Module core::arch::x86 1.27.0[−][src]
Platform-specific intrinsics for the x86 platform.
See the module documentation for more details.
Structs
| CpuidResult |
[ x86 ] Result of the |
| __m128 |
[ x86 ] 128-bit wide set of four |
| __m256 |
[ x86 ] 256-bit wide set of eight |
| __m128d |
[ x86 ] 128-bit wide set of two |
| __m128i |
[ x86 ] 128-bit wide integer vector type, x86-specific |
| __m256d |
[ x86 ] 256-bit wide set of four |
| __m256i |
[ x86 ] 256-bit wide integer vector type, x86-specific |
| __m64 |
[ Experimental ] [x86 ] 64-bit wide integer vector type, x86-specific |
Constants
| _CMP_EQ_OQ |
[ x86 ] Equal (ordered, non-signaling) |
| _CMP_EQ_OS |
[ x86 ] Equal (ordered, signaling) |
| _CMP_EQ_UQ |
[ x86 ] Equal (unordered, non-signaling) |
| _CMP_EQ_US |
[ x86 ] Equal (unordered, signaling) |
| _CMP_FALSE_OQ |
[ x86 ] False (ordered, non-signaling) |
| _CMP_FALSE_OS |
[ x86 ] False (ordered, signaling) |
| _CMP_GE_OQ |
[ x86 ] Greater-than-or-equal (ordered, non-signaling) |
| _CMP_GE_OS |
[ x86 ] Greater-than-or-equal (ordered, signaling) |
| _CMP_GT_OQ |
[ x86 ] Greater-than (ordered, non-signaling) |
| _CMP_GT_OS |
[ x86 ] Greater-than (ordered, signaling) |
| _CMP_LE_OQ |
[ x86 ] Less-than-or-equal (ordered, non-signaling) |
| _CMP_LE_OS |
[ x86 ] Less-than-or-equal (ordered, signaling) |
| _CMP_LT_OQ |
[ x86 ] Less-than (ordered, non-signaling) |
| _CMP_LT_OS |
[ x86 ] Less-than (ordered, signaling) |
| _CMP_NEQ_OQ |
[ x86 ] Not-equal (ordered, non-signaling) |
| _CMP_NEQ_OS |
[ x86 ] Not-equal (ordered, signaling) |
| _CMP_NEQ_UQ |
[ x86 ] Not-equal (unordered, non-signaling) |
| _CMP_NEQ_US |
[ x86 ] Not-equal (unordered, signaling) |
| _CMP_NGE_UQ |
[ x86 ] Not-greater-than-or-equal (unordered, non-signaling) |
| _CMP_NGE_US |
[ x86 ] Not-greater-than-or-equal (unordered, signaling) |
| _CMP_NGT_UQ |
[ x86 ] Not-greater-than (unordered, non-signaling) |
| _CMP_NGT_US |
[ x86 ] Not-greater-than (unordered, signaling) |
| _CMP_NLE_UQ |
[ x86 ] Not-less-than-or-equal (unordered, non-signaling) |
| _CMP_NLE_US |
[ x86 ] Not-less-than-or-equal (unordered, signaling) |
| _CMP_NLT_UQ |
[ x86 ] Not-less-than (unordered, non-signaling) |
| _CMP_NLT_US |
[ x86 ] Not-less-than (unordered, signaling) |
| _CMP_ORD_Q |
[ x86 ] Ordered (non-signaling) |
| _CMP_ORD_S |
[ x86 ] Ordered (signaling) |
| _CMP_TRUE_UQ |
[ x86 ] True (unordered, non-signaling) |
| _CMP_TRUE_US |
[ x86 ] True (unordered, signaling) |
| _CMP_UNORD_Q |
[ x86 ] Unordered (non-signaling) |
| _CMP_UNORD_S |
[ x86 ] Unordered (signaling) |
| _MM_EXCEPT_DENORM |
[ x86 ] See |
| _MM_EXCEPT_DIV_ZERO |
[ x86 ] See |
| _MM_EXCEPT_INEXACT |
[ x86 ] See |
| _MM_EXCEPT_INVALID |
[ x86 ] See |
| _MM_EXCEPT_MASK |
[ x86 ]
|
| _MM_EXCEPT_OVERFLOW |
[ x86 ] See |
| _MM_EXCEPT_UNDERFLOW |
[ x86 ] See |
| _MM_FLUSH_ZERO_MASK |
[ x86 ]
|
| _MM_FLUSH_ZERO_OFF |
[ x86 ] See |
| _MM_FLUSH_ZERO_ON |
[ x86 ] See |
| _MM_FROUND_CEIL |
[ x86 ] round up and do not suppress exceptions |
| _MM_FROUND_CUR_DIRECTION |
[ x86 ] use MXCSR.RC; see |
| _MM_FROUND_FLOOR |
[ x86 ] round down and do not suppress exceptions |
| _MM_FROUND_NEARBYINT |
[ x86 ] use MXCSR.RC and suppress exceptions; see |
| _MM_FROUND_NINT |
[ x86 ] round to nearest and do not suppress exceptions |
| _MM_FROUND_NO_EXC |
[ x86 ] suppress exceptions |
| _MM_FROUND_RAISE_EXC |
[ x86 ] do not suppress exceptions |
| _MM_FROUND_RINT |
[ x86 ] use MXCSR.RC and do not suppress exceptions; see
|
| _MM_FROUND_TO_NEAREST_INT |
[ x86 ] round to nearest |
| _MM_FROUND_TO_NEG_INF |
[ x86 ] round down |
| _MM_FROUND_TO_POS_INF |
[ x86 ] round up |
| _MM_FROUND_TO_ZERO |
[ x86 ] truncate |
| _MM_FROUND_TRUNC |
[ x86 ] truncate and do not suppress exceptions |
| _MM_HINT_NTA |
[ x86 ] See |
| _MM_HINT_T0 |
[ x86 ] See |
| _MM_HINT_T1 |
[ x86 ] See |
| _MM_HINT_T2 |
[ x86 ] See |
| _MM_MASK_DENORM |
[ x86 ] See |
| _MM_MASK_DIV_ZERO |
[ x86 ] See |
| _MM_MASK_INEXACT |
[ x86 ] See |
| _MM_MASK_INVALID |
[ x86 ] See |
| _MM_MASK_MASK |
[ x86 ]
|
| _MM_MASK_OVERFLOW |
[ x86 ] See |
| _MM_MASK_UNDERFLOW |
[ x86 ] See |
| _MM_ROUND_DOWN |
[ x86 ] See |
| _MM_ROUND_MASK |
[ x86 ]
|
| _MM_ROUND_NEAREST |
[ x86 ] See |
| _MM_ROUND_TOWARD_ZERO |
[ x86 ] See |
| _MM_ROUND_UP |
[ x86 ] See |
| _SIDD_BIT_MASK |
[ x86 ] Mask only: return the bit mask |
| _SIDD_CMP_EQUAL_ANY |
[ x86 ] For each character in |
| _SIDD_CMP_EQUAL_EACH |
[ x86 ] The strings defined by |
| _SIDD_CMP_EQUAL_ORDERED |
[ x86 ] Search for the defined substring in the target |
| _SIDD_CMP_RANGES |
[ x86 ] For each character in |
| _SIDD_LEAST_SIGNIFICANT |
[ x86 ] Index only: return the least significant bit (Default) |
| _SIDD_MASKED_NEGATIVE_POLARITY |
[ x86 ] Negate results only before the end of the string |
| _SIDD_MASKED_POSITIVE_POLARITY |
[ x86 ] Do not negate results before the end of the string |
| _SIDD_MOST_SIGNIFICANT |
[ x86 ] Index only: return the most significant bit |
| _SIDD_NEGATIVE_POLARITY |
[ x86 ] Negate results |
| _SIDD_POSITIVE_POLARITY |
[ x86 ] Do not negate results (Default) |
| _SIDD_SBYTE_OPS |
[ x86 ] String contains signed 8-bit characters |
| _SIDD_SWORD_OPS |
[ x86 ] String contains unsigned 16-bit characters |
| _SIDD_UBYTE_OPS |
[ x86 ] String contains unsigned 8-bit characters (Default) |
| _SIDD_UNIT_MASK |
[ x86 ] Mask only: return the byte mask |
| _SIDD_UWORD_OPS |
[ x86 ] String contains unsigned 16-bit characters |
| _XCR_XFEATURE_ENABLED_MASK |
[ x86 ]
|
Functions
| _MM_GET_EXCEPTION_MASK⚠ |
[ x86 and ] sseSee |
| _MM_GET_EXCEPTION_STATE⚠ |
[ x86 and ] sseSee |
| _MM_GET_FLUSH_ZERO_MODE⚠ |
[ x86 and ] sseSee |
| _MM_GET_ROUNDING_MODE⚠ |
[ x86 and ] sseSee |
| _MM_SET_EXCEPTION_MASK⚠ |
[ x86 and ] sseSee |
| _MM_SET_EXCEPTION_STATE⚠ |
[ x86 and ] sseSee |
| _MM_SET_FLUSH_ZERO_MODE⚠ |
[ x86 and ] sseSee |
| _MM_SET_ROUNDING_MODE⚠ |
[ x86 and ] sseSee |
| _MM_TRANSPOSE4_PS⚠ |
[ x86 and ] sseTranspose the 4x4 matrix formed by 4 rows of __m128 in place. |
| __cpuid⚠ |
[ x86 ] See |
| __cpuid_count⚠ |
[ x86 ] Returns the result of the |
| __get_cpuid_max⚠ |
[ x86 ] Returns the highest-supported |
| __rdtscp⚠ |
[ x86 ] Reads the current value of the processor’s time-stamp counter and
the |
| _andn_u32⚠ |
[ x86 and ] bmi1Bitwise logical |
| _bextr2_u32⚠ |
[ x86 and ] bmi1Extracts bits of |
| _bextr_u32⚠ |
[ x86 and ] bmi1Extracts bits in range [ |
| _blcfill_u32⚠ |
[ x86 and ] tbmClears all bits below the least significant zero bit of |
| _blcfill_u64⚠ |
[ x86 and ] tbmClears all bits below the least significant zero bit of |
| _blci_u32⚠ |
[ x86 and ] tbmSets all bits of |
| _blci_u64⚠ |
[ x86 and ] tbmSets all bits of |
| _blcic_u32⚠ |
[ x86 and ] tbmSets the least significant zero bit of |
| _blcic_u64⚠ |
[ x86 and ] tbmSets the least significant zero bit of |
| _blcmsk_u32⚠ |
[ x86 and ] tbmSets the least significant zero bit of |
| _blcmsk_u64⚠ |
[ x86 and ] tbmSets the least significant zero bit of |
| _blcs_u32⚠ |
[ x86 and ] tbmSets the least significant zero bit of |
| _blcs_u64⚠ |
[ x86 and ] tbmSets the least significant zero bit of |
| _blsfill_u32⚠ |
[ x86 and ] tbmSets all bits of |
| _blsfill_u64⚠ |
[ x86 and ] tbmSets all bits of |
| _blsi_u32⚠ |
[ x86 and ] bmi1Extract lowest set isolated bit. |
| _blsic_u32⚠ |
[ x86 and ] tbmClears least significant bit and sets all other bits. |
| _blsic_u64⚠ |
[ x86 and ] tbmClears least significant bit and sets all other bits. |
| _blsmsk_u32⚠ |
[ x86 and ] bmi1Get mask up to lowest set bit. |
| _blsr_u32⚠ |
[ x86 and ] bmi1Resets the lowest set bit of |
| _bswap⚠ |
[ x86 ] Return an integer with the reversed byte order of x |
| _bzhi_u32⚠ |
[ x86 and ] bmi2Zero higher bits of |
| _fxrstor⚠ |
[ x86 and ] fxsrRestores the |
| _fxsave⚠ |
[ x86 and ] fxsrSaves the |
| _lzcnt_u32⚠ |
[ x86 and ] lzcntCounts the leading most significant zero bits. |
| _mm256_abs_epi8⚠ |
[ x86 and ] avx2Computes the absolute values of packed 8-bit integers in |
| _mm256_abs_epi16⚠ |
[ x86 and ] avx2Computes the absolute values of packed 16-bit integers in |
| _mm256_abs_epi32⚠ |
[ x86 and ] avx2Computes the absolute values of packed 32-bit integers in |
| _mm256_add_epi8⚠ |
[ x86 and ] avx2Add packed 8-bit integers in |
| _mm256_add_epi16⚠ |
[ x86 and ] avx2Add packed 16-bit integers in |
| _mm256_add_epi32⚠ |
[ x86 and ] avx2Add packed 32-bit integers in |
| _mm256_add_epi64⚠ |
[ x86 and ] avx2Add packed 64-bit integers in |
| _mm256_add_pd⚠ |
[ x86 and ] avxAdd packed double-precision (64-bit) floating-point elements
in |
| _mm256_add_ps⚠ |
[ x86 and ] avxAdd packed single-precision (32-bit) floating-point elements in |
| _mm256_adds_epi8⚠ |
[ x86 and ] avx2Add packed 8-bit integers in |
| _mm256_adds_epi16⚠ |
[ x86 and ] avx2Add packed 16-bit integers in |
| _mm256_adds_epu8⚠ |
[ x86 and ] avx2Add packed unsigned 8-bit integers in |
| _mm256_adds_epu16⚠ |
[ x86 and ] avx2Add packed unsigned 16-bit integers in |
| _mm256_addsub_pd⚠ |
[ x86 and ] avxAlternatively add and subtract packed double-precision (64-bit)
floating-point elements in |
| _mm256_addsub_ps⚠ |
[ x86 and ] avxAlternatively add and subtract packed single-precision (32-bit)
floating-point elements in |
| _mm256_alignr_epi8⚠ |
[ x86 and ] avx2Concatenate pairs of 16-byte blocks in |
| _mm256_and_pd⚠ |
[ x86 and ] avxCompute the bitwise AND of a packed double-precision (64-bit)
floating-point elements
in |
| _mm256_and_ps⚠ |
[ x86 and ] avxCompute the bitwise AND of packed single-precision (32-bit) floating-point
elements in |
| _mm256_and_si256⚠ |
[ x86 and ] avx2Compute the bitwise AND of 256 bits (representing integer data)
in |
| _mm256_andnot_pd⚠ |
[ x86 and ] avxCompute the bitwise NOT of packed double-precision (64-bit) floating-point
elements in |
| _mm256_andnot_ps⚠ |
[ x86 and ] avxCompute the bitwise NOT of packed single-precision (32-bit) floating-point
elements in |
| _mm256_andnot_si256⚠ |
[ x86 and ] avx2Compute the bitwise NOT of 256 bits (representing integer data)
in |
| _mm256_avg_epu8⚠ |
[ x86 and ] avx2Average packed unsigned 8-bit integers in |
| _mm256_avg_epu16⚠ |
[ x86 and ] avx2Average packed unsigned 16-bit integers in |
| _mm256_blend_epi16⚠ |
[ x86 and ] avx2Blend packed 16-bit integers from |
| _mm256_blend_epi32⚠ |
[ x86 and ] avx2Blend packed 32-bit integers from |
| _mm256_blend_pd⚠ |
[ x86 and ] avxBlend packed double-precision (64-bit) floating-point elements from
|
| _mm256_blend_ps⚠ |
[ x86 and ] avxBlend packed single-precision (32-bit) floating-point elements from
|
| _mm256_blendv_epi8⚠ |
[ x86 and ] avx2Blend packed 8-bit integers from |
| _mm256_blendv_pd⚠ |
[ x86 and ] avxBlend packed double-precision (64-bit) floating-point elements from
|
| _mm256_blendv_ps⚠ |
[ x86 and ] avxBlend packed single-precision (32-bit) floating-point elements from
|
| _mm256_broadcast_pd⚠ |
[ x86 and ] avxBroadcast 128 bits from memory (composed of 2 packed double-precision (64-bit) floating-point elements) to all elements of the returned vector. |
| _mm256_broadcast_ps⚠ |
[ x86 and ] avxBroadcast 128 bits from memory (composed of 4 packed single-precision (32-bit) floating-point elements) to all elements of the returned vector. |
