I'm not sure where you got the idea that IE9 is the only browser that supports fractional pixel units, but that assumption is totally incorrect.

From section 4.3 of the spec (emphasis added):

The format of a length value (denoted by <length> in this specification) is a **<number>** (with or without a decimal point) immediately followed by a unit identifier (e.g., **px**, em, etc.).

And defining *<number>*:

Some value types may have integer values (denoted by <integer>) or real number values (denoted by <number>). Real numbers and integers are specified in decimal notation only. An <integer> consists of one or more digits "0" to "9". A <number> can either be an <integer>, or it can be zero or more digits followed by a dot (.) followed by one or more digits. Both integers and real numbers may be preceded by a "-" or "+" to indicate the sign. -0 is equivalent to 0 and is not a negative number.

Therefore, per spec, the `px`

length unit *must* support fractional numbers.

To prove this, take a look at this fiddle in fullscreen and use your browser's zoom function to zoom all the way in:

In this Chrome screenshot, notice that the 5.5px blue box is indeed taller than the 5px red box.

I think the confusion might stem from the fact that the **non-standard** `element.clientHeight`

returns a calculated (rounded) *integer* value, and that rounding happens differently in different browsers.

In my fiddle, for the `clientHeight`

of the blue `<div>`

, IE9 and Firefox 15 at 100% zoom give `6`

. Chrome 22 and Opera 12 give `5`

. In all browsers, the value of that property changes as the user changes the browser's zoom level.

In other words, it's unreliable.

If you want to do calculations with the actual, fractional units of an element, use `getComputedStyle`

.

```
var el = $('#b')[0]; // the actual DOM element
var height = parseFloat(getComputedStyle(el).height); // => 5.5
```

lastof the major browser to implement subpixel precision (or we're talking about two different things ;)). – Yoshi Sep 26 '12 at 15:13