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`timescale 1ns / 1ps
//////////////////////////////////////////////////////////////////////////////////
module single_u2_sim();
// Misc, debug
wire [7:0] leds;
wire [31:0] debug;
wire [1:0] debug_clk;
// Expansion
wire exp_pps_in;
wire exp_pps_out;
// GMII
// GMII-CTRL
wire GMII_COL;
wire GMII_CRS;
// GMII-TX
wire [7:0] GMII_TXD;
wire GMII_TX_EN;
wire GMII_TX_ER;
wire GMII_GTX_CLK;
wire GMII_TX_CLK; // 100mbps clk
// GMII-RX
wire [7:0] GMII_RXD;
wire GMII_RX_CLK;
wire GMII_RX_DV;
wire GMII_RX_ER;
// GMII-Management
wire MDIO;
wire MDC;
wire PHY_INTn; // open drain
wire PHY_RESETn;
wire PHY_CLK; // possibly use on-board osc
// RAM
wire [17:0] RAM_D;
wire [18:0] RAM_A;
wire RAM_CE1n;
wire RAM_CENn;
wire RAM_CLK;
wire RAM_WEn;
wire RAM_OEn;
wire RAM_LDn;
// SERDES
wire ser_enable;
wire ser_prbsen;
wire ser_loopen;
wire ser_rx_en;
wire ser_tx_clk;
wire [15:0] ser_t;
wire ser_tklsb;
wire ser_tkmsb;
wire ser_rx_clk;
wire [15:0] ser_r;
wire ser_rklsb;
wire ser_rkmsb;
// CPLD interface
wire cpld_din, cpld_clk, cpld_detached, cpld_start, cpld_mode, cpld_done;
// ADC
wire [13:0] adc_a;
wire adc_ovf_a;
wire adc_on_a, adc_oe_a;
wire [13:0] adc_b;
wire adc_ovf_b;
wire adc_on_b, adc_oe_b;
// DAC
wire [15:0] dac_a;
wire [15:0] dac_b;
// I2C
wire SCL;
wire SDA;
// Clock Gen Control
wire [1:0] clk_en;
wire [1:0] clk_sel;
wire clk_func; // FIXME is an input to control the 9510
wire clk_status;
// Clocks
reg clk_fpga;
reg clk_to_mac;
wire pps_in;
// Generic SPI
wire sclk, mosi, miso;
wire sen_clk;
wire sen_dac;
wire sen_tx_db;
wire sen_tx_adc;
wire sen_tx_dac;
wire sen_rx_db;
wire sen_rx_adc;
wire sen_rx_dac;
// GPIO to DBoards
wire [15:0] io_tx;
wire [15:0] io_rx;
wire wb_clk;
wire start, clock_ready;
reg aux_clk;
initial aux_clk= 1'b0;
always #6 aux_clk = ~aux_clk;
initial clk_fpga = 1'bx;
initial #3007 clk_fpga = 1'b0;
always #5 clk_fpga = ~clk_fpga;
initial clk_to_mac = 0;
always #4 clk_to_mac = ~clk_to_mac;
wire div_clk, dsp_clk;
reg [7:0] div_ctr = 0;
assign dsp_clk = clock_ready ? clk_fpga : aux_clk;
assign wb_clk = div_clk;
`define CLK_DIV_2 1
//`define CLK_DIV_3
`ifdef CLK_DIV_2
localparam clock_divider = 4'd2;
always @(posedge dsp_clk)
div_ctr <= div_ctr + 1;
assign div_clk = div_ctr[0];
`endif
`ifdef CLK_DIV_3
localparam clock_divider = 2;
always @(posedge dsp_clk or negedge dsp_clk)
if(div_ctr == 5)
div_ctr <= 0;
else
div_ctr <= div_ctr + 1;
assign div_clk = ((div_ctr == 0) | (div_ctr == 1) | (div_ctr == 2));
`endif
initial
$monitor($time, ,clock_ready);
always #1000000 $monitor("Time in ns ",$time);
initial begin
@(negedge cpld_done);
@(posedge cpld_done);
$dumpfile("single_u2_sim.lxt");
$dumpvars(0,single_u2_sim);
end
initial #10000000 $finish;
cpld_model
cpld_model (.aux_clk(aux_clk),.start(cpld_start),.mode(cpld_mode),.done(cpld_done),
.dout(cpld_din),.sclk(cpld_clk),.detached(cpld_detached));
serdes_model serdes_model
(.ser_tx_clk(ser_tx_clk), .ser_tkmsb(ser_tkmsb), .ser_tklsb(ser_tklsb), .ser_t(ser_t),
.ser_rx_clk(ser_rx_clk), .ser_rkmsb(ser_rkmsb), .ser_rklsb(ser_rklsb), .ser_r(ser_r),
.even(0),.error(0) );
adc_model adc_model
(.clk(dsp_clk),.rst(0),
.adc_a(adc_a),.adc_ovf_a(adc_ovf_a),.adc_on_a(adc_on_a),.adc_oe_a(adc_oe_a),
.adc_b(adc_b),.adc_ovf_b(adc_ovf_b),.adc_on_b(adc_on_b),.adc_oe_b(adc_oe_b) );
wire [2:0] speed;
phy_sim phy_model
(.Gtx_clk(GMII_GTX_CLK), . Rx_clk(GMII_RX_CLK), .Tx_clk(GMII_TX_CLK),