| _mm256_broadcast_sd⚠ |
[ x86 and ] avxBroadcast a double-precision (64-bit) floating-point element from memory to all elements of the returned vector. |
| _mm256_broadcast_ss⚠ |
[ x86 and ] avxBroadcast a single-precision (32-bit) floating-point element from memory to all elements of the returned vector. |
| _mm256_broadcastb_epi8⚠ |
[ x86 and ] avx2Broadcast the low packed 8-bit integer from |
| _mm256_broadcastd_epi32⚠ |
[ x86 and ] avx2Broadcast the low packed 32-bit integer from |
| _mm256_broadcastq_epi64⚠ |
[ x86 and ] avx2Broadcast the low packed 64-bit integer from |
| _mm256_broadcastsd_pd⚠ |
[ x86 and ] avx2Broadcast the low double-precision (64-bit) floating-point element
from |
| _mm256_broadcastsi128_si256⚠ |
[ x86 and ] avx2Broadcast 128 bits of integer data from a to all 128-bit lanes in the 256-bit returned value. |
| _mm256_broadcastss_ps⚠ |
[ x86 and ] avx2Broadcast the low single-precision (32-bit) floating-point element
from |
| _mm256_broadcastw_epi16⚠ |
[ x86 and ] avx2Broadcast the low packed 16-bit integer from a to all elements of the 256-bit returned value |
| _mm256_bslli_epi128⚠ |
[ x86 and ] avx2Shift 128-bit lanes in |
| _mm256_bsrli_epi128⚠ |
[ x86 and ] avx2Shift 128-bit lanes in |
| _mm256_castpd128_pd256⚠ |
[ x86 and ] avxCasts vector of type __m128d to type __m256d; the upper 128 bits of the result are undefined. |
| _mm256_castpd256_pd128⚠ |
[ x86 and ] avxCasts vector of type __m256d to type __m128d. |
| _mm256_castpd_ps⚠ |
[ x86 and ] avxCast vector of type __m256d to type __m256. |
| _mm256_castpd_si256⚠ |
[ x86 and ] avxCasts vector of type __m256d to type __m256i. |
| _mm256_castps128_ps256⚠ |
[ x86 and ] avxCasts vector of type __m128 to type __m256; the upper 128 bits of the result are undefined. |
| _mm256_castps256_ps128⚠ |
[ x86 and ] avxCasts vector of type __m256 to type __m128. |
| _mm256_castps_pd⚠ |
[ x86 and ] avxCast vector of type __m256 to type __m256d. |
| _mm256_castps_si256⚠ |
[ x86 and ] avxCasts vector of type __m256 to type __m256i. |
| _mm256_castsi128_si256⚠ |
[ x86 and ] avxCasts vector of type __m128i to type __m256i; the upper 128 bits of the result are undefined. |
| _mm256_castsi256_pd⚠ |
[ x86 and ] avxCasts vector of type __m256i to type __m256d. |
| _mm256_castsi256_ps⚠ |
[ x86 and ] avxCasts vector of type __m256i to type __m256. |
| _mm256_castsi256_si128⚠ |
[ x86 and ] avxCasts vector of type __m256i to type __m128i. |
| _mm256_ceil_pd⚠ |
[ x86 and ] avxRound packed double-precision (64-bit) floating point elements in |
| _mm256_ceil_ps⚠ |
[ x86 and ] avxRound packed single-precision (32-bit) floating point elements in |
| _mm256_cmp_pd⚠ |
[ x86 and ] avxCompare packed double-precision (64-bit) floating-point
elements in |
| _mm256_cmp_ps⚠ |
[ x86 and ] avxCompare packed single-precision (32-bit) floating-point
elements in |
| _mm256_cmpeq_epi8⚠ |
[ x86 and ] avx2Compare packed 8-bit integers in |
| _mm256_cmpeq_epi16⚠ |
[ x86 and ] avx2Compare packed 16-bit integers in |
| _mm256_cmpeq_epi32⚠ |
[ x86 and ] avx2Compare packed 32-bit integers in |
| _mm256_cmpeq_epi64⚠ |
[ x86 and ] avx2Compare packed 64-bit integers in |
| _mm256_cmpgt_epi8⚠ |
[ x86 and ] avx2Compare packed 8-bit integers in |
| _mm256_cmpgt_epi16⚠ |
[ x86 and ] avx2Compare packed 16-bit integers in |
| _mm256_cmpgt_epi32⚠ |
[ x86 and ] avx2Compare packed 32-bit integers in |
| _mm256_cmpgt_epi64⚠ |
[ x86 and ] avx2Compare packed 64-bit integers in |
| _mm256_cvtepi16_epi32⚠ |
[ x86 and ] avx2Sign-extend 16-bit integers to 32-bit integers. |
| _mm256_cvtepi16_epi64⚠ |
[ x86 and ] avx2Sign-extend 16-bit integers to 64-bit integers. |
| _mm256_cvtepi32_epi64⚠ |
[ x86 and ] avx2Sign-extend 32-bit integers to 64-bit integers. |
| _mm256_cvtepi32_pd⚠ |
[ x86 and ] avxConvert packed 32-bit integers in |
| _mm256_cvtepi32_ps⚠ |
[ x86 and ] avxConvert packed 32-bit integers in |
| _mm256_cvtepi8_epi16⚠ |
[ x86 and ] avx2Sign-extend 8-bit integers to 16-bit integers. |
| _mm256_cvtepi8_epi32⚠ |
[ x86 and ] avx2Sign-extend 8-bit integers to 32-bit integers. |
| _mm256_cvtepi8_epi64⚠ |
[ x86 and ] avx2Sign-extend 8-bit integers to 64-bit integers. |
| _mm256_cvtepu16_epi32⚠ |
[ x86 and ] avx2Zero extend packed unsigned 16-bit integers in |
| _mm256_cvtepu16_epi64⚠ |
[ x86 and ] avx2Zero-extend the lower four unsigned 16-bit integers in |
| _mm256_cvtepu32_epi64⚠ |
[ x86 and ] avx2Zero-extend unsigned 32-bit integers in |
| _mm256_cvtepu8_epi16⚠ |
[ x86 and ] avx2Zero-extend unsigned 8-bit integers in |
| _mm256_cvtepu8_epi32⚠ |
[ x86 and ] avx2Zero-extend the lower eight unsigned 8-bit integers in |
| _mm256_cvtepu8_epi64⚠ |
[ x86 and ] avx2Zero-extend the lower four unsigned 8-bit integers in |
| _mm256_cvtpd_epi32⚠ |
[ x86 and ] avxConvert packed double-precision (64-bit) floating-point elements in |
| _mm256_cvtpd_ps⚠ |
[ x86 and ] avxConvert packed double-precision (64-bit) floating-point elements in |
| _mm256_cvtps_epi32⚠ |
[ x86 and ] avxConvert packed single-precision (32-bit) floating-point elements in |
| _mm256_cvtps_pd⚠ |
[ x86 and ] avxConvert packed single-precision (32-bit) floating-point elements in |
| _mm256_cvtsd_f64⚠ |
[ x86 and ] avx2Returns the first element of the input vector of |
| _mm256_cvtsi256_si32⚠ |
[ x86 and ] avx2Returns the first element of the input vector of |
| _mm256_cvtss_f32⚠ |
[ x86 and ] avxReturns the first element of the input vector of |
| _mm256_cvttpd_epi32⚠ |
[ x86 and ] avxConvert packed double-precision (64-bit) floating-point elements in |
| _mm256_cvttps_epi32⚠ |
[ x86 and ] avxConvert packed single-precision (32-bit) floating-point elements in |
| _mm256_div_pd⚠ |
[ x86 and ] avxCompute the division of each of the 4 packed 64-bit floating-point elements
in |
| _mm256_div_ps⚠ |
[ x86 and ] avxCompute the division of each of the 8 packed 32-bit floating-point elements
in |
| _mm256_dp_ps⚠ |
[ x86 and ] avxConditionally multiply the packed single-precision (32-bit) floating-point
elements in |
| _mm256_extract_epi8⚠ |
[ x86 and ] avx2Extract an 8-bit integer from |
| _mm256_extract_epi16⚠ |
[ x86 and ] avx2Extract a 16-bit integer from |
| _mm256_extract_epi32⚠ |
[ x86 and ] avx2Extract a 32-bit integer from |
| _mm256_extractf128_pd⚠ |
[ x86 and ] avxExtract 128 bits (composed of 2 packed double-precision (64-bit)
floating-point elements) from |
| _mm256_extractf128_ps⚠ |
[ x86 and ] avxExtract 128 bits (composed of 4 packed single-precision (32-bit)
floating-point elements) from |
| _mm256_extractf128_si256⚠ |
[ x86 and ] avxExtract 128 bits (composed of integer data) from |
| _mm256_extracti128_si256⚠ |
[ x86 and ] avx2Extract 128 bits (of integer data) from |
| _mm256_floor_pd⚠ |
[ x86 and ] avxRound packed double-precision (64-bit) floating point elements in |
| _mm256_floor_ps⚠ |
[ x86 and ] avxRound packed single-precision (32-bit) floating point elements in |
| _mm256_fmadd_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm256_fmadd_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm256_fmaddsub_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm256_fmaddsub_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm256_fmsub_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm256_fmsub_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm256_fmsubadd_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm256_fmsubadd_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm256_fnmadd_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm256_fnmadd_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm256_fnmsub_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm256_fnmsub_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm256_hadd_epi16⚠ |
[ x86 and ] avx2Horizontally add adjacent pairs of 16-bit integers in |
| _mm256_hadd_epi32⚠ |
[ x86 and ] avx2Horizontally add adjacent pairs of 32-bit integers in |
| _mm256_hadd_pd⚠ |
[ x86 and ] avxHorizontal addition of adjacent pairs in the two packed vectors
of 4 64-bit floating points |
| _mm256_hadd_ps⚠ |
[ x86 and ] avxHorizontal addition of adjacent pairs in the two packed vectors
of 8 32-bit floating points |
| _mm256_hadds_epi16⚠ |
[ x86 and ] avx2Horizontally add adjacent pairs of 16-bit integers in |
| _mm256_hsub_epi16⚠ |
[ x86 and ] avx2Horizontally subtract adjacent pairs of 16-bit integers in |
| _mm256_hsub_epi32⚠ |
[ x86 and ] avx2Horizontally subtract adjacent pairs of 32-bit integers in |
| _mm256_hsub_pd⚠ |
[ x86 and ] avxHorizontal subtraction of adjacent pairs in the two packed vectors
of 4 64-bit floating points |
| _mm256_hsub_ps⚠ |
[ x86 and ] avxHorizontal subtraction of adjacent pairs in the two packed vectors
of 8 32-bit floating points |
| _mm256_hsubs_epi16⚠ |
[ x86 and ] avx2Horizontally subtract adjacent pairs of 16-bit integers in |
| _mm256_i32gather_epi32⚠ |
[ x86 and ] avx2Return values from |
| _mm256_i32gather_epi64⚠ |
[ x86 and ] avx2Return values from |
| _mm256_i32gather_pd⚠ |
[ x86 and ] avx2Return values from |
| _mm256_i32gather_ps⚠ |
[ x86 and ] avx2Return values from |
| _mm256_i64gather_epi32⚠ |
[ x86 and ] avx2Return values from |
| _mm256_i64gather_epi64⚠ |
[ x86 and ] avx2Return values from |
| _mm256_i64gather_pd⚠ |
[ x86 and ] avx2Return values from |
| _mm256_i64gather_ps⚠ |
[ x86 and ] avx2Return values from |
| _mm256_insert_epi8⚠ |
[ x86 and ] avxCopy |
| _mm256_insert_epi16⚠ |
[ x86 and ] avxCopy |
| _mm256_insert_epi32⚠ |
[ x86 and ] avxCopy |
| _mm256_insertf128_pd⚠ |
[ x86 and ] avxCopy |
| _mm256_insertf128_ps⚠ |
[ x86 and ] avxCopy |
| _mm256_insertf128_si256⚠ |
[ x86 and ] avxCopy |
| _mm256_inserti128_si256⚠ |
[ x86 and ] avx2Copy |
| _mm256_lddqu_si256⚠ |
[ x86 and ] avxLoad 256-bits of integer data from unaligned memory into result.
This intrinsic may perform better than |
| _mm256_load_pd⚠ |
[ x86 and ] avxLoad 256-bits (composed of 4 packed double-precision (64-bit)
floating-point elements) from memory into result.
|
| _mm256_load_ps⚠ |
[ x86 and ] avxLoad 256-bits (composed of 8 packed single-precision (32-bit)
floating-point elements) from memory into result.
|
| _mm256_load_si256⚠ |
[ x86 and ] avxLoad 256-bits of integer data from memory into result.
|
| _mm256_loadu2_m128⚠ |
[ x86 and ] avx,sseLoad two 128-bit values (composed of 4 packed single-precision (32-bit)
floating-point elements) from memory, and combine them into a 256-bit
value.
|
| _mm256_loadu2_m128d⚠ |
[ x86 and ] avx,sse2Load two 128-bit values (composed of 2 packed double-precision (64-bit)
floating-point elements) from memory, and combine them into a 256-bit
value.
|
| _mm256_loadu2_m128i⚠ |
[ x86 and ] avx,sse2Load two 128-bit values (composed of integer data) from memory, and combine
them into a 256-bit value.
|
| _mm256_loadu_pd⚠ |
[ x86 and ] avxLoad 256-bits (composed of 4 packed double-precision (64-bit)
floating-point elements) from memory into result.
|
| _mm256_loadu_ps⚠ |
[ x86 and ] avxLoad 256-bits (composed of 8 packed single-precision (32-bit)
floating-point elements) from memory into result.
|
| _mm256_loadu_si256⚠ |
[ x86 and ] avxLoad 256-bits of integer data from memory into result.
