// Code generated by x/arch/internal/simdgen using 'go run . -xedPath $XED_PATH -o godefs -goroot $GOROOT go.yaml types.yaml categories.yaml'; DO NOT EDIT. //go:build goexperiment.simd package simd /* Absolute */ // Absolute computes the absolute value of each element. // // Asm: VPABSB, CPU Feature: AVX func (x Int8x16) Absolute() Int8x16 // Absolute computes the absolute value of each element. // // Asm: VPABSB, CPU Feature: AVX2 func (x Int8x32) Absolute() Int8x32 // Absolute computes the absolute value of each element. // // Asm: VPABSB, CPU Feature: AVX512EVEX func (x Int8x64) Absolute() Int8x64 // Absolute computes the absolute value of each element. // // Asm: VPABSW, CPU Feature: AVX func (x Int16x8) Absolute() Int16x8 // Absolute computes the absolute value of each element. // // Asm: VPABSW, CPU Feature: AVX2 func (x Int16x16) Absolute() Int16x16 // Absolute computes the absolute value of each element. // // Asm: VPABSW, CPU Feature: AVX512EVEX func (x Int16x32) Absolute() Int16x32 // Absolute computes the absolute value of each element. // // Asm: VPABSD, CPU Feature: AVX func (x Int32x4) Absolute() Int32x4 // Absolute computes the absolute value of each element. // // Asm: VPABSD, CPU Feature: AVX2 func (x Int32x8) Absolute() Int32x8 // Absolute computes the absolute value of each element. // // Asm: VPABSD, CPU Feature: AVX512EVEX func (x Int32x16) Absolute() Int32x16 // Absolute computes the absolute value of each element. // // Asm: VPABSQ, CPU Feature: AVX512EVEX func (x Int64x2) Absolute() Int64x2 // Absolute computes the absolute value of each element. // // Asm: VPABSQ, CPU Feature: AVX512EVEX func (x Int64x4) Absolute() Int64x4 // Absolute computes the absolute value of each element. // // Asm: VPABSQ, CPU Feature: AVX512EVEX func (x Int64x8) Absolute() Int64x8 /* Add */ // Add adds corresponding elements of two vectors. // // Asm: VADDPS, CPU Feature: AVX func (x Float32x4) Add(y Float32x4) Float32x4 // Add adds corresponding elements of two vectors. // // Asm: VADDPS, CPU Feature: AVX func (x Float32x8) Add(y Float32x8) Float32x8 // Add adds corresponding elements of two vectors. // // Asm: VADDPS, CPU Feature: AVX512EVEX func (x Float32x16) Add(y Float32x16) Float32x16 // Add adds corresponding elements of two vectors. // // Asm: VADDPD, CPU Feature: AVX func (x Float64x2) Add(y Float64x2) Float64x2 // Add adds corresponding elements of two vectors. // // Asm: VADDPD, CPU Feature: AVX func (x Float64x4) Add(y Float64x4) Float64x4 // Add adds corresponding elements of two vectors. // // Asm: VADDPD, CPU Feature: AVX512EVEX func (x Float64x8) Add(y Float64x8) Float64x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX func (x Int8x16) Add(y Int8x16) Int8x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX2 func (x Int8x32) Add(y Int8x32) Int8x32 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX512EVEX func (x Int8x64) Add(y Int8x64) Int8x64 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX func (x Int16x8) Add(y Int16x8) Int16x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX2 func (x Int16x16) Add(y Int16x16) Int16x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX512EVEX func (x Int16x32) Add(y Int16x32) Int16x32 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX func (x Int32x4) Add(y Int32x4) Int32x4 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX2 func (x Int32x8) Add(y Int32x8) Int32x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX512EVEX func (x Int32x16) Add(y Int32x16) Int32x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX func (x Int64x2) Add(y Int64x2) Int64x2 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX2 func (x Int64x4) Add(y Int64x4) Int64x4 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX512EVEX func (x Int64x8) Add(y Int64x8) Int64x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX func (x Uint8x16) Add(y Uint8x16) Uint8x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX2 func (x Uint8x32) Add(y Uint8x32) Uint8x32 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX512EVEX func (x Uint8x64) Add(y Uint8x64) Uint8x64 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX func (x Uint16x8) Add(y Uint16x8) Uint16x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX2 func (x Uint16x16) Add(y Uint16x16) Uint16x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX512EVEX func (x Uint16x32) Add(y Uint16x32) Uint16x32 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX func (x Uint32x4) Add(y Uint32x4) Uint32x4 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX2 func (x Uint32x8) Add(y Uint32x8) Uint32x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX512EVEX func (x Uint32x16) Add(y Uint32x16) Uint32x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX func (x Uint64x2) Add(y Uint64x2) Uint64x2 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX2 func (x Uint64x4) Add(y Uint64x4) Uint64x4 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX512EVEX func (x Uint64x8) Add(y Uint64x8) Uint64x8 /* AddSub */ // AddSub subtracts even elements and adds odd elements of two vectors. // // Asm: VADDSUBPS, CPU Feature: AVX func (x Float32x4) AddSub(y Float32x4) Float32x4 // AddSub subtracts even elements and adds odd elements of two vectors. // // Asm: VADDSUBPS, CPU Feature: AVX func (x Float32x8) AddSub(y Float32x8) Float32x8 // AddSub subtracts even elements and adds odd elements of two vectors. // // Asm: VADDSUBPD, CPU Feature: AVX func (x Float64x2) AddSub(y Float64x2) Float64x2 // AddSub subtracts even elements and adds odd elements of two vectors. // // Asm: VADDSUBPD, CPU Feature: AVX func (x Float64x4) AddSub(y Float64x4) Float64x4 /* And */ // And performs a bitwise AND operation between two vectors. // // Asm: VANDPS, CPU Feature: AVX func (x Float32x4) And(y Float32x4) Float32x4 // And performs a bitwise