# Convert specific SSE intrinsics to NEON intrinsics

> [EDIT: (edited to highlight the question in context)

Following are the SSE intrinsics for which I require NEON intrinsics as I am converting some SSE code to run on iOS.

• _mm_set_ps

Sets the four single-precision, floating-point values to the four inputs.

(__m128 _mm_set_ps(float z , float y , float x , float w );)

Return Value:
r0 := w
r1 := x
r2 := y
r3 := z

Loads four single-precision, floating-point values. The address does not need to be 16-byte aligned.

Return Value:
r0 := p[0]
r1 := p[1]
r2 := p[2]
r3 := p[3]
• _mm_storeu_ps

Stores four single-precision, floating-point values. The address does not need to be 16-byte aligned.

void _mm_storeu_ps(float *p, __m128 a);

Return Value:
p[0] := a0
p[1] := a1
p[2] := a2
p[3] := a3

Adds the 4 signed or unsigned 32-bit integers in a to the 4 signed or unsigned 32-bit integers in b.

__m128i _mm_add_epi32 (__m128i a, __m128i b);

Return Value:
r0 := a0 + b0
r1 := a1 + b1
r2 := a2 + b2
r3 := a3 + b3

Note: Avoid unaligned memory access whenever possible. So, I need a way to convert unaligned access to aligned access (probably using padding).

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I'm not very familiar with NEON intrinsics, but I can name you the equivalent NEON instructions. You'll find the appropriate macro easily then.

_mm_set_ps

If the values are already in S registers, you just have to re-interpret them as D registers Otherwise, you can fill a D register with a vmov instruction : vmov.i32 d0, r0, r1