Opcode/Instruction RM UNPCKHPD xmm1, xmm2/m128 |
Op /En |
64/32 bit Mode Support V/V |
CPUID Feature Flag SSE2 |
DescriptionUnpacks and Interleaves double-precision floating-point values from high quadwords of xmm1 and xmm2/m128. |
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VEX.NDS.128.66.0F.WIG 15 /r VUNPCKHPD xmm1,xmm2, xmm3/m128 |
RVM | V/V | AVX | Unpacks and Interleaves double-precision floating-point values from high quadwords of xmm2 and xmm3/m128. |
VEX.NDS.256.66.0F.WIG 15 /r VUNPCKHPD ymm1,ymm2, ymm3/m256 |
RVM | V/V | AVX | Unpacks and Interleaves double-precision floating-point values from high quadwords of ymm2 and ymm3/m256. |
EVEX.NDS.128.66.0F.W1 15 /r VUNPCKHPD xmm1 {k1}{z}, xmm2, xmm3/m128/m64bcst |
FV | V/V | AVX512VL AVX512F | Unpacks and Interleaves double precision floating-point values from high quadwords of xmm2 and xmm3/m128/m64bcst subject to writemask k1. |
EVEX.NDS.256.66.0F.W1 15 /r VUNPCKHPD ymm1 {k1}{z}, ymm2, ymm3/m256/m64bcst |
FV | V/V | AVX512VL AVX512F | Unpacks and Interleaves double precision floating-point values from high quadwords of ymm2 and ymm3/m256/m64bcst subject to writemask k1. |
EVEX.NDS.512.66.0F.W1 15 /r VUNPCKHPD zmm1 {k1}{z}, zmm2, zmm3/m512/m64bcst |
FV | V/V | AVX512F | Unpacks and Interleaves double-precision floating-point values from high quadwords of zmm2 and zmm3/m512/m64bcst subject to writemask k1. |
Op/En | Operand 1 | Operand 2 | Operand 3 | Operand 4 |
RM | ModRM:reg (r, w) | ModRM:r/m (r) | NA | NA |
RVM | ModRM:reg (w) | VEX.vvvv (r) | ModRM:r/m (r) | NA |
FV | ModRM:reg (w) | EVEX.vvvv (r) | ModRM:r/m (r) | NA |
Performs an interleaved unpack of the high double-precision floating-point values from the first source operand and the second source operand. See Figure 4-15 in the Intel® 64 and IA-32 Architectures Software Developer’s Manual, Volume 2B.
128-bit Legacy SSE version: The second source can be an XMM register or an 128-bit memory location. The desti-nation is not distinct from the first source XMM register and the upper bits (MAX_VL-1:128) of the corresponding ZMM register destination are unmodified. When unpacking from a memory operand, an implementation may fetch only the appropriate 64 bits; however, alignment to 16-byte boundary and normal segment checking will still be enforced.
VEX.128 encoded version: The first source operand is a XMM register. The second source operand can be a XMM register or a 128-bit memory location. The destination operand is a XMM register. The upper bits (MAX_VL-1:128) of the corresponding ZMM register destination are zeroed.
VEX.256 encoded version: The first source operand is a YMM register. The second source operand can be a YMM register or a 256-bit memory location. The destination operand is a YMM register.
EVEX.512 encoded version: The first source operand is a ZMM register. The second source operand is a ZMM register, a 512-bit memory location, or a 512-bit vector broadcasted from a 64-bit memory location. The destina-tion operand is a ZMM register, conditionally updated using writemask k1.
EVEX.256 encoded version: The first source operand is a YMM register. The second source operand is a YMM register, a 256-bit memory location, or a 256-bit vector broadcasted from a 64-bit memory location. The destina-tion operand is a YMM register, conditionally updated using writemask k1.
EVEX.128 encoded version: The first source operand is a XMM register. The second source operand is a XMM register, a 128-bit memory location, or a 128-bit vector broadcasted from a 64-bit memory location. The destina-tion operand is a XMM register, conditionally updated using writemask k1.
