# _mm_exp10_pd, _mm256_exp10_pd

Calculates exponential value of 10. Vector variant of exp(x) function for a 128-bit/256-bit vector argument of float64 values.

# _mm_exp10_ps, _mm256_exp10_ps

Calculates exponential value of 10. Vector variant of exp(x) function for a 128-bit/256-bit vector argument of float32 values.

# _mm_expm1_pd, _mm256_expm1_pd

Calculates exponential value of e (base of natural logarithms), raised to the power of vector elements minus 1. Vector variant of expm1(x) function for a 128-bit/256-bit vector argument of float64 values.

# _mm_expm1_ps, _mm256_expm1_ps

Calculates exponential value of e (base of natural logarithms), raised to the power of vector elements minus 1. Vector variant of expm1(x) function for a 128-bit/256-bit vector argument of float32 values.

# _mm_cexp_ps, _mm256_cexp_ps

Calculates complex exponential value of e (base of natural logarithms). Vector variant of exp(x) function for a 128-bit/256-bit vector argument of _Complex float32 values.

# _mm_pow_pd, _mm256_pow_pd

Calculates exponential value of one argument raised to the other argument. Vector variant of pow(x, y) function for a 128-bit/256-bit vector argument of float64 values.

# _mm_pow_ps, _mm256_pow_ps

Calculates exponential value of one argument raised to the other argument. Vector variant of pow(x, y) function for a 128-bit/256-bit vector argument of float32 values.

# _mm_hypot_pd, _mm256_hypot_pd

Computes the length of the hypotenuse of a right angled triangle. Vector variant of hypot(x) function for a 128-bit/256-bit vector argument of float64 values.

# _mm_hypot_ps, _mm256_hypot_ps

Computes the length of the hypotenuse of a right angled triangle. Vector variant of hypot(x) function for a 128-bit/256-bit vector argument of float32 values.

# Intrinsics for Logarithmic Operations

### Note

Many routines in the svml library are more highly optimized for Intel® microprocessors than for non-Intel microprocessors.