AND operation between two vectors. // // Asm: VANDPS, CPU Feature: AVX func (x Float32x8) And(y Float32x8) Float32x8 // And performs a masked bitwise AND operation between two vectors. // // Asm: VANDPS, CPU Feature: AVX512EVEX func (x Float32x16) And(y Float32x16) Float32x16 // And performs a bitwise AND operation between two vectors. // // Asm: VANDPD, CPU Feature: AVX func (x Float64x2) And(y Float64x2) Float64x2 // And performs a bitwise AND operation between two vectors. // // Asm: VANDPD, CPU Feature: AVX func (x Float64x4) And(y Float64x4) Float64x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VANDPD, CPU Feature: AVX512EVEX func (x Float64x8) And(y Float64x8) Float64x8 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX func (x Int8x16) And(y Int8x16) Int8x16 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX2 func (x Int8x32) And(y Int8x32) Int8x32 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX func (x Int16x8) And(y Int16x8) Int16x8 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX2 func (x Int16x16) And(y Int16x16) Int16x16 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX func (x Int32x4) And(y Int32x4) Int32x4 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX2 func (x Int32x8) And(y Int32x8) Int32x8 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDD, CPU Feature: AVX512EVEX func (x Int32x16) And(y Int32x16) Int32x16 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX func (x Int64x2) And(y Int64x2) Int64x2 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX2 func (x Int64x4) And(y Int64x4) Int64x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDQ, CPU Feature: AVX512EVEX func (x Int64x8) And(y Int64x8) Int64x8 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX func (x Uint8x16) And(y Uint8x16) Uint8x16 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX2 func (x Uint8x32) And(y Uint8x32) Uint8x32 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX func (x Uint16x8) And(y Uint16x8) Uint16x8 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX2 func (x Uint16x16) And(y Uint16x16) Uint16x16 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX func (x Uint32x4) And(y Uint32x4) Uint32x4 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX2 func (x Uint32x8) And(y Uint32x8) Uint32x8 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDD, CPU Feature: AVX512EVEX func (x Uint32x16) And(y Uint32x16) Uint32x16 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX func (x Uint64x2) And(y Uint64x2) Uint64x2 // And performs a bitwise AND operation between two vectors. // // Asm: VPAND, CPU Feature: AVX2 func (x Uint64x4) And(y Uint64x4) Uint64x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDQ, CPU Feature: AVX512EVEX func (x Uint64x8) And(y Uint64x8) Uint64x8 /* AndNot */ // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VANDNPS, CPU Feature: AVX func (x Float32x4) AndNot(y Float32x4) Float32x4 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VANDNPS, CPU Feature: AVX func (x Float32x8) AndNot(y Float32x8) Float32x8 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VANDNPS, CPU Feature: AVX512EVEX func (x Float32x16) AndNot(y Float32x16) Float32x16 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VANDNPD, CPU Feature: AVX func (x Float64x2) AndNot(y Float64x2) Float64x2 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VANDNPD, CPU Feature: AVX func (x Float64x4) AndNot(y Float64x4) Float64x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VANDNPD, CPU Feature: AVX512EVEX func (x Float64x8) AndNot(y Float64x8) Float64x8 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX func (x Int8x16) AndNot(y Int8x16) Int8x16 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX2 func (x Int8x32) AndNot(y Int8x32) Int8x32 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX func (x Int16x8) AndNot(y Int16x8) Int16x8 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX2 func (x Int16x16) AndNot(y Int16x16) Int16x16 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX func (x Int32x4) AndNot(y Int32x4) Int32x4 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX2 func (x Int32x8) AndNot(y Int32x8) Int32x8 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDND, CPU Feature: AVX512EVEX func (x Int32x16) AndNot(y Int32x16) Int32x16 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX func (x Int64x2) AndNot(y Int64x2) Int64x2 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX2 func (x Int64x4) AndNot(y Int64x4) Int64x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDNQ, CPU Feature: AVX512EVEX func (x Int64x8) AndNot(y Int64x8) Int64x8 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX func (x Uint8x16) AndNot(y Uint8x16) Uint8x16 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX2 func (x Uint8x32) AndNot(y Uint8x32) Uint8x32 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX func (x Uint16x8) AndNot(y Uint16x8) Uint16x8 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX2 func (x Uint16x16) AndNot(y Uint16x16) Uint16x16 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX func (x Uint32x4) AndNot(y Uint32x4) Uint32x4 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX2 func (x Uint32x8) AndNot(y Uint32x8) Uint32x8 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDND, CPU Feature: AVX512EVEX func (x Uint32x16) AndNot(y Uint32x16) Uint32x16 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX func (x Uint64x2) AndNot(y Uint64x2) Uint64x2 // AndNot performs a bitwise AND NOT operation between two vectors. // // Asm: VPANDN, CPU Feature: AVX2 func (x Uint64x4) AndNot(y Uint64x4) Uint64x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDNQ, CPU Feature: AVX512EVEX func (x Uint64x8) AndNot(y Uint64x8) Uint64x8 /* ApproximateReciprocal */ // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PS, CPU