| /* |
| *------------------------------------------------------------- |
| * |
| * user_proj_example |
| * |
| * This is an example of a (trivially simple) user project, |
| * showing how the user project can connect to the logic |
| * analyzer, the wishbone bus, and the I/O pads. |
| * |
| * This project generates an integer count, which is output |
| * on the user area GPIO pads (digital output only). The |
| * wishbone connection allows the project to be controlled |
| * (start and stop) from the management SoC program. |
| * |
| * See the testbenches in directory "mprj_counter" for the |
| * example programs that drive this user project. The three |
| * testbenches are "io_ports", "la_test1", and "la_test2". |
| * |
| *------------------------------------------------------------- |
| */ |
| |
| module user_proj_example #( |
| parameter IO_PADS = 32, |
| parameter BITS = 32 |
| )( |
| // Wishbone Slave ports (WB MI A) |
| input wb_clk_i, |
| input wb_rst_i, |
| input wbs_stb_i, |
| input wbs_cyc_i, |
| input wbs_we_i, |
| input [3:0] wbs_sel_i, |
| input [31:0] wbs_dat_i, |
| input [31:0] wbs_adr_i, |
| output wbs_ack_o, |
| output [31:0] wbs_dat_o, |
| |
| // Logic Analyzer Signals |
| input [127:0] la_data_in, |
| output [127:0] la_data_out, |
| input [127:0] la_oen, |
| |
| // IOs |
| input [IO_PADS-1:0] io_in, |
| output [IO_PADS-1:0] io_out |
| ); |
| wire clk; |
| wire rst; |
| |
| wire [31:0] rdata; |
| wire [31:0] wdata; |
| wire [BITS-1:0] count; |
| |
| wire valid; |
| wire [3:0] wstrb; |
| wire [31:0] la_write; |
| |
| // WB MI A |
| assign valid = wbs_cyc_i && wbs_stb_i; |
| assign wstrb = wbs_sel_i & {4{wbs_we_i}}; |
| assign wbs_dat_o = rdata; |
| assign wdata = wbs_dat_i; |
| |
| // IO |
| assign io_out = count; |
| |
| // LA |
| assign la_data_out = {{(127-BITS){1'b0}}, count}; |
| // Assuming LA probes [63:32] are for controlling the count register |
| assign la_write = ~la_oen[63:32] & ~{BITS{valid}}; |
| // Assuming LA probes [65:64] are for controlling the count clk & reset |
| assign clk = (~la_oen[64]) ? la_data_in[64]: wb_clk_i; |
| assign rst = (~la_oen[65]) ? la_data_in[65]: wb_rst_i; |
| |
| counter #( |
| .BITS(BITS) |
| ) counter( |
| .clk(clk), |
| .reset(rst), |
| .ready(wbs_ack_i), |
| .valid(valid), |
| .rdata(rdata), |
| .wdata(wbs_dat_i), |
| .wstrb(wstrb), |
| .la_write(la_write), |
| .la_input(la_data_in[63:32]), |
| .count(count) |
| ); |
| |
| endmodule |
| |
| module counter #( |
| parameter BITS = 32 |
| )( |
| input clk, |
| input reset, |
| input valid, |
| input [3:0] wstrb, |
| input [BITS-1:0] wdata, |
| input [BITS-1:0] la_write, |
| input [BITS-1:0] la_input, |
| output ready, |
| output [BITS-1:0] rdata, |
| output [BITS-1:0] count |
| ); |
| reg ready; |
| reg [BITS-1:0] count; |
| reg [BITS-1:0] rdata; |
| |
| always @(posedge clk) begin |
| if (reset) begin |
| count <= 0; |
| ready <= 0; |
| end else begin |
| ready <= 1'b0; |
| if (~|la_write) begin |
| count <= count + 1; |
| end |
| if (valid && !ready) begin |
| ready <= 1'b1; |
| rdata <= count; |
| if (wstrb[0]) count[7:0] <= wdata[7:0]; |
| if (wstrb[1]) count[15:8] <= wdata[15:8]; |
| if (wstrb[2]) count[23:16] <= wdata[23:16]; |
| if (wstrb[3]) count[31:24] <= wdata[31:24]; |
| end |
| end |
| end |
| |
| genvar i; |
| generate |
| for(i=0; i<BITS; i=i+1) begin |
| always @(posedge clk) begin |
| if (la_write[i]) count[i] <= la_input[i]; |
| end |
| end |
| endgenerate |
| |
| endmodule |