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[/] [a-z80/] [trunk/] [cpu/] [registers/] [test_registers.sv] - Rev 16
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//==============================================================
// Test register control and register file blocks
//==============================================================
`timescale 100 ns/ 100 ns
module test_registers;
// ----------------- CLOCKS AND RESET -----------------
// Define one full T-clock cycle delay
`define T #2
bit clk = 1;
initial repeat (36) #1 clk = ~clk;
logic nreset = 0;
// ----------------- BUSES -----------------
// We have 4 Bi-directional buses that can also be 3-stated:
// On the address-side, there are high and low 8-bit buses
reg [7:0] db_lo_as=8'hz; // Drive it using this bus
wire [7:0] db_lo_as_sig; // Read it using this bus
reg [7:0] db_hi_as=8'hz; // Drive it using this bus
wire [7:0] db_hi_as_sig; // Read it using this bus
// On the data-side, there are high and low 8-bit buses
reg [7:0] db_lo_ds=8'hz; // Drive it using this bus
wire [7:0] db_lo_ds_sig; // Read it using this bus
reg [7:0] db_hi_ds=8'hz; // Drive it using this bus
wire [7:0] db_hi_ds_sig; // Read it using this bus
// ----------------- BUS SWITCHES ------------
logic ctl_sw_4u_sig=0; // Bus switch #4 upstream gate
logic ctl_sw_4d_sig=0; // Bus switch #4 downstream gate
logic ctl_reg_in_hi_sig=0; // Input to the register file high
logic ctl_reg_in_lo_sig=0; // Input to the register file low
logic ctl_reg_out_hi_sig=0; // Output from the register file high
logic ctl_reg_out_lo_sig=0; // Output from the register file low
// ----------------- CONTROL -----------------
logic [1:0] ctl_reg_gp_sel_sig=0; // Selection of a general purpose register
logic [1:0] ctl_reg_gp_hilo_sig=0; // Hi/Lo selector for GP registers
logic ctl_reg_gp_we_sig=0; // Write to a general purpose register
logic [1:0] ctl_reg_sys_hilo_sig=0; // Hi/Lo selector for system registers
logic ctl_reg_sys_we_lo_sig=0; // Write to low byte of a system register
logic ctl_reg_sys_we_hi_sig=0; // Write to high byte of a system register
logic ctl_reg_sys_we_sig=0; // Write to system register
logic use_ixiy_sig=0; // Use IX or IY
logic use_ix_sig=0; // Use IX and not IY
logic nhold_clk_wait_sig=1; // Enable transitions due to nWAIT
logic ctl_reg_exx_sig=0; // Exchange register banks
logic ctl_reg_ex_af_sig=0; // Exchange AF banks
logic ctl_reg_ex_de_hl_sig=0; // Exchange HL/DE banks
logic ctl_reg_use_sp_sig=0; // Use SP register
