I have 4 binary bits

```
Bit 3 Bit 2 Bit 1 Bit 0
```

Normally the answer is simple: 2^4, or 16 different combinations; and it would looks something like the following:

0000 0001 0010 0011 0100 0101 0110 0111 1000 1001 1010 1011 1100 1101 1110 1111

However, The LSB (Bit 0) changes state every iteration.

I need an algorithm where the state of a bit only changes once through all the iterations; i.e, I need all my bits to act like the MSB (Bit 3).

How can I do this?

### Edit

It seems that most people are converging to there being only 5 possible solutions. However this assumes there is a starting point for the value and an ending point. This doesn't matter so I'm going to give a real world scenario to better explain.

Suppose I have an digital alarm clock that gives me 4 outputs. Each output can be programmed to go on at a certain time and off at a certain time and are programmed independent of each other, eg. I can program output 1 to go on at 1 am and off at 3 am, while I can program output 2 to go on at 7 pm and off at 2 am. There are no restrictions to how long each output can stay on.

Now I want to hook this alarm clock to a computer and get as close as possible to the current correct time. i.e If the clock says the time is 2:15 pm, my computer knows that the alarm is within the 12 pm to 6 pm range for example. I want to be able to get the smallest possible range. Whats the smallest possible range I can get?