//////////////////////////////////////////////////////////////////////////////////
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//////////////////////////////////////////////////////////////////////////////////
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//
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//
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// This file is part of the NextZ80 project
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// This file is part of the NextZ80 project
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// http://www.opencores.org/cores/nextz80/
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// http://www.opencores.org/cores/nextz80/
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//
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//
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// Filename: NextZ80CPU.v
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// Filename: NextZ80CPU.v
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// Description: Implementation of Z80 compatible CPU
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// Description: Implementation of Z80 compatible CPU
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// Version 1.0
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// Version 1.0
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// Creation date: 28Jan2011 - 18Mar2011
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// Creation date: 28Jan2011 - 18Mar2011
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//
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//
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// Author: Nicolae Dumitrache
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// Author: Nicolae Dumitrache
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// e-mail: ndumitrache@opencores.org
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// e-mail: ndumitrache@opencores.org
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//
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//
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/////////////////////////////////////////////////////////////////////////////////
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/////////////////////////////////////////////////////////////////////////////////
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//
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//
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// Copyright (C) 2011 Nicolae Dumitrache
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// Copyright (C) 2011 Nicolae Dumitrache
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//
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//
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// This source file may be used and distributed without
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// This source file may be used and distributed without
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// restriction provided that this copyright statement is not
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// restriction provided that this copyright statement is not
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// removed from the file and that any derivative work contains
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// removed from the file and that any derivative work contains
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// the original copyright notice and the associated disclaimer.
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// the original copyright notice and the associated disclaimer.
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//
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//
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// This source file is free software; you can redistribute it
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// This source file is free software; you can redistribute it
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// and/or modify it under the terms of the GNU Lesser General
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// and/or modify it under the terms of the GNU Lesser General
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// Public License as published by the Free Software Foundation;
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// Public License as published by the Free Software Foundation;
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// either version 2.1 of the License, or (at your option) any
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// either version 2.1 of the License, or (at your option) any
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// later version.
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// later version.
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//
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//
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// This source is distributed in the hope that it will be
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// This source is distributed in the hope that it will be
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// useful, but WITHOUT ANY WARRANTY; without even the implied
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// useful, but WITHOUT ANY WARRANTY; without even the implied
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// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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// PURPOSE. See the GNU Lesser General Public License for more
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// PURPOSE. See the GNU Lesser General Public License for more
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// details.
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// details.
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//
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//
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// You should have received a copy of the GNU Lesser General
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// You should have received a copy of the GNU Lesser General
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// Public License along with this source; if not, download it
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// Public License along with this source; if not, download it
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// from http://www.opencores.org/lgpl.shtml
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// from http://www.opencores.org/lgpl.shtml
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//
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//
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///////////////////////////////////////////////////////////////////////////////////
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///////////////////////////////////////////////////////////////////////////////////
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//
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//
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// Comments:
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// Comments:
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// This project was developed and tested on a XILINX Spartan3AN board.
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// This project was developed and tested on a XILINX Spartan3AN board.
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//
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//
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// NextZ80 processor features:
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// NextZ80 processor features:
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// All documented/undocumented intstructions are implemented
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// All documented/undocumented intstructions are implemented
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// All documented/undocumented flags are implemented
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// All documented/undocumented flags are implemented
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// All (doc/undoc)flags are changed accordingly by all (doc/undoc)instructions.
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// All (doc/undoc)flags are changed accordingly by all (doc/undoc)instructions.
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// The block instructions (LDx, CPx, INx, OUTx) have only the documented effects on flags.
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// The block instructions (LDx, CPx, INx, OUTx) have only the documented effects on flags.
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// The Bit n,(IX/IY+d) and BIT n,(HL) undocumented flags XF and YF are implemented like the BIT n,r and not actually like on the real Z80 CPU.
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// The Bit n,(IX/IY+d) and BIT n,(HL) undocumented flags XF and YF are implemented like the BIT n,r and not actually like on the real Z80 CPU.
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// All interrupt modes implemented: NMI, IM0, IM1, IM2
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// All interrupt modes implemented: NMI, IM0, IM1, IM2
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// R register available
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// R register available
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// Fast conditional jump/call/ret takes only 1 T state if not executed
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// Fast conditional jump/call/ret takes only 1 T state if not executed
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// Fast block instructions: LDxR - 3 T states/byte, INxR/OTxR - 2 T states/byte, CPxR - 4 T states / byte
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// Fast block instructions: LDxR - 3 T states/byte, INxR/OTxR - 2 T states/byte, CPxR - 4 T states / byte
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// Each CPU machine cycle takes (mainly) one clock T state. This makes this processor over 4 times faster than a Z80 at the same
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// Each CPU machine cycle takes (mainly) one clock T state. This makes this processor over 4 times faster than a Z80 at the same
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// clock frequency (some instructions are up to 10 times faster).
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// clock frequency (some instructions are up to 10 times faster).
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// Works at ~40MHZ on Spartan XC3S700AN speed grade -4)
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// Works at ~40MHZ on Spartan XC3S700AN speed grade -4)
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// Small size ( ~12% ~700 slices - on Spartan XC3S700AN )
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// Small size ( ~12% ~700 slices - on Spartan XC3S700AN )
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// Tested with ZEXDOC (fully compliant).
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// Tested with ZEXDOC (fully compliant).
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// Tested with ZEXALL (all OK except CPx(R), LDx(R), BIT n, (IX/IY+d), BIT n, (HL) - fail because of the un-documented XF and YF flags).
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// Tested with ZEXALL (all OK except CPx(R), LDx(R), BIT n, (IX/IY+d), BIT n, (HL) - fail because of the un-documented XF and YF flags).