Feature: AVX512EVEX func (x Float32x4) ApproximateReciprocal() Float32x4 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PS, CPU Feature: AVX512EVEX func (x Float32x8) ApproximateReciprocal() Float32x8 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PS, CPU Feature: AVX512EVEX func (x Float32x16) ApproximateReciprocal() Float32x16 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PD, CPU Feature: AVX512EVEX func (x Float64x2) ApproximateReciprocal() Float64x2 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PD, CPU Feature: AVX512EVEX func (x Float64x4) ApproximateReciprocal() Float64x4 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PD, CPU Feature: AVX512EVEX func (x Float64x8) ApproximateReciprocal() Float64x8 /* ApproximateReciprocalOfSqrt */ // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRTPS, CPU Feature: AVX func (x Float32x4) ApproximateReciprocalOfSqrt() Float32x4 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRTPS, CPU Feature: AVX func (x Float32x8) ApproximateReciprocalOfSqrt() Float32x8 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PS, CPU Feature: AVX512EVEX func (x Float32x16) ApproximateReciprocalOfSqrt() Float32x16 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PD, CPU Feature: AVX512EVEX func (x Float64x2) ApproximateReciprocalOfSqrt() Float64x2 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PD, CPU Feature: AVX512EVEX func (x Float64x4) ApproximateReciprocalOfSqrt() Float64x4 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PD, CPU Feature: AVX512EVEX func (x Float64x8) ApproximateReciprocalOfSqrt() Float64x8 /* Average */ // Average computes the rounded average of corresponding elements. // // Asm: VPAVGB, CPU Feature: AVX func (x Uint8x16) Average(y Uint8x16) Uint8x16 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGB, CPU Feature: AVX2 func (x Uint8x32) Average(y Uint8x32) Uint8x32 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGB, CPU Feature: AVX512EVEX func (x Uint8x64) Average(y Uint8x64) Uint8x64 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGW, CPU Feature: AVX func (x Uint16x8) Average(y Uint16x8) Uint16x8 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGW, CPU Feature: AVX2 func (x Uint16x16) Average(y Uint16x16) Uint16x16 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGW, CPU Feature: AVX512EVEX func (x Uint16x32) Average(y Uint16x32) Uint16x32 /* Ceil */ // Ceil rounds elements up to the nearest integer. // Const Immediate = 2. // // Asm: VROUNDPS, CPU Feature: AVX func (x Float32x4) Ceil() Float32x4 // Ceil rounds elements up to the nearest integer. // Const Immediate = 2. // // Asm: VROUNDPS, CPU Feature: AVX func (x Float32x8) Ceil() Float32x8 // Ceil rounds elements up to the nearest integer. // Const Immediate = 2. // // Asm: VROUNDPD, CPU Feature: AVX func (x Float64x2) Ceil() Float64x2 // Ceil rounds elements up to the nearest integer. // Const Immediate = 2. // // Asm: VROUNDPD, CPU Feature: AVX func (x Float64x4) Ceil() Float64x4 /* CeilSuppressExceptionWithPrecision */ // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) CeilSuppressExceptionWithPrecision(imm8 uint8) Float32x4 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) CeilSuppressExceptionWithPrecision(imm8 uint8) Float32x8 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) CeilSuppressExceptionWithPrecision(imm8 uint8) Float32x16 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) CeilSuppressExceptionWithPrecision(imm8 uint8) Float64x2 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) CeilSuppressExceptionWithPrecision(imm8 uint8) Float64x4 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) CeilSuppressExceptionWithPrecision(imm8 uint8) Float64x8 /* CeilWithPrecision */ // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) CeilWithPrecision(imm8 uint8) Float32x4 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) CeilWithPrecision(imm8 uint8) Float32x8 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) CeilWithPrecision(imm8 uint8) Float32x16 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) CeilWithPrecision(imm8 uint8) Float64x2 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) CeilWithPrecision(imm8 uint8) Float64x4 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) CeilWithPrecision(imm8 uint8) Float64x8 /* DiffWithCeilSuppressExceptionWithPrecision */ // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) DiffWithCeilSuppressExceptionWithPrecision(imm8 uint8) Float32x4 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) DiffWithCeilSuppressExceptionWithPrecision(imm8 uint8) Float32x8 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) DiffWithCeilSuppressExceptionWithPrecision(imm8 uint8) Float32x16 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) DiffWithCeilSuppressExceptionWithPrecision(imm8 uint8) Float64x2 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) DiffWithCeilSuppressExceptionWithPrecision(imm8 uint8) Float64x4 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) DiffWithCeilSuppressExceptionWithPrecision(imm8 uint8) Float64x8 /* DiffWithCeilWithPrecision */ // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) DiffWithCeilWithPrecision(imm8 uint8) Float32x4 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) DiffWithCeilWithPrecision(imm8 uint8) Float32x8 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) DiffWithCeilWithPrecision(imm8 uint8) Float32x16 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) DiffWithCeilWithPrecision(imm8 uint8) Float64x2 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) DiffWithCeilWithPrecision(imm8 uint8) Float64x4 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) DiffWithCeilWithPrecision(imm8 uint8) Float64x8 /* DiffWithFloorSuppressExceptionWithPrecision */ // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) DiffWithFloorSuppressExceptionWithPrecision(imm8 uint8) Float32x4 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) DiffWithFloorSuppressExceptionWithPrecision(imm8 uint8) Float32x8 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) DiffWithFloorSuppressExceptionWithPrecision(imm8 uint8) Float32x16 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) DiffWithFloorSuppressExceptionWithPrecision(imm8 uint8) Float64x2 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) DiffWithFloorSuppressExceptionWithPrecision(imm8 uint8) Float64x4 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) DiffWithFloorSuppressExceptionWithPrecision(imm8 uint8) Float64x8 /* DiffWithFloorWithPrecision */ // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) DiffWithFloorWithPrecision(imm8 uint8) Float32x4 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) DiffWithFloorWithPrecision(imm8 uint8) Float32x8 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) DiffWithFloorWithPrecision(imm8 uint8) Float32x16 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) DiffWithFloorWithPrecision(imm8 uint8) Float64x2 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) DiffWithFloorWithPrecision(imm8 uint8) Float64x4 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) DiffWithFloorWithPrecision(imm8 uint8) Float64x8 /* DiffWithRoundSuppressExceptionWithPrecision */ // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) DiffWithRoundSuppressExceptionWithPrecision(imm8 uint8) Float32x4 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) DiffWithRoundSuppressExceptionWithPrecision(imm8 uint8) Float32x8 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) DiffWithRoundSuppressExceptionWithPrecision(imm8 uint8) Float32x16 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) DiffWithRoundSuppressExceptionWithPrecision(imm8 uint8) Float64x2 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) DiffWithRoundSuppressExceptionWithPrecision(imm8 uint8) Float64x4 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) DiffWithRoundSuppressExceptionWithPrecision(imm8 uint8) Float64x8 /* DiffWithRoundWithPrecision */ // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) DiffWithRoundWithPrecision(imm8 uint8) Float32x4 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) DiffWithRoundWithPrecision(imm8 uint8) Float32x8 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) DiffWithRoundWithPrecision(imm8 uint8) Float32x16 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) DiffWithRoundWithPrecision(imm8 uint8) Float64x2 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) DiffWithRoundWithPrecision(imm8 uint8) Float64x4 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) DiffWithRoundWithPrecision(imm8 uint8) Float64x8 /* DiffWithTruncSuppressExceptionWithPrecision */ // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) DiffWithTruncSuppressExceptionWithPrecision(imm8 uint8) Float32x4 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) DiffWithTruncSuppressExceptionWithPrecision(imm8 uint8) Float32x8 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) DiffWithTruncSuppressExceptionWithPrecision(imm8 uint8) Float32x16 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) DiffWithTruncSuppressExceptionWithPrecision(imm8 uint8) Float64x2 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) DiffWithTruncSuppressExceptionWithPrecision(imm8 uint8) Float64x4 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) DiffWithTruncSuppressExceptionWithPrecision(imm8 uint8) Float64x8 /* DiffWithTruncWithPrecision */ // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) DiffWithTruncWithPrecision(imm8 uint8) Float32x4 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) DiffWithTruncWithPrecision(imm8 uint8) Float32x8 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) DiffWithTruncWithPrecision(imm8 uint8) Float32x16 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) DiffWithTruncWithPrecision(imm8 uint8) Float64x2 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) DiffWithTruncWithPrecision(imm8 uint8) Float64x4 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) DiffWithTruncWithPrecision(imm8 uint8) Float64x8 /* Div */ // Div divides elements of two vectors. // // Asm: VDIVPS, CPU Feature: AVX func (x Float32x4) Div(y Float32x4) Float32x4 // Div divides elements of two vectors. // // Asm: VDIVPS, CPU Feature: AVX func (x Float32x8) Div(y Float32x8) Float32x8 // Div divides elements of two vectors. // // Asm: VDIVPS, CPU Feature: AVX512EVEX func (x Float32x16) Div(y Float32x16) Float32x16 // Div divides elements of two vectors. // // Asm: VDIVPD, CPU Feature: AVX func (x Float64x2) Div(y Float64x2) Float64x2 // Div divides elements of two vectors. // // Asm: VDIVPD, CPU Feature: AVX func (x Float64x4) Div(y Float64x4) Float64x4 // Div divides elements of two vectors. // // Asm: VDIVPD, CPU Feature: AVX512EVEX func (x Float64x8) Div(y Float64x8) Float64x8 /* DotProdBroadcast */ // DotProdBroadcast multiplies all elements and broadcasts the sum. // Const Immediate = 127. // // Asm: VDPPD, CPU Feature: AVX func (x Float64x2) DotProdBroadcast(y Float64x2) Float64x2 /* Equal */ // Equal compares for equality. // Const Immediate = 0. // // Asm: VPCMPEQB, CPU Feature: AVX func (x Int8x16) Equal(y Int8x16) Mask8x16 // Equal compares for equality. // Const Immediate = 0. // // Asm: VPCMPEQB, CPU Feature: AVX2 func (x Int8x32) Equal(y Int8x32) Mask8x32 // Equal compares for equality. // Const Immediate = 0. // // Asm: VPCMPEQW, CPU Feature: AVX func (x Int16x8) Equal(y Int16x8) Mask16x8 // Equal compares for equality. // Const Immediate = 0. // // Asm: VPCMPEQW, CPU Feature: AVX2 func (x Int16x16) Equal(y Int16x16) Mask16x16 // Equal compares for equality. // Const Immediate = 0. // // Asm: VPCMPEQD, CPU Feature: AVX func (x Int32x4) Equal(y Int32x4) Mask32x4 // Equal compares for equality. // Const Immediate = 0. // // Asm: VPCMPEQD, CPU Feature: AVX2 func (x Int32x8) Equal(y Int32x8) Mask32x8 // Equal compares for equality. // Const Immediate = 0. // // Asm: VPCMPEQQ, CPU Feature: AVX func (x Int64x2) Equal(y Int64x2) Mask64x2 // Equal compares for equality. // Const Immediate = 0. // // Asm: VPCMPEQQ, CPU Feature: AVX2 func (x Int64x4) Equal(y Int64x4) Mask64x4 // Equal compares for equality. // Const Immediate = 0. