`timescale 1ns / 1ps //============================================================================================================= // Тестовая конфигурация: // // Режим измерения "Точка в импульсе". // Количество измерений = 1. // Выбраный фильтр = 2МГц. // // PG1 -> Reference Sequense Generator. | Шаблон 1 имп. // PG2 -> модулятор. | Шаблон 1 имп. // PG3 -> Sample Strobe Generator. | Шаблон 1 имп. // PG4 -> Gating Generator. | Шаблон 1 имп. // // Настройки мультиплексоров генераторов: // PG1MUX_OUT -> INT_TRIG. // PG2MUX_OUT -> PG1. Для всех генераторов кроме PG1 сигналом начала работы является выход PG1. // PG3MUX_OUT -> PG1. // PG4MUX_OUT -> PG1. // PG5MUX_OUT -> PG1. // PG6MUX_OUT -> PG1. // PG7MUX_OUT -> PG1. // // Настройки остальных мультиплексоров: // MODMUX_OUT -> PG2. // GATINGMUX_OUT -> PG4. // SAMPLSTROBEMUX_OUT -> PG3. // EXTSTARTMUX -> DSPSTART. //============================================================================================================= module S5243TopPulseProfileTb; localparam [4:0] EP1MUXCMD = 5'd14; localparam [4:0] EP2MUXCMD = 5'd1; localparam [4:0] EP3MUXCMD = 5'd1; localparam [4:0] EP4MUXCMD = 5'd1; localparam [4:0] EP5MUXCMD = 5'd1; localparam [4:0] EP6MUXCMD = 5'd1; localparam [4:0] PG1MUXCMD = 5'd13; localparam [4:0] PG2MUXCMD = 5'd0; localparam [4:0] PG3MUXCMD = 5'd18; localparam [4:0] PG4MUXCMD = 5'd18; localparam [4:0] PG5MUXCMD = 5'd0; localparam [4:0] PG6MUXCMD = 5'd0; localparam [4:0] PG7MUXCMD = 5'd0; localparam [2:0] PG1MODE = 3'd5; localparam [2:0] PG2MODE = 3'd1; localparam [2:0] PG3MODE = 3'd3; localparam [2:0] PG4MODE = 3'd4; localparam [2:0] PG5MODE = 3'd0; localparam [2:0] PG6MODE = 3'd0; localparam [2:0] PG7MODE = 3'd3; localparam PG1POL = 1'b0; localparam PG2POL = 1'b0; localparam PG3POL = 1'b0; localparam PG4POL = 1'b0; localparam PG5POL = 1'b0; localparam PG6POL = 1'b0; localparam PG7POL = 1'b0; localparam [4:0] EXTTRIGMUXCMD = 5'd15; localparam [4:0] DSPTRIGINCMD = 5'h8; localparam [4:0] MUXSLOWMODCMD = 5'd1; localparam [4:0] MUXFASTMODCMD = 5'd1; localparam [4:0] GATINGMUXCMD = 5'd2; localparam [4:0] SMPLSTRBMUXCMD = 5'd3; //COMMANDS FOR REG_MAP parameter [31:0] MeasCmdBypass = {8'h11,8'h0,8'h63,8'h1}; // parameter [31:0] MeasCmdFft = {8'h11,8'h0,8'h63,7'h5,1'b1}; // parameter [31:0] MeasCmd = {8'h11,8'h0,8'h53,8'h0}; // parameter [31:0] MeasCmd = {8'h11,8'h3e,8'h63,8'h0}; parameter [31:0] AdcCtrl = {8'h12,24'h2}; parameter [31:0] SensCtrlCmd = {1'b0,27'h0,4'b1}; // parameter [31:0] DitherCmd = {8'h0E,24'h100192}; parameter [31:0] DitherCmd = {8'h0E,8'd9,4'h0,4'h1,4'd11,4'h3}; parameter [31:0] IfFtwH = {8'h15,16'h0,8'h40}; parameter [31:0] IfFtwL = {8'h16,24'h000000}; parameter [31:0] FilterCorrCmdH = {8'h17,24'hD70A3D}; parameter [31:0] FilterCorrCmdL = {8'h18,24'hD70A3D}; //PG7 