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//
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//
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///////////////////////////////////////////////////////////////////////////////////
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///////////////////////////////////////////////////////////////////////////////////
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`timescale 1ns / 1ps
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`timescale 1ns / 1ps
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module NextZ80
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module NextZ80
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(
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(
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input wire[7:0] DI,
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input wire[7:0] DI,
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output wire[7:0] DO,
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output wire[7:0] DO,
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output wire[15:0] ADDR,
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output wire[15:0] ADDR,
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output reg WR,
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output reg WR,
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output reg MREQ,
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output reg MREQ,
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output reg IORQ,
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output reg IORQ,
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output reg HALT,
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output reg HALT,
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output reg M1,
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output reg M1,
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input wire CLK,
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input wire CLK,
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input wire RESET,
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input wire RESET,
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input wire INT,
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input wire INT,
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input wire NMI,
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input wire NMI,
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input wire WAIT
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input wire WAIT
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);
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);
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|
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// connections and registers
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// connections and registers
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reg [9:0] CPUStatus = 0; // 0=AF-AF', 1=HL-HL', 2=DE-HL, 3=DE'-HL', 4=HL-X, 5=IX-IY, 6=IFF1,7=IFF2, 9:8=IMODE
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reg [9:0] CPUStatus = 0; // 0=AF-AF', 1=HL-HL', 2=DE-HL, 3=DE'-HL', 4=HL-X, 5=IX-IY, 6=IFF1,7=IFF2, 9:8=IMODE
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wire [7:0] ALU8FLAGS;
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wire [7:0] ALU8FLAGS;
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wire [7:0] FLAGS;
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wire [7:0] FLAGS;
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wire [7:0] ALU80;
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wire [7:0] ALU80;
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wire [7:0] ALU81;
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wire [7:0] ALU81;
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wire [15:0]ALU160;
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wire [15:0]ALU160;
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wire [7:0] ALU161;
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wire [7:0] ALU161;
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wire [15:0]ALU8OUT;
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wire [15:0]ALU8OUT;
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reg [9:0] FETCH = 0;
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reg [9:0] FETCH = 0;
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reg [2:0] STAGE = 0;
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reg [2:0] STAGE = 0;
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wire [5:0] opd;
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wire [5:0] opd;
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wire [2:0] op16;
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wire [2:0] op16;
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wire op0mem = FETCH[2:0] == 6;
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wire op0mem = FETCH[2:0] == 6;
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wire op1mem = FETCH[5:3] == 6;
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wire op1mem = FETCH[5:3] == 6;
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reg [1:0]fetch98;
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reg [1:0]fetch98;
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// stage status
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// stage status
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reg [1:0]DO_SEL; // ALU80 - th - flags - ALU8OUT[7:0]
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reg [1:0]DO_SEL; // ALU80 - th - flags - ALU8OUT[7:0]
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reg ALU160_SEL; // regs - pc
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reg ALU160_SEL; // regs - pc
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reg DINW_SEL; // ALU8OUT - DI
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reg DINW_SEL; // ALU8OUT - DI
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reg [5:0]WE; // 5 = flags, 4 = PC, 3 = SP, 2 = tmpHI, 1 = hi, 0 = lo
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reg [5:0]WE; // 5 = flags, 4 = PC, 3 = SP, 2 = tmpHI, 1 = hi, 0 = lo
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reg [4:0] ALU8OP;
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reg [4:0] ALU8OP;
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reg [2:0] ALU16OP;
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reg [2:0] ALU16OP;
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reg next_stage;
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reg next_stage;
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reg [3:0]REG_WSEL;
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reg [3:0]REG_WSEL;
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reg [3:0]REG_RSEL;
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reg [3:0]REG_RSEL;
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reg [11:0]status; // 0=AF-AF', 1=HL-HL', 2=DE-HL, 3=DE'-HL', 4=HL-X, 5=IX-IY, 7:6=IFFVAL, 9:8=imode, 10=setIMODE, 11=set IFFVAL
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reg [11:0]status; // 0=AF-AF', 1=HL-HL', 2=DE-HL, 3=DE'-HL', 4=HL-X, 5=IX-IY, 7:6=IFFVAL, 9:8=imode, 10=setIMODE, 11=set IFFVAL
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// FETCH[5:3]: 000 NZ, 001 Z, 010 NC, 011 C, 100 PO, 101 PE, 110 P, 111 M
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// FETCH[5:3]: 000 NZ, 001 Z, 010 NC, 011 C, 100 PO, 101 PE, 110 P, 111 M
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wire [7:0]FlagMux = {FLAGS[7], !FLAGS[7], FLAGS[2], !FLAGS[2], FLAGS[0], !FLAGS[0], FLAGS[6], !FLAGS[6]};
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wire [7:0]FlagMux = {FLAGS[7], !FLAGS[7], FLAGS[2], !FLAGS[2], FLAGS[0], !FLAGS[0], FLAGS[6], !FLAGS[6]};
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reg tzf;
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reg tzf;
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reg FNMI = 0, SNMI = 0;
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reg FNMI = 0, SNMI = 0;
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reg SRESET = 0;
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reg SRESET = 0;
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reg SINT = 0;
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reg SINT = 0;
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wire [2:0]intop = FETCH[1] ? 4 : (FETCH[0] ? 5 : 6);
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wire [2:0]intop = FETCH[1] ? 4 : (FETCH[0] ? 5 : 6);
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reg xmask;
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reg xmask;
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Z80Reg CPU_REGS (
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Z80Reg CPU_REGS (
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.rstatus(CPUStatus[7:0]),
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.rstatus(CPUStatus[7:0]),
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.M1(M1),
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.M1(M1),
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.WE(WE),
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.WE(WE),
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.CLK(CLK),
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.CLK(CLK),
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.ALU8OUT(ALU8OUT),
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.ALU8OUT(ALU8OUT),
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.DI(DI),
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.DI(DI),
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.DO(DO),
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.DO(DO),
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.ADDR(ADDR),
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.ADDR(ADDR),
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.CONST(FETCH[7] ? {2'b00, FETCH[5:3], 3'b000} : 8'h66), // RST/NMI address
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.CONST(FETCH[7] ? {2'b00, FETCH[5:3], 3'b000} : 8'h66), // RST/NMI address
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.ALU80(ALU80),
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.ALU80(ALU80),
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.ALU81(ALU81),
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.ALU81(ALU81),
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.ALU160(ALU160),
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.ALU160(ALU160),
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.ALU161(ALU161),
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.ALU161(ALU161),
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.ALU8FLAGS(ALU8FLAGS),
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.ALU8FLAGS(ALU8FLAGS),
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.FLAGS(FLAGS),
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.FLAGS(FLAGS),
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.DO_SEL(DO_SEL),
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.DO_SEL(DO_SEL),
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.ALU160_sel(ALU160_SEL),
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.ALU160_sel(ALU160_SEL),
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.REG_WSEL(REG_WSEL),
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.REG_WSEL(REG_WSEL),
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.REG_RSEL(REG_RSEL),
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.REG_RSEL(REG_RSEL),
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.DINW_SEL(DINW_SEL),