|
| _mm256_madd_epi16⚠ |
[ x86 and ] avx2Multiply packed signed 16-bit integers in |
| _mm256_maddubs_epi16⚠ |
[ x86 and ] avx2Vertically multiply each unsigned 8-bit integer from |
| _mm256_mask_i32gather_epi32⚠ |
[ x86 and ] avx2Return values from |
| _mm256_mask_i32gather_epi64⚠ |
[ x86 and ] avx2Return values from |
| _mm256_mask_i32gather_pd⚠ |
[ x86 and ] avx2Return values from |
| _mm256_mask_i32gather_ps⚠ |
[ x86 and ] avx2Return values from |
| _mm256_mask_i64gather_epi32⚠ |
[ x86 and ] avx2Return values from |
| _mm256_mask_i64gather_epi64⚠ |
[ x86 and ] avx2Return values from |
| _mm256_mask_i64gather_pd⚠ |
[ x86 and ] avx2Return values from |
| _mm256_mask_i64gather_ps⚠ |
[ x86 and ] avx2Return values from |
| _mm256_maskload_epi32⚠ |
[ x86 and ] avx2Load packed 32-bit integers from memory pointed by |
| _mm256_maskload_epi64⚠ |
[ x86 and ] avx2Load packed 64-bit integers from memory pointed by |
| _mm256_maskload_pd⚠ |
[ x86 and ] avxLoad packed double-precision (64-bit) floating-point elements from memory
into result using |
| _mm256_maskload_ps⚠ |
[ x86 and ] avxLoad packed single-precision (32-bit) floating-point elements from memory
into result using |
| _mm256_maskstore_epi32⚠ |
[ x86 and ] avx2Store packed 32-bit integers from |
| _mm256_maskstore_epi64⚠ |
[ x86 and ] avx2Store packed 64-bit integers from |
| _mm256_maskstore_pd⚠ |
[ x86 and ] avxStore packed double-precision (64-bit) floating-point elements from |
| _mm256_maskstore_ps⚠ |
[ x86 and ] avxStore packed single-precision (32-bit) floating-point elements from |
| _mm256_max_epi8⚠ |
[ x86 and ] avx2Compare packed 8-bit integers in |
| _mm256_max_epi16⚠ |
[ x86 and ] avx2Compare packed 16-bit integers in |
| _mm256_max_epi32⚠ |
[ x86 and ] avx2Compare packed 32-bit integers in |
| _mm256_max_epu8⚠ |
[ x86 and ] avx2Compare packed unsigned 8-bit integers in |
| _mm256_max_epu16⚠ |
[ x86 and ] avx2Compare packed unsigned 16-bit integers in |
| _mm256_max_epu32⚠ |
[ x86 and ] avx2Compare packed unsigned 32-bit integers in |
| _mm256_max_pd⚠ |
[ x86 and ] avxCompare packed double-precision (64-bit) floating-point elements
in |
| _mm256_max_ps⚠ |
[ x86 and ] avxCompare packed single-precision (32-bit) floating-point elements in |
| _mm256_min_epi8⚠ |
[ x86 and ] avx2Compare packed 8-bit integers in |
| _mm256_min_epi16⚠ |
[ x86 and ] avx2Compare packed 16-bit integers in |
| _mm256_min_epi32⚠ |
[ x86 and ] avx2Compare packed 32-bit integers in |
| _mm256_min_epu8⚠ |
[ x86 and ] avx2Compare packed unsigned 8-bit integers in |
| _mm256_min_epu16⚠ |
[ x86 and ] avx2Compare packed unsigned 16-bit integers in |
| _mm256_min_epu32⚠ |
[ x86 and ] avx2Compare packed unsigned 32-bit integers in |
| _mm256_min_pd⚠ |
[ x86 and ] avxCompare packed double-precision (64-bit) floating-point elements
in |
| _mm256_min_ps⚠ |
[ x86 and ] avxCompare packed single-precision (32-bit) floating-point elements in |
| _mm256_movedup_pd⚠ |
[ x86 and ] avxDuplicate even-indexed double-precision (64-bit) floating-point elements from "a", and return the results. |
| _mm256_movehdup_ps⚠ |
[ x86 and ] avxDuplicate odd-indexed single-precision (32-bit) floating-point elements
from |
| _mm256_moveldup_ps⚠ |
[ x86 and ] avxDuplicate even-indexed single-precision (32-bit) floating-point elements
from |
| _mm256_movemask_epi8⚠ |
[ x86 and ] avx2Create mask from the most significant bit of each 8-bit element in |
| _mm256_movemask_pd⚠ |
[ x86 and ] avxSet each bit of the returned mask based on the most significant bit of the
corresponding packed double-precision (64-bit) floating-point element in
|
| _mm256_movemask_ps⚠ |
[ x86 and ] avxSet each bit of the returned mask based on the most significant bit of the
corresponding packed single-precision (32-bit) floating-point element in
|
| _mm256_mpsadbw_epu8⚠ |
[ x86 and ] avx2Compute the sum of absolute differences (SADs) of quadruplets of unsigned
8-bit integers in |
| _mm256_mul_epi32⚠ |
[ x86 and ] avx2Multiply the low 32-bit integers from each packed 64-bit element in
|
| _mm256_mul_epu32⚠ |
[ x86 and ] avx2Multiply the low unsigned 32-bit integers from each packed 64-bit
element in |
| _mm256_mul_pd⚠ |
[ x86 and ] avxAdd packed double-precision (64-bit) floating-point elements
in |
| _mm256_mul_ps⚠ |
[ x86 and ] avxAdd packed single-precision (32-bit) floating-point elements in |
| _mm256_mulhi_epi16⚠ |
[ x86 and ] avx2Multiply the packed 16-bit integers in |
| _mm256_mulhi_epu16⚠ |
[ x86 and ] avx2Multiply the packed unsigned 16-bit integers in |
| _mm256_mulhrs_epi16⚠ |
[ x86 and ] avx2Multiply packed 16-bit integers in |
| _mm256_mullo_epi16⚠ |
[ x86 and ] avx2Multiply the packed 16-bit integers in |
| _mm256_mullo_epi32⚠ |
[ x86 and ] avx2Multiply the packed 32-bit integers in |
| _mm256_or_pd⚠ |
[ x86 and ] avxCompute the bitwise OR packed double-precision (64-bit) floating-point
elements in |
| _mm256_or_ps⚠ |
[ x86 and ] avxCompute the bitwise OR packed single-precision (32-bit) floating-point
elements in |
| _mm256_or_si256⚠ |
[ x86 and ] avx2Compute the bitwise OR of 256 bits (representing integer data) in |
| _mm256_packs_epi16⚠ |
[ x86 and ] avx2Convert packed 16-bit integers from |
| _mm256_packs_epi32⚠ |
[ x86 and ] avx2Convert packed 32-bit integers from |
| _mm256_packus_epi16⚠ |
[ x86 and ] avx2Convert packed 16-bit integers from |
| _mm256_packus_epi32⚠ |
[ x86 and ] avx2Convert packed 32-bit integers from |
| _mm256_permute2f128_pd⚠ |
[ x86 and ] avxShuffle 256-bits (composed of 4 packed double-precision (64-bit)
floating-point elements) selected by |
| _mm256_permute2f128_ps⚠ |
[ x86 and ] avxShuffle 256-bits (composed of 8 packed single-precision (32-bit)
floating-point elements) selected by |
| _mm256_permute2f128_si256⚠ |
[ x86 and ] avxShuffle 258-bits (composed of integer data) selected by |
| _mm256_permute2x128_si256⚠ |
[ x86 and ] avx2Shuffle 128-bits of integer data selected by |
| _mm256_permute4x64_epi64⚠ |
[ x86 and ] avx2Permutes 64-bit integers from |
| _mm256_permute4x64_pd⚠ |
[ x86 and ] avx2Shuffle 64-bit floating-point elements in |
| _mm256_permute_pd⚠ |
[ x86 and ] avxShuffle double-precision (64-bit) floating-point elements in |
| _mm256_permute_ps⚠ |
[ x86 and ] avxShuffle single-precision (32-bit) floating-point elements in |
| _mm256_permutevar8x32_epi32⚠ |
[ x86 and ] avx2Permutes packed 32-bit integers from |
| _mm256_permutevar8x32_ps⚠ |
[ x86 and ] avx2Shuffle eight 32-bit foating-point elements in |
| _mm256_permutevar_pd⚠ |
[ x86 and ] avxShuffle double-precision (64-bit) floating-point elements in |
| _mm256_permutevar_ps⚠ |
[ x86 and ] avxShuffle single-precision (32-bit) floating-point elements in |
| _mm256_rcp_ps⚠ |
[ x86 and ] avxCompute the approximate reciprocal of packed single-precision (32-bit)
floating-point elements in |
| _mm256_round_pd⚠ |
[ x86 and ] avxRound packed double-precision (64-bit) floating point elements in |
| _mm256_round_ps⚠ |
[ x86 and ] avxRound packed single-precision (32-bit) floating point elements in |
| _mm256_rsqrt_ps⚠ |
[ x86 and ] avxCompute the approximate reciprocal square root of packed single-precision
(32-bit) floating-point elements in |
| _mm256_sad_epu8⚠ |
[ x86 and ] avx2Compute the absolute differences of packed unsigned 8-bit integers in |
| _mm256_set1_epi8⚠ |
[ x86 and ] avxBroadcast 8-bit integer |
| _mm256_set1_epi16⚠ |
[ x86 and ] avxBroadcast 16-bit integer |
| _mm256_set1_epi32⚠ |
[ x86 and ] avxBroadcast 32-bit integer |
| _mm256_set1_epi64x⚠ |
[ x86 and ] avxBroadcast 64-bit integer |
| _mm256_set1_pd⚠ |
[ x86 and ] avxBroadcast double-precision (64-bit) floating-point value |
| _mm256_set1_ps⚠ |
[ x86 and ] avxBroadcast single-precision (32-bit) floating-point value |
| _mm256_set_epi8⚠ |
[ x86 and ] avxSet packed 8-bit integers in returned vector with the supplied values in reverse order. |
| _mm256_set_epi16⚠ |
[ x86 and ] avxSet packed 16-bit integers in returned vector with the supplied values. |
| _mm256_set_epi32⚠ |
[ x86 and ] avxSet packed 32-bit integers in returned vector with the supplied values. |
| _mm256_set_epi64x⚠ |
[ x86 and ] avxSet packed 64-bit integers in returned vector with the supplied values. |
| _mm256_set_m128⚠ |
[ x86 and ] avxSet packed __m256 returned vector with the supplied values. |
| _mm256_set_m128d⚠ |
[ x86 and ] avxSet packed __m256d returned vector with the supplied values. |
| _mm256_set_m128i⚠ |
[ x86 and ] avxSet packed __m256i returned vector with the supplied values. |
| _mm256_set_pd⚠ |
[ x86 and ] avxSet packed double-precision (64-bit) floating-point elements in returned vector with the supplied values. |
| _mm256_set_ps⚠ |
[ x86 and ] avxSet packed single-precision (32-bit) floating-point elements in returned vector with the supplied values. |
| _mm256_setr_epi8⚠ |
[ x86 and ] avxSet packed 8-bit integers in returned vector with the supplied values in reverse order. |
| _mm256_setr_epi16⚠ |
[ x86 and ] avxSet packed 16-bit integers in returned vector with the supplied values in reverse order. |
| _mm256_setr_epi32⚠ |
[ x86 and ] avxSet packed 32-bit integers in returned vector with the supplied values in reverse order. |
| _mm256_setr_epi64x⚠ |
[ x86 and ] avxSet packed 64-bit integers in returned vector with the supplied values in reverse order. |
| _mm256_setr_m128⚠ |
[ x86 and ] avxSet packed __m256 returned vector with the supplied values. |
| _mm256_setr_m128d⚠ |
[ x86 and ] avxSet packed __m256d returned vector with the supplied values. |
| _mm256_setr_m128i⚠ |
[ x86 and ] avxSet packed __m256i returned vector with the supplied values. |
| _mm256_setr_pd⚠ |
[ x86 and ] avxSet packed double-precision (64-bit) floating-point elements in returned vector with the supplied values in reverse order. |
| _mm256_setr_ps⚠ |
[ x86 and ] avxSet packed single-precision (32-bit) floating-point elements in returned vector with the supplied values in reverse order. |
| _mm256_setzero_pd⚠ |
[ x86 and ] avxReturn vector of type __m256d with all elements set to zero. |
| _mm256_setzero_ps⚠ |
[ x86 and ] avxReturn vector of type __m256 with all elements set to zero. |
| _mm256_setzero_si256⚠ |
[ x86 and ] avxReturn vector of type __m256i with all elements set to zero. |
| _mm256_shuffle_epi8⚠ |
[ x86 and ] avx2Shuffle bytes from |
| _mm256_shuffle_epi32⚠ |
[ x86 and ] avx2Shuffle 32-bit integers in 128-bit lanes of |
| _mm256_shuffle_pd⚠ |
[ x86 and ] avxShuffle double-precision (64-bit) floating-point elements within 128-bit
lanes using the control in |
| _mm256_shuffle_ps⚠ |
[ x86 and ] avxShuffle single-precision (32-bit) floating-point elements in |
| _mm256_shufflehi_epi16⚠ |
[ x86 and ] avx2Shuffle 16-bit integers in the high 64 bits of 128-bit lanes of |
| _mm256_shufflelo_epi16⚠ |
[ x86 and ] avx2Shuffle 16-bit integers in the low 64 bits of 128-bit lanes of |
| _mm256_sign_epi8⚠ |
[ x86 and ] avx2Negate packed 8-bit integers in |
| _mm256_sign_epi16⚠ |
[ x86 and ] avx2Negate packed 16-bit integers in |
| _mm256_sign_epi32⚠ |
[ x86 and ] avx2Negate packed 32-bit integers in |
| _mm256_sll_epi16⚠ |
[ x86 and ] avx2Shift packed 16-bit integers in |
| _mm256_sll_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_sll_epi64⚠ |
[ x86 and ] avx2Shift packed 64-bit integers in |
| _mm256_slli_epi16⚠ |
[ x86 and ] avx2Shift packed 16-bit integers in |
| _mm256_slli_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_slli_epi64⚠ |
[ x86 and ] avx2Shift packed 64-bit integers in |
| _mm256_slli_si256⚠ |
[ x86 and ] avx2Shift 128-bit lanes in |
| _mm256_sllv_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_sllv_epi64⚠ |
[ x86 and ] avx2Shift packed 64-bit integers in |
| _mm256_sqrt_pd⚠ |
[ x86 and ] avxReturn the square root of packed double-precision (64-bit) floating point
elements in |
| _mm256_sqrt_ps⚠ |
[ x86 and ] avxReturn the square root of packed single-precision (32-bit) floating point
elements in |
| _mm256_sra_epi16⚠ |
[ x86 and ] avx2Shift packed 16-bit integers in |
| _mm256_sra_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_srai_epi16⚠ |
[ x86 and ] avx2Shift packed 16-bit integers in |
| _mm256_srai_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_srav_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_srl_epi16⚠ |
[ x86 and ] avx2Shift packed 16-bit integers in |
| _mm256_srl_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_srl_epi64⚠ |
[ x86 and ] avx2Shift packed 64-bit integers in |
| _mm256_srli_epi16⚠ |
[ x86 and ] avx2Shift packed 16-bit integers in |
| _mm256_srli_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_srli_epi64⚠ |
[ x86 and ] avx2Shift packed 64-bit integers in |
| _mm256_srli_si256⚠ |
[ x86 and ] avx2Shift 128-bit lanes in |
| _mm256_srlv_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm256_srlv_epi64⚠ |
[ x86 and ] avx2Shift packed 64-bit integers in |
| _mm256_store_pd⚠ |
[ x86 and ] avxStore 256-bits (composed of 4 packed double-precision (64-bit)
floating-point elements) from |
| _mm256_store_ps⚠ |
[ x86 and ] avxStore 256-bits (composed of 8 packed single-precision (32-bit)
floating-point elements) from |
| _mm256_store_si256⚠ |
[ x86 and ] avxStore 256-bits of integer data from |
| _mm256_storeu2_m128⚠ |
[ x86 and ] avx,sseStore the high and low 128-bit halves (each composed of 4 packed
single-precision (32-bit) floating-point elements) from |
| _mm256_storeu2_m128d⚠ |
[ x86 and ] avx,sse2Store the high and low 128-bit halves (each composed of 2 packed
double-precision (64-bit) floating-point elements) from |
| _mm256_storeu2_m128i⚠ |
[ x86 and ] avx,sse2Store the high and low 128-bit halves (each composed of integer data) from
|
| _mm256_storeu_pd⚠ |