logic ctl_reg_sel_pc_sig=0; // Select PC
logic ctl_reg_sel_ir_sig=0; // Select IR
logic ctl_reg_sel_wz_sig=0; // Select WZ
logic ctl_reg_not_pc_sig=0; // Do not select PC
// ----------------- TEST -------------------
`define CHECK(arg) \
assert({db_hi_ds_sig,db_lo_ds_sig}===arg);
initial begin
`T nreset = 1;
//------------------------------------------------------------
// Identify each 16-bit system register and check access to it
`T ctl_sw_4d_sig = 1; // Use unified bus: downstream
ctl_sw_4u_sig = 0;
ctl_reg_in_hi_sig = 1;
ctl_reg_in_lo_sig = 1;
db_hi_ds = 8'h81;
db_lo_ds = 8'h41;
ctl_reg_sys_hilo_sig = 2'b11;
ctl_reg_sys_we_hi_sig = 1; // 16-bit access
ctl_reg_sys_we_lo_sig = 1; // 16-bit access
ctl_reg_sel_wz_sig = 1; // WZ
`T db_hi_ds = 8'h82;
db_lo_ds = 8'h42;
ctl_reg_sel_wz_sig = 0; // WZ off
ctl_reg_sel_pc_sig = 1; // PC
`T db_hi_ds = 8'h83;
db_lo_ds = 8'h43;
ctl_reg_sel_pc_sig = 0; // PC off
ctl_reg_sel_ir_sig = 1; // IR
`T db_hi_ds = 'z;
db_lo_ds = 'z;
ctl_reg_sel_ir_sig = 0; // IR off
// Read back
ctl_sw_4d_sig = 0;
ctl_sw_4u_sig = 0; // Upstream
ctl_reg_in_hi_sig = 0;
ctl_reg_in_lo_sig = 0;
ctl_reg_out_hi_sig = 1;
ctl_reg_out_lo_sig = 1;
ctl_reg_sys_we_hi_sig = 0;
ctl_reg_sys_we_lo_sig = 0;
ctl_reg_sel_wz_sig = 1; // WZ
`T `CHECK(16'h8141);
ctl_reg_sel_wz_sig = 0; // WZ off
ctl_sw_4u_sig = 1; // Upstream
ctl_reg_sel_pc_sig = 1; // PC
`T `CHECK(16'h8242);
ctl_reg_sel_pc_sig = 0; // PC off
ctl_reg_sel_ir_sig = 1; // IR
`T `CHECK(16'h8343);
ctl_reg_sel_ir_sig = 0; // IR off
ctl_sw_4d_sig = 0;
ctl_sw_4u_sig = 0;
ctl_reg_sys_hilo_sig = 2'b00;
//------------------------------------------------------------
// Identify a 16-bit system register and check access to it
`T ctl_reg_in_hi_sig = 1;
ctl_reg_in_lo_sig = 1;
ctl_reg_out_hi_sig = 0;
ctl_reg_out_lo_sig = 0;
ctl_reg_gp_we_sig = 1; // Write to a GP register
ctl_reg_gp_hilo_sig = 2'b11;// 16-bit write
db_hi_ds = 8'hAA;
db_lo_ds = 8'h55;
ctl_reg_gp_sel_sig = 2'b00; // AF
`T db_hi_ds = 8'hAB;
db_lo_ds = 8'h56;
ctl_reg_gp_sel_sig = 2'b01; // BC
`T db_hi_ds = 8'hAC;
db_lo_ds = 8'h57;
ctl_reg_gp_sel_sig = 2'b10; // DE
`T db_hi_ds = 8'hAD;
db_lo_ds = 8'h58;
ctl_reg_gp_sel_sig = 2'b11; // HL
`T db_hi_ds = 'z;
db_lo_ds = 'z;
// Read back
ctl_reg_in_hi_sig = 0;
ctl_reg_in_lo_sig = 0;
ctl_reg_out_hi_sig = 1;
ctl_reg_out_lo_sig = 1;
ctl_reg_gp_we_sig = 0;
ctl_reg_gp_sel_sig = 2'b00; // Check AF
`T `CHECK(16'hAA55);
ctl_reg_gp_sel_sig = 2'b01; // Check BC
`T `CHECK(16'hAB56);
