verilog/rtl/azadi_soc_top_caravel.v - third_party/shuttle/sky130/mpw-002/slot-018 - Git at Google

 // Designed by a Team at Micro Electronics Research Lab, Usman Institute of Technology.
 // https://www.merledupk.org
 `default_nettype wire

 module azadi_soc_top_caravel (
   `ifdef USE_POWER_PINS
       inout vccd1,	// User area 1 1.8V supply
       inout vssd1,	// User area 1 digital ground
   `endif

     // Wishbone Slave ports (WB MI A)
     input         wb_clk_i,
     input         wb_rst_i,

     // Logic Analyzer Signals
     input  [15:0] la_data_in,

     // IOs, MPRJ_IO_PADS = 38
     input  [`MPRJ_IO_PADS-1:0] io_in,
     output [`MPRJ_IO_PADS-1:0] io_out,
     output [`MPRJ_IO_PADS-1:0] io_oeb
 );

   wire prog;

   // Clocks per bit
   wire [15:0] clks_per_bit;

   // gpios interface
   wire [31:0] gpio_i;
   wire [31:0] gpio_o;
   wire [31:0] gpio_oe;

   // uart-periph interface
   wire uart_tx;
   wire uart_rx;

   // PWM interface
   wire pwm_o_1;
   wire pwm_o_2;
   wire pwm1_oe;
   wire pwm2_oe;

   // SPI interface
   wire [3:0] ss_o;
   wire       sclk_o;
   wire       sd_o;
   wire       sd_oe;
   wire       sd_i;

   // unused wires
   wire unused_00;
   wire unused_01;
   wire unused_02;
   wire unused_03;

   // Note: Output enable is active low for IO pads
   assign io_oeb[ 0]    = ~gpio_oe[30];
   assign gpio_i[30]    =  io_in  [ 0];
   assign io_out[ 0]    =  gpio_o [30];

   // SPI 0
   assign io_oeb[1]     = ~sd_oe;
   assign io_out[1]     =  sd_o;
   assign unused_00     =  io_in[1];

   assign io_oeb[2]     =  1'b1;
   assign io_out[2]     =  1'b0;
   assign sd_i          =  io_in[2];

   assign io_oeb[3]     = ~sd_oe;
   assign io_out[3]     =  ss_o[0];
   assign unused_01     =  io_in[3];

   assign io_oeb[4]     =  1'b0;
   assign io_out[4]     =  sclk_o;
   assign unused_02     =  io_in[4];

   // UART
   assign io_oeb[5]     =  1'b1;
   assign io_out[2]     =  1'b0;
   assign uart_rx       =  io_in[5];

   assign io_oeb[6]     =  1'b0;
   assign io_out[6]     =  uart_tx;
   assign unused_03     =  io_in[6];

   // Programming Button
   assign io_oeb[7]     =  1'b1;
   assign io_out[2]     =  1'b0;
   assign prog          =  io_in[7];

   // GPIO 0-18
   assign io_oeb[25:8]  = ~gpio_oe[18:0];
   assign gpio_i[18:0]  =  io_in  [25:8];
   assign io_out[25:8]  =  gpio_o [18:0];

   assign io_oeb[26]    = ~gpio_oe[31];
   assign gpio_i[31]    =  io_in  [26];
   assign io_out[26]    =  gpio_o [31];

   // GPIO 19-21, SPI SS
   assign io_oeb[27]    = ~(sd_oe | gpio_oe[19]);
   assign io_out[27]    =  sd_oe ?  ss_o[1] :  gpio_o [19];  // SPI slave sel[1]
   assign gpio_i[19]    =  io_in[27];

   assign io_oeb[28]    = ~(sd_oe | gpio_oe[20]);
   assign io_out[28]    =  sd_oe ?  ss_o[2] :  gpio_o [20];  // SPI slave sel[2]
   assign gpio_i[20]    =  io_in[28];

   assign io_oeb[29]    = ~(sd_oe | gpio_oe[21]);
   assign io_out[29]    =  sd_oe ?  ss_o[3] :  gpio_o [21];  // SPI slave sel[3]
   assign gpio_i[21]    =  io_in[29];

