모두의 코드
PSUBQ (Intel x86/64 assembly instruction)

작성일 : 2020-09-01 이 글은 686 번 읽혔습니다.

PSUBQ

Subtract Packed Quadword Integers

참고 사항

아래 표를 해석하는 방법은 x86-64 명령어 레퍼런스 읽는 법 글을 참조하시기 바랍니다.

Opcode/
Instruction

Op/
En

64/32 bit
Mode
Support

CPUID
Feature
Flag

Description

0F FB /r\footnote{1}
PSUBQ mm1 mm2/m64

RM

V/V

SSE2

Subtract quadword integer in mm1 from mm2 /m64.

66 0F FB /r
PSUBQ xmm1 xmm2/m128

RM

V/V

SSE2

Subtract packed quadword integers in xmm1 from xmm2 /m128.

VEX.NDS.128.66.0F.WIG FB/r
VPSUBQ xmm1 xmm2 xmm3/m128

RVM

V/V

AVX

Subtract packed quadword integers in xmm3/m128 from xmm2.

VEX.NDS.256.66.0F.WIG FB /r
VPSUBQ ymm1 ymm2 ymm3/m256

RVM

V/V

AVX2

Subtract packed quadword integers in ymm3/m256 from ymm2.

EVEX.NDS.128.66.0F.W1 FB /r
VPSUBQ xmm1 {k1}{z} xmm2 xmm3/m128/m64bcst

FV

V/V

AVX512VL
AVX512F

Subtract packed quadword integers in xmm3/m128/m64bcst from xmm2 and store in xmm1 using writemask k1.

EVEX.NDS.256.66.0F.W1 FB /r
VPSUBQ ymm1 {k1}{z} ymm2 ymm3/m256/m64bcst

FV

V/V

AVX512VL
AVX512F

Subtract packed quadword integers in ymm3/m256/m64bcst from ymm2 and store in ymm1 using writemask k1.

EVEX.NDS.512.66.0F.W1 FB/r
VPSUBQ zmm1 {k1}{z} zmm2 zmm3/m512/m64bcst

FV

V/V

AVX512F

Subtract packed quadword integers in zmm3/m512/m64bcst from zmm2 and store in zmm1 using writemask k1.

  1. See note in Section 2.4, "AVX and SSE Instruction Exception Specification" in the Intel(R) 64 and IA-32 Architectures Software Developer's Manual, Volume 2A and Section 22.25.3, "Exception Conditions of Legacy SIMD Instructions Operating on MMX Registers" in the Intel(R) 64 and IA-32 Architectures Software Developer's Manual, Volume 3A

Instruction Operand Encoding

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

Description

Subtracts the second operand (source operand) from the first operand (destination operand) and stores the result in the destination operand. When packed quadword operands are used, a SIMD subtract is performed. When a quadword result is too large to be represented in 64 bits (overflow), the result is wrapped around and the low 64 bits are written to the destination element (that is, the carry is ignored).

Note that the (V)PSUBQ instruction can operate on either unsigned or signed (two's complement notation) inte-gers; however, it does not set bits in the EFLAGS register to indicate overflow and/or a carry. To prevent undetected overflow conditions, software must control the ranges of the values upon which it operates.

In 64-bit mode and not encoded with VEX/EVEX, using a REX prefix in the form of REX.R permits this instruction to access additional registers (XMM8-XMM15).

Legacy SSE version 64-bit operand: The source operand can be a quadword integer stored in an MMX technology register or a 64-bit memory location.

128-bit Legacy SSE version: The second source operand is an XMM register or a 128-bit memory location. The first source operand and destination operands are XMM registers. Bits (VLMAX-1:128) of the corresponding YMM desti-nation register remain unchanged.

VEX.128 encoded version: The second source operand is an XMM register or a 128-bit memory location. The first source operand and destination operands are XMM registers. Bits (VLMAX-1:128) of the destination YMM register are zeroed.

VEX.256 encoded versions: The second source operand is an YMM register or an 256-bit memory location. The first source operand and destination operands are YMM registers. Bits (MAXVL-1:256) of the corresponding ZMM register are zeroed.

EVEX encoded VPSUBQ: The second source operand is a ZMM/YMM/XMM register, a 512/256/128-bit memory loca-tion or a 512/256/128-bit vector broadcasted from a 32/64-bit memory location. The first source operand and destination operands are ZMM/YMM/XMM registers. The destination is conditionally updated with writemask k1.

Operation

PSUBQ (with 64-Bit operands)

    DEST[63:0] <- DEST[63:0] - SRC[63:0];

PSUBQ (with 128-Bit operands)

    DEST[63:0] <- DEST[63:0] - SRC[63:0];
    DEST[127:64] <- DEST[127:64] - SRC[127:64];

VPSUBQ (VEX.128 encoded version)

DEST[63:0] <-  SRC1[63:0]-SRC2[63:0]
DEST[127:64] <-  SRC1[127:64]-SRC2[127:64]
DEST[VLMAX-1:128] <-  0

VPSUBQ (VEX.256 encoded version)

DEST[63:0] <-  SRC1[63:0]-SRC2[63:0]
DEST[127:64] <-  SRC1[127:64]-SRC2[127:64]
DEST[191:128] <-  SRC1[191:128]-SRC2[191:128]
DEST[255:192] <-  SRC1[255:192]-SRC2[255:192]
DEST[VLMAX-1:256] <-  0

VPSUBQ (EVEX encoded versions)

(KL, VL) = (2, 128), (4, 256), (8, 512)
FOR j <-  0 TO KL-1
    i <-  j * 64
    IF k1[j] OR *no writemask* THEN
                IF (EVEX.b = 1) AND (SRC2 *is memory*)
                      THEN DEST[i+63:i] <-  SRC1[i+63:i] - SRC2[63:0]
                      ELSE DEST[i+63:i] <-  SRC1[i+63:i] - SRC2[i+63:i]
                FI;
          ELSE 
                IF *merging-masking* ; merging-masking
                      THEN *DEST[i+63:i] remains unchanged*
                      ELSE *zeroing-masking* ; zeroing-masking
                            DEST[i+63:i] <-  0
                FI
    FI;
ENDFOR;
DEST[MAX_VL-1:VL] <-  0

Intel C/C++ Compiler Intrinsic Equivalents

VPSUBQ __m512i _mm512_sub_epi64(__m512i a, __m512i b);
VPSUBQ __m512i _mm512_mask_sub_epi64(__m512i s, __mmask8 k, __m512i a,
                                     __m512i b);
VPSUBQ __m512i _mm512_maskz_sub_epi64(__mmask8 k, __m512i a, __m512i b);
VPSUBQ __m256i _mm256_mask_sub_epi64(__m256i s, __mmask8 k, __m256i a,
                                     __m256i b);
VPSUBQ __m256i _mm256_maskz_sub_epi64(__mmask8 k, __m256i a, __m256i b);
VPSUBQ __m128i _mm_mask_sub_epi64(__m128i s, __mmask8 k, __m128i a, __m128i b);
VPSUBQ __m128i _mm_maskz_sub_epi64(__mmask8 k, __m128i a, __m128i b);
PSUBQ : __m64 _mm_sub_si64(__m64 m1, __m64 m2)(V) PSUBQ
    : __m128i _mm_sub_epi64(__m128i m1, __m128i m2) VPSUBQ
    : __m256i _mm256_sub_epi64(__m256i m1, __m256i m2)

Flags Affected

None.

Numeric Exceptions

None.

Other Exceptions

Non-EVEX-encoded instruction, see Exceptions Type 4.

EVEX-encoded VPSUBQ, see Exceptions Type E4.

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