ctl_reg_gp_sel_sig = 2'b10; // Check DE
`T `CHECK(16'hAC57);
ctl_reg_gp_sel_sig = 2'b11; // Check HL
`T `CHECK(16'hAD58);
`T $display("End of test");
end
// Drive 3-state bidirectional buses with these statements
assign db_lo_as_sig = db_lo_as;
assign db_hi_as_sig = db_hi_as;
assign db_lo_ds_sig = db_lo_ds;
assign db_hi_ds_sig = db_hi_ds;
// Instantiate register control block
reg_control reg_control_inst
(
.ctl_reg_gp_sel(ctl_reg_gp_sel_sig) , // input [1:0] ctl_reg_gp_sel_sig
.ctl_reg_sys_hilo(ctl_reg_sys_hilo_sig),// input [1:0] ctl_reg_sys_hilo_sig
.ctl_reg_exx(ctl_reg_exx_sig) , // input ctl_reg_exx_sig
.ctl_reg_ex_af(ctl_reg_ex_af_sig) , // input ctl_reg_ex_af_sig
.ctl_reg_ex_de_hl(ctl_reg_ex_de_hl_sig),// input ctl_reg_ex_de_hl_sig
.ctl_reg_use_sp(ctl_reg_use_sp_sig) , // input ctl_reg_use_sp_sig
.ctl_reg_gp_hilo(ctl_reg_gp_hilo_sig) , // input [1:0] ctl_reg_gp_hilo_sig
.nreset(nreset) , // input nreset
.ctl_reg_sel_pc(ctl_reg_sel_pc_sig) , // input ctl_reg_sel_pc_sig
.ctl_reg_sel_ir(ctl_reg_sel_ir_sig) , // input ctl_reg_sel_ir_sig
.ctl_reg_sel_wz(ctl_reg_sel_wz_sig) , // input ctl_reg_sel_wz_sig
.ctl_reg_gp_we(ctl_reg_gp_we_sig) , // input ctl_reg_gp_we_sig
.ctl_reg_not_pc(ctl_reg_not_pc_sig) , // input ctl_reg_not_pc_sig
.use_ixiy(use_ixiy_sig) , // input use_ixiy_sig
.use_ix(use_ix_sig) , // input use_ix_sig
.ctl_reg_sys_we_lo(ctl_reg_sys_we_lo_sig),// input ctl_reg_sys_we_lo_sig
.ctl_reg_sys_we_hi(ctl_reg_sys_we_hi_sig),// input ctl_reg_sys_we_hi_sig
.ctl_reg_sys_we(ctl_reg_sys_we_sig) , // input ctl_reg_sys_we_sig
.clk(clk) , // input clk
.ctl_sw_4d (ctl_sw_4d_sig) , // input ctl_sw_4d
.nhold_clk_wait(nhold_clk_wait_sig) , // input nhold_clk_wait_sig
.reg_sel_bc(reg_sel_bc_sig) , // output reg_sel_bc_sig
.reg_sel_bc2(reg_sel_bc2_sig) , // output reg_sel_bc2_sig
.reg_sel_ix(reg_sel_ix_sig) , // output reg_sel_ix_sig
.reg_sel_iy(reg_sel_iy_sig) , // output reg_sel_iy_sig
.reg_sel_de(reg_sel_de_sig) , // output reg_sel_de_sig
.reg_sel_hl(reg_sel_hl_sig) , // output reg_sel_hl_sig
.reg_sel_de2(reg_sel_de2_sig) , // output reg_sel_de2_sig
.reg_sel_hl2(reg_sel_hl2_sig) , // output reg_sel_hl2_sig
.reg_sel_af(reg_sel_af_sig) , // output reg_sel_af_sig
.reg_sel_af2(reg_sel_af2_sig) , // output reg_sel_af2_sig
.reg_sel_wz(reg_sel_wz_sig) , // output reg_sel_wz_sig
.reg_sel_pc(reg_sel_pc_sig) , // output reg_sel_pc_sig
.reg_sel_ir(reg_sel_ir_sig) , // output reg_sel_ir_sig
.reg_sel_sp(reg_sel_sp_sig) , // output reg_sel_sp_sig
