모두의 코드
PHSUBW, PHSUBDs (Intel x86/64 assembly instruction)
PHSUBW, PHSUBD
Packed Horizontal Subtract
참고 사항
아래 표를 해석하는 방법은 x86-64 명령어 레퍼런스 읽는 법 글을 참조하시기 바랍니다.
Opcode/ | Op/ | 64/32 bit | CPUID | Description |
|---|---|---|---|---|
| RM | V/V | SSSE3 | Subtract 16-bit signed integers horizontally, pack to mm1. |
| RM | V/V | SSSE3 | Subtract 16-bit signed integers horizontally, pack to xmm1. |
| RM | V/V | SSSE3 | Subtract 32-bit signed integers horizontally, pack to mm1. |
| RM | V/V | SSSE3 | Subtract 32-bit signed integers horizontally, pack to xmm1. |
| RVM | V/V | AVX | Subtract 16-bit signed integers horizontally, pack to xmm1. |
| RVM | V/V | AVX | Subtract 32-bit signed integers horizontally, pack to xmm1. |
| RVM | V/V | AVX2 | Subtract 16-bit signed integers horizontally, pack to ymm1. |
| RVM | V/V | AVX2 | Subtract 32-bit signed integers horizontally, pack to ymm1. |
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 (r, w) | VEX.vvvv (r) | ModRM:r/m (r) | NA |
Description
(V)PHSUBW performs horizontal subtraction on each adjacent pair of 16-bit signed integers by subtracting the most significant word from the least significant word of each pair in the source and destination operands, and packs the signed 16-bit results to the destination operand (first operand). (V)PHSUBD performs horizontal subtraction on each adjacent pair of 32-bit signed integers by subtracting the most significant doubleword from the least signifi-cant doubleword of each pair, and packs the signed 32-bit result to the destination operand. When the source operand is a 128-bit memory operand, the operand must be aligned on a 16-byte boundary or a general-protection exception (#GP) will be generated.
Legacy SSE version: Both operands can be MMX registers. The second source operand can be an MMX register or a 64-bit memory location.
128-bit Legacy SSE version: The first source and destination operands are XMM registers. The second source operand is an XMM register or a 128-bit memory location. Bits (VLMAX-1:128) of the corresponding YMM destina-tion register remain unchanged.
In 64-bit mode, use the REX prefix to access additional registers.
VEX.128 encoded version: The first source and destination operands are XMM registers. The second source operand is an XMM register or a 128-bit memory location. Bits (VLMAX-1:128) of the destination YMM register are zeroed.
VEX.256 encoded version: The first source and destination operands are YMM registers. The second source operand can be an YMM register or a 256-bit memory location.
Note: VEX.L must be 0, otherwise the instruction will #UD.
Operation
PHSUBW (with 64-bit operands)
mm1[15-0] = mm1[15-0] - mm1[31-16];
mm1[31-16] = mm1[47-32] - mm1[63-48];
mm1[47-32] = mm2/m64[15-0] - mm2/m64[31-16];
mm1[63-48] = mm2/m64[47-32] - mm2/m64[63-48];
PHSUBW (with 128-bit operands)
xmm1[15-0] = xmm1[15-0] - xmm1[31-16];
xmm1[31-16] = xmm1[47-32] - xmm1[63-48];
