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VPDPWSSD
Henk-Jan Lebbink edited this page May 28, 2019
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VPDPWSSD — Multiply and Add Signed Word Integers
| Opcode/ Instruction | Op/ En | 64/32 bit Mode Support | CPUID Feature Flag | Description |
| EVEX.128.66.0F38.W0 52 /r VPDPWSSD xmm1{k1}{z}, xmm2, xmm3/m128/m32bcst | A | V/V | AVX512_VNNI AVX512VL | Multiply groups of 2 pairs signed words in xmm3/m128/m32bcst with corresponding signed words of xmm2, summing those products and adding them to doubleword result in xmm1, under writemask k1. |
| EVEX.256.66.0F38.W0 52 /r VPDPWSSD ymm1{k1}{z}, ymm2, ymm3/m256/m32bcst | A | V/V | AVX512_VNNI AVX512VL | Multiply groups of 2 pairs signed words in ymm3/m256/m32bcst with corresponding signed words of ymm2, summing those products and adding them to doubleword result in ymm1, under writemask k1. |
| EVEX.512.66.0F38.W0 52 /r VPDPWSSD zmm1{k1}{z}, zmm2, zmm3/m512/m32bcst | A | V/V | AVX512_VNNI | Multiply groups of 2 pairs signed words in zmm3/m512/m32bcst with corresponding signed words of zmm2, summing those products and adding them to doubleword result in zmm1, under writemask k1. |
| Op/En | Tuple | Operand 1 | Operand 2 | Operand 3 | Operand 4 |
| A | Full | ModRM:reg (r, w) | EVEX.vvvv (r) | ModRM:r/m (r) | NA |
Multiplies the individual signed words of the first source operand by the corresponding signed words of the second source operand, producing intermediate signed, doubleword results. The adjacent doubleword results are then summed and accumulated in the destination operand.
This instruction supports memory fault suppression.
(KL,VL)=(4,128), (8,256), (16,512)
ORIGDEST ← DEST
FOR i ← 0 TO KL-1:
IF k1[i] or *no writemask*:
IF SRC2 is memory and EVEX.b == 1:
t ← SRC2.dword[0]
ELSE:
t ← SRC2.dword[i]
p1dword ← SRC1.word[2*i] * t.word[0]
p2dword ← SRC1.word[2*i+1] * t.word[1]
DEST.dword[i] ← ORIGDEST.dword[i] + p1dword + p2dword
ELSE IF *zeroing*:
DEST.dword[i] ← 0
ELSE:
// Merge masking, dest element unchanged
DEST.dword[i] ← ORIGDEST.dword[i]
DEST[MAX_VL-1:VL] ← 0VPDPWSSD __m128i _mm_dpwssd_epi32(__m128i, __m128i, __m128i);
VPDPWSSD __m128i _mm_mask_dpwssd_epi32(__m128i, __mmask8, __m128i, __m128i);
VPDPWSSD __m128i _mm_maskz_dpwssd_epi32(__mmask8, __m128i, __m128i, __m128i);
VPDPWSSD __m256i _mm256_dpwssd_epi32(__m256i, __m256i, __m256i);
VPDPWSSD __m256i _mm256_mask_dpwssd_epi32(__m256i, __mmask8, __m256i, __m256i);
VPDPWSSD __m256i _mm256_maskz_dpwssd_epi32(__mmask8, __m256i, __m256i, __m256i);
VPDPWSSD __m512i _mm512_dpwssd_epi32(__m512i, __m512i, __m512i);
VPDPWSSD __m512i _mm512_mask_dpwssd_epi32(__m512i, __mmask16, __m512i, __m512i);
VPDPWSSD __m512i _mm512_maskz_dpwssd_epi32(__mmask16, __m512i, __m512i, __m512i);None.
See Exceptions Type E4.
Source: Intel® Architecture Instruction Set Extensions and Future Features Programming Reference (May 2019)
Generated: 28-5-2019