First of all, forgive me if this isn't the right place to post this question, but I wasn't sure where it should go. I am currently working on simulating an ALU in Xilinx with VHDL. The ALU has the following inputs and outputs:

**Inputs**

and*A*: two 8-bit operands*B*: single-bit carry in*Ci*: 4-bit opcode for the multiplexers*Op*

**Outputs**

: 8-bit output operands*Y*: single-bit carry out*Co*: overflow flag (1 if there is overflow, 0 otherwise)*V*: zero flag (1 if zero, 0 otherwise)*Z*: sign flag (1 if -ve, 0 if +ve)*S*

The ALU performs the operations detailed in the table below:

I have implemented it using multiplexers and an adder, as illustrated in the diagram below:

My question is:

How do I calculate the value of the overflow flag,

V?

I am aware that:

- If adding a positive to a negative, overflow will not occur
- If there is no carry/borrow, then the overflow can be calculated by evaluating the expression

```
(not A(7) and not B(7) and Y(7)) or (A(7) and B(7) and not Y(7))
```

where *A(7)*, *B(7)* and *Y(7)* are the 8th bit of ** A**,

**and**

*B***respectively.**

*Y*- In the case of a carry/borrow, There is an overflow if and only if the carry-in and carry-out of the most significant bit are different.

I don't know how to implement this logically in VHDL code however - especially in the case of a carry.