| module user_project_wrapper (user_clock2, |
| wb_clk_i, |
| wb_rst_i, |
| wbs_ack_o, |
| wbs_cyc_i, |
| wbs_stb_i, |
| wbs_we_i, |
| vssa2, |
| vdda2, |
| vssa1, |
| vdda1, |
| vssd2, |
| vccd2, |
| vssd1, |
| vccd1, |
| analog_io, |
| io_in, |
| io_oeb, |
| io_out, |
| la_data_in, |
| la_data_out, |
| la_oenb, |
| user_irq, |
| wbs_adr_i, |
| wbs_dat_i, |
| wbs_dat_o, |
| wbs_sel_i); |
| input user_clock2; |
| input wb_clk_i; |
| input wb_rst_i; |
| output wbs_ack_o; |
| input wbs_cyc_i; |
| input wbs_stb_i; |
| input wbs_we_i; |
| input vssa2; |
| input vdda2; |
| input vssa1; |
| input vdda1; |
| input vssd2; |
| input vccd2; |
| input vssd1; |
| input vccd1; |
| inout [28:0] analog_io; |
| input [37:0] io_in; |
| output [37:0] io_oeb; |
| output [37:0] io_out; |
| input [127:0] la_data_in; |
| output [127:0] la_data_out; |
| input [127:0] la_oenb; |
| output [2:0] user_irq; |
| input [31:0] wbs_adr_i; |
| input [31:0] wbs_dat_i; |
| output [31:0] wbs_dat_o; |
| input [3:0] wbs_sel_i; |
| |
| |
| matrix_multiply mprj (.clk(io_in[24]), |
| .execute(io_in[22]), |
| .reset(io_in[23]), |
| .vccd1(vccd1), |
| .vssd1(vssd1), |
| .input_val({io_in[35], |
| io_in[34], |
| io_in[33], |
| io_in[32], |
| io_in[31], |
| io_in[30], |
| io_in[29], |
| io_in[28]}), |
| .out({io_out[21], |
| io_out[20], |
| io_out[19], |
| io_out[18], |
| io_out[17], |
| io_out[16], |
| io_out[15], |
| io_out[14], |
| io_out[13], |
| io_out[12], |
| io_out[11], |
| io_out[10], |
| io_out[9], |
| io_out[8], |
| io_out[7], |
| io_out[6], |
| io_out[5]}), |
| .sel_in({io_in[27], |
| io_in[26], |
| io_in[25]}), |
| .sel_out({io_in[37], |
| io_in[36]})); |
| endmodule |