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.DINW_SEL(DINW_SEL),
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.XMASK(xmask),
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.XMASK(xmask),
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.ALU16OP(ALU16OP), // used for post increment for ADDR, SP mux re-direct
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.ALU16OP(ALU16OP), // used for post increment for ADDR, SP mux re-direct
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.WAIT(WAIT)
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.WAIT(WAIT)
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);
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);
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ALU8 CPU_ALU8 (
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ALU8 CPU_ALU8 (
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.D0(ALU80),
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.D0(ALU80),
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.D1(ALU81),
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.D1(ALU81),
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.FIN(FLAGS),
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.FIN(FLAGS),
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.FOUT(ALU8FLAGS),
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.FOUT(ALU8FLAGS),
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.ALU8DOUT(ALU8OUT),
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.ALU8DOUT(ALU8OUT),
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.OP(ALU8OP),
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.OP(ALU8OP),
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.EXOP(FETCH[8:3]),
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.EXOP(FETCH[8:3]),
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.LDIFLAGS(REG_WSEL[2]), // inc16 HL
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.LDIFLAGS(REG_WSEL[2]), // inc16 HL
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.DSTHI(!REG_WSEL[0])
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.DSTHI(!REG_WSEL[0])
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);
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);
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ALU16 CPU_ALU16 (
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ALU16 CPU_ALU16 (
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.D0(ALU160),
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.D0(ALU160),
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.D1(ALU161),
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.D1(ALU161),
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.DOUT(ADDR),
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.DOUT(ADDR),
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.OP(ALU16OP)
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.OP(ALU16OP)
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);
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);
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always @(posedge CLK)
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always @(posedge CLK)
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if(!WAIT) begin
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if(!WAIT) begin
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SRESET <= RESET;
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SRESET <= RESET;
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SNMI <= NMI;
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SNMI <= NMI;
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SINT <= INT;
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SINT <= INT;
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if(!SNMI) FNMI <= 0;
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if(!SNMI) FNMI <= 0;
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if(SRESET) FETCH <= 10'b1110000000;
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if(SRESET) FETCH <= 10'b1110000000;
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else
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else
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if(FETCH[9:6] == 4'b1110) {FETCH[9:7]} <= 3'b000; // exit RESET state
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if(FETCH[9:6] == 4'b1110) {FETCH[9:7]} <= 3'b000; // exit RESET state
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else begin
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else begin
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if(M1)
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if(M1 || (fetch98 == 2'b10)) // [DD/FD CB disp op] - M1 is inactive during <op> byte read, but FETCH is performed
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case({MREQ, CPUStatus[9:8]})
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case({MREQ, CPUStatus[9:8]})
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3'b000, 3'b001, 3'b100, 3'b101, 3'b110, 3'b111: FETCH <= {fetch98, DI};
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3'b000, 3'b001, 3'b100, 3'b101, 3'b110, 3'b111: FETCH <= {fetch98, DI};
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3'b010: FETCH <= {fetch98, 8'hff}; // IM1 - RST38
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3'b010: FETCH <= {fetch98, 8'hff}; // IM1 - RST38
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3'b011: ; // IM2 - get addrLO
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3'b011: ; // IM2 - get addrLO
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endcase
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endcase
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if(~|{next_stage, fetch98[1:0], status[4]}) // INT or NMI sample
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if(~|{next_stage, fetch98[1:0], status[4]}) // INT or NMI sample
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if(SNMI & !FNMI) begin // NMI posedge
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if(SNMI & !FNMI) begin // NMI posedge
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{FETCH[9:6], FETCH[1:0]} <= {4'b1101, HALT, M1};
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{FETCH[9:6], FETCH[1:0]} <= {4'b1101, HALT, M1};
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FNMI <= 1; // NMI acknowledged
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FNMI <= 1; // NMI acknowledged
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end else if(SINT & CPUStatus[6] & !status[11]) {FETCH[9:6], FETCH[1:0]} <= {4'b1100, HALT, M1}; // INT request
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end else if(SINT & CPUStatus[6] & !status[11]) {FETCH[9:6], FETCH[1:0]} <= {4'b1100, HALT, M1}; // INT request
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end
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end
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if(next_stage) STAGE <= STAGE + 3'b001;
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if(next_stage) STAGE <= STAGE + 3'b001;
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else STAGE <= 0;
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else STAGE <= 0;
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if(status[4]) CPUStatus[5:4] <= status[5:4];
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if(status[4]) CPUStatus[5:4] <= status[5:4];
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else if(~|{next_stage, fetch98[1]} | fetch98[0]) CPUStatus[4] <= 1'b0; // clear X
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else if(~|{next_stage, fetch98[1]} | fetch98[0]) CPUStatus[4] <= 1'b0; // clear X
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CPUStatus[3:0] <= CPUStatus[3:0] ^ status[3:0];
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CPUStatus[3:0] <= CPUStatus[3:0] ^ status[3:0];
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if(status[11]) CPUStatus[7:6] <= status[7:6]; // IFF2:1
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if(status[11]) CPUStatus[7:6] <= status[7:6]; // IFF2:1
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if(status[10]) CPUStatus[9:8] <= status[9:8]; // IMM
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if(status[10]) CPUStatus[9:8] <= status[9:8]; // IMM
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tzf <= ALU8FLAGS[6];
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tzf <= ALU8FLAGS[6];
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end
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end
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|
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assign opd[0] = FETCH[0] ^ &FETCH[2:1];
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assign opd[0] = FETCH[0] ^ &FETCH[2:1];
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assign opd[2:1] = FETCH[2:1];
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assign opd[2:1] = FETCH[2:1];
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assign opd[3] = FETCH[3] ^ &FETCH[5:4];
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assign opd[3] = FETCH[3] ^ &FETCH[5:4];
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assign opd[5:4] = FETCH[5:4];
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assign opd[5:4] = FETCH[5:4];
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assign op16[2:0] = &FETCH[5:4] ? 3'b101 : {1'b0, FETCH[5:4]};
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assign op16[2:0] = &FETCH[5:4] ? 3'b101 : {1'b0, FETCH[5:4]};
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|
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always @* begin
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always @* begin
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DO_SEL = 2'bxx; // ALU80 - th - flags - ALU8OUT[7:0]
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DO_SEL = 2'bxx; // ALU80 - th - flags - ALU8OUT[7:0]
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ALU160_SEL = 1'bx; // regs - pc
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ALU160_SEL = 1'bx; // regs - pc
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DINW_SEL = 1'bx; // ALU8OUT - DI
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DINW_SEL = 1'bx; // ALU8OUT - DI
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WE = 6'bxxxxxx; // 5 = flags, 4 = PC, 3 = SP, 2 = tmpHI, 1 = hi, 0 = lo
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WE = 6'bxxxxxx; // 5 = flags, 4 = PC, 3 = SP, 2 = tmpHI, 1 = hi, 0 = lo
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ALU8OP = 5'bxxxxx;
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ALU8OP = 5'bxxxxx;
|
ALU16OP = 3'b000; // NOP, post inc
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ALU16OP = 3'b000; // NOP, post inc
|
next_stage = 0;
|
next_stage = 0;
|
REG_WSEL = 4'bxxxx;
|
REG_WSEL = 4'bxxxx;
|
REG_RSEL = 4'bx0xx; // prevents default 4'b0100 which leads to incorrect P flag value in some cases (like RLA)
|
REG_RSEL = 4'bx0xx; // prevents default 4'b0100 which leads to incorrect P flag value in some cases (like RLA)
|
M1 = 1;
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M1 = 1;
|
MREQ = 1;
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MREQ = 1;
|
WR = 0;
|
WR = 0;
|
|
|
HALT = 0;
|
HALT = 0;
|
IORQ = 0;
|
IORQ = 0;
|
status = 12'b00xxxxx00000;
|
status = 12'b00xxxxx00000;
|
fetch98 = 2'b00;
|
fetch98 = 2'b00;
|
|
|
case({FETCH[7:6], op1mem, op0mem})
|
case({FETCH[7:6], op1mem, op0mem})
|
4'b0000, 4'b0001, 4'b0010, 4'b0011, 4'b0100, 4'b1000, 4'b1100: xmask = 1;
|
4'b0000, 4'b0001, 4'b0010, 4'b0011, 4'b0100, 4'b1000, 4'b1100: xmask = 1;
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default: xmask = 0;