   // GPIO 22-24
   assign io_oeb[30]    =  ~gpio_oe[22];
   assign io_out[30]    =   gpio_o [22];
   assign gpio_i[22]    =   io_in[30];

   assign io_oeb[31]    =  ~gpio_oe[23];
   assign io_out[31]    =   gpio_o [23];
   assign gpio_i[23]    =   io_in[31];

   assign io_oeb[32]    =  ~gpio_oe[24];
   assign io_out[32]    =   gpio_o [24];
   assign gpio_i[24]    =   io_in[32];

   // GPIO 25-26, PWM 1, 2
   assign io_oeb[33]     = ~(pwm1_oe | gpio_oe[25]);  // PWM1
   assign io_out[33]     =   pwm1_oe ?  pwm_o_1 : gpio_o [25];
   assign gpio_i[25]     =   io_in[33];

   assign io_oeb[34]     = ~(pwm2_oe | gpio_oe[26]);  // PWM2
   assign io_out[34]     =  pwm2_oe  ?  pwm_o_2 :  gpio_o [26];
   assign gpio_i[26]     =  io_in[34];

   // GPIO 27-29
   assign io_oeb[37:35]  = ~gpio_oe[29:27];
   assign gpio_i[29:27]  =  io_in  [37:35];
   assign io_out[37:35]  =  gpio_o [29:27];

   // Logic Analyzer ports
   assign clks_per_bit  = la_data_in[15:0];

   azadi_soc_top soc_top(
   `ifdef USE_POWER_PINS
     .VPWR(vccd1),
     .VGND(vssd1),
   `endif
     .clk_i(wb_clk_i),
     .rst_ni(wb_rst_i),
     .prog(prog),

     // Clocks per bits
     .clks_per_bit(clks_per_bit),

     // gpios interface
     .gpio_i(gpio_i),
     .gpio_o(gpio_o),
     .gpio_oe(gpio_oe),

     // uart-periph interface
     .uart_tx(uart_tx), // output
     .uart_rx(uart_rx), // input

     // PWM interface
     .pwm_o(pwm_o_1),
     .pwm_o_2(pwm_o_2),
     .pwm1_oe(pwm1_oe),
     .pwm2_oe(pwm2_oe),

     // SPI interface
     .ss_o(ss_o),        // [3:0]
     .sclk_o(sclk_o),
     .sd_o(sd_o),
     .sd_oe(sd_oe),
     .sd_i(sd_i)
   );

 endmodule
	// Designed by a Team at Micro Electronics Research Lab, Usman Institute of Technology.
	// https://www.merledupk.org
	`default_nettype wire

	module azadi_soc_top_caravel (
	`ifdef USE_POWER_PINS
	inout vccd1, // User area 1 1.8V supply
	inout vssd1, // User area 1 digital ground
	`endif

	// Wishbone Slave ports (WB MI A)
	input wb_clk_i,
	input wb_rst_i,

	// Logic Analyzer Signals
	input [15:0] la_data_in,

	// IOs, MPRJ_IO_PADS = 38
	input [`MPRJ_IO_PADS-1:0] io_in,
	output [`MPRJ_IO_PADS-1:0] io_out,
	output [`MPRJ_IO_PADS-1:0] io_oeb
	);

	wire prog;

	// Clocks per bit
	wire [15:0] clks_per_bit;

	// gpios interface
	wire [31:0] gpio_i;
	wire [31:0] gpio_o;
	wire [31:0] gpio_oe;

	// uart-periph interface
	wire uart_tx;
	wire uart_rx;

	// PWM interface
	wire pwm_o_1;
	wire pwm_o_2;
	wire pwm1_oe;
	wire pwm2_oe;

	// SPI interface
	wire [3:0] ss_o;
	wire sclk_o;
	wire sd_o;
	wire sd_oe;
	wire sd_i;

	// unused wires
	wire unused_00;
	wire unused_01;
	wire unused_02;
	wire unused_03;

	// Note: Output enable is active low for IO pads
	assign io_oeb[ 0] = ~gpio_oe[30];
	assign gpio_i[30] = io_in [ 0];
	assign io_out[ 0] = gpio_o [30];

