204 lines
4.1 KiB
Verilog
204 lines
4.1 KiB
Verilog
/* Write a waveform to a DAC. */
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/* TODO: Add "how many values to go" counter. */
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module waveform #(
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parameter DAC_WID = 24,
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parameter DAC_WID_SIZ = 5,
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parameter DAC_POLARITY = 0,
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parameter DAC_PHASE = 1,
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parameter DAC_CYCLE_HALF_WAIT = 10,
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parameter DAC_CYCLE_HALF_WAIT_SIZ = 4,
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parameter DAC_SS_WAIT = 5,
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parameter DAC_SS_WAIT_SIZ = 3,
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parameter TIMER_WID = 32,
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parameter WORD_WID = 20,
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parameter WORD_AMNT_WID = 11,
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parameter [WORD_AMNT_WID-1:0] WORD_AMNT = 2047,
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parameter RAM_WID = 32,
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parameter RAM_WORD_WID = 16,
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parameter RAM_WORD_INCR = 2
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) (
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input clk,
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input rst_L,
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input arm,
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input halt_on_finish,
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/* NOTE:
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* finished is used when a module wants to wait for a
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* waveform with the halt_on_finish flag finishes
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* one waveform.
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*
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* running is used when a module wants to know when
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* the waveform module has finished running after
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* deasserting arm.
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*
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* When in doubt, deassert arm and wait for running
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* to be deasserted.
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*/
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output reg finished,
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output running,
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input [TIMER_WID-1:0] time_to_wait,
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/* User interface */
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input refresh_start,
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input [RAM_WID-1:0] start_addr,
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output reg refresh_finished,
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/* RAM interface */
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output reg [RAM_WID-1:0] ram_dma_addr,
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input [RAM_WORD_WID-1:0] ram_word,
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output reg ram_read,
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input ram_valid,
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/* DAC wires. */
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output mosi,
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output sck,
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output ss_L
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);
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wire [WORD_WID-1:0] word;
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reg word_next = 0;
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wire word_ok;
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wire word_last;
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reg word_rst = 1;
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bram_interface #(
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.WORD_WID(WORD_WID),
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.WORD_AMNT_WID(WORD_AMNT_WID),
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.WORD_AMNT(WORD_AMNT),
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.RAM_WID(RAM_WID),
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.RAM_WORD_WID(RAM_WORD_WID),
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.RAM_WORD_INCR(RAM_WORD_INCR)
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) bram (
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.clk(clk),
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.rst_L(rst_L),
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.word(word),
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.word_next(word_next),
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.word_last(word_last),
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.word_ok(word_ok),
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.word_rst(word_rst),
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.refresh_start(refresh_start),
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.start_addr(start_addr),
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.refresh_finished(refresh_finished),
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.ram_dma_addr(ram_dma_addr),
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.ram_word(ram_word),
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.ram_read(ram_read),
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.ram_valid(ram_valid)
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);
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wire dac_finished;
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reg dac_arm = 0;
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reg [DAC_WID-1:0] dac_out = 0;
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wire dac_ready_to_arm_unused;
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spi_master_ss_no_read #(
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.WID(DAC_WID),
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.WID_LEN(DAC_WID_SIZ),
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.CYCLE_HALF_WAIT(DAC_CYCLE_HALF_WAIT),
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.TIMER_LEN(DAC_CYCLE_HALF_WAIT_SIZ),
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.POLARITY(DAC_POLARITY),
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.PHASE(DAC_PHASE),
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.SS_WAIT(DAC_SS_WAIT),
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.SS_WAIT_TIMER_LEN(DAC_SS_WAIT_SIZ)
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) dac_master (
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.clk(clk),
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.rst_L(rst_L),
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.ready_to_arm(dac_ready_to_arm_unused),
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.mosi(mosi),
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.sck_wire(sck),
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.ss_L(ss_L),
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.finished(dac_finished),
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.arm(dac_arm),
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.to_slave(dac_out)
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);
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localparam WAIT_ON_ARM = 0;
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localparam DO_WAIT = 1;
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localparam RECV_WORD = 2;
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localparam WAIT_ON_DAC = 3;
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localparam WAIT_ON_DISARM = 4;
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reg [2:0] state = WAIT_ON_ARM;
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reg [TIMER_WID-1:0] wait_timer = 0;
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assign running = state != WAIT_ON_ARM;
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always @ (posedge clk) if (!rst_L) begin
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state <= WAIT_ON_ARM;
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wait_timer <= 0;
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finished <= 0;
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word_rst <= 1;
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word_next <= 0;
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dac_out <= 0;
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dac_arm <= 0;
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end else case (state)
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WAIT_ON_ARM: begin
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finished <= 0;
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if (arm) begin
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state <= DO_WAIT;
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word_rst <= 0;
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wait_timer <= time_to_wait;
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end else begin
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word_rst <= 1;
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end
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end
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DO_WAIT: if (!arm) begin
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state <= WAIT_ON_ARM;
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end else if (wait_timer == 0) begin
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word_next <= 1;
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state <= RECV_WORD;
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wait_timer <= time_to_wait;
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end else begin
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wait_timer <= wait_timer - 1;
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end
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RECV_WORD: begin
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`ifdef VERILATOR_SIMULATION
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if (!word_next) begin
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$error("RECV_WORD: word_next not asserted means hang");
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end
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`endif
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if (word_ok) begin
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dac_out <= {4'b0001, word};
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dac_arm <= 1;
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word_next <= 0;
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state <= WAIT_ON_DAC;
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end
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end
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WAIT_ON_DAC: begin
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`ifdef VERILATOR_SIMULATION
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if (!dac_arm) begin
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$error("WAIT_ON_DAC: dac_arm not asserted means hang");
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end
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`endif
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if (dac_finished) begin
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dac_arm <= 0;
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/* Was the last word read *the* last word? */
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if (word_last && halt_on_finish) begin
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state <= WAIT_ON_DISARM;
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finished <= 1;
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end else begin
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state <= DO_WAIT;
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wait_timer <= time_to_wait;
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end
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end
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end
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WAIT_ON_DISARM: if (!arm) begin
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state <= WAIT_ON_ARM;
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end
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endcase
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/* Warning! This will crash verilator with a segmentation fault!
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`ifdef VERILATOR
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initial begin
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$dumpfile("waveform.fst");
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$dumpvars();
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end
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`endif
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*/
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endmodule
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`undefineall
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