|
default: xmask = 0;
|
endcase
|
endcase
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|
|
case(FETCH[9:6])
|
case(FETCH[9:6])
|
//------------------------------------------- block 00 ----------------------------------------------------
|
//------------------------------------------- block 00 ----------------------------------------------------
|
4'b0000:
|
4'b0000:
|
case(FETCH[3:0])
|
case(FETCH[3:0])
|
// ----------------------- NOP, EX AF, AF', DJNZ, JR, JR c --------------------
|
// ----------------------- NOP, EX AF, AF', DJNZ, JR, JR c --------------------
|
4'b0000, 4'b1000:
|
4'b0000, 4'b1000:
|
case(FETCH[5:4])
|
case(FETCH[5:4])
|
2'b00: begin // NOP, EX AF, AF'
|
2'b00: begin // NOP, EX AF, AF'
|
DO_SEL = 2'bxx;
|
DO_SEL = 2'bxx;
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
status[0] = FETCH[3];
|
status[0] = FETCH[3];
|
end
|
end
|
2'b01:
|
2'b01:
|
if(!STAGE[0]) begin // DJNZ, JR - stage1
|
if(!STAGE[0]) begin // DJNZ, JR - stage1
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010100; // PC, tmpHI
|
WE = 6'b010100; // PC, tmpHI
|
if(!FETCH[3]) begin
|
if(!FETCH[3]) begin
|
ALU8OP = 5'b01010; // DEC, for tzf only
|
ALU8OP = 5'b01010; // DEC, for tzf only
|
REG_WSEL = 4'b0000; // B
|
REG_WSEL = 4'b0000; // B
|
end
|
end
|
next_stage = 1;
|
next_stage = 1;
|
M1 = 0;
|
M1 = 0;
|
end else if(FETCH[3]) begin // JR - stage2
|
end else if(FETCH[3]) begin // JR - stage2
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
ALU16OP = 3; // ADD
|
ALU16OP = 3; // ADD
|
end else begin // DJNZ - stage2
|
end else begin // DJNZ - stage2
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b010x10; // PC, hi
|
WE = 6'b010x10; // PC, hi
|
ALU8OP = 5'b01010; // DEC
|
ALU8OP = 5'b01010; // DEC
|
ALU16OP = tzf ? 3'd0 : 3'd3; // NOP/ADD
|
ALU16OP = tzf ? 3'd0 : 3'd3; // NOP/ADD
|
REG_WSEL = 4'b0000; // B
|
REG_WSEL = 4'b0000; // B
|
end
|
end
|
2'b10, 2'b11: // JR cc, stage1, stage2
|
2'b10, 2'b11: // JR cc, stage1, stage2
|
case({STAGE[0], FlagMux[{1'b0, FETCH[4:3]}]})
|
case({STAGE[0], FlagMux[{1'b0, FETCH[4:3]}]})
|
2'b00, 2'b11: begin
|
2'b00, 2'b11: begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
ALU16OP = STAGE[0] ? 3'd3 : 3'd1; // ADD/ INC, post inc
|
ALU16OP = STAGE[0] ? 3'd3 : 3'd1; // ADD/ INC, post inc
|
end
|
end
|
2'b01: begin
|
2'b01: begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010100; // PC, tmpHI
|
WE = 6'b010100; // PC, tmpHI
|
next_stage = 1;
|
next_stage = 1;
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
endcase
|
endcase
|
endcase
|
endcase
|
// ----------------------- LD rr,nn --------------------
|
// ----------------------- LD rr,nn --------------------
|
4'b0001: // LD rr,nn, stage1
|
4'b0001: // LD rr,nn, stage1
|
case({STAGE[1:0], op16[2]})
|
case({STAGE[1:0], op16[2]})
|
3'b00_0, 3'b00_1, 3'b01_0, 3'b01_1: begin // LD rr,nn, stage1,2
|
3'b00_0, 3'b00_1, 3'b01_0, 3'b01_1: begin // LD rr,nn, stage1,2
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, lo/HI
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, lo/HI
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = {op16, 1'bx};
|
REG_WSEL = {op16, 1'bx};
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
3'b10_0, 3'b11_1: begin // BC, DE, HL, stage3, SP stage4
|
3'b10_0, 3'b11_1: begin // BC, DE, HL, stage3, SP stage4
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
3'b10_1: begin // SP stage3
|
3'b10_1: begin // SP stage3
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 4; // NOP
|
ALU16OP = 4; // NOP
|
next_stage = 1;
|
next_stage = 1;
|
REG_RSEL = 4'b101x; // tmpSP
|
REG_RSEL = 4'b101x; // tmpSP
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- LD (BC) A - LD (DE) A - LD (nn) HL, LD (nn),A --------------------
|
// ----------------------- LD (BC) A - LD (DE) A - LD (nn) HL, LD (nn),A --------------------
|
// ----------------------- LD A (BC) - LD A (DE) - LD HL (nn), LD A (nn) --------------------
|
// ----------------------- LD A (BC) - LD A (DE) - LD HL (nn), LD A (nn) --------------------
|
4'b0010, 4'b1010:
|
4'b0010, 4'b1010:
|
case(STAGE[2:0])
|
case(STAGE[2:0])
|
3'b000:
|
3'b000:
|
if(FETCH[5] == 0) begin // LD (BC) A, LD (DE) A - stage1
|
if(FETCH[5] == 0) begin // LD (BC) A, LD (DE) A - stage1
|
if(FETCH[3]) DINW_SEL = 1; // DI
|
if(FETCH[3]) DINW_SEL = 1; // DI
|
else DO_SEL = 2'b00; // ALU80
|
else DO_SEL = 2'b00; // ALU80
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = {4'b000x, FETCH[3], 1'bx}; // hi
|
WE = {4'b000x, FETCH[3], 1'bx}; // hi
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = FETCH[3] ? 4'b011x : 4'b0110; // A
|
REG_WSEL = FETCH[3] ? 4'b011x : 4'b0110; // A
|
REG_RSEL = {op16, 1'bx};
|
REG_RSEL = {op16, 1'bx};
|
M1 = 0;
|
M1 = 0;
|
WR = !FETCH[3];
|
WR = !FETCH[3];
|
end else begin // LD (nn) A - LD (nn) HL - stage 1
|
end else begin // LD (nn) A - LD (nn) HL - stage 1
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b010xx1; // PC, lo
|
WE = 6'b010xx1; // PC, lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x;
|
REG_WSEL = 4'b111x;
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
3'b001:
|
3'b001:
|
if(FETCH[5] == 0) begin // LD (BC), A, LD (DE), A - stage2
|
if(FETCH[5] == 0) begin // LD (BC), A, LD (DE), A - stage2
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end else begin // LD (nn),A - LH (nn),HL - stage 2
|
end else begin // LD (nn),A - LH (nn),HL - stage 2
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b010x10; // PC, hi
|
WE = 6'b010x10; // PC, hi
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x;
|
REG_WSEL = 4'b111x;
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
3'b010: begin
|
3'b010: begin
|
ALU160_SEL = 1'b0; // regs
|
ALU160_SEL = 1'b0; // regs
|
REG_RSEL = 4'b111x;
|
REG_RSEL = 4'b111x;
|
M1 = 0;
|
M1 = 0;
|
WR = !FETCH[3];
|
WR = !FETCH[3];
|
next_stage = 1;
|
next_stage = 1;
|
if(FETCH[3]) begin // LD A (nn) - LD HL (nn) - stage 3
|
if(FETCH[3]) begin // LD A (nn) - LD HL (nn) - stage 3
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b000x, FETCH[4] ? 1'b1 : 1'bx, FETCH[4] ? 1'bx : 1'b1}; // lo/hi
|
WE = {4'b000x, FETCH[4] ? 1'b1 : 1'bx, FETCH[4] ? 1'bx : 1'b1}; // lo/hi
|
REG_WSEL = FETCH[4] ? 4'b011x : 4'b010x; // A or L
|
REG_WSEL = FETCH[4] ? 4'b011x : 4'b010x; // A or L
|
end else begin // LD (nn),A - LD (nn),HL - stage 3
|
end else begin // LD (nn),A - LD (nn),HL - stage 3
|
DO_SEL = 2'b00; // ALU80
|
DO_SEL = 2'b00; // ALU80
|
WE = 6'b000x00; // nothing
|
WE = 6'b000x00; // nothing
|
REG_WSEL = FETCH[4] ? 4'b0110 : 4'b0101; // A or L
|
REG_WSEL = FETCH[4] ? 4'b0110 : 4'b0101; // A or L
|
end
|
end
|
end
|
end
|
3'b011:
|
3'b011:
|
if(FETCH[4]) begin // LD (nn),A - stage 4
|
if(FETCH[4]) begin // LD (nn),A - stage 4
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end else begin
|
end else begin
|
REG_RSEL = 4'b111x;
|
REG_RSEL = 4'b111x;
|
M1 = 0;
|
M1 = 0;
|
WR = !FETCH[3];
|
WR = !FETCH[3];
|
ALU160_SEL = 1'b0; // regs
|
ALU160_SEL = 1'b0; // regs
|
ALU16OP = 1; // INC
|
ALU16OP = 1; // INC
|
next_stage = 1;
|
next_stage = 1;
|
if(FETCH[3]) begin // LD HL (nn) - stage 4
|
if(FETCH[3]) begin // LD HL (nn) - stage 4
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b000x10; // hi
|
WE = 6'b000x10; // hi
|
REG_WSEL = 4'b010x; // H
|
REG_WSEL = 4'b010x; // H
|
end else begin // LD (nn),HL - stage 4
|
end else begin // LD (nn),HL - stage 4
|
DO_SEL = 2'b00; // ALU80
|
DO_SEL = 2'b00; // ALU80
|
WE = 6'b000x00; // nothing
|
WE = 6'b000x00; // nothing
|
REG_WSEL = 4'b0100; // H
|
REG_WSEL = 4'b0100; // H
|
end
|
end
|
end
|
end
|
3'b100: begin // LD (nn),HL - stage 5
|
3'b100: begin // LD (nn),HL - stage 5
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- inc/dec rr --------------------
|
// ----------------------- inc/dec rr --------------------
|
4'b0011, 4'b1011:
|
4'b0011, 4'b1011:
|
if(!STAGE[0])
|
if(!STAGE[0])
|
if(op16[2]) begin // SP - stage1
|
if(op16[2]) begin // SP - stage1
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = {FETCH[3], 1'b0, FETCH[3]}; // post inc, dec
|
ALU16OP = {FETCH[3], 1'b0, FETCH[3]}; // post inc, dec
|
next_stage = 1;
|
next_stage = 1;
|
REG_RSEL = 4'b101x; // sp
|
REG_RSEL = 4'b101x; // sp
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end else begin // BC, DE, HL - stage 1
|
end else begin // BC, DE, HL - stage 1
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b010x11; // PC, hi, lo
|
WE = 6'b010x11; // PC, hi, lo
|
ALU8OP = {4'b0111, FETCH[3]}; // INC16 / DEC16
|
ALU8OP = {4'b0111, FETCH[3]}; // INC16 / DEC16
|
REG_WSEL = {op16, 1'b0}; // hi
|
REG_WSEL = {op16, 1'b0}; // hi
|
REG_RSEL = {op16, 1'b1}; // lo
|
REG_RSEL = {op16, 1'b1}; // lo
|
end
|
end
|
else begin // SP, stage2
|
else begin // SP, stage2
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
// ----------------------- inc/dec 8 --------------------
|
// ----------------------- inc/dec 8 --------------------
|
4'b0100, 4'b0101, 4'b1100, 4'b1101:
|
4'b0100, 4'b0101, 4'b1100, 4'b1101:
|
if(!op1mem) begin //regs
|
if(!op1mem) begin //regs
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = opd[3] ? 6'b110x01 : 6'b110x10; // flags, PC, hi/lo
|
WE = opd[3] ? 6'b110x01 : 6'b110x10; // flags, PC, hi/lo
|
ALU8OP = {3'b010, FETCH[0], 1'b0}; // inc / dec
|
ALU8OP = {3'b010, FETCH[0], 1'b0}; // inc / dec
|
REG_WSEL = {1'b0, opd[5:3]};
|
REG_WSEL = {1'b0, opd[5:3]};
|
end else case({STAGE[1:0], CPUStatus[4]})
|
end else case({STAGE[1:0], CPUStatus[4]})
|
3'b00_0, 3'b01_1: begin // (HL) - stage1, (X) - stage2
|
3'b00_0, 3'b01_1: begin // (HL) - stage1, (X) - stage2
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b000001; // lo
|
WE = 6'b000001; // lo
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0;
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0;
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
3'b00_1: begin // (X) - stage1
|
3'b00_1: begin // (X) - stage1
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010100; // PC, tmpHI
|
WE = 6'b010100; // PC, tmpHI
|
next_stage = 1;
|
next_stage = 1;
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
3'b01_0, 3'b10_1: begin // (HL) stage2, (X) - stage3
|
3'b01_0, 3'b10_1: begin // (HL) stage2, (X) - stage3
|
DO_SEL = 2'b11; // ALU80OUT
|
DO_SEL = 2'b11; // ALU80OUT
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b100x0x; // flags
|
WE = 6'b100x0x; // flags
|
ALU8OP = {3'b010, FETCH[0], 1'b0}; // inc / dec
|
ALU8OP = {3'b010, FETCH[0], 1'b0}; // inc / dec
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0;
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0;
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0111; // tmpLO
|
REG_WSEL = 4'b0111; // tmpLO
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
3'b10_0, 3'b11_1: begin // (HL) - stage3, (X) - stage 4
|
3'b10_0, 3'b11_1: begin // (HL) - stage3, (X) - stage 4
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- ld r/(HL-X), n --------------------
|
// ----------------------- ld r/(HL-X), n --------------------
|
4'b0110, 4'b1110:
|
4'b0110, 4'b1110:
|
case({STAGE[1:0], CPUStatus[4], op1mem})
|
case({STAGE[1:0], CPUStatus[4], op1mem})
|
4'b00_0_0, 4'b00_0_1, 4'b00_1_0, 4'b01_1_1: begin // r, (HL) - stage1, (X) - stage2 (read n)
|
4'b00_0_0, 4'b00_0_1, 4'b00_1_0, 4'b01_1_1: begin // r, (HL) - stage1, (X) - stage2 (read n)
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = opd[3] ? 6'b010001 : 6'b010010; // PC, hi/lo
|
WE = opd[3] ? 6'b010001 : 6'b010010; // PC, hi/lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = {1'b0, opd[5:4], 1'bx};
|
REG_WSEL = {1'b0, opd[5:4], 1'bx};
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
4'b01_0_0, 4'b01_1_0, 4'b10_0_1, 4'b11_1_1: begin // r - stage2, (HL) - stage3, (X) - stage4
|
4'b01_0_0, 4'b01_1_0, 4'b10_0_1, 4'b11_1_1: begin // r - stage2, (HL) - stage3, (X) - stage4
