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[/] [a-z80/] [trunk/] [host/] [basic_de1/] [basic_de1_ModelSim.sv] - Rev 20
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//============================================================================
// Host design containing A-Z80 and a few peripherials
//
// This module does not define a physical board but is only meant to be
// compiled within the ModelSim host test.
//
// Copyright (C) 2014-2016 Goran Devic
//
// This program is free software; you can redistribute it and/or modify it
// under the terms of the GNU General Public License as published by the Free
// Software Foundation; either version 2 of the License, or (at your option)
// any later version.
//
// This program is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
// more details.
//
// You should have received a copy of the GNU General Public License along
// with this program; if not, write to the Free Software Foundation, Inc.,
// 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
//============================================================================
module host
(
input wire clk,
input wire reset,
input wire nint,
input wire nnmi,
output wire uart_tx
);
// ----------------- CPU PINS -----------------
wire nM1;
wire nMREQ;
wire nIORQ;
wire nRD;
wire nWR;
wire nRFSH;
wire nHALT;
wire nBUSACK;
wire nWAIT;
wire nINT = nint;
wire nNMI = nnmi;
wire nBUSRQ = 1;
wire [15:0] A;
wire [7:0] D;
// This is an optional, test feature: add M1/Memory Wait states as described in the Zilog manual
reg nWAIT_M1_sig;
reg nWAIT_Mem_sig;
// *** Uncomment one of the following 3 choices ***:
//assign nWAIT = nWAIT_M1_sig; // Add one wait state to an M1 cycle
//assign nWAIT = nWAIT_Mem_sig; // Add one wait state to any memory cycle (M1 + memory read/write)
assign nWAIT = 1; // Do not add wait cycles
// ----------------- INTERNAL WIRES -----------------
wire [7:0] RamData; // RamData is a data writer from the RAM module
wire RamWE;
assign RamWE = nIORQ==1 && nRD==1 && nWR==0;
wire uart_busy;
wire UartWE = nIORQ==0 && nRD==1 && nWR==0;
// Memory map:
// 0000 - 3FFF 16K RAM
assign D[7:0] = (A[15:14]=='h0 && nIORQ==1 && nRD==0 && nWR==1) ? RamData :
(nIORQ==0 && nRD==1 && nWR==1) ? 8'h80 :
(nIORQ==0 && nRD==0 && nWR==1) ? {7'h0,uart_busy} :
{8{1'bz}};
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Instantiate A-Z80 CPU module
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
z80_top_direct_n z80_( .*, .nRESET(reset), .CLK(clk) );
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Instantiate gates to add Wait states to M1 and Memory cycles (for testing)
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
wait_state wait_state_inst
(
.CLK(clk),
.nM1(nM1),
.nMREQ((nMREQ === z) ? 1'b1 : nMREQ), // Correct nMREQ from being tri-stated after reset
.nWAIT_M1(nWAIT_M1_sig),
.nWAIT_Mem(nWAIT_Mem_sig)
);
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Instantiate 16Kb of RAM memory
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
ram ram_( .address(A[13:0]), .clock(clk), .data(D[7:0]), .wren(RamWE), .q(RamData[7:0]) );
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Instantiate UART module
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
uart #( .BAUD(115200), .IN_CLOCK(10000000) ) uart_(
// Outputs
.busy(uart_busy),
.uart_tx(uart_tx),
// Inputs
.wr(UartWE),
.data(D[7:0]),
.clk(clk),
.reset(!reset)
);
endmodule
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