Developer Guide and Reference

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Minimum and Maximum Operators

Compute the minimums of the two double precision floating-point values of
A
and
B
.
F64vec2 R = simd_min(F64vec2 A, F64vec2 B)
R0 := min(A0,B0);
R1 := min(A1,B1);
Corresponding intrinsic:
_mm_min_pd
Compute the minimums of the four single precision floating-point values of
A
and
B
.
F32vec4 R = simd_min(F32vec4 A, F32vec4 B)
R0 := min(A0,B0);
R1 := min(A1,B1);
R2 := min(A2,B2);
R3 := min(A3,B3);
Corresponding intrinsic:
_mm_min_ps
Compute the minimum of the lowest single precision floating-point values of
A
and
B
.
F32vec1 R = simd_min(F32vec1 A, F32vec1 B)
R0 := min(A0,B0);
Corresponding intrinsic:
_mm_min_ss
Compute the maximums of the two double precision floating-point values of
A
and
B
.
F64vec2 simd_max(F64vec2 A, F64vec2 B)
R0 := max(A0,B0);
R1 := max(A1,B1);
Corresponding intrinsic:
_mm_max_pd
Compute the maximums of the four single precision floating-point values of
A
and
B
.
F32vec4 R = simd_man(F32vec4 A, F32vec4 B)
R0 := max(A0,B0);
R1 := max(A1,B1);
R2 := max(A2,B2);
R3 := max(A3,B3);
Corresponding intrinsic:
_mm_max_ps
Compute the maximum of the lowest single precision floating-point values of
A
and
B
.
F32vec1 simd_max(F32vec1 A, F32vec1 B)
R0 := max(A0,B0);
Corresponding intrinsic: _
mm_max_ss

Product and Performance Information

1

Performance varies by use, configuration and other factors. Learn more at www.Intel.com/PerformanceIndex.