In MATLAB (r2009b) I have a uint32 variable containing the value 2147484101.

This number (its 4-bytes) has been extracted from a digital machine-vision camera in a grabbing process. According to what I understand it holds the single-precision form of the shutter-speed of the camera (should be close to 1/260s = 3.8ms).

How do I convert this 32-bit number to its IEEE single-precision floating-point representation - using what's available in MATLAB?

With mentioned value in variable *n*, I have tried using a combination of *nn=dec2hex(n,16)* and then *hex2num(nn)*. But it seems that *hex2num* expects the hexadecimal coding to be double-precision and not single as it is here. Atleast I am getting weird numbers with this method.

Any ideas?

**Edit:** Tried @Matt's answer below:

```
typecast(uint32(2147484101),'single') %# without swapbytes
typecast(swapbytes(uint32(2147484101)),'single') %# with swapbytes
```

Which gives:

```
ans =
-6.3478820e-043
ans =
-2.0640313e+003
```

I tried the IEEE 754 converter (JAVA applet) at http://www.h-schmidt.net/FloatApplet/IEEE754.html.

Using:

```
format hex
typecast(uint32(2147484101),'uint8') %# without swapbytes
typecast(swapbytes(uint32(2147484101)),'uint8') %# with swapbytes
```

gives

```
ans =
c5 01 00 80
ans =
80 00 01 c5
```

Entering these bytes into the applet (hexadecimal) gives me the same numbers as MATLAB.