In Mathematica a vector (or rectangular array) containing all machine size integers or floats may be stored in a packed array. These objects take less memory, and some operations are much faster on them.

`RandomReal`

produces a packed array when possible. A packed array can be unpacked with the `Developer`

function `FromPackedArray`

Consider these timings

```
lst = RandomReal[1, 5000000];
Total[lst] // Timing
Plus @@ lst // Timing
lst = Developer`FromPackedArray[lst];
Total[lst] // Timing
Plus @@ lst // Timing
Out[1]= {0.016, 2.50056*10^6}
Out[2]= {0.859, 2.50056*10^6}
Out[3]= {0.625, 2.50056*10^6}
Out[4]= {0.64, 2.50056*10^6}
```

Therefore, in the case of a packed array, `Total`

is many times faster than `Plus @@`

but about the same for a non-packed array. Note that `Plus @@`

is actually a little slower on the packed array.

Now consider

```
lst = RandomReal[100, 5000000];
Times @@ lst // Timing
lst = Developer`FromPackedArray[lst];
Times @@ lst // Timing
Out[1]= {0.875, 5.8324791357*10^7828854}
Out[1]= {0.625, 5.8324791357*10^7828854}
```

Finally, my question: is there a fast method in Mathematica for the list product of a packed array, analogous to `Total`

?

I suspect that this may not be possible because of the way that numerical errors compound with multiplication. Also, the function will need to be able to return non-machine floats to be useful.