`include "control_loop_cmds.vh" module control_loop_sim_top #( parameter ADC_WID = 18, parameter ADC_WID_SIZ = 5, parameter ADC_POLARITY = 1, parameter ADC_PHASE = 0, parameter DAC_POLARITY = 0, parameter DAC_PHASE = 1, parameter DAC_DATA_WID = 20, parameter DAC_WID = 24, parameter DAC_WID_SIZ = 5, parameter CONSTS_WHOLE = 21, parameter CONSTS_FRAC = 43, `define CONSTS_WID (CONSTS_WHOLE + CONSTS_FRAC) parameter CONSTS_SIZ = 7, parameter DELAY_WID = 16 )( input clk, input rst_L, output in_loop, output [DAC_DATA_WID-1:0] curset, output dac_err, input [ADC_WID-1:0] measured_value, output request, input fulfilled, output adc_err, input [`CONSTS_WID-1:0] word_into_loop, output [`CONSTS_WID-1:0] word_outof_loop, input start_cmd, output finish_cmd, input [`CONTROL_LOOP_CMD_WIDTH-1:0] cmd ); /* Emulate a control loop environment with simulator controlled SPI interfaces. */ wire adc_miso; wire adc_sck; wire adc_ss_L; /* ADC */ adc_sim #( .WID(ADC_WID), .WID_LEN(5), .POLARITY(ADC_POLARITY), .PHASE(ADC_PHASE) ) adc ( .clk(clk), .rst_L(rst_L), .indat(measured_value), .request(request), .fulfilled(fulfilled), .err(adc_err), .miso(adc_miso), .sck(adc_sck), .ss_L(adc_ss_L) ); wire dac_miso; wire dac_mosi; wire dac_ss_L; wire dac_sck; /* DAC */ dac_sim #( .WID(DAC_WID), .DATA_WID(DAC_DATA_WID), .WID_LEN(5), .POLARITY(DAC_POLARITY), .PHASE(DAC_PHASE) ) dac ( .clk(clk), .rst_L(rst_L), .curset(curset), .mosi(dac_mosi), .miso(dac_miso), .sck(dac_sck), .ss_L(dac_ss_L), .err(dac_err) ); control_loop #( .ADC_WID(ADC_WID), .ADC_WID_SIZ(ADC_WID_SIZ), .ADC_POLARITY(ADC_POLARITY), .ADC_PHASE(ADC_PHASE), /* Keeping cycle half wait and conv wait the same * since it doesn't matter for this simulation */ .CONSTS_WHOLE(CONSTS_WHOLE), .CONSTS_FRAC(CONSTS_FRAC), .CONSTS_SIZ(CONSTS_SIZ), .DELAY_WID(DELAY_WID), .DAC_WID(DAC_WID), .DAC_WID_SIZ(DAC_WID_SIZ), .DAC_DATA_WID(DAC_DATA_WID), .DAC_POLARITY(DAC_POLARITY), .DAC_PHASE(DAC_PHASE) ) cloop ( .clk(clk), .rst_L(rst_L), .in_loop(in_loop), .dac_mosi(dac_mosi), .dac_miso(dac_miso), .dac_ss_L(dac_ss_L), .dac_sck(dac_sck), .adc_miso(adc_miso), .adc_conv_L(adc_ss_L), .adc_sck(adc_sck), .word_in(word_into_loop), .word_out(word_outof_loop), .start_cmd(start_cmd), .finish_cmd(finish_cmd), .cmd(cmd) ); `ifdef VERILATOR initial begin $dumpfile("control_loop.fst"); $dumpvars; end `endif endmodule `undefineall