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
4'b01_0_1, 4'b10_1_1: begin // (HL) - stage2, (X) - stage3
|
4'b01_0_1, 4'b10_1_1: begin // (HL) - stage2, (X) - stage3
|
DO_SEL = 2'b00; // ALU80
|
DO_SEL = 2'b00; // ALU80
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b000x0x; // nothing
|
WE = 6'b000x0x; // nothing
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0;
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0;
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0111; // tmpLO
|
REG_WSEL = 4'b0111; // tmpLO
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
4'b00_1_1: begin // (X) - stage1
|
4'b00_1_1: begin // (X) - stage1
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010100; // PC, tmpHI
|
WE = 6'b010100; // PC, tmpHI
|
next_stage = 1;
|
next_stage = 1;
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- rlca, rrca, rla, rra, daa, cpl, scf, ccf --------------------
|
// ----------------------- rlca, rrca, rla, rra, daa, cpl, scf, ccf --------------------
|
4'b0111, 4'b1111:
|
4'b0111, 4'b1111:
|
case(FETCH[5:3])
|
case(FETCH[5:3])
|
3'b000, 3'b001, 3'b010, 3'b011, 3'b100, 3'b101: begin // rlca, rrca, rla, rra, daa, cpl
|
3'b000, 3'b001, 3'b010, 3'b011, 3'b100, 3'b101: begin // rlca, rrca, rla, rra, daa, cpl
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b110x1x; // flags, PC, hi
|
WE = 6'b110x1x; // flags, PC, hi
|
ALU8OP = FETCH[5] ? {2'b01, !FETCH[3], 2'b01} : {3'b110, FETCH[4:3]};
|
ALU8OP = FETCH[5] ? {2'b01, !FETCH[3], 2'b01} : {3'b110, FETCH[4:3]};
|
REG_WSEL = 4'b0110; // A
|
REG_WSEL = 4'b0110; // A
|
end
|
end
|
3'b110, 3'b111: begin // scf, ccf
|
3'b110, 3'b111: begin // scf, ccf
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b110x0x; // flags, PC
|
WE = 6'b110x0x; // flags, PC
|
ALU8OP = {4'b1010, !FETCH[3]};
|
ALU8OP = {4'b1010, !FETCH[3]};
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- add 16 --------------------
|
// ----------------------- add 16 --------------------
|
4'b1001:
|
4'b1001:
|
if(!STAGE[0]) begin
|
if(!STAGE[0]) begin
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b100x01; // flags, lo
|
WE = 6'b100x01; // flags, lo
|
ALU8OP = 5'b10000; // ADD16LO
|
ALU8OP = 5'b10000; // ADD16LO
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0101; // L
|
REG_WSEL = 4'b0101; // L
|
REG_RSEL = {op16, 1'b1};
|
REG_RSEL = {op16, 1'b1};
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end else begin
|
end else begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b110x10; // flags, PC, hi
|
WE = 6'b110x10; // flags, PC, hi
|
ALU8OP = 5'b10001; // ADD16HI
|
ALU8OP = 5'b10001; // ADD16HI
|
REG_WSEL = 4'b0100; // H
|
REG_WSEL = 4'b0100; // H
|
REG_RSEL = {op16, 1'b0};
|
REG_RSEL = {op16, 1'b0};
|
end
|
end
|
endcase
|
endcase
|
|
|
// ---------------------------------------------- block 01 LD8 ---------------------------------------------------
|
// ---------------------------------------------- block 01 LD8 ---------------------------------------------------
|
4'b0001:
|
4'b0001:
|
case({STAGE[1:0], CPUStatus[4], op1mem, op0mem})
|
case({STAGE[1:0], CPUStatus[4], op1mem, op0mem})
|
5'b00_0_00, 5'b00_1_00, // LD r, r 1st stage
|
5'b00_0_00, 5'b00_1_00, // LD r, r 1st stage
|
5'b01_0_01, // LD r, (HL) 2nd stage
|
5'b01_0_01, // LD r, (HL) 2nd stage
|
5'b10_1_01: // LD r, (X) 3rd stage
|
5'b10_1_01: // LD r, (X) 3rd stage
|
begin
|
begin
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
DINW_SEL = 0; // ALU8
|
DINW_SEL = 0; // ALU8
|
WE = opd[3] ? 6'b010x01 : 6'b010x10; // PC and LO or HI
|
WE = opd[3] ? 6'b010x01 : 6'b010x10; // PC and LO or HI
|
ALU8OP = 29; // PASS D1
|
ALU8OP = 29; // PASS D1
|
REG_WSEL = {1'b0, opd[5:4], 1'bx};
|
REG_WSEL = {1'b0, opd[5:4], 1'bx};
|
REG_RSEL = {1'b0, opd[2:0]};
|
REG_RSEL = {1'b0, opd[2:0]};
|
end
|
end
|
5'b00_0_01, // LD r, (HL) 1st stage
|
5'b00_0_01, // LD r, (HL) 1st stage
|
5'b01_1_01: // LD r, (X) 2nd stage
|
5'b01_1_01: // LD r, (X) 2nd stage
|
begin
|
begin
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b000x01; // LO
|
WE = 6'b000x01; // LO
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0; // ADD - NOP
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0; // ADD - NOP
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // A - tmpLO
|
REG_WSEL = 4'b011x; // A - tmpLO
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
5'b00_1_01, // LD r, (X) 1st stage
|
5'b00_1_01, // LD r, (X) 1st stage
|
5'b00_1_10: // LD (X), r 1st stage
|
5'b00_1_10: // LD (X), r 1st stage
|
begin
|
begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010100; // PC, tmpHI
|
WE = 6'b010100; // PC, tmpHI
|
next_stage = 1;
|
next_stage = 1;
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
5'b00_0_10, // LD (HL), r 1st stage
|
5'b00_0_10, // LD (HL), r 1st stage
|
5'b01_1_10: // LD (X), r 2nd stage
|
5'b01_1_10: // LD (X), r 2nd stage
|
begin
|
begin
|
DO_SEL = 0; // ALU80
|
DO_SEL = 0; // ALU80
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b000x00; // no write
|
WE = 6'b000x00; // no write
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0; // ADD - NOP
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0; // ADD - NOP
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = {1'b0, opd[2:0]};
|
REG_WSEL = {1'b0, opd[2:0]};
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
5'b01_0_10, // LD (HL), r 2nd stage
|
5'b01_0_10, // LD (HL), r 2nd stage
|
5'b10_1_10: // LD (X), r 3rd stage
|
5'b10_1_10: // LD (X), r 3rd stage
|
begin
|
begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
5'b00_0_11, 5'b00_1_11: begin // HALT
|
5'b00_0_11, 5'b00_1_11: begin // HALT
|
WE = 6'b000x00; // no write
|
WE = 6'b000x00; // no write
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
HALT = 1;
|
HALT = 1;
|
end
|
end
|
endcase
|
endcase
|
// ---------------------------------------------- block 10 arith8 ---------------------------------------------------
|
// ---------------------------------------------- block 10 arith8 ---------------------------------------------------
|
4'b0010:
|
4'b0010:
|
case({STAGE[1:0], CPUStatus[4], op0mem})
|
case({STAGE[1:0], CPUStatus[4], op0mem})
|
4'b00_0_0, 4'b00_1_0, // OP r,r 1st stage
|
4'b00_0_0, 4'b00_1_0, // OP r,r 1st stage
|
4'b01_0_1, // OP r, (HL) 2nd stage
|
4'b01_0_1, // OP r, (HL) 2nd stage
|
4'b10_1_1: // OP r, (X) 3rd stage
|
4'b10_1_1: // OP r, (X) 3rd stage
|
begin
|
begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = {4'b110x, ~&FETCH[5:3], 1'bx}; // flags, PC, hi
|
WE = {4'b110x, ~&FETCH[5:3], 1'bx}; // flags, PC, hi
|
ALU8OP = {2'b00, FETCH[5:3]};
|
ALU8OP = {2'b00, FETCH[5:3]};
|
REG_WSEL = 4'b0110; // A
|
REG_WSEL = 4'b0110; // A
|
REG_RSEL = {1'b0, opd[2:0]};
|
REG_RSEL = {1'b0, opd[2:0]};
|
end
|
end
|
4'b00_0_1, // OP r, (HL) 1st stage
|
4'b00_0_1, // OP r, (HL) 1st stage
|
4'b01_1_1: // OP r, (X) 2nd stage
|
4'b01_1_1: // OP r, (X) 2nd stage
|
begin
|
begin
|
ALU160_SEL = 0; // HL
|
ALU160_SEL = 0; // HL
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b000x01; // lo
|
WE = 6'b000x01; // lo
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0; // ADD - NOP
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0; // ADD - NOP
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // A-tmpLO
|
REG_WSEL = 4'b011x; // A-tmpLO
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
4'b00_1_1: // OP r, (X) 1st stage
|
4'b00_1_1: // OP r, (X) 1st stage
|
begin
|
begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010100; // PC, tmpHI
|
WE = 6'b010100; // PC, tmpHI
|
next_stage = 1;
|
next_stage = 1;
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
endcase
|
endcase
|
//------------------------------------------- block 11 ----------------------------------------------------
|
//------------------------------------------- block 11 ----------------------------------------------------
|
4'b0011:
|
4'b0011:
|
case(FETCH[3:0])
|
case(FETCH[3:0])
|
// ----------------------- RET cc --------------------
|
// ----------------------- RET cc --------------------
|
4'b0000, 4'b1000:
|
4'b0000, 4'b1000:
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00, 2'b01: // stage1, stage2
|
2'b00, 2'b01: // stage1, stage2
|
if(FlagMux[FETCH[5:3]]) begin // POP addr
|
if(FlagMux[FETCH[5:3]]) begin // POP addr
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b001x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // SP, lo/hi
|
WE = {4'b001x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // SP, lo/hi
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp16
|
REG_WSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b101x; // SP
|
REG_RSEL = 4'b101x; // SP
|
M1 = 0;
|
M1 = 0;
|
end else begin
|
end else begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
2'b10: begin // stage3
|
2'b10: begin // stage3
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b111x; // tmp16
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- POP --------------------
|
// ----------------------- POP --------------------
|
4'b0001:
|
4'b0001:
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00, 2'b01: begin
|
2'b00, 2'b01: begin
|
if(op16[2]) begin // AF
|
if(op16[2]) begin // AF
|
WE = STAGE[0] ? 6'b101x1x : 6'b001xx1; // flags, SP, lo/hi
|
WE = STAGE[0] ? 6'b101x1x : 6'b001xx1; // flags, SP, lo/hi
|
REG_WSEL = {3'b011, STAGE[0] ? 1'b1 : 1'bx};
|
REG_WSEL = {3'b011, STAGE[0] ? 1'b1 : 1'bx};
|
if(STAGE[0]) ALU8OP = 30; // FLAGS <- D0
|
if(STAGE[0]) ALU8OP = 30; // FLAGS <- D0
|
end else begin // r16
|
end else begin // r16
|
WE = STAGE[0] ? 6'b001x10 : 6'b001xx1; // SP, lo/hi
|
WE = STAGE[0] ? 6'b001x10 : 6'b001xx1; // SP, lo/hi
|
REG_WSEL = {1'b0, FETCH[5:4], 1'bx};
|
REG_WSEL = {1'b0, FETCH[5:4], 1'bx};
|
end
|
end
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
next_stage = 1;
|
next_stage = 1;
|
REG_RSEL = 4'b101x; // SP
|
REG_RSEL = 4'b101x; // SP
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b10: begin // stage3
|
2'b10: begin // stage3
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- JP cc --------------------
|
// ----------------------- JP cc --------------------
|
4'b0010, 4'b1010:
|
4'b0010, 4'b1010:
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00, 2'b01: begin // stage1,2
|
2'b00, 2'b01: begin // stage1,2
|
if(FlagMux[FETCH[5:3]]) begin
|
if(FlagMux[FETCH[5:3]]) begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp7
|
REG_WSEL = 4'b111x; // tmp7
|
M1 = 0;
|
M1 = 0;
|
end else begin
|
end else begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
ALU16OP = 2; // add2
|
ALU16OP = 2; // add2
|
end
|
end
|
end
|
end
|
2'b10: begin // stage3
|
2'b10: begin // stage3
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b111x; // tmp7
|
REG_RSEL = 4'b111x; // tmp7
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- JP, OUT (n) A, EX (SP) HL, DI --------------------
|
// ----------------------- JP, OUT (n) A, EX (SP) HL, DI --------------------
|
4'b0011:
|
4'b0011:
|
case(FETCH[5:4])
|
case(FETCH[5:4])
|
2'b00: // JP
|
2'b00: // JP
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00, 2'b01: begin // stage1,2 - read addr
|
2'b00, 2'b01: begin // stage1,2 - read addr
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp7
|
REG_WSEL = 4'b111x; // tmp7
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b10: begin // stage3
|
2'b10: begin // stage3
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b111x; // tmp7
|
REG_RSEL = 4'b111x; // tmp7
|
end
|
end
|
endcase
|
endcase
|
2'b01: // OUT (n), a - stage1 - read n
|
2'b01: // OUT (n), a - stage1 - read n
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00: begin
|
2'b00: begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b010x01; // PC, lo
|
WE = 6'b010x01; // PC, lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_WSEL = 4'b011x; // tmpLO