[ x86 and ] avxStore 256-bits (composed of 4 packed double-precision (64-bit)
floating-point elements) from |
| _mm256_storeu_ps⚠ |
[ x86 and ] avxStore 256-bits (composed of 8 packed single-precision (32-bit)
floating-point elements) from |
| _mm256_storeu_si256⚠ |
[ x86 and ] avxStore 256-bits of integer data from |
| _mm256_stream_pd⚠ |
[ x86 and ] avxMoves double-precision values from a 256-bit vector of |
| _mm256_stream_ps⚠ |
[ x86 and ] avxMoves single-precision floating point values from a 256-bit vector
of |
| _mm256_stream_si256⚠ |
[ x86 and ] avxMoves integer data from a 256-bit integer vector to a 32-byte aligned memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon) |
| _mm256_sub_epi8⚠ |
[ x86 and ] avx2Subtract packed 8-bit integers in |
| _mm256_sub_epi16⚠ |
[ x86 and ] avx2Subtract packed 16-bit integers in |
| _mm256_sub_epi32⚠ |
[ x86 and ] avx2Subtract packed 32-bit integers in |
| _mm256_sub_epi64⚠ |
[ x86 and ] avx2Subtract packed 64-bit integers in |
| _mm256_sub_pd⚠ |
[ x86 and ] avxSubtract packed double-precision (64-bit) floating-point elements in |
| _mm256_sub_ps⚠ |
[ x86 and ] avxSubtract packed single-precision (32-bit) floating-point elements in |
| _mm256_subs_epi8⚠ |
[ x86 and ] avx2Subtract packed 8-bit integers in |
| _mm256_subs_epi16⚠ |
[ x86 and ] avx2Subtract packed 16-bit integers in |
| _mm256_subs_epu8⚠ |
[ x86 and ] avx2Subtract packed unsigned 8-bit integers in |
| _mm256_subs_epu16⚠ |
[ x86 and ] avx2Subtract packed unsigned 16-bit integers in |
| _mm256_testc_pd⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing double-precision (64-bit)
floating-point elements) in |
| _mm256_testc_ps⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing single-precision (32-bit)
floating-point elements) in |
| _mm256_testc_si256⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing integer data) in |
| _mm256_testnzc_pd⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing double-precision (64-bit)
floating-point elements) in |
| _mm256_testnzc_ps⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing single-precision (32-bit)
floating-point elements) in |
| _mm256_testnzc_si256⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing integer data) in |
| _mm256_testz_pd⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing double-precision (64-bit)
floating-point elements) in |
| _mm256_testz_ps⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing single-precision (32-bit)
floating-point elements) in |
| _mm256_testz_si256⚠ |
[ x86 and ] avxCompute the bitwise AND of 256 bits (representing integer data) in |
| _mm256_undefined_pd⚠ |
[ x86 and ] avxReturn vector of type |
| _mm256_undefined_ps⚠ |
[ x86 and ] avxReturn vector of type |
| _mm256_undefined_si256⚠ |
[ x86 and ] avxReturn vector of type __m256i with undefined elements. |
| _mm256_unpackhi_epi8⚠ |
[ x86 and ] avx2Unpack and interleave 8-bit integers from the high half of each
128-bit lane in |
| _mm256_unpackhi_epi16⚠ |
[ x86 and ] avx2Unpack and interleave 16-bit integers from the high half of each
128-bit lane of |
| _mm256_unpackhi_epi32⚠ |
[ x86 and ] avx2Unpack and interleave 32-bit integers from the high half of each
128-bit lane of |
| _mm256_unpackhi_epi64⚠ |
[ x86 and ] avx2Unpack and interleave 64-bit integers from the high half of each
128-bit lane of |
| _mm256_unpackhi_pd⚠ |
[ x86 and ] avxUnpack and interleave double-precision (64-bit) floating-point elements
from the high half of each 128-bit lane in |
| _mm256_unpackhi_ps⚠ |
[ x86 and ] avxUnpack and interleave single-precision (32-bit) floating-point elements
from the high half of each 128-bit lane in |
| _mm256_unpacklo_epi8⚠ |
[ x86 and ] avx2Unpack and interleave 8-bit integers from the low half of each
128-bit lane of |
| _mm256_unpacklo_epi16⚠ |
[ x86 and ] avx2Unpack and interleave 16-bit integers from the low half of each
128-bit lane of |
| _mm256_unpacklo_epi32⚠ |
[ x86 and ] avx2Unpack and interleave 32-bit integers from the low half of each
128-bit lane of |
| _mm256_unpacklo_epi64⚠ |
[ x86 and ] avx2Unpack and interleave 64-bit integers from the low half of each
128-bit lane of |
| _mm256_unpacklo_pd⚠ |
[ x86 and ] avxUnpack and interleave double-precision (64-bit) floating-point elements
from the low half of each 128-bit lane in |
| _mm256_unpacklo_ps⚠ |
[ x86 and ] avxUnpack and interleave single-precision (32-bit) floating-point elements
from the low half of each 128-bit lane in |
| _mm256_xor_pd⚠ |
[ x86 and ] avxCompute the bitwise XOR of packed double-precision (64-bit) floating-point
elements in |
| _mm256_xor_ps⚠ |
[ x86 and ] avxCompute the bitwise XOR of packed single-precision (32-bit) floating-point
elements in |
| _mm256_xor_si256⚠ |
[ x86 and ] avx2Compute the bitwise XOR of 256 bits (representing integer data)
in |
| _mm256_zeroall⚠ |
[ x86 and ] avxZero the contents of all XMM or YMM registers. |
| _mm256_zeroupper⚠ |
[ x86 and ] avxZero the upper 128 bits of all YMM registers; the lower 128-bits of the registers are unmodified. |
| _mm256_zextpd128_pd256⚠ |
[ x86 and ] avx,sse2Constructs a 256-bit floating-point vector of |
| _mm256_zextps128_ps256⚠ |
[ x86 and ] avx,sseConstructs a 256-bit floating-point vector of |
| _mm256_zextsi128_si256⚠ |
[ x86 and ] avx,sse2Constructs a 256-bit integer vector from a 128-bit integer vector. The lower 128 bits contain the value of the source vector. The upper 128 bits are set to zero. |
| _mm_abs_epi8⚠ |
[ x86 and ] ssse3Compute the absolute value of packed 8-bit signed integers in |
| _mm_abs_epi16⚠ |
[ x86 and ] ssse3Compute the absolute value of each of the packed 16-bit signed integers in
|
| _mm_abs_epi32⚠ |
[ x86 and ] ssse3Compute the absolute value of each of the packed 32-bit signed integers in
|
| _mm_add_epi8⚠ |
[ x86 and ] sse2Add packed 8-bit integers in |
| _mm_add_epi16⚠ |
[ x86 and ] sse2Add packed 16-bit integers in |
| _mm_add_epi32⚠ |
[ x86 and ] sse2Add packed 32-bit integers in |
| _mm_add_epi64⚠ |
[ x86 and ] sse2Add packed 64-bit integers in |
| _mm_add_pd⚠ |
[ x86 and ] sse2Add packed double-precision (64-bit) floating-point elements in |
| _mm_add_ps⚠ |
[ x86 and ] sseAdds __m128 vectors. |
| _mm_add_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_add_ss⚠ |
[ x86 and ] sseAdds the first component of |
| _mm_adds_epi8⚠ |
[ x86 and ] sse2Add packed 8-bit integers in |
| _mm_adds_epi16⚠ |
[ x86 and ] sse2Add packed 16-bit integers in |
| _mm_adds_epu8⚠ |
[ x86 and ] sse2Add packed unsigned 8-bit integers in |
| _mm_adds_epu16⚠ |
[ x86 and ] sse2Add packed unsigned 16-bit integers in |
| _mm_addsub_pd⚠ |
[ x86 and ] sse3Alternatively add and subtract packed double-precision (64-bit)
floating-point elements in |
| _mm_addsub_ps⚠ |
[ x86 and ] sse3Alternatively add and subtract packed single-precision (32-bit)
floating-point elements in |
| _mm_aesdec_si128⚠ |
[ x86 and ] aesPerform one round of an AES decryption flow on data (state) in |
| _mm_aesdeclast_si128⚠ |
[ x86 and ] aesPerform the last round of an AES decryption flow on data (state) in |
| _mm_aesenc_si128⚠ |
[ x86 and ] aesPerform one round of an AES encryption flow on data (state) in |
| _mm_aesenclast_si128⚠ |
[ x86 and ] aesPerform the last round of an AES encryption flow on data (state) in |
| _mm_aesimc_si128⚠ |
[ x86 and ] aesPerform the |
| _mm_aeskeygenassist_si128⚠ |
[ x86 and ] aesAssist in expanding the AES cipher key. |
| _mm_alignr_epi8⚠ |
[ x86 and ] ssse3Concatenate 16-byte blocks in |
| _mm_and_pd⚠ |
[ x86 and ] sse2Compute the bitwise AND of packed double-precision (64-bit) floating-point
elements in |
| _mm_and_ps⚠ |
[ x86 and ] sseBitwise AND of packed single-precision (32-bit) floating-point elements. |
| _mm_and_si128⚠ |
[ x86 and ] sse2Compute the bitwise AND of 128 bits (representing integer data) in |
| _mm_andnot_pd⚠ |
[ x86 and ] sse2Compute the bitwise NOT of |
| _mm_andnot_ps⚠ |
[ x86 and ] sseBitwise AND-NOT of packed single-precision (32-bit) floating-point elements. |
| _mm_andnot_si128⚠ |
[ x86 and ] sse2Compute the bitwise NOT of 128 bits (representing integer data) in |
| _mm_avg_epu8⚠ |
[ x86 and ] sse2Average packed unsigned 8-bit integers in |
| _mm_avg_epu16⚠ |
[ x86 and ] sse2Average packed unsigned 16-bit integers in |
| _mm_blend_epi16⚠ |
[ x86 and ] sse4.1Blend packed 16-bit integers from |
| _mm_blend_epi32⚠ |
[ x86 and ] avx2Blend packed 32-bit integers from |
| _mm_blend_pd⚠ |
[ x86 and ] sse4.1Blend packed double-precision (64-bit) floating-point elements from |
| _mm_blend_ps⚠ |
[ x86 and ] sse4.1Blend packed single-precision (32-bit) floating-point elements from |
| _mm_blendv_epi8⚠ |
[ x86 and ] sse4.1Blend packed 8-bit integers from |
| _mm_blendv_pd⚠ |
[ x86 and ] sse4.1Blend packed double-precision (64-bit) floating-point elements from |
| _mm_blendv_ps⚠ |
[ x86 and ] sse4.1Blend packed single-precision (32-bit) floating-point elements from |
| _mm_broadcast_ss⚠ |
[ x86 and ] avxBroadcast a single-precision (32-bit) floating-point element from memory to all elements of the returned vector. |
| _mm_broadcastb_epi8⚠ |
[ x86 and ] avx2Broadcast the low packed 8-bit integer from |
| _mm_broadcastd_epi32⚠ |
[ x86 and ] avx2Broadcast the low packed 32-bit integer from |
| _mm_broadcastq_epi64⚠ |
[ x86 and ] avx2Broadcast the low packed 64-bit integer from |
| _mm_broadcastsd_pd⚠ |
[ x86 and ] avx2Broadcast the low double-precision (64-bit) floating-point element
from |
| _mm_broadcastss_ps⚠ |
[ x86 and ] avx2Broadcast the low single-precision (32-bit) floating-point element
from |
| _mm_broadcastw_epi16⚠ |
[ x86 and ] avx2Broadcast the low packed 16-bit integer from a to all elements of the 128-bit returned value |
| _mm_bslli_si128⚠ |
[ x86 and ] sse2Shift |
| _mm_bsrli_si128⚠ |
[ x86 and ] sse2Shift |
| _mm_castpd_ps⚠ |
[ x86 and ] sse2Casts a 128-bit floating-point vector of |
| _mm_castpd_si128⚠ |
[ x86 and ] sse2Casts a 128-bit floating-point vector of |
| _mm_castps_pd⚠ |
[ x86 and ] sse2Casts a 128-bit floating-point vector of |
| _mm_castps_si128⚠ |
[ x86 and ] sse2Casts a 128-bit floating-point vector of |
| _mm_castsi128_pd⚠ |
[ x86 and ] sse2Casts a 128-bit integer vector into a 128-bit floating-point vector
of |
| _mm_castsi128_ps⚠ |
[ x86 and ] sse2Casts a 128-bit integer vector into a 128-bit floating-point vector
of |
| _mm_ceil_pd⚠ |
[ x86 and ] sse4.1Round the packed double-precision (64-bit) floating-point elements in |
| _mm_ceil_ps⚠ |
[ x86 and ] sse4.1Round the packed single-precision (32-bit) floating-point elements in |
| _mm_ceil_sd⚠ |
[ x86 and ] sse4.1Round the lower double-precision (64-bit) floating-point element in |
| _mm_ceil_ss⚠ |
[ x86 and ] sse4.1Round the lower single-precision (32-bit) floating-point element in |
| _mm_clflush⚠ |
[ x86 and ] sse2Invalidate and flush the cache line that contains |
| _mm_clmulepi64_si128⚠ |
[ x86 and ] pclmulqdqPerform a carry-less multiplication of two 64-bit polynomials over the finite field GF(2^k). |
| _mm_cmp_pd⚠ |
[ x86 and ] avx,sse2Compare packed double-precision (64-bit) floating-point
elements in |
| _mm_cmp_ps⚠ |
[ x86 and ] avx,sseCompare packed single-precision (32-bit) floating-point
elements in |
| _mm_cmp_sd⚠ |
[ x86 and ] avx,sse2Compare the lower double-precision (64-bit) floating-point element in
|
| _mm_cmp_ss⚠ |
[ x86 and ] avx,sseCompare the lower single-precision (32-bit) floating-point element in
|
| _mm_cmpeq_epi8⚠ |
[ x86 and ] sse2Compare packed 8-bit integers in |
| _mm_cmpeq_epi16⚠ |
[ x86 and ] sse2Compare packed 16-bit integers in |
| _mm_cmpeq_epi32⚠ |
[ x86 and ] sse2Compare packed 32-bit integers in |
| _mm_cmpeq_epi64⚠ |
[ x86 and ] sse4.1Compare packed 64-bit integers in |
| _mm_cmpeq_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpeq_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpeq_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpeq_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpestra⚠ |
[ x86 and ] sse4.2Compare packed strings in |
| _mm_cmpestrc⚠ |
[ x86 and ] sse4.2Compare packed strings in |
| _mm_cmpestri⚠ |
[ x86 and ] sse4.2Compare packed strings |
| _mm_cmpestrm⚠ |
[ x86 and ] sse4.2Compare packed strings in |
| _mm_cmpestro⚠ |
[ x86 and ] sse4.2Compare packed strings in |
| _mm_cmpestrs⚠ |
[ x86 and ] sse4.2Compare packed strings in |
| _mm_cmpestrz⚠ |
[ x86 and ] sse4.2Compare packed strings in |
| _mm_cmpge_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpge_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpge_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpge_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpgt_epi8⚠ |
[ x86 and ] sse2Compare packed 8-bit integers in |
| _mm_cmpgt_epi16⚠ |
[ x86 and ] sse2Compare packed 16-bit integers in |
| _mm_cmpgt_epi32⚠ |
[ x86 and ] sse2Compare packed 32-bit integers in |
| _mm_cmpgt_epi64⚠ |
[ x86 and ] sse4.2Compare packed 64-bit integers in |
| _mm_cmpgt_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpgt_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpgt_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpgt_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpistra⚠ |
[ x86 and ] sse4.2Compare packed strings with implicit lengths in |
| _mm_cmpistrc⚠ |
[ x86 and ] sse4.2Compare packed strings with implicit lengths in |
| _mm_cmpistri⚠ |
[ x86 and ] sse4.2Compare packed strings with implicit lengths in |
| _mm_cmpistrm⚠ |
[ x86 and ] sse4.2Compare packed strings with implicit lengths in |
| _mm_cmpistro⚠ |
[ x86 and ] sse4.2Compare packed strings with implicit lengths in |
| _mm_cmpistrs⚠ |
[ x86 and ] sse4.2Compare packed strings with implicit lengths in |
| _mm_cmpistrz⚠ |
[ x86 and ] sse4.2Compare packed strings with implicit lengths in |
