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161 lines
3.6 KiB
Verilog
161 lines
3.6 KiB
Verilog
`include "common_defs.v"
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module rotate
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(
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input clock,
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input enable,
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input reset,
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input [15:0] in_i,
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input [15:0] in_q,
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// [-PI, PI]
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// scaled up by ATAN_LUT_SCALE_SHIFT
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input signed [31:0] phase,
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input input_strobe,
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output [`ROTATE_LUT_LEN_SHIFT-1:0] rot_addr,
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input [31:0] rot_data,
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output signed [15:0] out_i,
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output signed [15:0] out_q,
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output output_strobe
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);
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`include "common_params.v"
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reg [31:0] phase_abs;
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reg [2:0] quadrant;
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reg [2:0] quadrant_delayed;
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wire [15:0] in_i_delayed;
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wire [15:0] in_q_delayed;
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reg [31:0] actual_phase;
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wire [15:0] raw_rot_i;
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wire [15:0] raw_rot_q;
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reg [15:0] rot_i;
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reg [15:0] rot_q;
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wire mult_in_stb;
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wire [31:0] p_i;
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wire [31:0] p_q;
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assign out_i = p_i[`ROTATE_LUT_SCALE_SHIFT+15:`ROTATE_LUT_SCALE_SHIFT];
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assign out_q = p_q[`ROTATE_LUT_SCALE_SHIFT+15:`ROTATE_LUT_SCALE_SHIFT];
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assign rot_addr = actual_phase[`ROTATE_LUT_LEN_SHIFT-1:0];
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assign raw_rot_i = rot_data[31:16];
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assign raw_rot_q = rot_data[15:0];
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delayT #(.DATA_WIDTH(32), .DELAY(4)) in_delay_inst (
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.clock(clock),
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.reset(reset),
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.data_in({in_i, in_q}),
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.data_out({in_i_delayed, in_q_delayed})
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);
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delayT #(.DATA_WIDTH(1), .DELAY(4)) mult_delay_inst (
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.clock(clock),
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.reset(reset),
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.data_in(input_strobe),
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.data_out(mult_in_stb)
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);
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complex_mult mult_inst (
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.clock(clock),
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.enable(enable),
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.reset(reset),
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.a_i(in_i_delayed),
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.a_q(in_q_delayed),
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.b_i(rot_i),
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.b_q(rot_q),
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.input_strobe(mult_in_stb),
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.p_i(p_i),
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.p_q(p_q),
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.output_strobe(output_strobe)
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);
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integer i;
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always @(posedge clock) begin
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if (reset) begin
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actual_phase <= 0;
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rot_i <= 0;
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rot_q <= 0;
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phase_abs <= 0;
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end else if (enable) begin
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`ifdef DEBUG_PRINT
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if (phase > PI || phase < -PI) begin
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$display("[WARN] phase overflow: %d\n", phase);
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end
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`endif
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// cycle 1
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phase_abs <= phase[31]? ~phase+1: phase;
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// cycle 2
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if (phase_abs <= PI_4) begin
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quadrant <= {phase[31], 2'b00};
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actual_phase <= phase_abs;
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end else if (phase_abs <= PI_2) begin
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quadrant <= {phase[31], 2'b01};
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actual_phase <= PI_2 - phase_abs;
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end else if (phase_abs <= PI_3_4) begin
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quadrant <= {phase[31], 2'b10};
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actual_phase <= phase_abs - PI_2;
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end else begin
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quadrant <= {phase[31], 2'b11};
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actual_phase <= PI - phase_abs;
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end
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// cycle 3
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// wait for raw_rot_i
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quadrant_delayed <= quadrant;
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// cycle 4
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case(quadrant_delayed)
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3'b000: begin
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rot_i <= raw_rot_i;
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rot_q <= raw_rot_q;
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end
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3'b001: begin
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rot_i <= raw_rot_q;
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rot_q <= raw_rot_i;
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end
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3'b010: begin
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rot_i <= ~raw_rot_q+1;
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rot_q <= raw_rot_i;
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end
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3'b011: begin
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rot_i <= ~raw_rot_i+1;
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rot_q <= raw_rot_q;
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end
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3'b100: begin
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rot_i <= raw_rot_i;
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rot_q <= ~raw_rot_q+1;
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end
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3'b101: begin
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rot_i <= raw_rot_q;
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rot_q <= ~raw_rot_i+1;
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end
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3'b110: begin
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rot_i <= ~raw_rot_q+1;
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rot_q <= ~raw_rot_i+1;
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end
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3'b111: begin
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rot_i <= ~raw_rot_i+1;
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rot_q <= ~raw_rot_q+1;
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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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