module IOBM( /* PDS interface */ input C16M, input C8M, input E, output reg nAS, output reg RnW, output reg nLDS, output reg nUDS, output reg nVMA, input nDTACK, input nVPA, input nBERR, input nRES, /* PDS address and data latch control */ input AoutOE, output nDoutOE, output reg ALE0, output reg nDinLE, /* IO bus slave port interface */ input IOREQ, input IORW, input IOLDS, input IOUDS, output reg IOACT, output IODONE); /* C8M clock registration */ reg C8Mr; always @(posedge C16M) C8Mr <= C8M; /* I/O request input synchronization */ reg IOREQr; always @(posedge C16M) IOREQr <= IOREQ; /* VPA synchronization */ reg VPAr; always @(negedge C8M) VPAr <= !nVPA; /* E clock synchronization */ reg Er; always @(negedge C8M) begin Er <= E; end /* E clock state */ reg [3:0] ES; always @(negedge C8M) begin if (!E && Er) ES <= 1; else if (ES==0 || ES==9) ES <= 0; else ES <= ES+1; end /* ETACK and VMA generation */ wire ETACK = (ES==8) && !nVMA; always @(negedge C8M) begin if ((ES==3) && IOACT && VPAr) nVMA <= 0; else if (ES==0) nVMA <= 1; end /* I/O bus state */ reg [2:0] IOS = 0; reg IOS0; /* IODONE DTACK/"ETACK"/BERR/reset synchronization */ reg IODONEr; always @(posedge C16M) begin if ((IOS==3 || IOS==5) && !C8Mr) begin IODONEr <= !nDTACK || ETACK || !nBERR || !nRES; end else if (IOS==0) IODONEr <= 0; end /* IODONE output */ assign IODONE = IODONEr; /* I/O bus control */ always @(posedge C16M) case (IOS[2:0]) 3'h0: begin if (IOREQr && !C8Mr && AoutOE) begin // "IOS1" IOS <= 2; IOS0 <= 0; end else begin // "regular" IOS0 IOS <= 0; IOS0 <= 1; end IOACT <= IOREQr; ALE0 <= IOREQr; end 3'h2: begin IOS <= 3; IOS0 <= 0; IOACT <= 1; ALE0 <= 1; end 3'h3: begin IOS <= 4; IOS0 <= 0; IOACT <= 1; ALE0 <= 1; end 3'h4: begin IOS <= 5; IOS0 <= 0; IOACT <= 1; ALE0 <= 1; end 3'h5: begin if (!C8Mr && IODONEr) begin IOS <= 6; IOACT <= 0; end else begin IOS <= 5; IOACT <= 1; end IOS0 <= 0; ALE0 <= 1; end 3'h6: begin IOS <= 7; IOS0 <= 0; IOACT <= 0; ALE0 <= 0; end 3'h7: begin IOS <= 0; IOS0 <= 1; IOACT <= 0; ALE0 <= 0; end endcase /* PDS address and data latch control */ always @(negedge C16M) begin nDinLE = IOS==4 || IOS==5; end reg DoutOE = 0; always @(posedge C16M) begin DoutOE <= ((IOS==0 && IOREQr && !IORW && !C8Mr) || (DoutOE && (IOS==2 || IOS==3 || IOS==4 || IOS==5))); end assign nDoutOE = !(AoutOE && (DoutOE || (IOS0 && !IOREQr))); /* AS, DS, RW control */ always @(negedge C16M) begin nAS <= !( (IOS==0 && IOREQr && !C8Mr) || (IOS==2) || (IOS==3) || (IOS==4) || (IOS==5)); RnW <= !( (IOS==0 && IOREQr && !IORW && !C8Mr) || (!IORW && IOS==2) || (!IORW && IOS==3) || (!IORW && IOS==4) || (!IORW && IOS==5) || (!IORW && IOS==6)); nLDS <= !( (IOS==0 && IOREQr && IORW && IOLDS && !C8Mr) || (IOS==2 && IOLDS) || (IOS==3 && IOLDS) || (IOS==4 && IOLDS) || (IOS==5 && IOLDS)); nUDS <= !( (IOS==0 && IOREQr && IORW && IOUDS && !C8Mr) || (IOS==2 && IOUDS) || (IOS==3 && IOUDS) || (IOS==4 && IOUDS) || (IOS==5 && IOUDS)); end endmodule