Cmd parameter [31:0] PG7P1DelayRegCmd = {8'h20,24'd0}; parameter [31:0] PG7P2DelayRegCmd = {8'h21,24'd1}; parameter [31:0] PG7P3DelayRegCmd = {8'h22,24'd5}; parameter [31:0] PG7P123DelayRegCmd = {8'h23,24'd15}; parameter [31:0] PG7P1WidthRegCmd = {8'h24,24'd1}; parameter [31:0] PG7P2WidthRegCmd = {8'h25,24'd3}; parameter [31:0] PG7P3WidthRegCmd = {8'h26,24'd5}; parameter [31:0] PG7P123WidthRegCmd = {8'h27,24'd0}; //PG1 Cmd parameter [31:0] PG1P1DelayRegCmd = {8'h28,24'd0}; parameter [31:0] PG1P2DelayRegCmd = {8'h29,24'd400}; parameter [31:0] PG1P3DelayRegCmd = {8'h2a,24'd0}; parameter [31:0] PG1P123DelayRegCmd = {8'h2b,24'd0}; parameter [31:0] PG1P1WidthRegCmd = {8'h2c,24'd1}; parameter [31:0] PG1P2WidthRegCmd = {8'h2d,24'd0}; parameter [31:0] PG1P3WidthRegCmd = {8'h2e,24'd0}; parameter [31:0] PG1P123WidthRegCmd = {8'h2f,24'd0}; //PG2 Cmd parameter [31:0] PG2P1DelayRegCmd = {8'h20,24'd0}; parameter [31:0] PG2P2DelayRegCmd = {8'h21,24'd1}; parameter [31:0] PG2P3DelayRegCmd = {8'h22,24'd5}; parameter [31:0] PG2P123DelayRegCmd = {8'h23,24'd15}; parameter [31:0] PG2P1WidthRegCmd = {8'h24,24'd1}; parameter [31:0] PG2P2WidthRegCmd = {8'h25,24'd3}; parameter [31:0] PG2P3WidthRegCmd = {8'h26,24'd5}; parameter [31:0] PG2P123WidthRegCmd = {8'h27,24'd0}; //PG3 Cmd parameter [31:0] PG3P1DelayRegCmd = {8'h20,24'd0}; parameter [31:0] PG3P2DelayRegCmd = {8'h21,24'd1}; parameter [31:0] PG3P3DelayRegCmd = {8'h22,24'd5}; parameter [31:0] PG3P123DelayRegCmd = {8'h23,24'd15}; parameter [31:0] PG3P1WidthRegCmd = {8'h24,24'd1}; parameter [31:0] PG3P2WidthRegCmd = {8'h25,24'd3}; parameter [31:0] PG3P3WidthRegCmd = {8'h26,24'd5}; parameter [31:0] PG3P123WidthRegCmd = {8'h27,24'd0}; //PG4 Cmd parameter [31:0] PG4P1DelayRegCmd = {8'h40,24'd0}; parameter [31:0] PG4P2DelayRegCmd = {8'h41,24'd18}; parameter [31:0] PG4P3DelayRegCmd = {8'h42,24'd0}; parameter [31:0] PG4P123DelayRegCmd = {8'h43,24'd0}; parameter [31:0] PG4P1WidthRegCmd = {8'h44,24'd1}; parameter [31:0] PG4P2WidthRegCmd = {8'h45,24'd10}; parameter [31:0] PG4P3WidthRegCmd = {8'h46,24'd7}; parameter [31:0] PG4P123WidthRegCmd = {8'h47,24'd0}; //PG5 Cmd parameter [31:0] PG5P1DelayRegCmd = {8'h48,24'd0}; parameter [31:0] PG5P2DelayRegCmd = {8'h49,24'd0}; parameter [31:0] PG5P3DelayRegCmd = {8'h4a,24'd0}; parameter [31:0] PG5P123DelayRegCmd = {8'h4b,24'd0}; parameter [31:0] PG5P1WidthRegCmd = {8'h4c,24'd0}; parameter [31:0] PG5P2WidthRegCmd = {8'h4d,24'd0}; parameter [31:0] PG5P3WidthRegCmd = {8'h4e,24'd0}; parameter [31:0] PG5P123WidthRegCmd = {8'h4f,24'd0}; //PG6 Cmd parameter [31:0] PG6P1DelayRegCmd = {8'h50,24'd0}; parameter [31:0] PG6P2DelayRegCmd = {8'h51,24'd5}; parameter [31:0] PG6P3DelayRegCmd = {8'h52,24'd15}; parameter [31:0] PG6P123DelayRegCmd = {8'h53,24'd0}; parameter [31:0] PG6P1WidthRegCmd = {8'h54,24'd1}; parameter [31:0] PG6P2WidthRegCmd = {8'h55,24'd3}; parameter [31:0] PG6P3WidthRegCmd = {8'h56,24'd5}; parameter [31:0] PG6P123WidthRegCmd = {8'h57,24'd0}; parameter [31:0] MeasNum0RegCmd = {8'h58,24'd10}; parameter [31:0] MeasNum1RegCmd = {8'h59,MUXSLOWMODCMD,MUXFASTMODCMD,DSPTRIGINCMD,25'd0}; parameter [31:0] PGMode0RegCmd = {8'h0b,3'b0,PG7MODE,PG6MODE,PG5MODE,PG4MODE,PG3MODE,PG2MODE,PG1MODE}; parameter [31:0] PGMode1RegCmd = {8'h1b,7'b0000000,PG7POL,PG6POL,PG5POL,PG4POL,PG3POL,PG2POL,PG1POL,10'h0}; parameter [31:0] MuxCtrl1RegCmd = {8'h1c,4'h0,PG7MUXCMD,PG6MUXCMD,PG5MUXCMD,PG4MUXCMD}; parameter [31:0] MuxCtrl2RegCmd = {8'h1d,4'h0,PG3MUXCMD,PG2MUXCMD,PG1MUXCMD,SMPLSTRBMUXCMD}; parameter [31:0] MuxCtrl3RegCmd = {8'h1e,4'h0,GATINGMUXCMD,EXTTRIGMUXCMD,EP2MUXCMD,EP1MUXCMD}; parameter [31:0] MuxCtrl4RegCmd = {8'h1f,4'h0,EP6MUXCMD,EP5MUXCMD,EP4MUXCMD,EP3MUXCMD}; //================================================================================================================================================================================================================= reg Clk41; reg Clk50; reg Clk70; reg [31:0] tb_cnt=4'd0; reg rst; reg mosi_i = 1'b0; reg Miso_i = 1'b0; reg ss_i; reg clk_i = 1'b0; reg [31:0] DspSpiData; reg startCalcCmdReg; wire [17:0] cos_value; wire [17:0] sin_value; wire ExtDspTrigPos0 = (tb_cnt >= 180 && tb_cnt <= 181)? 1'b1:1'b0; wire ExtDspTrigNeg0 = (tb_cnt >= 180 && tb_cnt <= 181)? 1'b0:1'b1; wire ExtTrigger0 = ExtDspTrigNeg0; wire TrigFromDsp = (tb_cnt >= 1100 && tb_cnt <= 1101)? 1'b1:1'b0; wire endMeas; reg [31:0] cmdCnt; reg trig0; reg trig1; wire trig0R; wire trig1R; assign trig0R = trig0; assign trig1R = trig1; //========================================================================================== //clocks gen always #10 Clk50 = ~Clk50; always #(14.285714285714/2) Clk70 = ~Clk70; always #10 clk_i = ~clk_i; always #(24.390243902439/2) Clk41 = ~Clk41; wire sck_i; //========================================================================================== initial begin Clk50 = 1'b1; Clk70 = 1'b1; rst = 1'b1; Clk41 = 1'b0; trig0 = 1'b0; trig1 = 1'b0; #100; rst = 1'b0; #400; Clk41 = 1'b0; end reg endMeasReg; always @(posedge Clk41) begin endMeasReg <= endMeas; end wire endMeasNeg = !endMeas&endMeasReg; always @(posedge Clk70) begin if (!rst) begin if (!endMeas) begin // if (tb_cnt == 3550 | tb_cnt == 3950 |tb_cnt == 4505) begin if (tb_cnt == 3550) begin startCalcCmdReg <= 1'b1; end end else begin startCalcCmdReg <= 1'b0; end end else begin startCalcCmdReg <= 1'b0; end end always @(negedge Clk41) begin if (!rst) begin tb_cnt <= tb_cnt+1; end else begin tb_cnt <= 0; end end wire Adc1DataDa0P; wire Adc1DataDa1P; // wire [31:0] test = 32'h2351eb85; wire [31:0] test = 32'h40000000; CordicNco #( .ODatWidth (18), .PhIncWidth (32), .IterNum (10), .EnSinN (0)) ncoInst ( .Clk_i (Clk50), .Rst_i (rst), .Val_i (1'b1), .PhaseInc_i (test), .WindVal_i (1'b1), .WinType_i (), .Wind_o (), .Sin_o (sin_value), .Cos_o (cos_value), .Val_o () ); S5243Top MasterFpga ( .ClkP_i (Clk50), .ClkN_i (~Clk50), .Led_o (), //------------------------------------------ .Adc1FclkP_i (), .Adc1FclkN_i (), .Adc1DataDa0P_i (Adc1DataDa0P), .Adc1DataDa0N_i (~Adc1DataDa0P), .Adc1DataDa1P_i (Adc1DataDa1P), .Adc1DataDa1N_i (~Adc1DataDa1P), .Adc1DataDb0P_i (Adc1DataDa0P), .Adc1DataDb0N_i (~Adc1DataDa0P), .Adc1DataDb1P_i (Adc1DataDa1P), .Adc1DataDb1N_i (~Adc1DataDa1P), //------------------------------------------ .Adc2FclkP_i (), .Adc2FclkN_i (), .Adc2DataDa0P_i (1'b1), .Adc2DataDa0N_i (1'b0), .Adc2DataDa1P_i (1'b1), .Adc2DataDa1N_i (1'b0), .Adc2DataDb0P_i (1'b1), .Adc2DataDb0N_i (1'b0), .Adc2DataDb1P_i (1'b1), .Adc2DataDb1N_i (1'b0), //------------------------------------------ .Adc1InitMosi_o (), .Adc2InitMosi_o (), .Adc1InitClk_o (), .Adc2InitClk_o (), .Adc1InitCs_o (), .Adc2InitCs_o (), .Adc1InitRst_o (), .Adc2InitRst_o (), .DitherCtrlCh1_o (), .DitherCtrlCh2_o (), //------------------------------------------ .Mosi_i (mosi_i), .Sck_i (~sck_i), .Ss_i (ss_i), .Miso_i (), .Miso_o (), .LpOutClk_o (), .LpOutFs_o (), .LpOutData_o (), //fpga-dsp signals .StartMeas_i (startCalcCmdReg), .EndMeas_o (endMeas), .TimersClk_o (), .Trig6to1_io (), .Trig6to1Dir_o (), .DspTrigOut_i (), //Trig from DSP .DspTrigIn_o (), //Trig To DSP .Overload_o (), .PortSel_o (), //mod out line .Mod_o (), //gain lines .DspReadyForRx_i (1'b0), .AmpEn_o (), // 0-adc1ChA 1-adc1ChB 2-adc2ChA 3-adc2ChB .AdcData_i (sin_value[17-:14]) // .AdcData_i (Data_i) ); parameter IDLE = 2'h0; parameter CMD = 2'h1; parameter TX = 2'h2; parameter PAUSE = 2'h3; reg [1:0] txCurrState; reg [1:0] txNextState; wire txWork = tb_cnt >= 23; // wire txStop = (cmdCnt >= 90) & (cmdCnt >= 70) & (cmdCnt >= 71); wire txStop = (cmdCnt >= 251); reg [6:0] txCnt; reg [3:0] pauseCnt; always @(posedge Clk41) begin if (!rst) begin if (txCurrState == CMD) begin if (!txStop) begin cmdCnt <= cmdCnt+1; end end end else begin cmdCnt <= 0; end end always @(posedge Clk41) begin if (!rst) begin if (txCurrState == TX) begin txCnt <= txCnt+1; end else begin txCnt <= 0; end end else begin txCnt <= 0; end end always @(posedge Clk41) begin if (!rst) begin if (txCurrState == PAUSE) begin pauseCnt <= pauseCnt+1; end else begin pauseCnt <= 0; end end else begin pauseCnt <= 0; end end always @(posedge Clk41) begin if (txCurrState == CMD) begin if (cmdCnt == 0) begin DspSpiData <= MeasCmdBypass; end else if (cmdCnt == 1) begin DspSpiData <= IfFtwH; end else if (cmdCnt == 2) begin DspSpiData <= IfFtwL; end else if (cmdCnt == 3) begin DspSpiData <= FilterCorrCmdH; end