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VPEXPANDQ
VPEXPANDQ — Load Sparse Packed Quadword Integer Values from Dense Memory / Register
Opcode/ Instruction | Op/ En | 64/32 bit Mode Support | CPUID Feature Flag | Description |
EVEX.128.66.0F38.W1 89 /r VPEXPANDQ xmm1 {k1}{z}, xmm2/m128 | A | V/V | AVX512VL AVX512F | Expand packed quad-word integer values from xmm2/m128 to xmm1 using writemask k1. |
EVEX.256.66.0F38.W1 89 /r VPEXPANDQ ymm1 {k1}{z}, ymm2/m256 | A | V/V | AVX512VL AVX512F | Expand packed quad-word integer values from ymm2/m256 to ymm1 using writemask k1. |
EVEX.512.66.0F38.W1 89 /r VPEXPANDQ zmm1 {k1}{z}, zmm2/m512 | A | V/V | AVX512F | Expand packed quad-word integer values from zmm2/m512 to zmm1 using writemask k1. |
Op/En | Tuple Type | Operand 1 | Operand 2 | Operand 3 | Operand 4 |
A | Tuple1 Scalar | ModRM:reg (w) | ModRM:r/m (r) | NA | NA |
Expand (load) up to 8 quadword integer values from the source operand (the second operand) to sparse elements in the destination operand (the first operand), selected by the writemask k1. The destination operand is a ZMM register, the source operand can be a ZMM register or memory location.
The input vector starts from the lowest element in the source operand. The opmask register k1 selects the destination elements (a partial vector or sparse elements if less than 8 elements) to be replaced by the ascending elements in the input vector. Destination elements not selected by the writemask k1 are either unmodified or zeroed, depending on EVEX.z.
Note: EVEX.vvvv is reserved and must be 1111b otherwise instructions will #UD.
Note that the compressed displacement assumes a pre-scaling (N) corresponding to the size of one single element instead of the size of the full vector.
(KL, VL) = (2, 128), (4, 256), (8, 512)
k ← 0
FOR j ← 0 TO KL-1
i ← j * 64
IF k1[j] OR *no writemask*
THEN
DEST[i+63:i] ← SRC[k+63:k];
k ← k + 64
ELSE
IF *merging-masking*
; merging-masking
THEN *DEST[i+63:i] remains unchanged*
ELSE
; zeroing-masking
THEN DEST[i+63:i] ← 0
FI
FI;
ENDFOR
DEST[MAXVL-1:VL] ←0
VPEXPANDQ __m512i _mm512_mask_expandloadu_epi64(__m512i s, __mmask8 k, void * a);
VPEXPANDQ __m512i _mm512_maskz_expandloadu_epi64( __mmask8 k, void * a);
VPEXPANDQ __m512i _mm512_mask_expand_epi64(__m512i s, __mmask8 k, __m512i a);
VPEXPANDQ __m512i _mm512_maskz_expand_epi64( __mmask8 k, __m512i a);
VPEXPANDQ __m256i _mm256_mask_expandloadu_epi64(__m256i s, __mmask8 k, void * a);
VPEXPANDQ __m256i _mm256_maskz_expandloadu_epi64( __mmask8 k, void * a);
VPEXPANDQ __m256i _mm256_mask_expand_epi64(__m256i s, __mmask8 k, __m256i a);
VPEXPANDQ __m256i _mm256_maskz_expand_epi64( __mmask8 k, __m256i a);
VPEXPANDQ __m128i _mm_mask_expandloadu_epi64(__m128i s, __mmask8 k, void * a);
VPEXPANDQ __m128i _mm_maskz_expandloadu_epi64( __mmask8 k, void * a);
VPEXPANDQ __m128i _mm_mask_expand_epi64(__m128i s, __mmask8 k, __m128i a);
VPEXPANDQ __m128i _mm_maskz_expand_epi64( __mmask8 k, __m128i a);
None
EVEX-encoded instruction, see Exceptions Type E4.nb.
#UD If EVEX.vvvv != 1111B.
Source: Intel® Architecture Software Developer's Manual (May 2018)
Generated: 5-6-2018