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x4) Equal(y Float32x4) Mask32x4 // Equal compares for equality. // Const Immediate = 0. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x8) Equal(y Float32x8) Mask32x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) Equal(y Float32x16) Mask32x16 // Equal compares for equality. // Const Immediate = 0. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x2) Equal(y Float64x2) Mask64x2 // Equal compares for equality. // Const Immediate = 0. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x4) Equal(y Float64x4) Mask64x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) Equal(y Float64x8) Mask64x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) Equal(y Int8x64) Mask8x64 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) Equal(y Int16x32) Mask16x32 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) Equal(y Int32x16) Mask32x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) Equal(y Int64x8) Mask64x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) Equal(y Uint8x16) Mask8x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) Equal(y Uint8x32) Mask8x32 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) Equal(y Uint8x64) Mask8x64 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) Equal(y Uint16x8) Mask16x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) Equal(y Uint16x16) Mask16x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) Equal(y Uint16x32) Mask16x32 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) Equal(y Uint32x4) Mask32x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) Equal(y Uint32x8) Mask32x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) Equal(y Uint32x16) Mask32x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) Equal(y Uint64x2) Mask64x2 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) Equal(y Uint64x4) Mask64x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) Equal(y Uint64x8) Mask64x8 /* Floor */ // Floor rounds elements down to the nearest integer. // Const Immediate = 1. // // Asm: VROUNDPS, CPU Feature: AVX func (x Float32x4) Floor() Float32x4 // Floor rounds elements down to the nearest integer. // Const Immediate = 1. // // Asm: VROUNDPS, CPU Feature: AVX func (x Float32x8) Floor() Float32x8 // Floor rounds elements down to the nearest integer. // Const Immediate = 1. // // Asm: VROUNDPD, CPU Feature: AVX func (x Float64x2) Floor() Float64x2 // Floor rounds elements down to the nearest integer. // Const Immediate = 1. // // Asm: VROUNDPD, CPU Feature: AVX func (x Float64x4) Floor() Float64x4 /* FloorSuppressExceptionWithPrecision */ // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) FloorSuppressExceptionWithPrecision(imm8 uint8) Float32x4 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) FloorSuppressExceptionWithPrecision(imm8 uint8) Float32x8 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) FloorSuppressExceptionWithPrecision(imm8 uint8) Float32x16 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) FloorSuppressExceptionWithPrecision(imm8 uint8) Float64x2 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) FloorSuppressExceptionWithPrecision(imm8 uint8) Float64x4 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) FloorSuppressExceptionWithPrecision(imm8 uint8) Float64x8 /* FloorWithPrecision */ // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) FloorWithPrecision(imm8 uint8) Float32x4 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) FloorWithPrecision(imm8 uint8) Float32x8 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) FloorWithPrecision(imm8 uint8) Float32x16 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) FloorWithPrecision(imm8 uint8) Float64x2 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) FloorWithPrecision(imm8 uint8) Float64x4 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) FloorWithPrecision(imm8 uint8) Float64x8 /* FusedMultiplyAdd */ // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PS, CPU Feature: AVX512EVEX func (x Float32x4) FusedMultiplyAdd(y Float32x4, z Float32x4) Float32x4 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PS, CPU Feature: AVX512EVEX func (x Float32x8) FusedMultiplyAdd(y Float32x8, z Float32x8) Float32x8 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PS, CPU Feature: AVX512EVEX func (x Float32x16) FusedMultiplyAdd(y Float32x16, z Float32x16) Float32x16 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PD, CPU Feature: AVX512EVEX func (x Float64x2) FusedMultiplyAdd(y Float64x2, z Float64x2) Float64x2 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PD, CPU Feature: AVX512EVEX func (x Float64x4) FusedMultiplyAdd(y Float64x4, z Float64x4) Float64x4 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PD, CPU Feature: AVX512EVEX func (x Float64x8) FusedMultiplyAdd(y Float64x8, z Float64x8) Float64x8 /* FusedMultiplyAddSub */ // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PS, CPU Feature: AVX512EVEX func (x Float32x4) FusedMultiplyAddSub(y Float32x4, z Float32x4) Float32x4 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PS, CPU Feature: AVX512EVEX func (x Float32x8) FusedMultiplyAddSub(y Float32x8, z Float32x8) Float32x8 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PS, CPU Feature: AVX512EVEX func (x