# how to truncate value using SIMD instructions

``````val = ( val < 0 ) ? 0 : val;
``````

I want an instruction for the above . (i.e) if val is less dan 0 then will have value of '0' and if val is greter than 0 then 'val' will be the result. Are there any set of neon instructions which will execute the above??

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Assuming you are dealing with 16bit signed data , d0 containing the values :

``````vshr.s16 d1, d0, #15
vbic.16  d0, d0, d1
``````

that will do the trick.

Alternately, you could resort to :

``````vshll.s16 q0, d0, #16
vqshrun.s32 d0, q0, #16
``````

or even :

``````vmovl.s16 q0, d0
vqmovun.s32 d0, q0
``````

Even if you are dealing with float data, you can handle them just like s32 ones for this purpose :

``````vshr.s32 d1, d0, #31
vbic.32 d0, d0, d1
``````

you know, the MSB is the sign bit on float as well as on int, and 0.0f is nothing else tha n 0x00000000.

plain and simple.

Edit :

People seem to be confused by the bit operations in my code above. Here is the explanation :

``````int MinusIsZero(int n)
{
if (n < 0) n = 0;
return n;
}
``````

As you can see, it's quite a simple function doing what the OP wanted.

However, such a simple 'if' statement is a real pain for SIMD due to its vector nature.

Fortunately, it's very well doable with ALU instructions without an 'if'.

``````int MinusIsZero(n)
{
return n;
}
``````

First things first : if you right shift a signed int32 by 31 bits, the result can only be 0x00000000(if positive) or 0xffffffff(if negative).

If n was positive, n & ~0x00000000 would result in n.

If n was negative, n & ~0xffffffff would result in 0.

Exactly what the OP wanted.

Beside it's by far the most efficient method on SIMD units like NEON, (ALU instructions are the fastest) it's also a very desirable one even on integer cores, because it doesn't corrupt the CPSR.

Corrupting the CPSR unnecessarily could cripple the pipeline and out-of-order execution capability seriously depending on the other parts around the routine.

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It is possible. Using NEON quite simple even because it has min and max instructions.

Here is an example using the float data-type.

``````float32x2_t clampToZero (float32x2_t value)
{
// generate a vector containing all zeros:
float32x2_t allZero = vdup_n_f32 (0.0f);

// take the parallel maximum between your value and zero.
return vmax_f32 (allZero, value);
}
``````
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