With SSE4.1, you can use the `roundps`

and `roundpd`

instructions:

```
// Single Precision
__m128 integer = _mm_round_ps(value,_MM_FROUND_TRUNC);
__m128 fraction = _mm_sub_ps(value,integer);
// Double Precision
__m128d integer = _mm_round_pd(value,_MM_FROUND_TRUNC);
__m128d fraction = _mm_sub_pd(value,integer);
```

This will separate the integer and fractional parts while preserving the sign for both of them.

Likewise, for AVX:

```
// Single Precision
__m256 integer = _mm256_round_ps(value,_MM_FROUND_TRUNC);
__m256 fraction = _mm256_sub_ps(value,integer);
// Double Precision
__m256d integer = _mm256_round_pd(value,_MM_FROUND_TRUNC);
__m256d fraction = _mm256_sub_pd(value,integer);
```

If you also have the XOP instruction set, you can get the fractional part alone with only one instruction (via `_mm256_frcz_pd`

and family).

But without SSE4.1, then there isn't really a better way to do it aside from converting, or doing the +/- magic number trick. (both of which will run into problems in the case of overflow)

`roundpd`

. That gives you the integer part. Then subtract that from the original number to get the fractional part. You can control the rounding mode to get what you want. – Mysticial Oct 13 '13 at 6:46