Float32x16) FusedMultiplyAddSub(y Float32x16, z Float32x16) Float32x16 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PD, CPU Feature: AVX512EVEX func (x Float64x2) FusedMultiplyAddSub(y Float64x2, z Float64x2) Float64x2 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PD, CPU Feature: AVX512EVEX func (x Float64x4) FusedMultiplyAddSub(y Float64x4, z Float64x4) Float64x4 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PD, CPU Feature: AVX512EVEX func (x Float64x8) FusedMultiplyAddSub(y Float64x8, z Float64x8) Float64x8 /* FusedMultiplySubAdd */ // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PS, CPU Feature: AVX512EVEX func (x Float32x4) FusedMultiplySubAdd(y Float32x4, z Float32x4) Float32x4 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PS, CPU Feature: AVX512EVEX func (x Float32x8) FusedMultiplySubAdd(y Float32x8, z Float32x8) Float32x8 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PS, CPU Feature: AVX512EVEX func (x Float32x16) FusedMultiplySubAdd(y Float32x16, z Float32x16) Float32x16 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PD, CPU Feature: AVX512EVEX func (x Float64x2) FusedMultiplySubAdd(y Float64x2, z Float64x2) Float64x2 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PD, CPU Feature: AVX512EVEX func (x Float64x4) FusedMultiplySubAdd(y Float64x4, z Float64x4) Float64x4 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PD, CPU Feature: AVX512EVEX func (x Float64x8) FusedMultiplySubAdd(y Float64x8, z Float64x8) Float64x8 /* GetElem */ // GetElem retrieves a single constant-indexed element's value. // // Asm: VPEXTRB, CPU Feature: AVX512EVEX func (x Int8x16) GetElem(imm8 uint8) int8 // GetElem retrieves a single constant-indexed element's value. // // Asm: VPEXTRW, CPU Feature: AVX512EVEX func (x Int16x8) GetElem(imm8 uint8) int16 // GetElem retrieves a single constant-indexed element's value. // // Asm: VPEXTRD, CPU Feature: AVX func (x Int32x4) GetElem(imm8 uint8) int32 // GetElem retrieves a single constant-indexed element's value. // // Asm: VPEXTRQ, CPU Feature: AVX func (x Int64x2) GetElem(imm8 uint8) int64 // GetElem retrieves a single constant-indexed element's value. // // Asm: VPEXTRB, CPU Feature: AVX512EVEX func (x Uint8x16) GetElem(imm8 uint8) uint8 // GetElem retrieves a single constant-indexed element's value. // // Asm: VPEXTRW, CPU Feature: AVX512EVEX func (x Uint16x8) GetElem(imm8 uint8) uint16 // GetElem retrieves a single constant-indexed element's value. // // Asm: VPEXTRD, CPU Feature: AVX func (x Uint32x4) GetElem(imm8 uint8) uint32 // GetElem retrieves a single constant-indexed element's value. // // Asm: VPEXTRQ, CPU Feature: AVX func (x Uint64x2) GetElem(imm8 uint8) uint64 /* Greater */ // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPGTB, CPU Feature: AVX func (x Int8x16) Greater(y Int8x16) Mask8x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPGTB, CPU Feature: AVX2 func (x Int8x32) Greater(y Int8x32) Mask8x32 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPGTW, CPU Feature: AVX func (x Int16x8) Greater(y Int16x8) Mask16x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPGTW, CPU Feature: AVX2 func (x Int16x16) Greater(y Int16x16) Mask16x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPGTD, CPU Feature: AVX func (x Int32x4) Greater(y Int32x4) Mask32x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPGTD, CPU Feature: AVX2 func (x Int32x8) Greater(y Int32x8) Mask32x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPGTQ, CPU Feature: AVX2 func (x Int64x4) Greater(y Int64x4) Mask64x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x4) Greater(y Float32x4) Mask32x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x8) Greater(y Float32x8) Mask32x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) Greater(y Float32x16) Mask32x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x2) Greater(y Float64x2) Mask64x2 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x4) Greater(y Float64x4) Mask64x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) Greater(y Float64x8) Mask64x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) Greater(y Int8x64) Mask8x64 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) Greater(y Int16x32) Mask16x32 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) Greater(y Int32x16) Mask32x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) Greater(y Int64x2) Mask64x2 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) Greater(y Int64x8) Mask64x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) Greater(y Uint8x16) Mask8x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) Greater(y Uint8x32) Mask8x32 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) Greater(y Uint8x64) Mask8x64 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) Greater(y Uint16x8) Mask16x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) Greater(y Uint16x16) Mask16x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) Greater(y Uint16x32) Mask16x32 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) Greater(y Uint32x4) Mask32x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) Greater(y Uint32x8) Mask32x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) Greater(y Uint32x16) Mask32x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) Greater(y Uint64x2) Mask64x2 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) Greater(y Uint64x4) Mask64x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) Greater(y Uint64x8) Mask64x8 /* GreaterEqual */ // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x4) GreaterEqual(y Float32x4) Mask32x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x8) GreaterEqual(y Float32x8) Mask32x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) GreaterEqual(y Float32x16) Mask32x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x2) GreaterEqual(y