xmm1[47-32] = xmm1[79-64] - xmm1[95-80];
xmm1[63-48] = xmm1[111-96] - xmm1[127-112];
xmm1[79-64] = xmm2/m128[15-0] - xmm2/m128[31-16];
xmm1[95-80] = xmm2/m128[47-32] - xmm2/m128[63-48];
xmm1[111-96] = xmm2/m128[79-64] - xmm2/m128[95-80];
xmm1[127-112] = xmm2/m128[111-96] - xmm2/m128[127-112];
VPHSUBW (VEX.128 encoded version)
DEST[15:0] <- SRC1[15:0] - SRC1[31:16] DEST[31:16] <- SRC1[47:32] - SRC1[63:48] DEST[47:32] <- SRC1[79:64] - SRC1[95:80] DEST[63:48] <- SRC1[111:96] - SRC1[127:112] DEST[79:64] <- SRC2[15:0] - SRC2[31:16] DEST[95:80] <- SRC2[47:32] - SRC2[63:48] DEST[111:96] <- SRC2[79:64] - SRC2[95:80] DEST[127:112] <- SRC2[111:96] - SRC2[127:112] DEST[VLMAX-1:128] <- 0
VPHSUBW (VEX.256 encoded version)
DEST[15:0] <- SRC1[15:0] - SRC1[31:16] DEST[31:16] <- SRC1[47:32] - SRC1[63:48] DEST[47:32] <- SRC1[79:64] - SRC1[95:80] DEST[63:48] <- SRC1[111:96] - SRC1[127:112] DEST[79:64] <- SRC2[15:0] - SRC2[31:16] DEST[95:80] <- SRC2[47:32] - SRC2[63:48] DEST[111:96] <- SRC2[79:64] - SRC2[95:80] DEST[127:112] <- SRC2[111:96] - SRC2[127:112] DEST[143:128] <- SRC1[143:128] - SRC1[159:144] DEST[159:144] <- SRC1[175:160] - SRC1[191:176] DEST[175:160] <- SRC1[207:192] - SRC1[223:208] DEST[191:176] <- SRC1[239:224] - SRC1[255:240] DEST[207:192] <- SRC2[143:128] - SRC2[159:144] DEST[223:208] <- SRC2[175:160] - SRC2[191:176] DEST[239:224] <- SRC2[207:192] - SRC2[223:208] DEST[255:240] <- SRC2[239:224] - SRC2[255:240]
PHSUBD (with 64-bit operands)
mm1[31-0] = mm1[31-0] - mm1[63-32];
mm1[63-32] = mm2/m64[31-0] - mm2/m64[63-32];
PHSUBD (with 128-bit operands)
xmm1[31-0] = xmm1[31-0] - xmm1[63-32];
xmm1[63-32] = xmm1[95-64] - xmm1[127-96];
xmm1[95-64] = xmm2/m128[31-0] - xmm2/m128[63-32];
xmm1[127-96] = xmm2/m128[95-64] - xmm2/m128[127-96];
VPHSUBD (VEX.128 encoded version)
DEST[31-0] <- SRC1[31-0] - SRC1[63-32] DEST[63-32] <- SRC1[95-64] - SRC1[127-96] DEST[95-64] <- SRC2[31-0] - SRC2[63-32] DEST[127-96] <- SRC2[95-64] - SRC2[127-96] DEST[VLMAX-1:128] <- 0
VPHSUBD (VEX.256 encoded version)
DEST[31:0] <- SRC1[31:0] - SRC1[63:32] DEST[63:32] <- SRC1[95:64] - SRC1[127:96] DEST[95:64] <- SRC2[31:0] - SRC2[63:32] DEST[127:96] <- SRC2[95:64] - SRC2[127:96] DEST[159:128] <- SRC1[159:128] - SRC1[191:160] DEST[191:160] <- SRC1[223:192] - SRC1[255:224] DEST[223:192] <- SRC2[159:128] - SRC2[191:160] DEST[255:224] <- SRC2[223:192] - SRC2[255:224]
Intel C/C++ Compiler Intrinsic Equivalents
PHSUBW : __m64 _mm_hsub_pi16(__m64 a, __m64 b) PHSUBD : __m64 _mm_hsub_pi32(__m64 a, __m64 b)(V) PHSUBW : __m128i _mm_hsub_epi16(__m128i a, __m128i b)(V) PHSUBD : __m128i _mm_hsub_epi32(__m128i a, __m128i b) VPHSUBW : __m256i _mm256_hsub_epi16(__m256i a, __m256i b) VPHSUBD : __m256i _mm256_hsub_epi32(__m256i a, __m256i b)
SIMD Floating-Point Exceptions
None.
Other Exceptions
See Exceptions Type 4; additionally
#UD If VEX.L = 1.
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