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b01: begin // stage2 - OUT
|
2'b01: begin // stage2 - OUT
|
DO_SEL = 2'b00; // ALU80
|
DO_SEL = 2'b00; // ALU80
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b000x00; // nothing
|
WE = 6'b000x00; // nothing
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0110; // A
|
REG_WSEL = 4'b0110; // A
|
REG_RSEL = 4'b011x; // A-tmpLO
|
REG_RSEL = 4'b011x; // A-tmpLO
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
WR = 1;
|
WR = 1;
|
IORQ = 1;
|
IORQ = 1;
|
end
|
end
|
2'b10: begin // stage3 - fetch
|
2'b10: begin // stage3 - fetch
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
2'b10: // EX (SP), HL
|
2'b10: // EX (SP), HL
|
case(STAGE[2:0])
|
case(STAGE[2:0])
|
3'b000, 3'b001: begin // stage1,2 - pop tmp16
|
3'b000, 3'b001: begin // stage1,2 - pop tmp16
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b001x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // SP, lo/hi
|
WE = {4'b001x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // SP, lo/hi
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp16
|
REG_WSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b101x; // SP
|
REG_RSEL = 4'b101x; // SP
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
3'b010, 3'b011: begin // stage3,4 - push hl
|
3'b010, 3'b011: begin // stage3,4 - push hl
|
DO_SEL = 2'b00; // ALU80
|
DO_SEL = 2'b00; // ALU80
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 5; // dec
|
ALU16OP = 5; // dec
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = {3'b010, STAGE[0]};// H/L
|
REG_WSEL = {3'b010, STAGE[0]};// H/L
|
REG_RSEL = 4'b101x; // SP
|
REG_RSEL = 4'b101x; // SP
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
3'b100, 3'b101: begin // stage5,6
|
3'b100, 3'b101: begin // stage5,6
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = {1'b0, STAGE[0], 2'b0x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, lo/hi
|
WE = {1'b0, STAGE[0], 2'b0x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, lo/hi
|
ALU8OP = 29; // pass D1
|
ALU8OP = 29; // pass D1
|
next_stage = !STAGE[0];
|
next_stage = !STAGE[0];
|
REG_WSEL = 4'b010x; // HL
|
REG_WSEL = 4'b010x; // HL
|
REG_RSEL = {3'b111, !STAGE[0]}; // tmp16
|
REG_RSEL = {3'b111, !STAGE[0]}; // tmp16
|
M1 = STAGE[0];
|
M1 = STAGE[0];
|
MREQ = STAGE[0];
|
MREQ = STAGE[0];
|
end
|
end
|
endcase
|
endcase
|
2'b11: begin // DI
|
2'b11: begin // DI
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
status[11] = 1'b1; // set IFF flags
|
status[11] = 1'b1; // set IFF flags
|
status[7:6] = 2'b00;
|
status[7:6] = 2'b00;
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- CALL cc --------------------
|
// ----------------------- CALL cc --------------------
|
4'b0100, 4'b1100:
|
4'b0100, 4'b1100:
|
case(STAGE[2:0])
|
case(STAGE[2:0])
|
3'b000, 3'b001: // stage 1,2 - load addr
|
3'b000, 3'b001: // stage 1,2 - load addr
|
if(FlagMux[FETCH[5:3]]) begin
|
if(FlagMux[FETCH[5:3]]) begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp7
|
REG_WSEL = 4'b111x; // tmp7
|
M1 = 0;
|
M1 = 0;
|
end else begin
|
end else begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
ALU16OP = 2; // add2
|
ALU16OP = 2; // add2
|
end
|
end
|
3'b010, 3'b011: begin // stage 3,4 - push pc
|
3'b010, 3'b011: begin // stage 3,4 - push pc
|
DO_SEL = {1'b0, STAGE[0]}; // pc hi/lo
|
DO_SEL = {1'b0, STAGE[0]}; // pc hi/lo
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 5; // DEC
|
ALU16OP = 5; // DEC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b1xxx; // pc
|
REG_WSEL = 4'b1xxx; // pc
|
REG_RSEL = 4'b101x; // sp
|
REG_RSEL = 4'b101x; // sp
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
3'b100: begin // stage5
|
3'b100: begin // stage5
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b111x; // tmp7
|
REG_RSEL = 4'b111x; // tmp7
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- PUSH --------------------
|
// ----------------------- PUSH --------------------
|
4'b0101:
|
4'b0101:
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00, 2'b01: begin // stage1,2
|
2'b00, 2'b01: begin // stage1,2
|
DO_SEL = {STAGE[0] & op16[2], 1'b0}; // FLAGS/ALU80
|
DO_SEL = {STAGE[0] & op16[2], 1'b0}; // FLAGS/ALU80
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 5; // dec
|
ALU16OP = 5; // dec
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = {1'b0, FETCH[5:4], STAGE[0]};
|
REG_WSEL = {1'b0, FETCH[5:4], STAGE[0]};
|
REG_RSEL = 4'b101x; // SP
|
REG_RSEL = 4'b101x; // SP
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
2'b10: begin //stage3
|
2'b10: begin //stage3
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- op A, n --------------------
|
// ----------------------- op A, n --------------------
|
4'b0110, 4'b1110:
|
4'b0110, 4'b1110:
|
if(!STAGE[0]) begin // stage1, read n
|
if(!STAGE[0]) begin // stage1, read n
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b010x01; // PC, lo
|
WE = 6'b010x01; // PC, lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_WSEL = 4'b011x; // tmpLO
|
M1 = 0;
|
M1 = 0;
|
end else begin // stage 2
|
end else begin // stage 2
|
DINW_SEL = 0; // ALU8OUT[7:0]
|
DINW_SEL = 0; // ALU8OUT[7:0]
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = {4'b110x, ~&FETCH[5:3], 1'bx}; // flags, PC, hi
|
WE = {4'b110x, ~&FETCH[5:3], 1'bx}; // flags, PC, hi
|
ALU8OP = {2'b00, FETCH[5:3]};
|
ALU8OP = {2'b00, FETCH[5:3]};
|
REG_WSEL = 4'b0110; // A
|
REG_WSEL = 4'b0110; // A
|
REG_RSEL = 4'b0111; // tmpLO
|
REG_RSEL = 4'b0111; // tmpLO
|
end
|
end
|
// ----------------------- RST --------------------
|
// ----------------------- RST --------------------
|
4'b0111, 4'b1111:
|
4'b0111, 4'b1111:
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00, 2'b01: begin // stage 1,2 - push pc
|
2'b00, 2'b01: begin // stage 1,2 - push pc
|
DO_SEL = {1'b0, STAGE[0]}; // pc hi/lo
|
DO_SEL = {1'b0, STAGE[0]}; // pc hi/lo
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 5; // DEC
|
ALU16OP = 5; // DEC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b1xxx; // pc
|
REG_WSEL = 4'b1xxx; // pc
|
REG_RSEL = 4'b101x; // sp
|
REG_RSEL = 4'b101x; // sp
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
2'b10: begin // stage3
|
2'b10: begin // stage3
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b110x; // const
|
REG_RSEL = 4'b110x; // const
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- RET, EXX, JP (HL), LD SP HL --------------------
|
// ----------------------- RET, EXX, JP (HL), LD SP HL --------------------
|
4'b1001:
|
4'b1001:
|
case(FETCH[5:4])
|
case(FETCH[5:4])
|
2'b00: // RET
|
2'b00: // RET
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00, 2'b01: begin // stage1, stage2 - pop addr
|
2'b00, 2'b01: begin // stage1, stage2 - pop addr
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b001x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // SP, lo/hi
|
WE = {4'b001x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // SP, lo/hi
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp16
|
REG_WSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b101x; // SP
|
REG_RSEL = 4'b101x; // SP
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b10: begin // stage3 - jump
|
2'b10: begin // stage3 - jump
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b111x; // tmp16
|
end
|
end
|
endcase
|
endcase
|
2'b01: begin // EXX
|
2'b01: begin // EXX
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
status[1] = 1;
|
status[1] = 1;
|
end
|
end
|
2'b10: begin // JP (HL)
|
2'b10: begin // JP (HL)
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
end
|
end
|
2'b11: begin // LD SP,HL
|
2'b11: begin // LD SP,HL
|
if(!STAGE[0]) begin // stage1
|
if(!STAGE[0]) begin // stage1
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 4; // NOP, no post inc
|
ALU16OP = 4; // NOP, no post inc
|
next_stage = 1;
|
next_stage = 1;
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end else begin // stage2
|
end else begin // stage2
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- CB, IN A (n), EX DE HL, EI --------------------
|
// ----------------------- CB, IN A (n), EX DE HL, EI --------------------
|
4'b1011:
|
4'b1011:
|
case(FETCH[5:4])
|
case(FETCH[5:4])
|
2'b00: // CB prefix
|
2'b00: // CB prefix
|
case({STAGE[0], CPUStatus[4]})
|
case({STAGE[0], CPUStatus[4]})
|
2'b00, 2'b11: begin
|
2'b00, 2'b11: begin
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010000; // PC
|
WE = 6'b010000; // PC
|
fetch98 = 2'b10;
|
fetch98 = 2'b10;
|
|
M1 = !CPUStatus[4]; // [DD/FD CB disp op] - M1 is inactive during <op> byte read
|
end
|
end
|
2'b01: begin
|
2'b01: begin
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010100; // PC, tmpHI
|
WE = 6'b010100; // PC, tmpHI
|
next_stage = 1;
|
next_stage = 1;
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
endcase
|
endcase
|
2'b01: // IN A, (n)
|
2'b01: // IN A, (n)
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00: begin //stage1 - read n
|
2'b00: begin //stage1 - read n
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b010x01; // PC, lo
|
WE = 6'b010x01; // PC, lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_WSEL = 4'b011x; // tmpLO
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b01: begin // stage2 - IN
|
2'b01: begin // stage2 - IN
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b000x1x; // hi
|
WE = 6'b000x1x; // hi
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // A
|
REG_WSEL = 4'b011x; // A
|
REG_RSEL = 4'b011x; // A - tmpLO
|
REG_RSEL = 4'b011x; // A - tmpLO
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
IORQ = 1;
|
IORQ = 1;
|
end
|
end
|
2'b10: begin // stage3 - fetch
|
2'b10: begin // stage3 - fetch
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
2'b10: begin // EX DE, HL
|
2'b10: begin // EX DE, HL
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
if(CPUStatus[1]) status[3] = 1;
|
if(CPUStatus[1]) status[3] = 1;
|
else status[2] = 1;
|
else status[2] = 1;
|
end
|
end
|
2'b11: begin // EI
|
2'b11: begin // EI
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
status[11] = 1'b1;
|
status[11] = 1'b1;
|
status[7:6] = 2'b11;
|
status[7:6] = 2'b11;
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- CALL , IX, ED, IY --------------------
|
// ----------------------- CALL , IX, ED, IY --------------------
|
4'b1101:
|
4'b1101:
|
case(FETCH[5:4])
|
case(FETCH[5:4])
|
2'b00: // CALL
|
2'b00: // CALL
|
case(STAGE[2:0])
|
case(STAGE[2:0])
|
3'b000, 3'b001: begin // stage 1,2 - load addr
|
3'b000, 3'b001: begin // stage 1,2 - load addr
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp7
|
REG_WSEL = 4'b111x; // tmp7
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
3'b010, 3'b011: begin // stage 3,4 - push pc
|
3'b010, 3'b011: begin // stage 3,4 - push pc
|
DO_SEL = {1'b0, STAGE[0]}; // pc hi/lo
|
DO_SEL = {1'b0, STAGE[0]}; // pc hi/lo
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 5; // DEC
|
ALU16OP = 5; // DEC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b1xxx; // pc
|
REG_WSEL = 4'b1xxx; // pc
|
REG_RSEL = 4'b101x; // sp
|
REG_RSEL = 4'b101x; // sp
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
3'b100: begin // stage5 - jump
|
3'b100: begin // stage5 - jump
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b111x; // tmp7
|
REG_RSEL = 4'b111x; // tmp7
|
end
|
end
|
endcase
|
endcase
|
2'b01: begin // DD - IX
|
2'b01: begin // DD - IX
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
status[5:4] = 2'b01;
|
status[5:4] = 2'b01;
|
end
|
end
|
2'b10: begin // ED prefix
|
2'b10: begin // ED prefix
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
fetch98 = 2'b01;
|
fetch98 = 2'b01;
|
end
|
end
|
2'b11: begin // FD - IY
|
2'b11: begin // FD - IY
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
