# NEON vs Intel SSE - equivalence of certain operations

I'm having some trouble figuring out the NEON equivalence of a couple of Intel SSE operations. It seems that NEON is not capable to handle an entire Q register at once(128 bit value data type). I haven't found anything in the arm_neon.h header or in the NEON intrinsics reference.

What I want to do is the following:

``````// Intel SSE
// shift the entire 128 bit value with 2 bytes to the right; this is done
// without sign extension by shifting in zeros
__m128i val = _mm_srli_si128(vector_of_8_s16, 2);
// insert the least significant 16 bits of "some_16_bit_val"
// the whole thing in this case, into the selected 16 bit
// integer of vector "val"(the 16 bit element with index 7 in this case)
val = _mm_insert_epi16(val, some_16_bit_val, 7);
``````

I've looked at the shifting operations provided by NEON but could not find an equivalent way of doing the above(I don't have much experience with NEON). Is it possible to do the above(I guess it is I just don't know how)? Any pointers greatly appreciated.

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You want the VEXT instruction. Your example would look something like:

``````int16x8_t val = vextq_s16(vector_of_8_s16, another_vector_s16, 1);
``````

After this, bits 0-111 of `val` will contain bits 16-127 of `vector_of_8_s16`, and bits 112-127 of `val` will contain bits 0-15 of `another_vector_s16`.

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I actually implemented it that way already. Would it be possible for you to provide an example so that I validate my approach? – celavek Aug 27 '11 at 15:13
deleted my answer about vtbl and vtbx. vext is the way to go! – Nils Pipenbrinck Aug 27 '11 at 17:16
@celavek: I provided an example, but the way to validate your approach is by testing it, not by comparing it to an example. It either works or it doesn't. – Stephen Canon Aug 27 '11 at 20:13
Definitely agree with you(not going to compare anything). It was a bad choice of words. And I think you mean bits and not bytes. – celavek Aug 27 '11 at 21:54
@celavek: Yes, thanks. I approved your edit. – Stephen Canon Aug 28 '11 at 0:32