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[/] [a-z80/] [trunk/] [cpu/] [bus/] [test_bus.sv] - Rev 20
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//==============================================================
// Test address latch and increment block
//==============================================================
`timescale 1us/ 100 ns
module test_bus;
// ----------------- CLOCKS AND RESET -----------------
// Define one full T-clock cycle delay
`define T #2
bit clk = 1;
initial repeat (26) #1 clk = ~clk;
reg nreset;
// ----------------------------------------------------
// Bi-directional bus that can also be tri-stated
reg [15:0] abusw; // Drive it using this bus
wire [15:0] abus; // Read it using this bus
wire [15:0] address; // Final address ouput
// ----------------- INPUT CONTROL -----------------
reg ctl_al_we; // Write enable to address latch
reg ctl_bus_inc_oe; // Write incrementer onto the internal data bus
reg ctl_apin_mux; // Selects mux1
reg ctl_apin_mux2; // Selects mux2
// ----------------- INC/DEC -----------------
reg ctl_inc_dec; // Perform decrement (1) or increment (0)
reg ctl_inc_limit6; // Limit increment to 6 bits (for incrementing IR)
reg ctl_inc_cy; // Address increment, carry in value (+/-1 or 0)
reg clrpc; // Force zero (to clear PC/IR)
// ----------------- OUTPUT/STATUS -----------------
wire address_is_1; // Signals when the final address is 1
// ----------------- TEST -------------------
`define CHECK(arg) \
assert(address==arg);
initial begin
nreset = 0;
abusw = 'z;
ctl_al_we = 0;
ctl_bus_inc_oe = 0;
ctl_inc_dec = 0;
ctl_inc_limit6 = 0;
ctl_inc_cy = 0;
clrpc = 0;
ctl_apin_mux = 0;
ctl_apin_mux2 = 0;
//------------------------------------------------------------
`T nreset = 1;
//------------------------------------------------------------
// Perform a simple increment and decrement
`T abusw = 16'h1234;
ctl_al_we = 1; // Write value to the latch
ctl_apin_mux = 1; // Output incrementer to the address bus
ctl_inc_cy = 1; // +1 show "1235"
`T `CHECK(16'h1235);
ctl_inc_dec = 1; // -1 show "1233"
`T `CHECK(16'h1233);
// ...through overflow
abusw = 16'hffff;
ctl_inc_dec = 0;
ctl_inc_cy = 1; // +1 show "0"
`T `CHECK(16'h0000);
ctl_inc_dec = 1; // -1 show "FFFE"
`T `CHECK(16'hFFFE);
abusw = 16'h0;
ctl_inc_dec = 0;
ctl_inc_cy = 1; // +1 show "1"
`T `CHECK(16'h0001);
ctl_inc_dec = 1; // -1 show "FFFF"
`T `CHECK(16'hFFFF);
ctl_inc_cy = 0; // show "0000"
`T `CHECK(16'h0000);
ctl_inc_dec = 0; // show "0000"
//------------------------------------------------------------
// Test the address latch and the mux
`T abusw = 16'hAA50;
ctl_al_we = 1; // Write AA55 to the latch
ctl_inc_cy = 1;
`T ctl_al_we = 0; // show "AA51"
`T `CHECK(16'hAA51);
ctl_apin_mux = 0;
ctl_apin_mux2 = 1;
//------------------------------------------------------------
// Test the tri-state db
`T abusw = 'z;
ctl_bus_inc_oe = 1; // Output latched value (AA50)
`T `CHECK(16'hAA50);
`T $display("End of test");
end
// Drive 3-state bidirectional bus with these statements
assign abus = abusw;
//--------------------------------------------------------------
// Instantiate address latch block
//--------------------------------------------------------------
address_latch address_latch_( .* );
endmodule
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