	// SPI 0
	assign io_oeb[1] = ~sd_oe;
	assign io_out[1] = sd_o;
	assign unused_00 = io_in[1];

	assign io_oeb[2] = 1'b1;
	assign io_out[2] = 1'b0;
	assign sd_i = io_in[2];

	assign io_oeb[3] = ~sd_oe;
	assign io_out[3] = ss_o[0];
	assign unused_01 = io_in[3];

	assign io_oeb[4] = 1'b0;
	assign io_out[4] = sclk_o;
	assign unused_02 = io_in[4];

	// UART
	assign io_oeb[5] = 1'b1;
	assign io_out[2] = 1'b0;
	assign uart_rx = io_in[5];

	assign io_oeb[6] = 1'b0;
	assign io_out[6] = uart_tx;
	assign unused_03 = io_in[6];

	// Programming Button
	assign io_oeb[7] = 1'b1;
	assign io_out[2] = 1'b0;
	assign prog = io_in[7];

	// GPIO 0-18
	assign io_oeb[25:8] = ~gpio_oe[18:0];
	assign gpio_i[18:0] = io_in [25:8];
	assign io_out[25:8] = gpio_o [18:0];

	assign io_oeb[26] = ~gpio_oe[31];
	assign gpio_i[31] = io_in [26];
	assign io_out[26] = gpio_o [31];

	// GPIO 19-21, SPI SS
	assign io_oeb[27] = ~(sd_oe \| gpio_oe[19]);
	assign io_out[27] = sd_oe ? ss_o[1] : gpio_o [19]; // SPI slave sel[1]
	assign gpio_i[19] = io_in[27];

	assign io_oeb[28] = ~(sd_oe \| gpio_oe[20]);
	assign io_out[28] = sd_oe ? ss_o[2] : gpio_o [20]; // SPI slave sel[2]
	assign gpio_i[20] = io_in[28];

	assign io_oeb[29] = ~(sd_oe \| gpio_oe[21]);
	assign io_out[29] = sd_oe ? ss_o[3] : gpio_o [21]; // SPI slave sel[3]
	assign gpio_i[21] = io_in[29];

	// GPIO 22-24
	assign io_oeb[30] = ~gpio_oe[22];
	assign io_out[30] = gpio_o [22];
	assign gpio_i[22] = io_in[30];

	assign io_oeb[31] = ~gpio_oe[23];
	assign io_out[31] = gpio_o [23];
	assign gpio_i[23] = io_in[31];

	assign io_oeb[32] = ~gpio_oe[24];
	assign io_out[32] = gpio_o [24];
	assign gpio_i[24] = io_in[32];

	// GPIO 25-26, PWM 1, 2
	assign io_oeb[33] = ~(pwm1_oe \| gpio_oe[25]); // PWM1
	assign io_out[33] = pwm1_oe ? pwm_o_1 : gpio_o [25];
	assign gpio_i[25] = io_in[33];

	assign io_oeb[34] = ~(pwm2_oe \| gpio_oe[26]); // PWM2
	assign io_out[34] = pwm2_oe ? pwm_o_2 : gpio_o [26];
	assign gpio_i[26] = io_in[34];

	// GPIO 27-29
	assign io_oeb[37:35] = ~gpio_oe[29:27];
	assign gpio_i[29:27] = io_in [37:35];
	assign io_out[37:35] = gpio_o [29:27];

	// Logic Analyzer ports
	assign clks_per_bit = la_data_in[15:0];

	azadi_soc_top soc_top(
	`ifdef USE_POWER_PINS
	.VPWR(vccd1),
	.VGND(vssd1),
	`endif
	.clk_i(wb_clk_i),
	.rst_ni(wb_rst_i),
	.prog(prog),

	// Clocks per bits
	.clks_per_bit(clks_per_bit),

	// gpios interface
	.gpio_i(gpio_i),
	.gpio_o(gpio_o),
	.gpio_oe(gpio_oe),

	// uart-periph interface
	.uart_tx(uart_tx), // output
	.uart_rx(uart_rx), // input

	// PWM interface
	.pwm_o(pwm_o_1),
	.pwm_o_2(pwm_o_2),
	.pwm1_oe(pwm1_oe),
	.pwm2_oe(pwm2_oe),

	// SPI interface
	.ss_o(ss_o), // [3:0]
	.sclk_o(sclk_o),
	.sd_o(sd_o),
	.sd_oe(sd_oe),
	.sd_i(sd_i)
	);

	endmodule