 | data_reg <= 16'd0;
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| 82 | trig_reg <= 1'b0;
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| 83 | trig_addr_reg <= 10'd0;
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| 84 | counter_reg <= 10'd0;
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[27] | 85 | end
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| 86 | else
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| 87 | begin
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| 88 | state_reg <= state_next;
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[51] | 89 | flag_reg <= flag_next;
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[27] | 90 | wren_reg <= wren_next;
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| 91 | addr_reg <= addr_next;
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| 92 | data_reg <= data_next;
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| 93 | trig_reg <= trig_next;
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| 94 | trig_addr_reg <= trig_addr_next;
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| 95 | counter_reg <= counter_next;
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| 96 | end
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| 97 | end
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| 98 |
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| 99 | always @*
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| 100 | begin
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| 101 | state_next = state_reg;
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[51] | 102 | flag_next = flag_reg;
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[27] | 103 | wren_next = wren_reg;
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| 104 | addr_next = addr_reg;
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| 105 | data_next = data_reg;
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| 106 | trig_next = trig_reg;
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| 107 | trig_addr_next = trig_addr_reg;
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| 108 | counter_next = counter_reg;
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| 109 |
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| 110 | case (state_reg)
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[51] | 111 | 0:
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[27] | 112 | begin
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[51] | 113 | // nothing to do
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| 114 | state_next = 4'b0;
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| 115 | flag_next = 1'b0;
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| 116 | wren_next = 1'b0;
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| 117 | addr_next = 10'd0;
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| 118 | data_next = 16'd0;
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| 119 | counter_next = 10'd0;
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[27] | 120 | end
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| 121 |
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[51] | 122 | 1:
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[27] | 123 | begin
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| 124 | // write zeros
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| 125 | if (&addr_reg)
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| 126 | begin
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[51] | 127 | flag_next = 1'b1;
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[27] | 128 | wren_next = 1'b0;
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[51] | 129 | state_next = 4'd2;
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[27] | 130 | end
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| 131 | else
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| 132 | begin
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| 133 | addr_next = addr_reg + 10'd1;
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| 134 | end
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| 135 | end
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| 136 |
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[51] | 137 | 2:
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| 138 | begin
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| 139 | if (data_ready)
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| 140 | begin
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| 141 | wren_next = 1'b1;
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| 142 | state_next = 4'd3;
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| 143 | end
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| 144 | end
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| 145 |
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[27] | 146 | 3:
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| 147 | begin
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[51] | 148 | // stop write
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| 149 | wren_next = 1'b0;
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| 150 | addr_next = addr_reg + 10'd1;
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| 151 |
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[27] | 152 | if (&counter_reg)
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| 153 | begin
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[51] | 154 | flag_next = 1'b0;
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[27] | 155 | state_next = 4'd0;
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| 156 | end
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[51] | 157 | else
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[27] | 158 | begin
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[51] | 159 | state_next = 4'd2;
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| 160 |
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[27] | 161 | if ((~trig_reg)
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| 162 | & (counter_reg == 10'd512)
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| 163 | & (uwt_data >= threshold))
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| 164 | begin
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| 165 | // trigger
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| 166 | trig_next = 1'b1;
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| 167 | trig_addr_next = addr_reg;
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| 168 | end
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[51] | 169 |
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| 170 | if (trig_reg | (counter_reg < 10'd512))
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| 171 | begin
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| 172 | counter_next = counter_reg + 10'd1;
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| 173 | end
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[27] | 174 | end
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| 175 | end
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| 176 |
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[51] | 177 | default:
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[27] | 178 | begin
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[51] | 179 | state_next = 4'b0;
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| 180 | flag_next = 1'b0;
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[42] | 181 | wren_next = 1'b0;
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[51] | 182 | addr_next = 10'd0;
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| 183 | data_next = 16'd0;
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| 184 | counter_next = 10'd0;
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[27] | 185 | end
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| 186 | endcase
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| 187 | end
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| 188 |
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| 189 | // output logic
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[45] | 190 | assign q = q_wire;
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[52] | 191 | assign start_address = trig_reg ? (trig_addr_reg ^ 10'h200) + 10'd1: addr_reg + 10'd1;
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[27] | 192 |
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| 193 | endmodule
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