else if (cmdCnt == 4) begin DspSpiData <= FilterCorrCmdL; end else if (cmdCnt == 5) begin DspSpiData <= PG1P1DelayRegCmd; end else if (cmdCnt == 6) begin DspSpiData <= PG1P2DelayRegCmd; end else if (cmdCnt == 7) begin DspSpiData <= PG1P3DelayRegCmd; end else if (cmdCnt == 8) begin DspSpiData <= PG1P123DelayRegCmd; end else if (cmdCnt == 9) begin DspSpiData <= PG1P1WidthRegCmd; end else if (cmdCnt == 10) begin DspSpiData <= PG1P2WidthRegCmd; end else if (cmdCnt == 11) begin DspSpiData <= PG1P3WidthRegCmd; end else if (cmdCnt == 12) begin DspSpiData <= PG1P123WidthRegCmd; end else if (cmdCnt == 13) begin DspSpiData <= PG2P1DelayRegCmd; end else if (cmdCnt == 14) begin DspSpiData <= PG2P2DelayRegCmd; end else if (cmdCnt == 15) begin DspSpiData <= PG2P3DelayRegCmd; end else if (cmdCnt == 16) begin DspSpiData <= PG2P123DelayRegCmd; end else if (cmdCnt == 17) begin DspSpiData <= PG2P1WidthRegCmd; end else if (cmdCnt == 18) begin DspSpiData <= PG2P2WidthRegCmd; end else if (cmdCnt == 19) begin DspSpiData <= PG2P3WidthRegCmd; end else if (cmdCnt == 20) begin DspSpiData <= PG2P123WidthRegCmd; end else if (cmdCnt == 21) begin DspSpiData <= PG3P1DelayRegCmd; end else if (cmdCnt == 22) begin DspSpiData <= PG3P2DelayRegCmd; end else if (cmdCnt == 23) begin DspSpiData <= PG3P3DelayRegCmd; end else if (cmdCnt == 24) begin DspSpiData <= PG3P123DelayRegCmd; end else if (cmdCnt == 25) begin DspSpiData <= PG3P1WidthRegCmd; end else if (cmdCnt == 26) begin DspSpiData <= PG3P2WidthRegCmd; end else if (cmdCnt == 27) begin DspSpiData <= PG3P3WidthRegCmd; end else if (cmdCnt == 28) begin DspSpiData <= PG3P123WidthRegCmd; end else if (cmdCnt == 29) begin DspSpiData <= PG4P1DelayRegCmd; end else if (cmdCnt == 30) begin DspSpiData <= PG4P2DelayRegCmd; end else if (cmdCnt == 31) begin DspSpiData <= PG4P3DelayRegCmd; end else if (cmdCnt == 32) begin DspSpiData <= PG4P123DelayRegCmd; end else if (cmdCnt == 33) begin DspSpiData <= PG4P1WidthRegCmd; end else if (cmdCnt == 34) begin DspSpiData <= PG4P2WidthRegCmd; end else if (cmdCnt == 35) begin DspSpiData <= PG4P3WidthRegCmd; end else if (cmdCnt == 36) begin DspSpiData <= PG4P123WidthRegCmd; end else if (cmdCnt == 37) begin DspSpiData <= PG5P1DelayRegCmd; end else if (cmdCnt == 38) begin DspSpiData <= PG5P2DelayRegCmd; end else if (cmdCnt == 39) begin DspSpiData <= PG5P3DelayRegCmd; end else if (cmdCnt == 40) begin DspSpiData <= PG5P123DelayRegCmd; end else if (cmdCnt == 41) begin DspSpiData <= PG5P1WidthRegCmd; end else if (cmdCnt == 42) begin DspSpiData <= PG5P2WidthRegCmd; end else if (cmdCnt == 43) begin DspSpiData <= PG5P3WidthRegCmd; end else if (cmdCnt == 44) begin DspSpiData <= PG5P123WidthRegCmd; end else if (cmdCnt == 45) begin DspSpiData <= PG6P1DelayRegCmd; end else if (cmdCnt == 46) begin DspSpiData <= PG6P2DelayRegCmd; end else if (cmdCnt == 47) begin DspSpiData <= PG6P3DelayRegCmd; end else if (cmdCnt == 48) begin DspSpiData <= PG6P123DelayRegCmd; end else if (cmdCnt == 49) begin DspSpiData <= PG6P1WidthRegCmd; end else if (cmdCnt == 50) begin DspSpiData <= PG6P2WidthRegCmd; end else if (cmdCnt == 51) begin DspSpiData <= PG6P3WidthRegCmd; end else if (cmdCnt == 52) begin DspSpiData <= PG6P123WidthRegCmd; end else if (cmdCnt == 53) begin DspSpiData <= PG7P1DelayRegCmd; end else if (cmdCnt == 54) begin DspSpiData <= PG7P2DelayRegCmd; end else if (cmdCnt == 55) begin DspSpiData <= PG7P3DelayRegCmd; end else if (cmdCnt == 56) begin DspSpiData <= PG7P123DelayRegCmd; end else if (cmdCnt == 57) begin DspSpiData <= PG7P1WidthRegCmd; end else if (cmdCnt == 58) begin DspSpiData <= PG7P2WidthRegCmd; end else if (cmdCnt == 59) begin DspSpiData <= PG7P3WidthRegCmd; end else if (cmdCnt == 60) begin DspSpiData <= DitherCmd; end else if (cmdCnt == 61) begin DspSpiData <= MeasNum0RegCmd; end else if (cmdCnt == 62) begin DspSpiData <= MeasNum1RegCmd; end else if (cmdCnt == 63) begin DspSpiData <= PGMode0RegCmd; end else if (cmdCnt == 64) begin DspSpiData <= PGMode1RegCmd; end else if (cmdCnt == 65) begin DspSpiData <= MuxCtrl1RegCmd; end else if (cmdCnt == 66) begin DspSpiData <= MuxCtrl2RegCmd; end else if (cmdCnt == 67) begin DspSpiData <= MuxCtrl3RegCmd; end else if (cmdCnt == 68) begin DspSpiData <= AdcCtrl; end else if (cmdCnt == 99) begin DspSpiData <= {8'h58,24'd100}; end else begin DspSpiData <= 32'hfffffff; end end else if (txCurrState == TX) begin DspSpiData <= DspSpiData<<1; end end always @(posedge Clk41) begin if (txCurrState == TX) begin if (txCnt >= 7'd0) begin mosi_i <= DspSpiData[31]; end else begin mosi_i <= 1'b1; end end else begin mosi_i <= 1'b1; end end always @(posedge Clk41) begin if (txCurrState == TX) begin ss_i <= 1'b0; end else begin ss_i <= 1'b1; end end assign sck_i = Clk41; always @(posedge Clk41) begin if (rst) begin txCurrState <= IDLE; end else begin txCurrState <= txNextState; end end always @(*) begin txNextState = IDLE; case(txCurrState) IDLE : begin if (txWork) begin txNextState = CMD; end else begin txNextState = IDLE; end end CMD : begin if (!txStop) begin txNextState = TX; end else begin txNextState = IDLE; end end TX : begin if (txCnt==6'd31) begin txNextState = PAUSE; end else begin txNextState = TX; end end PAUSE : begin if (pauseCnt==4'd10) begin txNextState = CMD; end else begin txNextState = PAUSE; end end endcase end reg [13:0] Data_i; real pi = 3.14159265358; real phase = 0; real phaseInc = 0.001; real signal; always @ (posedge Clk50) begin if (tb_cnt >= 4505) begin phase = phase + phaseInc; phaseInc <= phaseInc + 0.0005; signal = $sin(2*pi*phase); Data_i = 2**12 * signal; end else Data_i = 0; end endmodule