module WarpSE( input [23:1] A_FSB, input nAS_FSB, input nLDS_FSB, input nUDS_FSB, input nWE_FSB, output nDTACK_FSB, output nVPA_FSB, output nBERR_FSB, input FCLK, input C16M, input C8M, input E, input nDTACK_IOB, input nVPA_IOB, output nVMA_IOB, output nAS_IOB, output nUDS_IOB, output nLDS_IOB, output nBR_IOB, input nBG_IOB, input nBERR_IOB, inout nRES, input nIPL2, output nROMCS, output nRAMLWE, output nRAMUWE, output nROMWE, output nRAS, output nCAS, output [11:0] RA, output nOE, output nADoutLE0, output nADoutLE1, output nAoutOE, output nDoutOE, output nDinOE, output nDinLE, input [3:1] SW, output C20MEN, output C25MEN); /* Reset input and open-drain output */ wire nRESin = nRES; wire nRESout; assign nRES = !nRESout ? 1'b0 : 1'bZ; /* E clock registration */ reg Er; always @(negedge C8M) begin Er <= E; end /* AS cycle detection */ wire BACT; /* Refresh request/ack signals */ wire RefReq, RefUrgent; /* Fast ROM enable setting */ wire FastROMEN; /* FSB chip select signals */ wire IOCS, SCSICS, IOPWCS, IACS, ROMCS, RAMCS, SndRAMCSWR; CS cs( /* Setting input */ FastROMEN, /* MC68HC000 interface */ A_FSB[23:08], FCLK, nRESin, nWE_FSB, /* AS cycle detection */ BACT, /* Device select outputs */ IOCS, SCSICS, IOPWCS, IACS, ROMCS, RAMCS, SndRAMCSWR); wire RAM_Ready; RAM ram( /* MC68HC000 interface */ FCLK, A_FSB[21:1], nWE_FSB, nAS_FSB, nLDS_FSB, nUDS_FSB, /* AS cycle detection */ BACT, /* Select and ready signals */ RAMCS, ROMCS, RAM_Ready, /* Refresh Counter Interface */ RefReq, RefUrgent, /* DRAM and NOR flash interface */ RA[11:0], nRAS, nCAS, nRAMLWE, nRAMUWE, nOE, nROMCS, nROMWE); wire IOBS_Ready; wire IOREQ, IOACT, IOBERR; wire ALE0S, ALE0M, ALE1; assign nADoutLE0 = ~(ALE0S || ALE0M); assign nADoutLE1 = ~ALE1; wire IORW0, IOL0, IOU0; IOBS iobs( /* MC68HC000 interface */ FCLK, nWE_FSB, nAS_FSB, nLDS_FSB, nUDS_FSB, /* AS cycle detection, FSB BERR */ BACT, /* Select and ready signals */ IOCS, IOPWCS, IOBS_Ready, nBERR_FSB, /* Read data OE control */ nDinOE, /* IOB Master Controller Interface */ IOREQ, IOACT, IOBERR, /* FIFO primary level control */ ALE0S, IORW0, IOL0, IOU0, /* FIFO secondary level control */ ALE1); wire AoutOE; assign nAoutOE = !AoutOE; wire nAS_IOBout, nLDS_IOBout, nUDS_IOBout, nVMA_IOBout; assign nAS_IOB = AoutOE ? nAS_IOBout : 1'bZ; assign nLDS_IOB = AoutOE ? nLDS_IOBout : 1'bZ; assign nUDS_IOB = AoutOE ? nUDS_IOBout : 1'bZ; assign nVMA_IOB = AoutOE ? nVMA_IOBout : 1'bZ; IOBM iobm( /* PDS interface */ C16M, C8M, E, Er, nAS_IOBout, nLDS_IOBout, nUDS_IOBout, nVMA_IOBout, nDTACK_IOB, nVPA_IOB, nBERR_IOB, nRESin, /* PDS address and data latch control */ AoutOE, nDoutOE, ALE0M, nDinLE, /* IO bus slave port interface */ IOACT, IOBERR, IOREQ, IOL0, IOU0, IORW0); CNT cnt( /* C8M and E clocks */ C8M, E, Er, /* Refresh request */ RefReq, RefUrgent, /* Reset, switch, button */ SW[3:1], nRESout, nIPL2, /* Mac PDS bus master control outputs */ AoutOE, nBR_IOB, /* Configuration outputs */ FastROMEN, C20MEN, C25MEN); FSB fsb( /* MC68HC000 interface */ FCLK, nAS_FSB, nDTACK_FSB, nVPA_FSB, /* FSB cycle detection */ BACT, /* Ready inputs */ RAM_Ready, IOBS_Ready, 1, /* Interrupt acknowledge select */ IACS); endmodule