| _mm_cmple_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmple_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmple_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmple_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmplt_epi8⚠ |
[ x86 and ] sse2Compare packed 8-bit integers in |
| _mm_cmplt_epi16⚠ |
[ x86 and ] sse2Compare packed 16-bit integers in |
| _mm_cmplt_epi32⚠ |
[ x86 and ] sse2Compare packed 32-bit integers in |
| _mm_cmplt_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmplt_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmplt_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmplt_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpneq_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpneq_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpneq_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpneq_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpnge_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpnge_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpnge_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpnge_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpngt_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpngt_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpngt_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpngt_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpnle_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpnle_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpnle_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpnle_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpnlt_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpnlt_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpnlt_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpnlt_ss⚠ |
[ x86 and ] sseCompare the lowest |
| _mm_cmpord_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpord_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpord_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpord_ss⚠ |
[ x86 and ] sseCheck if the lowest |
| _mm_cmpunord_pd⚠ |
[ x86 and ] sse2Compare corresponding elements in |
| _mm_cmpunord_ps⚠ |
[ x86 and ] sseCompare each of the four floats in |
| _mm_cmpunord_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_cmpunord_ss⚠ |
[ x86 and ] sseCheck if the lowest |
| _mm_comieq_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_comieq_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_comige_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_comige_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_comigt_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_comigt_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_comile_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_comile_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_comilt_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_comilt_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_comineq_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_comineq_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_crc32_u8⚠ |
[ x86 and ] sse4.2Starting with the initial value in |
| _mm_crc32_u16⚠ |
[ x86 and ] sse4.2Starting with the initial value in |
| _mm_crc32_u32⚠ |
[ x86 and ] sse4.2Starting with the initial value in |
| _mm_cvt_si2ss⚠ |
[ x86 and ] sseAlias for |
| _mm_cvt_ss2si⚠ |
[ x86 and ] sseAlias for |
| _mm_cvtepi16_epi32⚠ |
[ x86 and ] sse4.1Sign extend packed 16-bit integers in |
| _mm_cvtepi16_epi64⚠ |
[ x86 and ] sse4.1Sign extend packed 16-bit integers in |
| _mm_cvtepi32_epi64⚠ |
[ x86 and ] sse4.1Sign extend packed 32-bit integers in |
| _mm_cvtepi32_pd⚠ |
[ x86 and ] sse2Convert the lower two packed 32-bit integers in |
| _mm_cvtepi32_ps⚠ |
[ x86 and ] sse2Convert packed 32-bit integers in |
| _mm_cvtepi8_epi16⚠ |
[ x86 and ] sse4.1Sign extend packed 8-bit integers in |
| _mm_cvtepi8_epi32⚠ |
[ x86 and ] sse4.1Sign extend packed 8-bit integers in |
| _mm_cvtepi8_epi64⚠ |
[ x86 and ] sse4.1Sign extend packed 8-bit integers in the low 8 bytes of |
| _mm_cvtepu16_epi32⚠ |
[ x86 and ] sse4.1Zero extend packed unsigned 16-bit integers in |
| _mm_cvtepu16_epi64⚠ |
[ x86 and ] sse4.1Zero extend packed unsigned 16-bit integers in |
| _mm_cvtepu32_epi64⚠ |
[ x86 and ] sse4.1Zero extend packed unsigned 32-bit integers in |
| _mm_cvtepu8_epi16⚠ |
[ x86 and ] sse4.1Zero extend packed unsigned 8-bit integers in |
| _mm_cvtepu8_epi32⚠ |
[ x86 and ] sse4.1Zero extend packed unsigned 8-bit integers in |
| _mm_cvtepu8_epi64⚠ |
[ x86 and ] sse4.1Zero extend packed unsigned 8-bit integers in |
| _mm_cvtpd_epi32⚠ |
[ x86 and ] sse2Convert packed double-precision (64-bit) floating-point elements in |
| _mm_cvtpd_ps⚠ |
[ x86 and ] sse2Convert packed double-precision (64-bit) floating-point elements in "a" to packed single-precision (32-bit) floating-point elements |
| _mm_cvtps_epi32⚠ |
[ x86 and ] sse2Convert packed single-precision (32-bit) floating-point elements in |
| _mm_cvtps_pd⚠ |
[ x86 and ] sse2Convert packed single-precision (32-bit) floating-point elements in |
| _mm_cvtsd_f64⚠ |
[ x86 and ] sse2Return the lower double-precision (64-bit) floating-point element of "a". |
| _mm_cvtsd_si32⚠ |
[ x86 and ] sse2Convert the lower double-precision (64-bit) floating-point element in a to a 32-bit integer. |
| _mm_cvtsd_ss⚠ |
[ x86 and ] sse2Convert the lower double-precision (64-bit) floating-point element in |
| _mm_cvtsi128_si32⚠ |
[ x86 and ] sse2Return the lowest element of |
| _mm_cvtsi32_sd⚠ |
[ x86 and ] sse2Return |
| _mm_cvtsi32_si128⚠ |
[ x86 and ] sse2Return a vector whose lowest element is |
| _mm_cvtsi32_ss⚠ |
[ x86 and ] sseConvert a 32 bit integer to a 32 bit float. The result vector is the input
vector |
| _mm_cvtss_f32⚠ |
[ x86 and ] sseExtract the lowest 32 bit float from the input vector. |
| _mm_cvtss_sd⚠ |
[ x86 and ] sse2Convert the lower single-precision (32-bit) floating-point element in |
| _mm_cvtss_si32⚠ |
[ x86 and ] sseConvert the lowest 32 bit float in the input vector to a 32 bit integer. |
| _mm_cvtt_ss2si⚠ |
[ x86 and ] sseAlias for |
| _mm_cvttpd_epi32⚠ |
[ x86 and ] sse2Convert packed double-precision (64-bit) floating-point elements in |
| _mm_cvttps_epi32⚠ |
[ x86 and ] sse2Convert packed single-precision (32-bit) floating-point elements in |
| _mm_cvttsd_si32⚠ |
[ x86 and ] sse2Convert the lower double-precision (64-bit) floating-point element in |
| _mm_cvttss_si32⚠ |
[ x86 and ] sseConvert the lowest 32 bit float in the input vector to a 32 bit integer with truncation. |
| _mm_div_pd⚠ |
[ x86 and ] sse2Divide packed double-precision (64-bit) floating-point elements in |
| _mm_div_ps⚠ |
[ x86 and ] sseDivides __m128 vectors. |
| _mm_div_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_div_ss⚠ |
[ x86 and ] sseDivides the first component of |
| _mm_dp_pd⚠ |
[ x86 and ] sse4.1Returns the dot product of two __m128d vectors. |
| _mm_dp_ps⚠ |
[ x86 and ] sse4.1Returns the dot product of two __m128 vectors. |
| _mm_extract_epi8⚠ |
[ x86 and ] sse4.1Extract an 8-bit integer from |
| _mm_extract_epi16⚠ |
[ x86 and ] sse2Return the |
| _mm_extract_epi32⚠ |
[ x86 and ] sse4.1Extract an 32-bit integer from |
| _mm_extract_ps⚠ |
[ x86 and ] sse4.1Extract a single-precision (32-bit) floating-point element from |
| _mm_extract_si64⚠ |
[ x86 and ] sse4aExtracts the bit range specified by |
| _mm_floor_pd⚠ |
[ x86 and ] sse4.1Round the packed double-precision (64-bit) floating-point elements in |
| _mm_floor_ps⚠ |
[ x86 and ] sse4.1Round the packed single-precision (32-bit) floating-point elements in |
| _mm_floor_sd⚠ |
[ x86 and ] sse4.1Round the lower double-precision (64-bit) floating-point element in |
| _mm_floor_ss⚠ |
[ x86 and ] sse4.1Round the lower single-precision (32-bit) floating-point element in |
| _mm_fmadd_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm_fmadd_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm_fmadd_sd⚠ |
[ x86 and ] fmaMultiply the lower double-precision (64-bit) floating-point elements in
|
| _mm_fmadd_ss⚠ |
[ x86 and ] fmaMultiply the lower single-precision (32-bit) floating-point elements in
|
| _mm_fmaddsub_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm_fmaddsub_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm_fmsub_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm_fmsub_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm_fmsub_sd⚠ |
[ x86 and ] fmaMultiply the lower double-precision (64-bit) floating-point elements in
|
| _mm_fmsub_ss⚠ |
[ x86 and ] fmaMultiply the lower single-precision (32-bit) floating-point elements in
|
| _mm_fmsubadd_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm_fmsubadd_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm_fnmadd_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm_fnmadd_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm_fnmadd_sd⚠ |
[ x86 and ] fmaMultiply the lower double-precision (64-bit) floating-point elements in
|
| _mm_fnmadd_ss⚠ |
[ x86 and ] fmaMultiply the lower single-precision (32-bit) floating-point elements in
|
| _mm_fnmsub_pd⚠ |
[ x86 and ] fmaMultiply packed double-precision (64-bit) floating-point elements in |
| _mm_fnmsub_ps⚠ |
[ x86 and ] fmaMultiply packed single-precision (32-bit) floating-point elements in |
| _mm_fnmsub_sd⚠ |
[ x86 and ] fmaMultiply the lower double-precision (64-bit) floating-point elements in
|
| _mm_fnmsub_ss⚠ |
[ x86 and ] fmaMultiply the lower single-precision (32-bit) floating-point elements in
|
| _mm_getcsr⚠ |
[ x86 and ] sseGet the unsigned 32-bit value of the MXCSR control and status register. |
| _mm_hadd_epi16⚠ |
[ x86 and ] ssse3Horizontally add the adjacent pairs of values contained in 2 packed
128-bit vectors of |
| _mm_hadd_epi32⚠ |
[ x86 and ] ssse3Horizontally add the adjacent pairs of values contained in 2 packed
128-bit vectors of |
| _mm_hadd_pd⚠ |
[ x86 and ] sse3Horizontally add adjacent pairs of double-precision (64-bit)
floating-point elements in |
| _mm_hadd_ps⚠ |
[ x86 and ] sse3Horizontally add adjacent pairs of single-precision (32-bit)
floating-point elements in |
| _mm_hadds_epi16⚠ |
[ x86 and ] ssse3Horizontally add the adjacent pairs of values contained in 2 packed
128-bit vectors of |
| _mm_hsub_epi16⚠ |
[ x86 and ] ssse3Horizontally subtract the adjacent pairs of values contained in 2
packed 128-bit vectors of |
| _mm_hsub_epi32⚠ |
[ x86 and ] ssse3Horizontally subtract the adjacent pairs of values contained in 2
packed 128-bit vectors of |
| _mm_hsub_pd⚠ |
[ x86 and ] sse3Horizontally subtract adjacent pairs of double-precision (64-bit)
floating-point elements in |
| _mm_hsub_ps⚠ |
[ x86 and ] sse3Horizontally add adjacent pairs of single-precision (32-bit)
floating-point elements in |
| _mm_hsubs_epi16⚠ |
[ x86 and ] ssse3Horizontally subtract the adjacent pairs of values contained in 2
packed 128-bit vectors of |
| _mm_i32gather_epi32⚠ |
[ x86 and ] avx2Return values from |
| _mm_i32gather_epi64⚠ |
[ x86 and ] avx2Return values from |
| _mm_i32gather_pd⚠ |
[ x86 and ] avx2Return values from |
| _mm_i32gather_ps⚠ |
[ x86 and ] avx2Return values from |
| _mm_i64gather_epi32⚠ |
[ x86 and ] avx2Return values from |
| _mm_i64gather_epi64⚠ |
[ x86 and ] avx2Return values from |
| _mm_i64gather_pd⚠ |
[ x86 and ] avx2Return values from |
| _mm_i64gather_ps⚠ |
[ x86 and ] avx2Return values from |
| _mm_insert_epi8⚠ |
[ x86 and ] sse4.1Return a copy of |
| _mm_insert_epi16⚠ |
[ x86 and ] sse2Return a new vector where the |
| _mm_insert_epi32⚠ |
[ x86 and ] sse4.1Return a copy of |
| _mm_insert_ps⚠ |
[ x86 and ] sse4.1Select a single value in |
| _mm_insert_si64⚠ |
[ x86 and ] sse4aInserts the |
| _mm_lddqu_si128⚠ |
[ x86 and ] sse3Load 128-bits of integer data from unaligned memory.
This intrinsic may perform better than |
| _mm_lfence⚠ |
[ x86 and ] sse2Perform a serializing operation on all load-from-memory instructions that were issued prior to this instruction. |
| _mm_load1_pd⚠ |
[ x86 and ] sse2Load a double-precision (64-bit) floating-point element from memory into both elements of returned vector. |
| _mm_load1_ps⚠ |
[ x86 and ] sseConstruct a |
| _mm_load_pd⚠ |
[ x86 and ] sse2Load 128-bits (composed of 2 packed double-precision (64-bit)
floating-point elements) from memory into the returned vector.
|
| _mm_load_pd1⚠ |
[ x86 and ] sse2Load a double-precision (64-bit) floating-point element from memory into both elements of returned vector. |
| _mm_load_ps⚠ |
[ x86 and ] sseLoad four |
| _mm_load_ps1⚠ |
[ x86 and ] sseAlias for |
| _mm_load_sd⚠ |
[ x86 and ] sse2Loads a 64-bit double-precision value to the low element of a 128-bit integer vector and clears the upper element. |
| _mm_load_si128⚠ |
[ x86 and ] sse2Load 128-bits of integer data from memory into a new vector. |
| _mm_load_ss⚠ |
[ x86 and ] sseConstruct a |
| _mm_loaddup_pd⚠ |
[ x86 and ] sse3Load a double-precision (64-bit) floating-point element from memory into both elements of return vector. |
| _mm_loadh_pd⚠ |
[ x86 and ] sse2Loads a double-precision value into the high-order bits of a 128-bit
vector of |
| _mm_loadl_epi64⚠ |
[ x86 and ] sse2Load 64-bit integer from memory into first element of returned vector. |
| _mm_loadl_pd⚠ |
[ x86 and ] sse2Loads a double-precision value into the low-order bits of a 128-bit
vector of |
| _mm_loadr_pd⚠ |
[ x86 and ] sse2Load 2 double-precision (64-bit) floating-point elements from memory into
the returned vector in reverse order. |
| _mm_loadr_ps⚠ |
[ x86 and ] sseLoad four |
| _mm_loadu_pd⚠ |
[ x86 and ] sse2Load 128-bits (composed of 2 packed double-precision (64-bit)
floating-point elements) from memory into the returned vector.