.reg_sel_gp_hi(reg_sel_gp_hi_sig) , // output reg_sel_gp_hi_sig
.reg_sel_gp_lo(reg_sel_gp_lo_sig) , // output reg_sel_gp_lo_sig
.reg_sel_sys_lo(reg_sel_sys_lo_sig) , // output reg_sel_sys_lo_sig
.reg_sel_sys_hi(reg_sel_sys_hi_sig) , // output reg_sel_sys_hi_sig
.reg_gp_we(reg_gp_we_sig) , // output reg_gp_we_sig
.reg_sys_we_lo(reg_sys_we_lo_sig) , // output reg_sys_we_lo_sig
.reg_sys_we_hi(reg_sys_we_hi_sig) , // output reg_sys_we_hi_sig
.reg_sw_4d_lo (reg_sw_4d_lo_sig) , // output reg_sw_4d_lo_sig
.reg_sw_4d_hi (reg_sw_4d_hi_sig) // output reg_sw_4d_hi_sig
);
// Instantiate register file block
reg_file reg_file_inst
(
.reg_sel_sys_lo(reg_sel_sys_lo_sig) , // input reg_sel_sys_lo_sig
.reg_sel_gp_lo(reg_sel_gp_lo_sig) , // input reg_sel_gp_lo_sig
.reg_sel_sys_hi(reg_sel_sys_hi_sig) , // input reg_sel_sys_hi_sig
.reg_sel_gp_hi(reg_sel_gp_hi_sig) , // input reg_sel_gp_hi_sig
.reg_sel_ir(reg_sel_ir_sig) , // input reg_sel_ir_sig
.reg_sel_pc(reg_sel_pc_sig) , // input reg_sel_pc_sig
.reg_sw_4d_lo(reg_sw_4d_lo_sig) , // input reg_sw_4d_lo_sig
.reg_sw_4d_hi(reg_sw_4d_hi_sig) , // input reg_sw_4d_hi_sig
.ctl_sw_4u(ctl_sw_4u_sig) , // input ctl_sw_4u_sig
.reg_sel_wz(reg_sel_wz_sig) , // input reg_sel_wz_sig
.reg_sel_sp(reg_sel_sp_sig) , // input reg_sel_sp_sig
.reg_sel_iy(reg_sel_iy_sig) , // input reg_sel_iy_sig
.reg_sel_ix(reg_sel_ix_sig) , // input reg_sel_ix_sig
.reg_sel_hl2(reg_sel_hl2_sig) , // input reg_sel_hl2_sig
.reg_sel_hl(reg_sel_hl_sig) , // input reg_sel_hl_sig
.reg_sel_de2(reg_sel_de2_sig) , // input reg_sel_de2_sig
.reg_sel_de(reg_sel_de_sig) , // input reg_sel_de_sig
.reg_sel_bc2(reg_sel_bc2_sig) , // input reg_sel_bc2_sig
.reg_sel_bc(reg_sel_bc_sig) , // input reg_sel_bc_sig
.reg_sel_af2(reg_sel_af2_sig) , // input reg_sel_af2_sig
.reg_sel_af(reg_sel_af_sig) , // input reg_sel_af_sig
.reg_gp_we(reg_gp_we_sig) , // input reg_gp_we_sig
.reg_sys_we_lo(reg_sys_we_lo_sig) , // input reg_sys_we_lo_sig
.reg_sys_we_hi(reg_sys_we_hi_sig) , // input reg_sys_we_hi_sig
.ctl_reg_in_hi(ctl_reg_in_hi_sig) , // input ctl_reg_in_hi_sig
.ctl_reg_in_lo(ctl_reg_in_lo_sig) , // input ctl_reg_in_lo_sig
.ctl_reg_out_lo(ctl_reg_out_lo_sig) , // input ctl_reg_out_lo_sig
.ctl_reg_out_hi(ctl_reg_out_hi_sig) , // input ctl_reg_out_hi_sig
.clk(clk) , // input clk
.db_lo_ds(db_lo_ds_sig) , // inout [7:0] db_lo_ds_sig
.db_hi_ds(db_hi_ds_sig) , // inout [7:0] db_hi_ds_sig
.db_lo_as(db_lo_as_sig) , // inout [7:0] db_lo_as_sig
.db_hi_as(db_hi_as_sig) // inout [7:0] db_hi_as_sig
);
endmodule