.Tx_er(GMII_TX_ER), .Tx_en(GMII_TX_EN), .Txd(GMII_TXD),
.Rx_er(GMII_RX_ER), .Rx_dv(GMII_RX_DV), .Rxd(GMII_RXD),
.Crs(GMII_CRS), .Col(GMII_COL),
.Speed(speed), .Done(0) );
pullup p3(MDIO);
miim_model miim_model
(.mdc_i(MDC),.mdio(MDIO),.phy_resetn_i(PHY_RESETn),.phy_clk_i(PHY_CLK),
.phy_intn_o(PHY_INTn),.speed_o(speed) );
xlnx_glbl glbl (.GSR(),.GTS());
wire RAM_MODE = 1'b0;
cy1356 ram_model(.d(RAM_D),.clk(RAM_CLK),.a(RAM_A),
.bws(2'b00),.we_b(RAM_WEn),.adv_lb(RAM_LDn),
.ce1b(RAM_CE1n),.ce2(1'b1),.ce3b(1'b0),
.oeb(RAM_OEn),.cenb(RAM_CENn),.mode(RAM_MODE) );
M24LC024B eeprom_model(.A0(0),.A1(0),.A2(0),.WP(0),
.SDA(SDA),.SCL(SCL),.RESET(0));
wire scl_pad_i, scl_pad_o, scl_pad_oen_o;
wire sda_pad_i, sda_pad_o, sda_pad_oen_o;
pullup p1(SCL);
pullup p2(SDA);
assign scl_pad_i = SCL;
assign sda_pad_i = SDA;
assign SCL = scl_pad_oen_o ? 1'bz : scl_pad_o;
assign SDA = sda_pad_oen_o ? 1'bz : sda_pad_o;
// printf output
wire uart_baud_o, uart_tx_o, uart_rx_i;
assign uart_rx_i = 1'b1;
uart_rx uart_rx(.baudclk(uart_baud_o),.rxd(uart_tx_o));
// End the simulation
always @(posedge wb_clk)
if((u2_core.m0_we == 1'd1)&&(u2_core.m0_adr == 16'hC2F0))
begin
$display($time, "Finish called.",);
$finish;
end
u2_core #(.RAM_SIZE(32768))
u2_core(.dsp_clk (dsp_clk),
.wb_clk (wb_clk),
.clock_ready (clock_ready),
.clk_to_mac (clk_to_mac),
.pps_in (pps_in),
.leds (leds),
.debug (debug[31:0]),
.debug_clk (debug_clk[1:0]),
.exp_pps_in (exp_pps_in),
.exp_pps_out (exp_pps_out),
.GMII_COL (GMII_COL),
.GMII_CRS (GMII_CRS),
.GMII_TXD (GMII_TXD[7:0]),
.GMII_TX_EN (GMII_TX_EN),
.GMII_TX_ER (GMII_TX_ER),
.GMII_GTX_CLK (GMII_GTX_CLK),
.GMII_TX_CLK (GMII_TX_CLK),
.GMII_RXD (GMII_RXD[7:0]),
.GMII_RX_CLK (GMII_RX_CLK),
.GMII_RX_DV (GMII_RX_DV),
.GMII_RX_ER (GMII_RX_ER),
.MDIO (MDIO),
.MDC (MDC),
.PHY_INTn (PHY_INTn),
.PHY_RESETn (PHY_RESETn),
.ser_enable (ser_enable),
.ser_prbsen (ser_prbsen),
.ser_loopen (ser_loopen),
.ser_rx_en (ser_rx_en),
.ser_tx_clk (ser_tx_clk),
.ser_t (ser_t[15:0]),
.ser_tklsb (ser_tklsb),
.ser_tkmsb (ser_tkmsb),
.ser_rx_clk (ser_rx_clk),
.ser_r (ser_r[15:0]),
.ser_rklsb (ser_rklsb),
.ser_rkmsb (ser_rkmsb),
.cpld_start (cpld_start),
.cpld_mode (cpld_mode),
.cpld_done (cpld_done),
.cpld_din (cpld_din),
.cpld_clk (cpld_clk),
.cpld_detached (cpld_detached),
.cpld_init_b (1),
.por (0),
.adc_a (adc_a[13:0]),
.adc_ovf_a (adc_ovf_a),
.adc_on_a (adc_on_a),
.adc_oe_a (adc_oe_a),
.adc_b (adc_b[13:0]),
.adc_ovf_b (adc_ovf_b),
.adc_on_b (adc_on_b),
.adc_oe_b (adc_oe_b),
.dac_a (dac_a[15:0]),
.dac_b (dac_b[15:0]),
.scl_pad_i (scl_pad_i),
.scl_pad_o (scl_pad_o),
.scl_pad_oen_o (scl_pad_oen_o),
.sda_pad_i (sda_pad_i),
.sda_pad_o (sda_pad_o),
.sda_pad_oen_o (sda_pad_oen_o),
.clk_en (clk_en[1:0]),
.clk_sel (clk_sel[1:0]),
.clk_func (clk_func),
.clk_status (clk_status),
.sclk (sclk),
.mosi (mosi),
.miso (miso),
.sen_clk (sen_clk),
.sen_dac (sen_dac),
.sen_tx_db (sen_tx_db),
.sen_tx_adc (sen_tx_adc),
.sen_tx_dac (sen_tx_dac),
.sen_rx_db (sen_rx_db),
.sen_rx_adc (sen_rx_adc),
.sen_rx_dac (sen_rx_dac),
.io_tx (io_tx[15:0]),
.io_rx (io_rx[15:0]),
.RAM_D (RAM_D),
.RAM_A (RAM_A),
.RAM_CE1n (RAM_CE1n),
.RAM_CENn (RAM_CENn),
.RAM_CLK (RAM_CLK),
.RAM_WEn (RAM_WEn),
.RAM_OEn (RAM_OEn),
.RAM_LDn (RAM_LDn),
.uart_tx_o (uart_tx_o),
.uart_rx_i (uart_rx_i),
.uart_baud_o (uart_baud_o),
.sim_mode (1'b1),
.clock_divider (clock_divider)
);
endmodule // single_u2_sim
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