|
| _mm_loadu_ps⚠ |
[ x86 and ] sseLoad four |
| _mm_loadu_si128⚠ |
[ x86 and ] sse2Load 128-bits of integer data from memory into a new vector. |
| _mm_madd_epi16⚠ |
[ x86 and ] sse2Multiply and then horizontally add signed 16 bit integers in |
| _mm_maddubs_epi16⚠ |
[ x86 and ] ssse3Multiply corresponding pairs of packed 8-bit unsigned integer values contained in the first source operand and packed 8-bit signed integer values contained in the second source operand, add pairs of contiguous products with signed saturation, and writes the 16-bit sums to the corresponding bits in the destination. |
| _mm_mask_i32gather_epi32⚠ |
[ x86 and ] avx2Return values from |
| _mm_mask_i32gather_epi64⚠ |
[ x86 and ] avx2Return values from |
| _mm_mask_i32gather_pd⚠ |
[ x86 and ] avx2Return values from |
| _mm_mask_i32gather_ps⚠ |
[ x86 and ] avx2Return values from |
| _mm_mask_i64gather_epi32⚠ |
[ x86 and ] avx2Return values from |
| _mm_mask_i64gather_epi64⚠ |
[ x86 and ] avx2Return values from |
| _mm_mask_i64gather_pd⚠ |
[ x86 and ] avx2Return values from |
| _mm_mask_i64gather_ps⚠ |
[ x86 and ] avx2Return values from |
| _mm_maskload_epi32⚠ |
[ x86 and ] avx2Load packed 32-bit integers from memory pointed by |
| _mm_maskload_epi64⚠ |
[ x86 and ] avx2Load packed 64-bit integers from memory pointed by |
| _mm_maskload_pd⚠ |
[ x86 and ] avxLoad packed double-precision (64-bit) floating-point elements from memory
into result using |
| _mm_maskload_ps⚠ |
[ x86 and ] avxLoad packed single-precision (32-bit) floating-point elements from memory
into result using |
| _mm_maskmoveu_si128⚠ |
[ x86 and ] sse2Conditionally store 8-bit integer elements from |
| _mm_maskstore_epi32⚠ |
[ x86 and ] avx2Store packed 32-bit integers from |
| _mm_maskstore_epi64⚠ |
[ x86 and ] avx2Store packed 64-bit integers from |
| _mm_maskstore_pd⚠ |
[ x86 and ] avxStore packed double-precision (64-bit) floating-point elements from |
| _mm_maskstore_ps⚠ |
[ x86 and ] avxStore packed single-precision (32-bit) floating-point elements from |
| _mm_max_epi8⚠ |
[ x86 and ] sse4.1Compare packed 8-bit integers in |
| _mm_max_epi16⚠ |
[ x86 and ] sse2Compare packed 16-bit integers in |
| _mm_max_epi32⚠ |
[ x86 and ] sse4.1Compare packed 32-bit integers in |
| _mm_max_epu8⚠ |
[ x86 and ] sse2Compare packed unsigned 8-bit integers in |
| _mm_max_epu16⚠ |
[ x86 and ] sse4.1Compare packed unsigned 16-bit integers in |
| _mm_max_epu32⚠ |
[ x86 and ] sse4.1Compare packed unsigned 32-bit integers in |
| _mm_max_pd⚠ |
[ x86 and ] sse2Return a new vector with the maximum values from corresponding elements in
|
| _mm_max_ps⚠ |
[ x86 and ] sseCompare packed single-precision (32-bit) floating-point elements in |
| _mm_max_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_max_ss⚠ |
[ x86 and ] sseCompare the first single-precision (32-bit) floating-point element of |
| _mm_mfence⚠ |
[ x86 and ] sse2Perform a serializing operation on all load-from-memory and store-to-memory instructions that were issued prior to this instruction. |
| _mm_min_epi8⚠ |
[ x86 and ] sse4.1Compare packed 8-bit integers in |
| _mm_min_epi16⚠ |
[ x86 and ] sse2Compare packed 16-bit integers in |
| _mm_min_epi32⚠ |
[ x86 and ] sse4.1Compare packed 32-bit integers in |
| _mm_min_epu8⚠ |
[ x86 and ] sse2Compare packed unsigned 8-bit integers in |
| _mm_min_epu16⚠ |
[ x86 and ] sse4.1Compare packed unsigned 16-bit integers in |
| _mm_min_epu32⚠ |
[ x86 and ] sse4.1Compare packed unsigned 32-bit integers in |
| _mm_min_pd⚠ |
[ x86 and ] sse2Return a new vector with the minimum values from corresponding elements in
|
| _mm_min_ps⚠ |
[ x86 and ] sseCompare packed single-precision (32-bit) floating-point elements in |
| _mm_min_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_min_ss⚠ |
[ x86 and ] sseCompare the first single-precision (32-bit) floating-point element of |
| _mm_minpos_epu16⚠ |
[ x86 and ] sse4.1Finds the minimum unsigned 16-bit element in the 128-bit __m128i vector, returning a vector containing its value in its first position, and its index in its second position; all other elements are set to zero. |
| _mm_move_epi64⚠ |
[ x86 and ] sse2Return a vector where the low element is extracted from |
| _mm_move_sd⚠ |
[ x86 and ] sse2Constructs a 128-bit floating-point vector of |
| _mm_move_ss⚠ |
[ x86 and ] sseReturn a |
| _mm_movedup_pd⚠ |
[ x86 and ] sse3Duplicate the low double-precision (64-bit) floating-point element
from |
| _mm_movehdup_ps⚠ |
[ x86 and ] sse3Duplicate odd-indexed single-precision (32-bit) floating-point elements
from |
| _mm_movehl_ps⚠ |
[ x86 and ] sseCombine higher half of |
| _mm_moveldup_ps⚠ |
[ x86 and ] sse3Duplicate even-indexed single-precision (32-bit) floating-point elements
from |
| _mm_movelh_ps⚠ |
[ x86 and ] sseCombine lower half of |
| _mm_movemask_epi8⚠ |
[ x86 and ] sse2Return a mask of the most significant bit of each element in |
| _mm_movemask_pd⚠ |
[ x86 and ] sse2Return a mask of the most significant bit of each element in |
| _mm_movemask_ps⚠ |
[ x86 and ] sseReturn a mask of the most significant bit of each element in |
| _mm_mpsadbw_epu8⚠ |
[ x86 and ] sse4.1Subtracts 8-bit unsigned integer values and computes the absolute values of the differences to the corresponding bits in the destination. Then sums of the absolute differences are returned according to the bit fields in the immediate operand. |
| _mm_mul_epi32⚠ |
[ x86 and ] sse4.1Multiply the low 32-bit integers from each packed 64-bit
element in |
| _mm_mul_epu32⚠ |
[ x86 and ] sse2Multiply the low unsigned 32-bit integers from each packed 64-bit element
in |
| _mm_mul_pd⚠ |
[ x86 and ] sse2Multiply packed double-precision (64-bit) floating-point elements in |
| _mm_mul_ps⚠ |
[ x86 and ] sseMultiplies __m128 vectors. |
| _mm_mul_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_mul_ss⚠ |
[ x86 and ] sseMultiplies the first component of |
| _mm_mulhi_epi16⚠ |
[ x86 and ] sse2Multiply the packed 16-bit integers in |
| _mm_mulhi_epu16⚠ |
[ x86 and ] sse2Multiply the packed unsigned 16-bit integers in |
| _mm_mulhrs_epi16⚠ |
[ x86 and ] ssse3Multiply packed 16-bit signed integer values, truncate the 32-bit
product to the 18 most significant bits by right-shifting, round the
truncated value by adding 1, and write bits |
| _mm_mullo_epi16⚠ |
[ x86 and ] sse2Multiply the packed 16-bit integers in |
| _mm_mullo_epi32⚠ |
[ x86 and ] sse4.1Multiply the packed 32-bit integers in |
| _mm_or_pd⚠ |
[ x86 and ] sse2Compute the bitwise OR of |
| _mm_or_ps⚠ |
[ x86 and ] sseBitwise OR of packed single-precision (32-bit) floating-point elements. |
| _mm_or_si128⚠ |
[ x86 and ] sse2Compute the bitwise OR of 128 bits (representing integer data) in |
| _mm_packs_epi16⚠ |
[ x86 and ] sse2Convert packed 16-bit integers from |
| _mm_packs_epi32⚠ |
[ x86 and ] sse2Convert packed 32-bit integers from |
| _mm_packus_epi16⚠ |
[ x86 and ] sse2Convert packed 16-bit integers from |
| _mm_packus_epi32⚠ |
[ x86 and ] sse4.1Convert packed 32-bit integers from |
| _mm_pause⚠ |
[ x86 and ] sse2Provide a hint to the processor that the code sequence is a spin-wait loop. |
| _mm_permute_pd⚠ |
[ x86 and ] avx,sse2Shuffle double-precision (64-bit) floating-point elements in |
| _mm_permute_ps⚠ |
[ x86 and ] avx,sseShuffle single-precision (32-bit) floating-point elements in |
| _mm_permutevar_pd⚠ |
[ x86 and ] avxShuffle double-precision (64-bit) floating-point elements in |
| _mm_permutevar_ps⚠ |
[ x86 and ] avxShuffle single-precision (32-bit) floating-point elements in |
| _mm_prefetch⚠ |
[ x86 and ] sseFetch the cache line that contains address |
| _mm_rcp_ps⚠ |
[ x86 and ] sseReturn the approximate reciprocal of packed single-precision (32-bit)
floating-point elements in |
| _mm_rcp_ss⚠ |
[ x86 and ] sseReturn the approximate reciprocal of the first single-precision
(32-bit) floating-point element in |
| _mm_round_pd⚠ |
[ x86 and ] sse4.1Round the packed double-precision (64-bit) floating-point elements in |
| _mm_round_ps⚠ |
[ x86 and ] sse4.1Round the packed single-precision (32-bit) floating-point elements in |
| _mm_round_sd⚠ |
[ x86 and ] sse4.1Round the lower double-precision (64-bit) floating-point element in |
| _mm_round_ss⚠ |
[ x86 and ] sse4.1Round the lower single-precision (32-bit) floating-point element in |
| _mm_rsqrt_ps⚠ |
[ x86 and ] sseReturn the approximate reciprocal square root of packed single-precision
(32-bit) floating-point elements in |
| _mm_rsqrt_ss⚠ |
[ x86 and ] sseReturn the approximate reciprocal square root of the fist single-precision
(32-bit) floating-point elements in |
| _mm_sad_epu8⚠ |
[ x86 and ] sse2Sum the absolute differences of packed unsigned 8-bit integers. |
| _mm_set1_epi8⚠ |
[ x86 and ] sse2Broadcast 8-bit integer |
| _mm_set1_epi16⚠ |
[ x86 and ] sse2Broadcast 16-bit integer |
| _mm_set1_epi32⚠ |
[ x86 and ] sse2Broadcast 32-bit integer |
| _mm_set1_epi64x⚠ |
[ x86 and ] sse2Broadcast 64-bit integer |
| _mm_set1_pd⚠ |
[ x86 and ] sse2Broadcast double-precision (64-bit) floating-point value a to all elements of the return value. |
| _mm_set1_ps⚠ |
[ x86 and ] sseConstruct a |
| _mm_set_epi8⚠ |
[ x86 and ] sse2Set packed 8-bit integers with the supplied values. |
| _mm_set_epi16⚠ |
[ x86 and ] sse2Set packed 16-bit integers with the supplied values. |
| _mm_set_epi32⚠ |
[ x86 and ] sse2Set packed 32-bit integers with the supplied values. |
| _mm_set_epi64x⚠ |
[ x86 and ] sse2Set packed 64-bit integers with the supplied values, from highest to lowest. |
| _mm_set_pd⚠ |
[ x86 and ] sse2Set packed double-precision (64-bit) floating-point elements in the return value with the supplied values. |
| _mm_set_pd1⚠ |
[ x86 and ] sse2Broadcast double-precision (64-bit) floating-point value a to all elements of the return value. |
| _mm_set_ps⚠ |
[ x86 and ] sseConstruct a |
| _mm_set_ps1⚠ |
[ x86 and ] sseAlias for |
| _mm_set_sd⚠ |
[ x86 and ] sse2Copy double-precision (64-bit) floating-point element |
| _mm_set_ss⚠ |
[ x86 and ] sseConstruct a |
| _mm_setcsr⚠ |
[ x86 and ] sseSet the MXCSR register with the 32-bit unsigned integer value. |
| _mm_setr_epi8⚠ |
[ x86 and ] sse2Set packed 8-bit integers with the supplied values in reverse order. |
| _mm_setr_epi16⚠ |
[ x86 and ] sse2Set packed 16-bit integers with the supplied values in reverse order. |
| _mm_setr_epi32⚠ |
[ x86 and ] sse2Set packed 32-bit integers with the supplied values in reverse order. |
| _mm_setr_pd⚠ |
[ x86 and ] sse2Set packed double-precision (64-bit) floating-point elements in the return value with the supplied values in reverse order. |
| _mm_setr_ps⚠ |
[ x86 and ] sseConstruct a |
| _mm_setzero_pd⚠ |
[ x86 and ] sse2Returns packed double-precision (64-bit) floating-point elements with all zeros. |
| _mm_setzero_ps⚠ |
[ x86 and ] sseConstruct a |
| _mm_setzero_si128⚠ |
[ x86 and ] sse2Returns a vector with all elements set to zero. |
| _mm_sfence⚠ |
[ x86 and ] ssePerform a serializing operation on all store-to-memory instructions that were issued prior to this instruction. |
| _mm_sha1msg1_epu32⚠ |
[ x86 and ] shaPerform an intermediate calculation for the next four SHA1 message values
(unsigned 32-bit integers) using previous message values from |
| _mm_sha1msg2_epu32⚠ |
[ x86 and ] shaPerform the final calculation for the next four SHA1 message values
(unsigned 32-bit integers) using the intermediate result in |
| _mm_sha1nexte_epu32⚠ |
[ x86 and ] shaCalculate SHA1 state variable E after four rounds of operation from the
current SHA1 state variable |
| _mm_sha1rnds4_epu32⚠ |
[ x86 and ] shaPerform four rounds of SHA1 operation using an initial SHA1 state (A,B,C,D)
from |
| _mm_sha256msg1_epu32⚠ |
[ x86 and ] shaPerform an intermediate calculation for the next four SHA256 message values
(unsigned 32-bit integers) using previous message values from |
| _mm_sha256msg2_epu32⚠ |
[ x86 and ] shaPerform the final calculation for the next four SHA256 message values
(unsigned 32-bit integers) using previous message values from |
| _mm_sha256rnds2_epu32⚠ |
[ x86 and ] shaPerform 2 rounds of SHA256 operation using an initial SHA256 state
(C,D,G,H) from |
| _mm_shuffle_epi8⚠ |
[ x86 and ] ssse3Shuffle bytes from |
| _mm_shuffle_epi32⚠ |
[ x86 and ] sse2Shuffle 32-bit integers in |
| _mm_shuffle_pd⚠ |
[ x86 and ] sse2Constructs a 128-bit floating-point vector of |
| _mm_shuffle_ps⚠ |
[ x86 and ] sseShuffle packed single-precision (32-bit) floating-point elements in |
| _mm_shufflehi_epi16⚠ |
[ x86 and ] sse2Shuffle 16-bit integers in the high 64 bits of |
| _mm_shufflelo_epi16⚠ |
[ x86 and ] sse2Shuffle 16-bit integers in the low 64 bits of |
| _mm_sign_epi8⚠ |
[ x86 and ] ssse3Negate packed 8-bit integers in |
| _mm_sign_epi16⚠ |
[ x86 and ] ssse3Negate packed 16-bit integers in |
| _mm_sign_epi32⚠ |
[ x86 and ] ssse3Negate packed 32-bit integers in |
| _mm_sll_epi16⚠ |
[ x86 and ] sse2Shift packed 16-bit integers in |
| _mm_sll_epi32⚠ |
[ x86 and ] sse2Shift packed 32-bit integers in |
| _mm_sll_epi64⚠ |
[ x86 and ] sse2Shift packed 64-bit integers in |
| _mm_slli_epi16⚠ |
[ x86 and ] sse2Shift packed 16-bit integers in |
| _mm_slli_epi32⚠ |
[ x86 and ] sse2Shift packed 32-bit integers in |
| _mm_slli_epi64⚠ |
[ x86 and ] sse2Shift packed 64-bit integers in |
| _mm_slli_si128⚠ |