VUNPCKHPD (EVEX encoded versions when SRC2 is a register)
(KL, VL) = (2, 128), (4, 256), (8, 512) IF VL >= 128 TMP_DEST[63:0] (cid:197) SRC1[127:64] TMP_DEST[127:64] (cid:197) SRC2[127:64] FI; IF VL >= 256 TMP_DEST[191:128] (cid:197) SRC1[255:192] TMP_DEST[255:192] (cid:197) SRC2[255:192] FI; IF VL >= 512 TMP_DEST[319:256] (cid:197) SRC1[383:320] TMP_DEST[383:320] (cid:197) SRC2[383:320] TMP_DEST[447:384] (cid:197) SRC1[511:448] TMP_DEST[511:448] (cid:197) SRC2[511:448] FI; FOR j (cid:197) 0 TO KL-1 i (cid:197) j * 64 IF k1[j] OR *no writemask* THEN DEST[i+63:i] (cid:197) TMP_DEST[i+63:i] ELSE IF *merging-masking* ; merging-masking THEN *DEST[i+63:i] remains unchanged* ELSE *zeroing-masking* ; zeroing-masking DEST[i+63:i] (cid:197) 0 FI FI; ENDFOR DEST[MAX_VL-1:VL] (cid:197) 0VUNPCKHPD (EVEX encoded version when SRC2 is memory)
(KL, VL) = (2, 128), (4, 256), (8, 512) FOR j (cid:197) 0 TO KL-1 i (cid:197) j * 64 IF (EVEX.b = 1) THEN TMP_SRC2[i+63:i] (cid:197) SRC2[63:0] ELSE TMP_SRC2[i+63:i] (cid:197) SRC2[i+63:i] FI; ENDFOR; IF VL >= 128 TMP_DEST[63:0] (cid:197) SRC1[127:64] TMP_DEST[127:64] (cid:197) TMP_SRC2[127:64] FI; IF VL >= 256 TMP_DEST[191:128] (cid:197) SRC1[255:192] TMP_DEST[255:192] (cid:197) TMP_SRC2[255:192] FI; IF VL >= 512 TMP_DEST[319:256] (cid:197) SRC1[383:320] TMP_DEST[383:320] (cid:197) TMP_SRC2[383:320] TMP_DEST[447:384] (cid:197) SRC1[511:448] TMP_DEST[511:448] (cid:197) TMP_SRC2[511:448] FI; FOR j (cid:197) 0 TO KL-1 i (cid:197) j * 64 IF k1[j] OR *no writemask* THEN DEST[i+63:i] (cid:197) TMP_DEST[i+63:i] ELSE IF *merging-masking* ; merging-masking THEN *DEST[i+63:i] remains unchanged* ELSE *zeroing-masking* ; zeroing-masking DEST[i+63:i] (cid:197) 0 FI FI; ENDFOR DEST[MAX_VL-1:VL] (cid:197) 0VUNPCKHPD (VEX.256 encoded version)
DEST[63:0] (cid:197)SRC1[127:64] DEST[127:64] (cid:197)SRC2[127:64] DEST[191:128](cid:197)SRC1[255:192] DEST[255:192](cid:197)SRC2[255:192] DEST[MAX_VL-1:256] (cid:197)0VUNPCKHPD (VEX.128 encoded version)
DEST[63:0] (cid:197)SRC1[127:64] DEST[127:64] (cid:197)SRC2[127:64] DEST[MAX_VL-1:128] (cid:197)0UNPCKHPD (128-bit Legacy SSE version)
DEST[63:0] (cid:197)SRC1[127:64] DEST[127:64] (cid:197)SRC2[127:64] DEST[MAX_VL-1:128] (Unmodified)
VUNPCKHPD __m512d _mm512_unpackhi_pd( __m512d a, __m512d b); VUNPCKHPD __m512d _mm512_mask_unpackhi_pd(__m512d s, __mmask8 k, __m512d a, __m512d b); VUNPCKHPD __m512d _mm512_maskz_unpackhi_pd(__mmask8 k, __m512d a, __m512d b); VUNPCKHPD __m256d _mm256_unpackhi_pd(__m256d a, __m256d b) VUNPCKHPD __m256d _mm256_mask_unpackhi_pd(__m256d s, __mmask8 k, __m256d a, __m256d b); VUNPCKHPD __m256d _mm256_maskz_unpackhi_pd(__mmask8 k, __m256d a, __m256d b); UNPCKHPD __m128d _mm_unpackhi_pd(__m128d a, __m128d b) VUNPCKHPD __m128d _mm_mask_unpackhi_pd(__m128d s, __mmask8 k, __m128d a, __m128d b); VUNPCKHPD __m128d _mm_maskz_unpackhi_pd(__mmask8 k, __m128d a, __m128d b);
None
Non-EVEX-encoded instructions, see Exceptions Type 4.
EVEX-encoded instructions, see Exceptions Type E4NF.