Arch86

Opcode	Encoding	16-bit	32-bit	64-bit	`CPUID` Feature Flag(s)	Description
`F3 0F 2D /r` `CVTSS2SI r32, xmm1/m32`	`rm`	Invalid	Valid	Valid	`sse`	Convert a scalar single-precision floating-point value from xmm1/m32 into a doubleword integer. Store the result in r32.
Opcode: `F3 0F 2D /r` Mnemonic: `CVTSS2SI r32, xmm1/m32` Encoding: `rm` Validity (16/32/64 bit): invalid, valid, valid `CPUID` Feature Flag(s): `sse` Convert a scalar single-precision floating-point value from xmm1/m32 into a doubleword integer. Store the result in r32.
`F3 REX.W 0F 2D /r` `CVTSS2SI r64, xmm1/m32`	`rm`	Invalid	N/E	Valid	`sse`	Convert a scalar single-precision floating-point value from xmm1/m32 into a quadword integer. Store the result in r64.
Opcode: `F3 REX.W 0F 2D /r` Mnemonic: `CVTSS2SI r64, xmm1/m32` Encoding: `rm` Validity (16/32/64 bit): invalid, N/E, valid `CPUID` Feature Flag(s): `sse` Convert a scalar single-precision floating-point value from xmm1/m32 into a quadword integer. Store the result in r64.
`VEX.LIG.F3.0F.W0 2D /r` `VCVTSS2SI r32, xmm1/m32`	`rm`	Invalid	Valid	Valid	`avx`	Convert a scalar single-precision floating-point value from xmm1/m32 into a doubleword integer. Store the result in r32.
Opcode: `VEX.LIG.F3.0F.W0 2D /r` Mnemonic: `VCVTSS2SI r32, xmm1/m32` Encoding: `rm` Validity (16/32/64 bit): invalid, valid, valid `CPUID` Feature Flag(s): `avx` Convert a scalar single-precision floating-point value from xmm1/m32 into a doubleword integer. Store the result in r32.
`VEX.LIG.F3.0F.W1 2D /r` `VCVTSS2SI r64, xmm1/m32`	`rm`	Invalid	Invalid	Valid	`avx`	Convert a scalar single-precision floating-point value from xmm1/m32 into a quadword integer. Store the result in r64.
Opcode: `VEX.LIG.F3.0F.W1 2D /r` Mnemonic: `VCVTSS2SI r64, xmm1/m32` Encoding: `rm` Validity (16/32/64 bit): invalid, invalid, valid `CPUID` Feature Flag(s): `avx` Convert a scalar single-precision floating-point value from xmm1/m32 into a quadword integer. Store the result in r64.
`EVEX.LLIG.F3.0F.W0 2D /r` `VCVTSS2SI r32, xmm1/m32{er}`	`erm`	Invalid	Valid	Valid	`avx512-f`	Convert a scalar single-precision floating-point value from xmm1/m32 into a doubleword integer. Store the result in r32.
Opcode: `EVEX.LLIG.F3.0F.W0 2D /r` Mnemonic: `VCVTSS2SI r32, xmm1/m32{er}` Encoding: `erm` Validity (16/32/64 bit): invalid, valid, valid `CPUID` Feature Flag(s): `avx512-f` Convert a scalar single-precision floating-point value from xmm1/m32 into a doubleword integer. Store the result in r32.
`EVEX.LLIG.F3.0F.W1 2D /r` `VCVTSS2SI r64, xmm1/m32{er}`	`erm`	Invalid	Invalid	Valid	`avx512-f`	Convert a scalar single-precision floating-point value from xmm1/m32 into a quadword integer. Store the result in r64.
Opcode: `EVEX.LLIG.F3.0F.W1 2D /r` Mnemonic: `VCVTSS2SI r64, xmm1/m32{er}` Encoding: `erm` Validity (16/32/64 bit): invalid, invalid, valid `CPUID` Feature Flag(s): `avx512-f` Convert a scalar single-precision floating-point value from xmm1/m32 into a quadword integer. Store the result in r64.

Encoding

Encoding	Operand 1	Operand 2	Operand 3
`rm`	`n/a`	`ModRM.reg[w]`	`ModRM.r/m[r]`
`erm`	`tuple1-fixed`	`ModRM.reg[w]`	`ModRM.r/m[r]`

Description

The (V)CVTSS2SI instruction converts a scalar single-precision floating-point value from the source operand into either a doubleword or quadword integer. The result is stored in the destination operand.

The EVEX form of this instruction does not support memory-fault suppression. The operand size is always 32 bits if not in Long Mode. In other words, VEX.W1 and EVEX.W1 are treated as VEX.W0 and EVEX.W0 (respectively) outside Long Mode.

Operation

public void CVTSS2SI(ref I32 dest, SimdF32 src)
{
    dest = ConvertToI32(src[0]);
}
public void CVTSS2SI(ref I64 dest, SimdF32 src)
{
    dest = ConvertToI64(src[0]);
}

public void VCVTSS2SI_Vex(ref I32 dest, SimdF32 src) =>
    CVTSS2SI(ref dest, src);
public void VCVTSS2SI_Vex(ref I64 dest, SimdF32 src) =>
    CVTSS2SI(ref dest, src);

public void VCVTSS2SI_EvexMemory(ref I32 dest, SimdF32 src) =>
    CVTSS2SI(ref dest, src);
public void VCVTSS2SI_EvexMemory(ref I64 dest, SimdF32 src) =>
    CVTSS2SI(ref dest, src);

public void VCVTSS2SI_EvexRegister(ref I32 dest, SimdF32 src)
{
    if (EVEX.b)
        OverrideRoundingModeForThisInstruction(EVEX.rc);
    dest = ConvertToI32(src[0]);
}
public void VCVTSS2SI_EvexRegister(ref I64 dest, SimdF32 src)
{
    if (EVEX.b)
        OverrideRoundingModeForThisInstruction(EVEX.rc);
    dest = ConvertToI64(src[0]);
}

Intrinsics

int32_t _mm_cvtss_i32(__m128d a)
int32_t _mm_cvtss_si32(__m128d a)
int32_t _mm_cvt_roundss_i32(__m128d a, const int rounding)

int64_t _mm_cvtss_i64(__m128d a)
int64_t _mm_cvtss_si64(__m128d a)
int64_t _mm_cvt_roundss_i64(__m128d a, const int rounding)

Exceptions

SIMD Floating-Point

#XM

#I - Invalid operation.
#P - Inexact result.

Other Exceptions

VEX Encoded Form: See Type 3 Exception Conditions.
EVEX Encoded Form: See Type E3NF Exception Conditions.

#UD

If VEX.vvvv is not 1111b.
If EVEX.vvvvv is not 11111b.