[ x86 and ] sse2Shift |
| _mm_sllv_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm_sllv_epi64⚠ |
[ x86 and ] avx2Shift packed 64-bit integers in |
| _mm_sqrt_pd⚠ |
[ x86 and ] sse2Return a new vector with the square root of each of the values in |
| _mm_sqrt_ps⚠ |
[ x86 and ] sseReturn the square root of packed single-precision (32-bit) floating-point
elements in |
| _mm_sqrt_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_sqrt_ss⚠ |
[ x86 and ] sseReturn the square root of the first single-precision (32-bit)
floating-point element in |
| _mm_sra_epi16⚠ |
[ x86 and ] sse2Shift packed 16-bit integers in |
| _mm_sra_epi32⚠ |
[ x86 and ] sse2Shift packed 32-bit integers in |
| _mm_srai_epi16⚠ |
[ x86 and ] sse2Shift packed 16-bit integers in |
| _mm_srai_epi32⚠ |
[ x86 and ] sse2Shift packed 32-bit integers in |
| _mm_srav_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm_srl_epi16⚠ |
[ x86 and ] sse2Shift packed 16-bit integers in |
| _mm_srl_epi32⚠ |
[ x86 and ] sse2Shift packed 32-bit integers in |
| _mm_srl_epi64⚠ |
[ x86 and ] sse2Shift packed 64-bit integers in |
| _mm_srli_epi16⚠ |
[ x86 and ] sse2Shift packed 16-bit integers in |
| _mm_srli_epi32⚠ |
[ x86 and ] sse2Shift packed 32-bit integers in |
| _mm_srli_epi64⚠ |
[ x86 and ] sse2Shift packed 64-bit integers in |
| _mm_srli_si128⚠ |
[ x86 and ] sse2Shift |
| _mm_srlv_epi32⚠ |
[ x86 and ] avx2Shift packed 32-bit integers in |
| _mm_srlv_epi64⚠ |
[ x86 and ] avx2Shift packed 64-bit integers in |
| _mm_store1_pd⚠ |
[ x86 and ] sse2Store the lower double-precision (64-bit) floating-point element from |
| _mm_store1_ps⚠ |
[ x86 and ] sseStore the lowest 32 bit float of |
| _mm_store_pd⚠ |
[ x86 and ] sse2Store 128-bits (composed of 2 packed double-precision (64-bit)
floating-point elements) from |
| _mm_store_pd1⚠ |
[ x86 and ] sse2Store the lower double-precision (64-bit) floating-point element from |
| _mm_store_ps⚠ |
[ x86 and ] sseStore four 32-bit floats into aligned memory. |
| _mm_store_ps1⚠ |
[ x86 and ] sseAlias for |
| _mm_store_sd⚠ |
[ x86 and ] sse2Stores the lower 64 bits of a 128-bit vector of |
| _mm_store_si128⚠ |
[ x86 and ] sse2Store 128-bits of integer data from |
| _mm_store_ss⚠ |
[ x86 and ] sseStore the lowest 32 bit float of |
| _mm_storeh_pd⚠ |
[ x86 and ] sse2Stores the upper 64 bits of a 128-bit vector of |
| _mm_storel_epi64⚠ |
[ x86 and ] sse2Store the lower 64-bit integer |
| _mm_storel_pd⚠ |
[ x86 and ] sse2Stores the lower 64 bits of a 128-bit vector of |
| _mm_storer_pd⚠ |
[ x86 and ] sse2Store 2 double-precision (64-bit) floating-point elements from |
| _mm_storer_ps⚠ |
[ x86 and ] sseStore four 32-bit floats into aligned memory in reverse order. |
| _mm_storeu_pd⚠ |
[ x86 and ] sse2Store 128-bits (composed of 2 packed double-precision (64-bit)
floating-point elements) from |
| _mm_storeu_ps⚠ |
[ x86 and ] sseStore four 32-bit floats into memory. There are no restrictions on memory
alignment. For aligned memory |
| _mm_storeu_si128⚠ |
[ x86 and ] sse2Store 128-bits of integer data from |
| _mm_stream_pd⚠ |
[ x86 and ] sse2Stores a 128-bit floating point vector of |
| _mm_stream_ps⚠ |
[ x86 and ] sseStores |
| _mm_stream_sd⚠ |
[ x86 and ] sse4aNon-temporal store of |
| _mm_stream_si32⚠ |
[ x86 and ] sse2Stores a 32-bit integer value in the specified memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon). |
| _mm_stream_si128⚠ |
[ x86 and ] sse2Stores a 128-bit integer vector to a 128-bit aligned memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon). |
| _mm_stream_ss⚠ |
[ x86 and ] sse4aNon-temporal store of |
| _mm_sub_epi8⚠ |
[ x86 and ] sse2Subtract packed 8-bit integers in |
| _mm_sub_epi16⚠ |
[ x86 and ] sse2Subtract packed 16-bit integers in |
| _mm_sub_epi32⚠ |
[ x86 and ] sse2Subtract packed 32-bit integers in |
| _mm_sub_epi64⚠ |
[ x86 and ] sse2Subtract packed 64-bit integers in |
| _mm_sub_pd⚠ |
[ x86 and ] sse2Subtract packed double-precision (64-bit) floating-point elements in |
| _mm_sub_ps⚠ |
[ x86 and ] sseSubtracts __m128 vectors. |
| _mm_sub_sd⚠ |
[ x86 and ] sse2Return a new vector with the low element of |
| _mm_sub_ss⚠ |
[ x86 and ] sseSubtracts the first component of |
| _mm_subs_epi8⚠ |
[ x86 and ] sse2Subtract packed 8-bit integers in |
| _mm_subs_epi16⚠ |
[ x86 and ] sse2Subtract packed 16-bit integers in |
| _mm_subs_epu8⚠ |
[ x86 and ] sse2Subtract packed unsigned 8-bit integers in |
| _mm_subs_epu16⚠ |
[ x86 and ] sse2Subtract packed unsigned 16-bit integers in |
| _mm_test_all_ones⚠ |
[ x86 and ] sse4.1Tests whether the specified bits in |
| _mm_test_all_zeros⚠ |
[ x86 and ] sse4.1Tests whether the specified bits in a 128-bit integer vector are all zeros. |
| _mm_test_mix_ones_zeros⚠ |
[ x86 and ] sse4.1Tests whether the specified bits in a 128-bit integer vector are neither all zeros nor all ones. |
| _mm_testc_pd⚠ |
[ x86 and ] avxCompute the bitwise AND of 128 bits (representing double-precision (64-bit)
floating-point elements) in |
| _mm_testc_ps⚠ |
[ x86 and ] avxCompute the bitwise AND of 128 bits (representing single-precision (32-bit)
floating-point elements) in |
| _mm_testc_si128⚠ |
[ x86 and ] sse4.1Tests whether the specified bits in a 128-bit integer vector are all ones. |
| _mm_testnzc_pd⚠ |
[ x86 and ] avxCompute the bitwise AND of 128 bits (representing double-precision (64-bit)
floating-point elements) in |
| _mm_testnzc_ps⚠ |
[ x86 and ] avxCompute the bitwise AND of 128 bits (representing single-precision (32-bit)
floating-point elements) in |
| _mm_testnzc_si128⚠ |
[ x86 and ] sse4.1Tests whether the specified bits in a 128-bit integer vector are neither all zeros nor all ones. |
| _mm_testz_pd⚠ |
[ x86 and ] avxCompute the bitwise AND of 128 bits (representing double-precision (64-bit)
floating-point elements) in |
| _mm_testz_ps⚠ |
[ x86 and ] avxCompute the bitwise AND of 128 bits (representing single-precision (32-bit)
floating-point elements) in |
| _mm_testz_si128⚠ |
[ x86 and ] sse4.1Tests whether the specified bits in a 128-bit integer vector are all zeros. |
| _mm_tzcnt_32⚠ |
[ x86 and ] bmi1Counts the number of trailing least significant zero bits. |
| _mm_ucomieq_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_ucomieq_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_ucomige_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_ucomige_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_ucomigt_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_ucomigt_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_ucomile_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_ucomile_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_ucomilt_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_ucomilt_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_ucomineq_sd⚠ |
[ x86 and ] sse2Compare the lower element of |
| _mm_ucomineq_ss⚠ |
[ x86 and ] sseCompare two 32-bit floats from the low-order bits of |
| _mm_undefined_pd⚠ |
[ x86 and ] sse2Return vector of type __m128d with undefined elements. |
| _mm_undefined_ps⚠ |
[ x86 and ] sseReturn vector of type __m128 with undefined elements. |
| _mm_undefined_si128⚠ |
[ x86 and ] sse2Return vector of type __m128i with undefined elements. |
| _mm_unpackhi_epi8⚠ |
[ x86 and ] sse2Unpack and interleave 8-bit integers from the high half of |
| _mm_unpackhi_epi16⚠ |
[ x86 and ] sse2Unpack and interleave 16-bit integers from the high half of |
| _mm_unpackhi_epi32⚠ |
[ x86 and ] sse2Unpack and interleave 32-bit integers from the high half of |
| _mm_unpackhi_epi64⚠ |
[ x86 and ] sse2Unpack and interleave 64-bit integers from the high half of |
| _mm_unpackhi_pd⚠ |
[ x86 and ] sse2The resulting |
| _mm_unpackhi_ps⚠ |
[ x86 and ] sseUnpack and interleave single-precision (32-bit) floating-point elements
from the higher half of |
| _mm_unpacklo_epi8⚠ |
[ x86 and ] sse2Unpack and interleave 8-bit integers from the low half of |
| _mm_unpacklo_epi16⚠ |
[ x86 and ] sse2Unpack and interleave 16-bit integers from the low half of |
| _mm_unpacklo_epi32⚠ |
[ x86 and ] sse2Unpack and interleave 32-bit integers from the low half of |
| _mm_unpacklo_epi64⚠ |
[ x86 and ] sse2Unpack and interleave 64-bit integers from the low half of |
| _mm_unpacklo_pd⚠ |
[ x86 and ] sse2The resulting |
| _mm_unpacklo_ps⚠ |
[ x86 and ] sseUnpack and interleave single-precision (32-bit) floating-point elements
from the lower half of |
| _mm_xor_pd⚠ |
[ x86 and ] sse2Compute the bitwise OR of |
| _mm_xor_ps⚠ |
[ x86 and ] sseBitwise exclusive OR of packed single-precision (32-bit) floating-point elements. |
| _mm_xor_si128⚠ |
[ x86 and ] sse2Compute the bitwise XOR of 128 bits (representing integer data) in |
| _mulx_u32⚠ |
[ x86 and ] bmi2Unsigned multiply without affecting flags. |
| _pdep_u32⚠ |
[ x86 and ] bmi2Scatter contiguous low order bits of |
| _pext_u32⚠ |
[ x86 and ] bmi2Gathers the bits of |
| _popcnt32⚠ |
[ x86 and ] popcntCounts the bits that are set. |
| _rdrand16_step⚠ |
[ x86 and ] rdrandRead a hardware generated 16-bit random value and store the result in val. Return 1 if a random value was generated, and 0 otherwise. |
| _rdrand32_step⚠ |
[ x86 and ] rdrandRead a hardware generated 32-bit random value and store the result in val. Return 1 if a random value was generated, and 0 otherwise. |
| _rdseed16_step⚠ |
[ x86 and ] rdseedRead a 16-bit NIST SP800-90B and SP800-90C compliant random value and store in val. Return 1 if a random value was generated, and 0 otherwise. |
| _rdseed32_step⚠ |
[ x86 and ] rdseedRead a 32-bit NIST SP800-90B and SP800-90C compliant random value and store in val. Return 1 if a random value was generated, and 0 otherwise. |
| _rdtsc⚠ |
[ x86 ] Reads the current value of the processor’s time-stamp counter. |
| _t1mskc_u32⚠ |
[ x86 and ] tbmClears all bits below the least significant zero of |
| _t1mskc_u64⚠ |
[ x86 and ] tbmClears all bits below the least significant zero of |
| _tzcnt_u32⚠ |
[ x86 and ] bmi1Counts the number of trailing least significant zero bits. |
| _tzmsk_u32⚠ |
[ x86 and ] tbmSets all bits below the least significant one of |
| _tzmsk_u64⚠ |
[ x86 and ] tbmSets all bits below the least significant one of |
| _xgetbv⚠ |
[ x86 and ] xsaveReads the contents of the extended control register |
| _xrstor⚠ |
[ x86 and ] xsavePerform a full or partial restore of the enabled processor states using
the state information stored in memory at |
| _xrstors⚠ |
[ x86 and ] xsave,xsavesPerform a full or partial restore of the enabled processor states using the
state information stored in memory at |
| _xsave⚠ |
[ x86 and ] xsavePerform a full or partial save of the enabled processor states to memory at
|
| _xsavec⚠ |
[ x86 and ] xsave,xsavecPerform a full or partial save of the enabled processor states to memory
at |
| _xsaveopt⚠ |
[ x86 and ] xsave,xsaveoptPerform a full or partial save of the enabled processor states to memory at
|
| _xsaves⚠ |
[ x86 and ] xsave,xsavesPerform a full or partial save of the enabled processor states to memory at
|
| _xsetbv⚠ |
[ x86 and ] xsaveCopy 64-bits from |
| _MM_SHUFFLE |
[ Experimental ] [x86 ] A utility function for creating masks to use with Intel shuffle and permute intrinsics. |
| _m_maskmovq⚠ |
[ Experimental ] [x86 and ] sse,mmxConditionally copies the values from each 8-bit element in the first 64-bit integer vector operand to the specified memory location, as specified by the most significant bit in the corresponding element in the second 64-bit integer vector operand. |
| _m_paddb⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 8-bit integers in |
| _m_paddd⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 32-bit integers in |
| _m_paddsb⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 8-bit integers in |
| _m_paddsw⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 16-bit integers in |
| _m_paddusb⚠ |
[ Experimental ] [x86 and ] mmxAdd packed unsigned 8-bit integers in |
| _m_paddusw⚠ |
[ Experimental ] [x86 and ] mmxAdd packed unsigned 16-bit integers in |
| _m_paddw⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 16-bit integers in |
| _m_pavgb⚠ |
[ Experimental ] [x86 and ] sse,mmxComputes the rounded averages of the packed unsigned 8-bit integer values and writes the averages to the corresponding bits in the destination. |
| _m_pavgw⚠ |
[ Experimental ] [x86 and ] sse,mmxComputes the rounded averages of the packed unsigned 16-bit integer values and writes the averages to the corresponding bits in the destination. |
| _m_pextrw⚠ |
[ Experimental ] [x86 and ] sse,mmxExtracts 16-bit element from a 64-bit vector of |
| _m_pinsrw⚠ |
[ Experimental ] [x86 and ] sse,mmxCopies data from the 64-bit vector of |
| _m_pmaxsw⚠ |
[ Experimental ] [x86 and ] sse,mmxCompares the packed 16-bit signed integers of |
| _m_pmaxub⚠ |
[ Experimental ] [x86 and ] sse,mmxCompares the packed 8-bit signed integers of |
| _m_pminsw⚠ |
[ Experimental ] [x86 and ] sse,mmxCompares the packed 16-bit signed integers of |
| _m_pminub⚠ |
[ Experimental ] [x86 and ] sse,mmxCompares the packed 8-bit signed integers of |
| _m_pmovmskb⚠ |
[ Experimental ] [x86 and ] sse,mmxTakes the most significant bit from each 8-bit element in a 64-bit integer vector to create a 16-bit mask value. Zero-extends the value to 32-bit integer and writes it to the destination. |