Float64x2) Mask64x2 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x4) GreaterEqual(y Float64x4) Mask64x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) GreaterEqual(y Float64x8) Mask64x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) GreaterEqual(y Int8x16) Mask8x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) GreaterEqual(y Int8x32) Mask8x32 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) GreaterEqual(y Int8x64) Mask8x64 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) GreaterEqual(y Int16x8) Mask16x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) GreaterEqual(y Int16x16) Mask16x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) GreaterEqual(y Int16x32) Mask16x32 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) GreaterEqual(y Int32x4) Mask32x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) GreaterEqual(y Int32x8) Mask32x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) GreaterEqual(y Int32x16) Mask32x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) GreaterEqual(y Int64x2) Mask64x2 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) GreaterEqual(y Int64x4) Mask64x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) GreaterEqual(y Int64x8) Mask64x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) GreaterEqual(y Uint8x16) Mask8x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) GreaterEqual(y Uint8x32) Mask8x32 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) GreaterEqual(y Uint8x64) Mask8x64 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) GreaterEqual(y Uint16x8) Mask16x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) GreaterEqual(y Uint16x16) Mask16x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) GreaterEqual(y Uint16x32) Mask16x32 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) GreaterEqual(y Uint32x4) Mask32x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) GreaterEqual(y Uint32x8) Mask32x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) GreaterEqual(y Uint32x16) Mask32x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) GreaterEqual(y Uint64x2) Mask64x2 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) GreaterEqual(y Uint64x4) Mask64x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) GreaterEqual(y Uint64x8) Mask64x8 /* IsNan */ // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x4) IsNan(y Float32x4) Mask32x4 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x8) IsNan(y Float32x8) Mask32x8 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) IsNan(y Float32x16) Mask32x16 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x2) IsNan(y Float64x2) Mask64x2 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x4) IsNan(y Float64x4) Mask64x4 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) IsNan(y Float64x8) Mask64x8 /* Less */ // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x4) Less(y Float32x4) Mask32x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x8) Less(y Float32x8) Mask32x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) Less(y Float32x16) Mask32x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x2) Less(y Float64x2) Mask64x2 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x4) Less(y Float64x4) Mask64x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) Less(y Float64x8) Mask64x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) Less(y Int8x16) Mask8x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) Less(y Int8x32) Mask8x32 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) Less(y Int8x64) Mask8x64 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) Less(y Int16x8) Mask16x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) Less(y Int16x16) Mask16x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) Less(y Int16x32) Mask16x32 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) Less(y Int32x4) Mask32x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) Less(y Int32x8) Mask32x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) Less(y Int32x16) Mask32x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) Less(y Int64x2) Mask64x2 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) Less(y Int64x4) Mask64x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) Less(y Int64x8) Mask64x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) Less(y Uint8x16) Mask8x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) Less(y Uint8x32) Mask8x32 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) Less(y Uint8x64) Mask8x64 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) Less(y Uint16x8) Mask16x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) Less(y Uint16x16) Mask16x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) Less(y Uint16x32) Mask16x32 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) Less(y Uint32x4) Mask32x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) Less(y Uint32x8) Mask32x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) Less(y Uint32x16) Mask32x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) Less(y Uint64x2) Mask64x2 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) Less(y Uint64x4) Mask64x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) Less(y Uint64x8) Mask64x8 /* LessEqual */ // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x4) LessEqual(y Float32x4) Mask32x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x8) LessEqual(y Float32x8) Mask32x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) LessEqual(y Float32x16) Mask32x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x2) LessEqual(y Float64x2) Mask64x2 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x4) LessEqual(y Float64x4) Mask64x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) LessEqual(y Float64x8) Mask64x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) LessEqual(y