status[5:4] = 2'b11;
|
status[5:4] = 2'b11;
|
end
|
end
|
endcase
|
endcase
|
endcase
|
endcase
|
|
|
// ------------------------------------------- ED + opcode ----------------------------------------------------
|
// ------------------------------------------- ED + opcode ----------------------------------------------------
|
4'b0100, 4'b0111: begin // ED + 2'b00, ED + 2'b11 = NOP
|
4'b0100, 4'b0111: begin // ED + 2'b00, ED + 2'b11 = NOP
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
4'b0101:
|
4'b0101:
|
case(FETCH[2:0])
|
case(FETCH[2:0])
|
// ----------------------- in r (C) --------------------
|
// ----------------------- in r (C) --------------------
|
3'b000:
|
3'b000:
|
if(!STAGE[0]) begin
|
if(!STAGE[0]) begin
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b000x, !opd[3], opd[3]} ; // hi/lo
|
WE = {4'b000x, !opd[3], opd[3]} ; // hi/lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = {1'b0, opd[5:4], 1'bx};
|
REG_WSEL = {1'b0, opd[5:4], 1'bx};
|
REG_RSEL = 4'b000x; // BC
|
REG_RSEL = 4'b000x; // BC
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
IORQ = 1;
|
IORQ = 1;
|
end else begin
|
end else begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b110x00; // flags, PC
|
WE = 6'b110x00; // flags, PC
|
ALU8OP = 29; // IN
|
ALU8OP = 29; // IN
|
REG_RSEL = {1'b0, opd[5:3]}; // reg
|
REG_RSEL = {1'b0, opd[5:3]}; // reg
|
end
|
end
|
// ----------------------- out (C) r --------------------
|
// ----------------------- out (C) r --------------------
|
3'b001:
|
3'b001:
|
if(!STAGE[0]) begin
|
if(!STAGE[0]) begin
|
DO_SEL = 2'b00; // ALU80
|
DO_SEL = 2'b00; // ALU80
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b000x00; // nothing
|
WE = 6'b000x00; // nothing
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = &opd[5:3] ? 4'b110x : {1'b0, opd[5:3]}; // zero/reg
|
REG_WSEL = &opd[5:3] ? 4'b110x : {1'b0, opd[5:3]}; // zero/reg
|
REG_RSEL = 4'b000x; // BC
|
REG_RSEL = 4'b000x; // BC
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
WR = 1;
|
WR = 1;
|
IORQ = 1;
|
IORQ = 1;
|
end else begin
|
end else begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
// ----------------------- SBC16, ADC16 --------------------
|
// ----------------------- SBC16, ADC16 --------------------
|
3'b010:
|
3'b010:
|
if(!STAGE[0]) begin // stage1
|
if(!STAGE[0]) begin // stage1
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b100x01; // flags, lo
|
WE = 6'b100x01; // flags, lo
|
ALU8OP = {3'b000, !FETCH[3], 1'b1}; // SBC/ADC
|
ALU8OP = {3'b000, !FETCH[3], 1'b1}; // SBC/ADC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0101; // L
|
REG_WSEL = 4'b0101; // L
|
REG_RSEL = {op16, 1'b1};
|
REG_RSEL = {op16, 1'b1};
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end else begin
|
end else begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b110x10; // flags, PC, hi
|
WE = 6'b110x10; // flags, PC, hi
|
ALU8OP = {3'b000, !FETCH[3], 1'b1};
|
ALU8OP = {3'b000, !FETCH[3], 1'b1};
|
REG_WSEL = 4'b0100; // H
|
REG_WSEL = 4'b0100; // H
|
REG_RSEL = {op16, 1'b0};
|
REG_RSEL = {op16, 1'b0};
|
end
|
end
|
// ----------------------- LD (nn) r16, ld r16 (nn) --------------------
|
// ----------------------- LD (nn) r16, ld r16 (nn) --------------------
|
3'b011:
|
3'b011:
|
case(STAGE[2:1])
|
case(STAGE[2:1])
|
2'b00: begin // stage 1,2 - read address
|
2'b00: begin // stage 1,2 - read address
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
WE = {4'b010x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // PC, hi/lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp16
|
REG_WSEL = 4'b111x; // tmp16
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b01: begin
|
2'b01: begin
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
next_stage = 1;
|
next_stage = 1;
|
ALU16OP = {2'b00, STAGE[0]};
|
ALU16OP = {2'b00, STAGE[0]};
|
REG_RSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b111x; // tmp16
|
REG_WSEL = {op16, !STAGE[0]};
|
REG_WSEL = {op16, !STAGE[0]};
|
M1 = 0;
|
M1 = 0;
|
if(FETCH[3]) begin // LD rr, (nn) - stage3,4
|
if(FETCH[3]) begin // LD rr, (nn) - stage3,4
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b000x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // lo
|
WE = {4'b000x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // lo
|
end else begin // LD (nn), rr - stage3,4
|
end else begin // LD (nn), rr - stage3,4
|
DO_SEL = op16[2] ? {1'b1, !STAGE[0]} : 2'b00; // ALU80/sp
|
DO_SEL = op16[2] ? {1'b1, !STAGE[0]} : 2'b00; // ALU80/sp
|
WE = 6'b000x00; // nothing
|
WE = 6'b000x00; // nothing
|
WR = 1;
|
WR = 1;
|
end
|
end
|
end
|
end
|
2'b10: // stage5
|
2'b10: // stage5
|
if(FETCH[3] & op16[2] & !STAGE[0]) begin // LD sp, (nn) - stage5
|
if(FETCH[3] & op16[2] & !STAGE[0]) begin // LD sp, (nn) - stage5
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 4; // NOP
|
ALU16OP = 4; // NOP
|
next_stage = 1;
|
next_stage = 1;
|
REG_RSEL = 4'b101x; // tmp SP
|
REG_RSEL = 4'b101x; // tmp SP
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end else begin
|
end else begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- NEG --------------------
|
// ----------------------- NEG --------------------
|
3'b100: begin
|
3'b100: begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b110x10; // flags, PC, hi
|
WE = 6'b110x10; // flags, PC, hi
|
ALU8OP = 5'b11111; // NEG
|
ALU8OP = 5'b11111; // NEG
|
REG_WSEL = 4'b011x; // A
|
REG_WSEL = 4'b011x; // A
|
REG_RSEL = 4'b0110; // A
|
REG_RSEL = 4'b0110; // A
|
end
|
end
|
// ----------------------- RETN, RETI --------------------
|
// ----------------------- RETN, RETI --------------------
|
3'b101:
|
3'b101:
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00, 2'b01: begin // stage1, stage2 - pop addr
|
2'b00, 2'b01: begin // stage1, stage2 - pop addr
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b001x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // SP, lo/hi
|
WE = {4'b001x, STAGE[0] ? 1'b1 : 1'bx, !STAGE[0]}; // SP, lo/hi
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp16
|
REG_WSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b101x; // SP
|
REG_RSEL = 4'b101x; // SP
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b10: begin // stage3 - jump
|
2'b10: begin // stage3 - jump
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b111x; // tmp16
|
status[11] = 1'b1;
|
status[11] = 1'b1;
|
status[7:6] = {CPUStatus[7], CPUStatus[7]};
|
status[7:6] = {CPUStatus[7], CPUStatus[7]};
|
end
|
end
|
endcase
|
endcase
|
// ----------------------- IM --------------------
|
// ----------------------- IM --------------------
|
3'b110: begin
|
3'b110: begin
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
status[10:8] = {1'b1, FETCH[4:3]};
|
status[10:8] = {1'b1, FETCH[4:3]};
|
end
|
end
|
// ----------------------- LD I A, LD R A, LD A I, LD A R, RRD, RLD --------------------
|
// ----------------------- LD I A, LD R A, LD A I, LD A R, RRD, RLD --------------------
|
3'b111:
|
3'b111:
|
case(FETCH[5:4])
|
case(FETCH[5:4])
|
2'b00: begin // LD I/R A
|
2'b00: begin // LD I/R A
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1'b0; // ALU8OUT
|
DINW_SEL = 1'b0; // ALU8OUT
|
WE = {4'b010x, !FETCH[3], FETCH[3]}; // PC, hi/lo
|
WE = {4'b010x, !FETCH[3], FETCH[3]}; // PC, hi/lo
|
ALU8OP = 29; // pass D1
|
ALU8OP = 29; // pass D1
|
REG_WSEL = 4'b1001; // IR, write r
|
REG_WSEL = 4'b1001; // IR, write r
|
REG_RSEL = 4'b0110; // A
|
REG_RSEL = 4'b0110; // A
|
end
|
end
|
2'b01: begin // LD A I/R
|
2'b01: begin // LD A I/R
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1'b0; // ALU8OUT
|
DINW_SEL = 1'b0; // ALU8OUT
|
WE = 6'b110x1x; // flags, PC, hi
|
WE = 6'b110x1x; // flags, PC, hi
|
ALU8OP = 29; // PASS D1
|
ALU8OP = 29; // PASS D1
|
REG_WSEL = 4'b011x; // A
|
REG_WSEL = 4'b011x; // A
|
REG_RSEL = {3'b100, FETCH[3]};// I/R
|
REG_RSEL = {3'b100, FETCH[3]};// I/R
|
end
|
end
|
2'b10: // RRD, RLD
|
2'b10: // RRD, RLD
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00:begin // stage1, read data
|
2'b00:begin // stage1, read data
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b000x01; // lo
|
WE = 6'b000x01; // lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b01: begin // stage2, shift data
|
2'b01: begin // stage2, shift data
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b100x11; // flags, hi, lo
|
WE = 6'b100x11; // flags, hi, lo
|
ALU8OP = FETCH[3] ? 5'b01100 : 5'b01011; // RRD/RLD
|
ALU8OP = FETCH[3] ? 5'b01100 : 5'b01011; // RRD/RLD
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0110; // A
|
REG_WSEL = 4'b0110; // A
|
REG_RSEL = 4'b0111; // tmpLO
|
REG_RSEL = 4'b0111; // tmpLO
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end
|
end
|
2'b10: begin // stage3 - write
|
2'b10: begin // stage3 - write
|
DO_SEL = 2'b00; // ALU80
|
DO_SEL = 2'b00; // ALU80
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b000x0x; // nothing
|
WE = 6'b000x0x; // nothing
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0111; // tmpLO
|
REG_WSEL = 4'b0111; // tmpLO
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
2'b11: begin
|
2'b11: begin
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
2'b11: begin // NOP
|
2'b11: begin // NOP
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
endcase
|
endcase
|
// ----------------------- block instructions --------------------
|
// ----------------------- block instructions --------------------
|
4'b0110:
|
4'b0110:
|
if({FETCH[5], FETCH[2]} == 4'b10)
|
if({FETCH[5], FETCH[2]} == 4'b10)
|
case(FETCH[1:0])
|
case(FETCH[1:0])
|
2'b00: // LDI, LDD, LDIR, LDDR
|
2'b00: // LDI, LDD, LDIR, LDDR
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00: begin // stage1, read data, inc/dec HL
|
2'b00: begin // stage1, read data, inc/dec HL
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b100111; // flags, tmpHI, hi, lo
|
WE = 6'b100111; // flags, tmpHI, hi, lo
|
ALU8OP = {4'b0111, FETCH[3]}; // INC/DEC16
|
ALU8OP = {4'b0111, FETCH[3]}; // INC/DEC16
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0100; // H
|
REG_WSEL = 4'b0100; // H
|
REG_RSEL = 4'b0101; // L
|
REG_RSEL = 4'b0101; // L
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b01: begin // stage2, dec BC
|
2'b01: begin // stage2, dec BC
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b100011; // flags, hi, lo (affects PF only)
|
WE = 6'b100011; // flags, hi, lo (affects PF only)
|
ALU8OP = 5'b01111; // DEC
|
ALU8OP = 5'b01111; // DEC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0000; // B
|
REG_WSEL = 4'b0000; // B
|
REG_RSEL = 4'b0001; // C
|
REG_RSEL = 4'b0001; // C
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end
|
end
|
2'b10: begin // stage2, write data, inc/dec DE
|
2'b10: begin // stage2, write data, inc/dec DE
|
DO_SEL = 2'b01; // th
|
DO_SEL = 2'b01; // th
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b000x11; // hi, lo
|
WE = 6'b000x11; // hi, lo
|
ALU8OP = {4'b0111, FETCH[3]}; // INC / DEC
|
ALU8OP = {4'b0111, FETCH[3]}; // INC / DEC
|
next_stage = FETCH[4] ? !FLAGS[2] : 1'b1;
|
next_stage = FETCH[4] ? !FLAGS[2] : 1'b1;
|
REG_WSEL = 4'b0010; // D
|
REG_WSEL = 4'b0010; // D
|
REG_RSEL = 4'b0011; // E
|
REG_RSEL = 4'b0011; // E
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
2'b11: begin
|
2'b11: begin
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
2'b01: // CPI, CPD, CPIR, CPDR
|
2'b01: // CPI, CPD, CPIR, CPDR
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00: begin // stage1, load data
|
2'b00: begin // stage1, load data
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b000x01; // lo
|
WE = 6'b000x01; // lo
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_WSEL = 4'b011x; // tmpLO
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b01: begin // stage2, CP
|
2'b01: begin // stage2, CP
|
WE = 6'b100x0x; // flags