| _m_pmulhuw⚠ |
[ Experimental ] [x86 and ] sse,mmxMultiplies packed 16-bit unsigned integer values and writes the high-order 16 bits of each 32-bit product to the corresponding bits in the destination. |
| _m_psadbw⚠ |
[ Experimental ] [x86 and ] sse,mmxSubtracts the corresponding 8-bit unsigned integer values of the two
64-bit vector operands and computes the absolute value for each of the
difference. Then sum of the 8 absolute differences is written to the
bits |
| _m_pshufw⚠ |
[ Experimental ] [x86 and ] sse,mmxShuffles the 4 16-bit integers from a 64-bit integer vector to the destination, as specified by the immediate value operand. |
| _m_psubb⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 8-bit integers in |
| _m_psubd⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 32-bit integers in |
| _m_psubsb⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 8-bit integers in |
| _m_psubsw⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 16-bit integers in |
| _m_psubusb⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed unsigned 8-bit integers in |
| _m_psubusw⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed unsigned 16-bit integers in |
| _m_psubw⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 16-bit integers in |
| _mm_abs_pi8⚠ |
[ Experimental ] [x86 and ] ssse3,mmxCompute the absolute value of packed 8-bit integers in |
| _mm_abs_pi16⚠ |
[ Experimental ] [x86 and ] ssse3,mmxCompute the absolute value of packed 8-bit integers in |
| _mm_abs_pi32⚠ |
[ Experimental ] [x86 and ] ssse3,mmxCompute the absolute value of packed 32-bit integers in |
| _mm_add_pi8⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 8-bit integers in |
| _mm_add_pi16⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 16-bit integers in |
| _mm_add_pi32⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 32-bit integers in |
| _mm_add_si64⚠ |
[ Experimental ] [x86 and ] sse2,mmxAdds two signed or unsigned 64-bit integer values, returning the lower 64 bits of the sum. |
| _mm_adds_pi8⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 8-bit integers in |
| _mm_adds_pi16⚠ |
[ Experimental ] [x86 and ] mmxAdd packed 16-bit integers in |
| _mm_adds_pu8⚠ |
[ Experimental ] [x86 and ] mmxAdd packed unsigned 8-bit integers in |
| _mm_adds_pu16⚠ |
[ Experimental ] [x86 and ] mmxAdd packed unsigned 16-bit integers in |
| _mm_alignr_pi8⚠ |
[ Experimental ] [x86 and ] ssse3,mmxConcatenates the two 64-bit integer vector operands, and right-shifts the result by the number of bytes specified in the immediate operand. |
| _mm_avg_pu8⚠ |
[ Experimental ] [x86 and ] sse,mmxComputes the rounded averages of the packed unsigned 8-bit integer values and writes the averages to the corresponding bits in the destination. |
| _mm_avg_pu16⚠ |
[ Experimental ] [x86 and ] sse,mmxComputes the rounded averages of the packed unsigned 16-bit integer values and writes the averages to the corresponding bits in the destination. |
| _mm_cmpgt_pi8⚠ |
[ Experimental ] [x86 and ] mmxCompares whether each element of |
| _mm_cmpgt_pi16⚠ |
[ Experimental ] [x86 and ] mmxCompares whether each element of |
| _mm_cmpgt_pi32⚠ |
[ Experimental ] [x86 and ] mmxCompares whether each element of |
| _mm_cvt_pi2ps⚠ |
[ Experimental ] [x86 and ] sse,mmxConverts two elements of a 64-bit vector of |
| _mm_cvt_ps2pi⚠ |
[ Experimental ] [x86 and ] sse,mmxConvert the two lower packed single-precision (32-bit) floating-point
elements in |
| _mm_cvtpd_pi32⚠ |
[ Experimental ] [x86 and ] sse2,mmxConverts the two double-precision floating-point elements of a
128-bit vector of |
| _mm_cvtpi16_ps⚠ |
[ Experimental ] [x86 and ] sse,mmxConverts a 64-bit vector of |
| _mm_cvtpi32_pd⚠ |
[ Experimental ] [x86 and ] sse2,mmxConverts the two signed 32-bit integer elements of a 64-bit vector of
|
| _mm_cvtpi32_ps⚠ |
[ Experimental ] [x86 and ] sse,mmxConverts two elements of a 64-bit vector of |
| _mm_cvtpi32x2_ps⚠ |
[ Experimental ] [x86 and ] sse,mmxConverts the two 32-bit signed integer values from each 64-bit vector
operand of |
| _mm_cvtpi8_ps⚠ |
[ Experimental ] [x86 and ] sse,mmxConverts the lower 4 8-bit values of |
| _mm_cvtps_pi8⚠ |
[ Experimental ] [x86 and ] sse,mmxConvert packed single-precision (32-bit) floating-point elements in |
| _mm_cvtps_pi16⚠ |
[ Experimental ] [x86 and ] sse,mmxConvert packed single-precision (32-bit) floating-point elements in |
| _mm_cvtps_pi32⚠ |
[ Experimental ] [x86 and ] sse,mmxConvert the two lower packed single-precision (32-bit) floating-point
elements in |
| _mm_cvtpu16_ps⚠ |
[ Experimental ] [x86 and ] sse,mmxConverts a 64-bit vector of |
| _mm_cvtpu8_ps⚠ |
[ Experimental ] [x86 and ] sse,mmxConverts the lower 4 8-bit values of |
| _mm_cvtt_ps2pi⚠ |
[ Experimental ] [x86 and ] sse,mmxConvert the two lower packed single-precision (32-bit) floating-point
elements in |
| _mm_cvttpd_pi32⚠ |
[ Experimental ] [x86 and ] sse2,mmxConverts the two double-precision floating-point elements of a
128-bit vector of |
| _mm_cvttps_pi32⚠ |
[ Experimental ] [x86 and ] sse,mmxConvert the two lower packed single-precision (32-bit) floating-point
elements in |
| _mm_extract_pi16⚠ |
[ Experimental ] [x86 and ] sse,mmxExtracts 16-bit element from a 64-bit vector of |
| _mm_hadd_pi16⚠ |
[ Experimental ] [x86 and ] ssse3,mmxHorizontally add the adjacent pairs of values contained in 2 packed
64-bit vectors of |
| _mm_hadd_pi32⚠ |
[ Experimental ] [x86 and ] ssse3,mmxHorizontally add the adjacent pairs of values contained in 2 packed
64-bit vectors of |
| _mm_hadds_pi16⚠ |
[ Experimental ] [x86 and ] ssse3,mmxHorizontally add the adjacent pairs of values contained in 2 packed
64-bit vectors of |
| _mm_hsub_pi16⚠ |
[ Experimental ] [x86 and ] ssse3,mmxHorizontally subtracts the adjacent pairs of values contained in 2
packed 64-bit vectors of |
| _mm_hsub_pi32⚠ |
[ Experimental ] [x86 and ] ssse3,mmxHorizontally subtracts the adjacent pairs of values contained in 2
packed 64-bit vectors of |
| _mm_hsubs_pi16⚠ |
[ Experimental ] [x86 and ] ssse3,mmxHorizontally subtracts the adjacent pairs of values contained in 2
packed 64-bit vectors of |
| _mm_insert_pi16⚠ |
[ Experimental ] [x86 and ] sse,mmxCopies data from the 64-bit vector of |
| _mm_loadh_pi⚠ |
[ Experimental ] [x86 and ] sseSet the upper two single-precision floating-point values with 64 bits of
data loaded from the address |
| _mm_loadl_pi⚠ |
[ Experimental ] [x86 and ] sseLoad two floats from |
| _mm_maddubs_pi16⚠ |
[ Experimental ] [x86 and ] ssse3,mmxMultiplies corresponding pairs of packed 8-bit unsigned integer values contained in the first source operand and packed 8-bit signed integer values contained in the second source operand, adds pairs of contiguous products with signed saturation, and writes the 16-bit sums to the corresponding bits in the destination. |
| _mm_maskmove_si64⚠ |
[ Experimental ] [x86 and ] sse,mmxConditionally copies the values from each 8-bit element in the first 64-bit integer vector operand to the specified memory location, as specified by the most significant bit in the corresponding element in the second 64-bit integer vector operand. |
| _mm_max_pi16⚠ |
[ Experimental ] [x86 and ] sse,mmxCompares the packed 16-bit signed integers of |
| _mm_max_pu8⚠ |
[ Experimental ] [x86 and ] sse,mmxCompares the packed 8-bit signed integers of |
| _mm_min_pi16⚠ |
[ Experimental ] [x86 and ] sse,mmxCompares the packed 16-bit signed integers of |
| _mm_min_pu8⚠ |
[ Experimental ] [x86 and ] sse,mmxCompares the packed 8-bit signed integers of |
| _mm_movemask_pi8⚠ |
[ Experimental ] [x86 and ] sse,mmxTakes the most significant bit from each 8-bit element in a 64-bit integer vector to create a 16-bit mask value. Zero-extends the value to 32-bit integer and writes it to the destination. |
| _mm_movepi64_pi64⚠ |
[ Experimental ] [x86 and ] sse2,mmxReturns the lower 64 bits of a 128-bit integer vector as a 64-bit integer. |
| _mm_movpi64_epi64⚠ |
[ Experimental ] [x86 and ] sse2,mmxMoves the 64-bit operand to a 128-bit integer vector, zeroing the upper bits. |
| _mm_mul_su32⚠ |
[ Experimental ] [x86 and ] sse2,mmxMultiplies 32-bit unsigned integer values contained in the lower bits of the two 64-bit integer vectors and returns the 64-bit unsigned product. |
| _mm_mulhi_pu16⚠ |
[ Experimental ] [x86 and ] sse,mmxMultiplies packed 16-bit unsigned integer values and writes the high-order 16 bits of each 32-bit product to the corresponding bits in the destination. |
| _mm_mulhrs_pi16⚠ |
[ Experimental ] [x86 and ] ssse3,mmxMultiplies packed 16-bit signed integer values, truncates the 32-bit
products to the 18 most significant bits by right-shifting, rounds the
truncated value by adding 1, and writes bits |
| _mm_mullo_pi16⚠ |
[ Experimental ] [x86 and ] sse,mmxMultiplies packed 16-bit integer values and writes the low-order 16 bits of each 32-bit product to the corresponding bits in the destination. |
| _mm_packs_pi16⚠ |
[ Experimental ] [x86 and ] mmxConvert packed 16-bit integers from |
| _mm_packs_pi32⚠ |
[ Experimental ] [x86 and ] mmxConvert packed 32-bit integers from |
| _mm_sad_pu8⚠ |
[ Experimental ] [x86 and ] sse,mmxSubtracts the corresponding 8-bit unsigned integer values of the two
64-bit vector operands and computes the absolute value for each of the
difference. Then sum of the 8 absolute differences is written to the
bits |
| _mm_set1_epi64⚠ |
[ Experimental ] [x86 and ] sse2,mmxInitializes both values in a 128-bit vector of |
| _mm_set1_pi8⚠ |
[ Experimental ] [x86 and ] mmxBroadcast 8-bit integer a to all all elements of dst. |
| _mm_set1_pi16⚠ |
[ Experimental ] [x86 and ] mmxBroadcast 16-bit integer a to all all elements of dst. |
| _mm_set1_pi32⚠ |
[ Experimental ] [x86 and ] mmxBroadcast 32-bit integer a to all all elements of dst. |
| _mm_set_epi64⚠ |
[ Experimental ] [x86 and ] sse2,mmxInitializes both 64-bit values in a 128-bit vector of |
| _mm_set_pi8⚠ |
[ Experimental ] [x86 and ] mmxSet packed 8-bit integers in dst with the supplied values. |
| _mm_set_pi16⚠ |
[ Experimental ] [x86 and ] mmxSet packed 16-bit integers in dst with the supplied values. |
| _mm_set_pi32⚠ |
[ Experimental ] [x86 and ] mmxSet packed 32-bit integers in dst with the supplied values. |
| _mm_setr_epi64⚠ |
[ Experimental ] [x86 and ] sse2,mmxConstructs a 128-bit integer vector, initialized in reverse order with the specified 64-bit integral values. |
| _mm_setr_pi8⚠ |
[ Experimental ] [x86 and ] mmxSet packed 8-bit integers in dst with the supplied values in reverse order. |
| _mm_setr_pi16⚠ |
[ Experimental ] [x86 and ] mmxSet packed 16-bit integers in dst with the supplied values in reverse order. |
| _mm_setr_pi32⚠ |
[ Experimental ] [x86 and ] mmxSet packed 32-bit integers in dst with the supplied values in reverse order. |
| _mm_setzero_si64⚠ |
[ Experimental ] [x86 and ] mmxConstructs a 64-bit integer vector initialized to zero. |
| _mm_shuffle_pi8⚠ |
[ Experimental ] [x86 and ] ssse3,mmxShuffle packed 8-bit integers in |
| _mm_shuffle_pi16⚠ |
[ Experimental ] [x86 and ] sse,mmxShuffles the 4 16-bit integers from a 64-bit integer vector to the destination, as specified by the immediate value operand. |
| _mm_sign_pi8⚠ |
[ Experimental ] [x86 and ] ssse3,mmxNegate packed 8-bit integers in |
| _mm_sign_pi16⚠ |
[ Experimental ] [x86 and ] ssse3,mmxNegate packed 16-bit integers in |
| _mm_sign_pi32⚠ |
[ Experimental ] [x86 and ] ssse3,mmxNegate packed 32-bit integers in |
| _mm_storeh_pi⚠ |
[ Experimental ] [x86 and ] sseStore the upper half of |
| _mm_storel_pi⚠ |
[ Experimental ] [x86 and ] sseStore the lower half of |
| _mm_stream_pi⚠ |
[ Experimental ] [x86 and ] sse,mmxStore 64-bits of integer data from a into memory using a non-temporal memory hint. |
| _mm_sub_pi8⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 8-bit integers in |
| _mm_sub_pi16⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 16-bit integers in |
| _mm_sub_pi32⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 32-bit integers in |
| _mm_sub_si64⚠ |
[ Experimental ] [x86 and ] sse2,mmxSubtracts signed or unsigned 64-bit integer values and writes the difference to the corresponding bits in the destination. |
| _mm_subs_pi8⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 8-bit integers in |
| _mm_subs_pi16⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed 16-bit integers in |
| _mm_subs_pu8⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed unsigned 8-bit integers in |
| _mm_subs_pu16⚠ |
[ Experimental ] [x86 and ] mmxSubtract packed unsigned 16-bit integers in |
| _mm_unpackhi_pi8⚠ |
[ Experimental ] [x86 and ] mmxUnpacks the upper four elements from two |
| _mm_unpackhi_pi16⚠ |
[ Experimental ] [x86 and ] mmxUnpacks the upper two elements from two |
| _mm_unpackhi_pi32⚠ |
[ Experimental ] [x86 and ] mmxUnpacks the upper element from two |
| _mm_unpacklo_pi8⚠ |
[ Experimental ] [x86 and ] mmxUnpacks the lower four elements from two |
| _mm_unpacklo_pi16⚠ |
[ Experimental ] [x86 and ] mmxUnpacks the lower two elements from two |
| _mm_unpacklo_pi32⚠ |
[ Experimental ] [x86 and ] mmxUnpacks the lower element from two |
| has_cpuid |
[ Experimental ] [x86 ] Does the host support the |