This is just an experiment I'm trying to wrap my brain around.

So I've got two registers r1 r2 and two wires w1 w2. What I want is, if both r's are 1, both w's should be 1. If one r is 1, the corresponding w should be 1 and the other should be 0. If both r's are 0, w1 should be 1 and w2 should be 0.

11=>11

10=>10

01=>01

00=>10

The caveat is I want the assign for w1 not to include r2 directly, and vice versa. So, I've got (in Verilog for instance--a VHDL answer would be perfectly fine too)

```
assign w1 = r1 | !w2;
assign w2 = r2 | !w1;
```

Which is necessary but not sufficient. All the cases above are true, but 00=>01 is also true. In fact when r1=r2=0, it just creates a cycle of wires without a driver, so I think the result is non-deterministic.

Is there any way to get the result I'm looking for without including r2 in the assignment for w1, or vice versa? (And without introducing new variables). Basically just to ensure that in a wire-cycle, w1 is pulled high and w2 pulled low?

`r1<=r1|!r2`

at each clock tick, but I was looking for a way to use a feedback loop so I could do it without a clock, but it looks like that's exactly what's not possible. – Dax Fohl Jul 4 '12 at 18:03