|
WE = 6'b100x0x; // flags
|
ALU8OP = 7; // CP
|
ALU8OP = 7; // CP
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0110; // A
|
REG_WSEL = 4'b0110; // A
|
REG_RSEL = 4'b0111; // tmpLO
|
REG_RSEL = 4'b0111; // tmpLO
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end
|
end
|
2'b10: begin // stage3, dec BC
|
2'b10: begin // stage3, dec BC
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b100x11; // flags, hi, lo
|
WE = 6'b100x11; // flags, hi, lo
|
ALU8OP = 5'b01111; // DEC16
|
ALU8OP = 5'b01111; // DEC16
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0000; // B
|
REG_WSEL = 4'b0000; // B
|
REG_RSEL = 4'b0001; // C
|
REG_RSEL = 4'b0001; // C
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end
|
end
|
2'b11: begin // stage4, inc/dec HL
|
2'b11: begin // stage4, inc/dec HL
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
M1 = FETCH[4] ? (!FLAGS[2] || FLAGS[6]) : 1'b1;
|
M1 = FETCH[4] ? (!FLAGS[2] || FLAGS[6]) : 1'b1;
|
WE = {1'b0, M1, 4'b0x11}; // PC, hi, lo
|
WE = {1'b0, M1, 4'b0x11}; // PC, hi, lo
|
ALU8OP = {4'b0111, FETCH[3]}; // INC / DEC
|
ALU8OP = {4'b0111, FETCH[3]}; // INC / DEC
|
REG_WSEL = 4'b0100; // H
|
REG_WSEL = 4'b0100; // H
|
REG_RSEL = 4'b0101; // L
|
REG_RSEL = 4'b0101; // L
|
MREQ = M1;
|
MREQ = M1;
|
end
|
end
|
endcase
|
endcase
|
2'b10: // INI, IND, INIR, INDR
|
2'b10: // INI, IND, INIR, INDR
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00: begin // stage1, in data, dec B
|
2'b00: begin // stage1, in data, dec B
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b100110; // flags, tmpHI, hi
|
WE = 6'b100110; // flags, tmpHI, hi
|
ALU8OP = 10; // DEC
|
ALU8OP = 10; // DEC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0000; // B
|
REG_WSEL = 4'b0000; // B
|
REG_RSEL = 4'b000x; // BC
|
REG_RSEL = 4'b000x; // BC
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
IORQ = 1;
|
IORQ = 1;
|
end
|
end
|
2'b01: begin // stage2, write data, inc/dec HL
|
2'b01: begin // stage2, write data, inc/dec HL
|
DO_SEL = 2'b01; // th
|
DO_SEL = 2'b01; // th
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b000x11; // hi, lo
|
WE = 6'b000x11; // hi, lo
|
ALU8OP = {4'b0111, FETCH[3]}; // INC / DEC
|
ALU8OP = {4'b0111, FETCH[3]}; // INC / DEC
|
next_stage = FETCH[4] ? FLAGS[6] : 1'b1;
|
next_stage = FETCH[4] ? FLAGS[6] : 1'b1;
|
REG_WSEL = 4'b0100; // H
|
REG_WSEL = 4'b0100; // H
|
REG_RSEL = 4'b0101; // L
|
REG_RSEL = 4'b0101; // L
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
2'b10: begin // stage3
|
2'b10: begin // stage3
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
2'b11: // OUTI/OUTD/OTIR/OTDR
|
2'b11: // OUTI/OUTD/OTIR/OTDR
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00: begin // stage1, load data, inc/dec HL
|
2'b00: begin // stage1, load data, inc/dec HL
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b000111; // tmpHI, hi, lo
|
WE = 6'b000111; // tmpHI, hi, lo
|
ALU8OP = {4'b0111, FETCH[3]}; // INC / DEC
|
ALU8OP = {4'b0111, FETCH[3]}; // INC / DEC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b0100; // H
|
REG_WSEL = 4'b0100; // H
|
REG_RSEL = 4'b0101; // L
|
REG_RSEL = 4'b0101; // L
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
2'b01: begin // stage2, out data, dec B
|
2'b01: begin // stage2, out data, dec B
|
DO_SEL = 2'b01; // th
|
DO_SEL = 2'b01; // th
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'b100x10; // flags, hi
|
WE = 6'b100x10; // flags, hi
|
ALU8OP = 10; // DEC
|
ALU8OP = 10; // DEC
|
next_stage = FETCH[4] ? (ALU80 == 8'b00000001) : 1'b1;
|
next_stage = FETCH[4] ? (ALU80 == 8'b00000001) : 1'b1;
|
REG_WSEL = 4'b0000; // B
|
REG_WSEL = 4'b0000; // B
|
REG_RSEL = 4'b000x; // BC
|
REG_RSEL = 4'b000x; // BC
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
IORQ = 1;
|
IORQ = 1;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
2'b10: begin // stage3
|
2'b10: begin // stage3
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
endcase
|
endcase
|
else begin // NOP
|
else begin // NOP
|
ALU160_SEL = 1; // PC
|
ALU160_SEL = 1; // PC
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
//------------------------------------------- CB + opcode ----------------------------------------------------
|
//------------------------------------------- CB + opcode ----------------------------------------------------
|
4'b1000, 4'b1001, 4'b1010, 4'b1011: // CB class (rot/shift, bit/res/set)
|
4'b1000, 4'b1001, 4'b1010, 4'b1011: // CB class (rot/shift, bit/res/set)
|
case({STAGE[1:0], CPUStatus[4], op0mem})
|
case({STAGE[1:0], CPUStatus[4], op0mem})
|
4'b00_0_0: begin // execute reg-reg
|
4'b00_0_0: begin // execute reg-reg
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = {!FETCH[7], 3'b10x, FETCH[7:6] == 2'b01 ? 2'b00 : {!opd[0], opd[0]}}; // flags, hi/lo
|
WE = {!FETCH[7], 3'b10x, FETCH[7:6] == 2'b01 ? 2'b00 : {!opd[0], opd[0]}}; // flags, hi/lo
|
ALU8OP = 28; // BIT
|
ALU8OP = 28; // BIT
|
REG_WSEL = {1'b0, opd[2:0]};
|
REG_WSEL = {1'b0, opd[2:0]};
|
end
|
end
|
4'b00_0_1, 4'b00_1_0, 4'b00_1_1: begin // stage1, (HL-X) - read data
|
4'b00_0_1, 4'b00_1_0, 4'b00_1_1: begin // stage1, (HL-X) - read data
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = opd[0] ? 6'b000001 : 6'b000010; // lo/hi
|
WE = opd[0] ? 6'b000001 : 6'b000010; // lo/hi
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0; // ADD - NOP
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0; // ADD - NOP
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = FETCH[7:6] == 2'b01 ? 4'b111x : {1'b0, opd[2:0]}; // dest, tmp16 for BIT
|
REG_WSEL = FETCH[7:6] == 2'b01 ? 4'b111x : {1'b0, opd[2:0]}; // dest, tmp16 for BIT
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
4'b01_0_1, 4'b01_1_0, 4'b01_1_1: // stage2 (HL-X) - execute, write
|
4'b01_0_1, 4'b01_1_0, 4'b01_1_1: // stage2 (HL-X) - execute, write
|
case(FETCH[7:6])
|
case(FETCH[7:6])
|
2'b00, 2'b10, 2'b11: begin // exec + write
|
2'b00, 2'b10, 2'b11: begin // exec + write
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
DO_SEL = 2'b11; // ALU8OUT[7:0]
|
DO_SEL = 2'b11; // ALU8OUT[7:0]
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = {!FETCH[7], 3'b00x, !opd[0], opd[0]}; // flags, hi/lo
|
WE = {!FETCH[7], 3'b00x, !opd[0], opd[0]}; // flags, hi/lo
|
ALU8OP = 28;
|
ALU8OP = 28;
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0;
|
ALU16OP = CPUStatus[4] ? 3'd3 : 3'd0;
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = {1'b0, opd[2:0]};
|
REG_WSEL = {1'b0, opd[2:0]};
|
REG_RSEL = 4'b010x; // HL
|
REG_RSEL = 4'b010x; // HL
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
2'b01: begin // BIT, no write
|
2'b01: begin // BIT, no write
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b110xxx; // flags, PC
|
WE = 6'b110xxx; // flags, PC
|
ALU8OP = 28; // BIT
|
ALU8OP = 28; // BIT
|
REG_WSEL = {3'b111, opd[0]}; // tmp
|
REG_WSEL = {3'b111, opd[0]}; // tmp
|
end
|
end
|
endcase
|
endcase
|
4'b10_0_1, 4'b10_1_0, 4'b10_1_1: begin // (HL-X) - load next op
|
4'b10_0_1, 4'b10_1_0, 4'b10_1_1: begin // (HL-X) - load next op
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
end
|
end
|
endcase
|
endcase
|
//------------------------------------------- // RST, NMI, INT ----------------------------------------------------
|
//------------------------------------------- // RST, NMI, INT ----------------------------------------------------
|
4'b1110: begin // RESET: IR <- 0, IM <- 0, IFF1,IFF2 <- 0, pC <- 0
|
4'b1110: begin // RESET: IR <- 0, IM <- 0, IFF1,IFF2 <- 0, pC <- 0
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 0; // ALU8OUT
|
DINW_SEL = 0; // ALU8OUT
|
WE = 6'bx1xx11; // PC, hi, lo
|
WE = 6'bx1xx11; // PC, hi, lo
|
ALU8OP = 29; // pass D1
|
ALU8OP = 29; // pass D1
|
ALU16OP = 4; // NOP
|
ALU16OP = 4; // NOP
|
REG_WSEL = 4'b1001; // IR, write r
|
REG_WSEL = 4'b1001; // IR, write r
|
REG_RSEL = 4'b110x; // const
|
REG_RSEL = 4'b110x; // const
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
status[11:6] = 6'b110000; // IM0, DI
|
status[11:6] = 6'b110000; // IM0, DI
|
end
|
end
|
4'b1101: // NMI
|
4'b1101: // NMI
|
case(STAGE[1:0])
|
case(STAGE[1:0])
|
2'b00: begin
|
2'b00: begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
ALU16OP = intop; // DEC/DEC2 (if block instruction interrupted)
|
ALU16OP = intop; // DEC/DEC2 (if block instruction interrupted)
|
next_stage = 1;
|
next_stage = 1;
|
M1 = 0;
|
M1 = 0;
|
MREQ = 0;
|
MREQ = 0;
|
end
|
end
|
2'b01, 2'b10: begin
|
2'b01, 2'b10: begin
|
DO_SEL = {1'b0, !STAGE[0]}; // pc hi/lo
|
DO_SEL = {1'b0, !STAGE[0]}; // pc hi/lo
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 5; // DEC
|
ALU16OP = 5; // DEC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b1xxx; // pc
|
REG_WSEL = 4'b1xxx; // pc
|
REG_RSEL = 4'b101x; // sp
|
REG_RSEL = 4'b101x; // sp
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
status[11] = 1'b1;
|
status[11] = 1'b1;
|
status[7:6] = {CPUStatus[7], 1'b0}; // reset IFF1
|
status[7:6] = {CPUStatus[7], 1'b0}; // reset IFF1
|
end
|
end
|
2'b11: begin
|
2'b11: begin
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b110x; // const
|
REG_RSEL = 4'b110x; // const
|
end
|
end
|
endcase
|
endcase
|
4'b1100: // INT
|
4'b1100: // INT
|
case(CPUStatus[9:8])
|
case(CPUStatus[9:8])
|
2'b00, 2'b01, 2'b10: begin // IM0, IM1
|
2'b00, 2'b01, 2'b10: begin // IM0, IM1
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
ALU16OP = intop; // DEC/DEC2 (if block instruction interrupted)
|
ALU16OP = intop; // DEC/DEC2 (if block instruction interrupted)
|
MREQ = 0;
|
MREQ = 0;
|
IORQ = 1;
|
IORQ = 1;
|
status[11] = 1'b1;
|
status[11] = 1'b1;
|
status[7:6] = 2'b0; // reset IFF1, IFF2
|
status[7:6] = 2'b0; // reset IFF1, IFF2
|
end
|
end
|
2'b11: // IM2
|
2'b11: // IM2
|
case(STAGE[2:0])
|
case(STAGE[2:0])
|
3'b000: begin
|
3'b000: begin
|
ALU160_SEL = 1; // pc
|
ALU160_SEL = 1; // pc
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = 6'b010x01; // PC, lo
|
WE = 6'b010x01; // PC, lo
|
ALU16OP = intop; // DEC/DEC2 (if block instruction interrupted)
|
ALU16OP = intop; // DEC/DEC2 (if block instruction interrupted)
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b1000; // Itmp, no write r
|
REG_WSEL = 4'b1000; // Itmp, no write r
|
MREQ = 0;
|
MREQ = 0;
|
IORQ = 1;
|
IORQ = 1;
|
status[11] = 1'b1;
|
status[11] = 1'b1;
|
status[7:6] = 2'b0; // reset IFF1, IFF2
|
status[7:6] = 2'b0; // reset IFF1, IFF2
|
end
|
end
|
3'b001, 3'b010: begin // push pc
|
3'b001, 3'b010: begin // push pc
|
DO_SEL = {1'b0, !STAGE[0]}; // pc hi/lo
|
DO_SEL = {1'b0, !STAGE[0]}; // pc hi/lo
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b001x00; // SP
|
WE = 6'b001x00; // SP
|
ALU16OP = 5; // DEC
|
ALU16OP = 5; // DEC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b1xxx; // pc
|
REG_WSEL = 4'b1xxx; // pc
|
REG_RSEL = 4'b101x; // sp
|
REG_RSEL = 4'b101x; // sp
|
M1 = 0;
|
M1 = 0;
|
WR = 1;
|
WR = 1;
|
end
|
end
|
3'b011, 3'b100: begin // read address
|
3'b011, 3'b100: begin // read address
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
DINW_SEL = 1; // DI
|
DINW_SEL = 1; // DI
|
WE = {4'b0x0x, STAGE[0] ? 1'bx : 1'b1, STAGE[0]}; // hi/lo
|
WE = {4'b0x0x, STAGE[0] ? 1'bx : 1'b1, STAGE[0]}; // hi/lo
|
ALU16OP = {2'b00, !STAGE[0]};// NOP/INC
|
ALU16OP = {2'b00, !STAGE[0]};// NOP/INC
|
next_stage = 1;
|
next_stage = 1;
|
REG_WSEL = 4'b111x; // tmp16
|
REG_WSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b1000; // I-Itmp
|
REG_RSEL = 4'b1000; // I-Itmp
|
M1 = 0;
|
M1 = 0;
|
end
|
end
|
3'b101: begin // jump
|
3'b101: begin // jump
|
ALU160_SEL = 0; // regs
|
ALU160_SEL = 0; // regs
|
WE = 6'b010x00; // PC
|
WE = 6'b010x00; // PC
|
REG_RSEL = 4'b111x; // tmp16
|
REG_RSEL = 4'b111x; // tmp16
|
end
|
end
|
endcase
|
endcase
|
endcase
|
endcase
|
endcase
|
endcase
|
end
|
end
|
|
|
endmodule
|
endmodule
|
|
|