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FOR THE AVOIDANCE/ // OF DOUBT, NO PATENT LICENSES ARE BEING LICENSED UNDER THIS LICENSE AGREEMENT.// ////////////////////////////////////////////////////////////////////////////////// module AHBLITE_SYS( //CLOCKS & RESET input wire CLK, input wire RESET, //TO BOARD LEDs output wire [7:0] LED, output wire LOCKUP ); //AHB-LITE SIGNALS //Gloal Signals wire HCLK; wire HRESETn; //Address, Control & Write Data Signals wire [31:0] HADDR; wire [31:0] HWDATA; wire HWRITE; wire [1:0] HTRANS; wire [2:0] HBURST; wire HMASTLOCK; wire [3:0] HPROT; wire [2:0] HSIZE; //Transfer Response & Read Data Signals wire [31:0] HRDATA; wire HRESP; wire HREADY; //SELECT SIGNALS wire [3:0] MUX_SEL; wire HSEL_MEM; wire HSEL_LED; //SLAVE READ DATA wire [31:0] HRDATA_MEM; wire [31:0] HRDATA_LED; //SLAVE HREADYOUT wire HREADYOUT_MEM; wire HREADYOUT_LED; //CM0-DS Sideband signals wire TXEV; wire SLEEPING; wire [15:0] IRQ; //SYSTEM GENERATES NO ERROR RESPONSE assign HRESP = 1'b0; //CM0-DS INTERRUPT SIGNALS assign IRQ = {16'b0000_0000_0000_0000}; assign HRESETn = ~RESET; // Clock divider, divide the frequency by two, hence less time constraint reg clk_div=0; always @(posedge CLK) begin clk_div=~clk_div; end // A global clock buffer BUFG BUFG_CLK ( .O(HCLK), // 1-bit output: Clock buffer output .I(clk_div) // 1-bit input: Clock buffer input ); //AHBLite MASTER --> CM0-DS CORTEXM0DS u_cortexm0ds ( //Global Signals .HCLK (HCLK), .HRESETn (HRESETn), //Address, Control & Write Data .HADDR (HADDR[31:0]), .HBURST (HBURST[2:0]), .HMASTLOCK (HMASTLOCK), .HPROT (HPROT[3:0]), .HSIZE (HSIZE[2:0]), .HTRANS (HTRANS[1:0]), .HWDATA (HWDATA[31:0]), .HWRITE (HWRITE), //Transfer Response & Read Data .HRDATA (HRDATA[31:0]), .HREADY (HREADY), .HRESP (HRESP), //CM0 Sideband Signals .NMI (1'b0), .IRQ (IRQ[15:0]), .TXEV (), .RXEV (1'b0), .LOCKUP (LOCKUP), .SYSRESETREQ (), .SLEEPING () ); //Address Decoder AHBDCD uAHBDCD ( .HADDR(HADDR[31:0]), .HSEL_S0(HSEL_MEM), .HSEL_S1(HSEL_LED), .HSEL_S2(), .HSEL_S3(), .HSEL_S4(), .HSEL_S5(), .HSEL_S6(), .HSEL_S7(), .HSEL_S8(), .HSEL_S9(), .HSEL_NOMAP(HSEL_NOMAP), .MUX_SEL(MUX_SEL[3:0]) ); //Slave to Master Mulitplexor AHBMUX uAHBMUX ( .HCLK(HCLK), .HRESETn(HRESETn), .MUX_SEL(MUX_SEL[3:0]), .HRDATA_S0(HRDATA_MEM), .HRDATA_S1(HRDATA_LED), .HRDATA_S2(), .HRDATA_S3(), .HRDATA_S4(), .HRDATA_S5(), .HRDATA_S6(), .HRDATA_S7(), .HRDATA_S8(), .HRDATA_S9(), .HRDATA_NOMAP(32'hDEADBEEF), .HREADYOUT_S0(HREADYOUT_MEM), .HREADYOUT_S1(HREADYOUT_LED), .HREADYOUT_S2(1'b1), .HREADYOUT_S3(1'b1), .HREADYOUT_S4(1'b1), .HREADYOUT_S5(1'b1), .HREADYOUT_S6(1'b1), .HREADYOUT_S7(1'b1), .HREADYOUT_S8(1'b1), .HREADYOUT_S9(1'b1), .HREADYOUT_NOMAP(1'b1), .HRDATA(HRDATA[31:0]), .HREADY(HREADY) ); // AHBLite Peripherals //AHBLite Slave AHB2MEM uAHB2MEM ( //AHBLITE Signals .HSEL(HSEL_MEM), .HCLK(HCLK), .HRESETn(HRESETn), .HREADY(HREADY), .HADDR(HADDR), .HTRANS(HTRANS[1:0]), .HWRITE(HWRITE), .HSIZE(HSIZE), .HWDATA(HWDATA[31:0]), .HRDATA(HRDATA_MEM), .HREADYOUT(HREADYOUT_MEM) //Sideband Signals ); //AHBLite Slave AHB2LED uAHB2LED ( //AHBLITE Signals .HSEL(HSEL_LED), .HCLK(HCLK), .HRESETn(HRESETn), .HREADY(HREADY), .HADDR(HADDR), .HTRANS(HTRANS[1:0]), .HWRITE(HWRITE), .HSIZE(HSIZE), .HWDATA(HWDATA[31:0]), .HRDATA(HRDATA_LED), .HREADYOUT(HREADYOUT_LED), //Sideband Signals .LED(LED) ); endmodule