// Intel megafunction declarations, to avoid Yosys complaining. `default_nettype none (* blackbox *) module altera_std_synchronizer(clk, din, dout, reset_n); parameter depth = 2; input clk; input reset_n; input din; output dout; endmodule (* blackbox *) module altiobuf_in(datain, dataout); parameter enable_bus_hold = "FALSE"; parameter use_differential_mode = "FALSE"; parameter number_of_channels = 1; input [number_of_channels-1:0] datain; output [number_of_channels-1:0] dataout; endmodule (* blackbox *) module altiobuf_out(datain, dataout); parameter enable_bus_hold = "FALSE"; parameter use_differential_mode = "FALSE"; parameter use_oe = "FALSE"; parameter number_of_channels = 1; input [number_of_channels-1:0] datain; output [number_of_channels-1:0] dataout; endmodule (* blackbox *) module altiobuf_bidir(dataio, oe, datain, dataout); parameter number_of_channels = 1; parameter enable_bus_hold = "OFF"; inout [number_of_channels-1:0] dataio; input [number_of_channels-1:0] datain; output [number_of_channels-1:0] dataout; input [number_of_channels-1:0] oe; endmodule (* blackbox *) module altsyncram(clock0, clock1, address_a, data_a, rden_a, wren_a, byteena_a, q_a, addressstall_a, address_b, data_b, rden_b, wren_b, byteena_b, q_b, addressstall_b, clocken0, clocken1, clocken2, clocken3, aclr0, aclr1, eccstatus); parameter lpm_type = "altsyncram"; parameter operation_mode = "dual_port"; parameter ram_block_type = "auto"; parameter intended_device_family = "auto"; parameter power_up_uninitialized = "false"; parameter read_during_write_mode_mixed_ports = "dontcare"; parameter byte_size = 8; parameter widthad_a = 1; parameter width_a = 1; parameter width_byteena_a = 1; parameter numwords_a = 1; parameter clock_enable_input_a = "clocken0"; parameter widthad_b = 1; parameter width_b = 1; parameter numwords_b = 1; parameter address_aclr_b = "aclr0"; parameter address_reg_b = ""; parameter outdata_aclr_b = "aclr0"; parameter outdata_reg_b = ""; parameter clock_enable_input_b = "clocken0"; parameter clock_enable_output_b = "clocken0"; input clock0, clock1; input [widthad_a-1:0] address_a; input [width_a-1:0] data_a; input rden_a; input wren_a; input [(width_a/8)-1:0] byteena_a; input addressstall_a; output [width_a-1:0] q_a; input wren_b; input rden_b; input [widthad_b-1:0] address_b; input [width_b-1:0] data_b; input [(width_b/8)-1:0] byteena_b; input addressstall_b; output [width_b-1:0] q_b; input clocken0; input clocken1; input clocken2; input clocken3; input aclr0; input aclr1; output eccstatus; endmodule (* blackbox *) module cyclonev_mlab_cell(portaaddr, portadatain, portbaddr, portbdataout, ena0, clk0, clk1); parameter logical_ram_name = ""; parameter logical_ram_depth = 32; parameter logical_ram_width = 20; parameter mixed_port_feed_through_mode = "new"; parameter first_bit_number = 0; parameter first_address = 0; parameter last_address = 31; parameter address_width = 5; parameter data_width = 1; parameter byte_enable_mask_width = 1; parameter port_b_data_out_clock = "NONE"; parameter [639:0] mem_init0 = 640'b0; input [address_width-1:0] portaaddr, portbaddr; input [data_width-1:0] portadatain; output [data_width-1:0] portbdataout; input ena0, clk0, clk1; endmodule (* blackbox *) module cyclonev_mac(ax, ay, resulta); parameter ax_width = 9; parameter ay_scan_in_width = 9; parameter result_a_width = 18; parameter operation_mode = "M9x9"; input [ax_width-1:0] ax; input [ay_scan_in_width-1:0] ay; output [result_a_width-1:0] resulta; endmodule (* blackbox *) module cyclone10gx_mac(ax, ay, resulta); parameter ax_width = 18; parameter ay_scan_in_width = 18; parameter result_a_width = 36; parameter operation_mode = "M18X18_FULL"; input [ax_width-1:0] ax; input [ay_scan_in_width-1:0] ay; output [result_a_width-1:0] resulta; endmodule