blob: 82a86f47bf99e41dd4430e1d8660283c1ac579f8 [file] [log] [blame]
`default_nettype none
module user_proj_example(
`ifdef USE_POER_PINS
inout vccd1, // User area 1 1.8V supply
inout vssd1, // User area 1 digital ground
`endif
input clk,
input [7:0] A0,B0,A1,B1, // ALU 8-bit Inputs
input [1:0] ALU_Sel1,ALU_Sel2,// ALU Selection
output [7:0] ALU_Out1,ALU_Out2, // ALU 8-bit Output
output CarryOut1,CarryOut2, // Carry Out Flag
output [7:0] x,
output y
);
my_alu alu_1(
.A (A0),
.B (B0),
.ALU_Sel (ALU_Sel1),
.ALU_Out (ALU_Out1),
.CarryOut (CarryOut1)
);
my_alu alu_2(
.A (A1),
.B (B1),
.ALU_Sel (ALU_Sel2),
.ALU_Out (ALU_Out2),
.CarryOut (CarryOut2)
);
assign x[7:0] = ALU_Out1[7:0] ^ ALU_Out2[7:0];
assign y = CarryOut1 ^ CarryOut2;
always @(*)
begin
if (x!=0)
$display ("Fault detected");
else
$display ("sucess");
end
endmodule
module my_alu(
input [7:0] A,B, // ALU 8-bit Inputs
input [1:0] ALU_Sel,// ALU Selection
output [7:0] ALU_Out, // ALU 8-bit Output
output CarryOut // Carry Out Flag
);
reg [8:0] ALU_Result;
assign ALU_Out = ALU_Result[7:0]; // ALU out
assign CarryOut = ALU_Result[8];
always @(*)
begin
case(ALU_Sel)
2'b00: // Addition
ALU_Result = A + B ;
2'b01: // Subtraction
ALU_Result = A - B ;
2'b10: // and
ALU_Result = A & B;
2'b11: // or
ALU_Result = A | B;
default: ALU_Result = A + B ;
endcase
end
endmodule
`default_nettype wire