Int8x16) Mask8x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) LessEqual(y Int8x32) Mask8x32 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) LessEqual(y Int8x64) Mask8x64 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) LessEqual(y Int16x8) Mask16x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) LessEqual(y Int16x16) Mask16x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) LessEqual(y Int16x32) Mask16x32 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) LessEqual(y Int32x4) Mask32x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) LessEqual(y Int32x8) Mask32x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) LessEqual(y Int32x16) Mask32x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) LessEqual(y Int64x2) Mask64x2 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) LessEqual(y Int64x4) Mask64x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) LessEqual(y Int64x8) Mask64x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) LessEqual(y Uint8x16) Mask8x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) LessEqual(y Uint8x32) Mask8x32 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) LessEqual(y Uint8x64) Mask8x64 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) LessEqual(y Uint16x8) Mask16x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) LessEqual(y Uint16x16) Mask16x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) LessEqual(y Uint16x32) Mask16x32 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) LessEqual(y Uint32x4) Mask32x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) LessEqual(y Uint32x8) Mask32x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) LessEqual(y Uint32x16) Mask32x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) LessEqual(y Uint64x2) Mask64x2 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) LessEqual(y Uint64x4) Mask64x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) LessEqual(y Uint64x8) Mask64x8 /* MaskedAbsolute */ // Absolute computes the absolute value of each element. // // Asm: VPABSB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedAbsolute(y Mask8x16) Int8x16 // Absolute computes the absolute value of each element. // // Asm: VPABSB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedAbsolute(y Mask8x32) Int8x32 // Absolute computes the absolute value of each element. // // Asm: VPABSB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedAbsolute(y Mask8x64) Int8x64 // Absolute computes the absolute value of each element. // // Asm: VPABSW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedAbsolute(y Mask16x8) Int16x8 // Absolute computes the absolute value of each element. // // Asm: VPABSW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedAbsolute(y Mask16x16) Int16x16 // Absolute computes the absolute value of each element. // // Asm: VPABSW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedAbsolute(y Mask16x32) Int16x32 // Absolute computes the absolute value of each element. // // Asm: VPABSD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedAbsolute(y Mask32x4) Int32x4 // Absolute computes the absolute value of each element. // // Asm: VPABSD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedAbsolute(y Mask32x8) Int32x8 // Absolute computes the absolute value of each element. // // Asm: VPABSD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedAbsolute(y Mask32x16) Int32x16 // Absolute computes the absolute value of each element. // // Asm: VPABSQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedAbsolute(y Mask64x2) Int64x2 // Absolute computes the absolute value of each element. // // Asm: VPABSQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedAbsolute(y Mask64x4) Int64x4 // Absolute computes the absolute value of each element. // // Asm: VPABSQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedAbsolute(y Mask64x8) Int64x8 /* MaskedAdd */ // Add adds corresponding elements of two vectors. // // Asm: VADDPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedAdd(y Float32x4, z Mask32x4) Float32x4 // Add adds corresponding elements of two vectors. // // Asm: VADDPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedAdd(y Float32x8, z Mask32x8) Float32x8 // Add adds corresponding elements of two vectors. // // Asm: VADDPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedAdd(y Float32x16, z Mask32x16) Float32x16 // Add adds corresponding elements of two vectors. // // Asm: VADDPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedAdd(y Float64x2, z Mask64x2) Float64x2 // Add adds corresponding elements of two vectors. // // Asm: VADDPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedAdd(y Float64x4, z Mask64x4) Float64x4 // Add adds corresponding elements of two vectors. // // Asm: VADDPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedAdd(y Float64x8, z Mask64x8) Float64x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedAdd(y Int8x16, z Mask8x16) Int8x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedAdd(y Int8x32, z Mask8x32) Int8x32 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedAdd(y Int8x64, z Mask8x64) Int8x64 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedAdd(y Int16x8, z Mask16x8) Int16x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedAdd(y Int16x16, z Mask16x16) Int16x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedAdd(y Int16x32, z Mask16x32) Int16x32 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedAdd(y Int32x4, z Mask32x4) Int32x4 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedAdd(y Int32x8, z Mask32x8) Int32x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedAdd(y Int32x16, z Mask32x16) Int32x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedAdd(y Int64x2, z Mask64x2) Int64x2 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedAdd(y Int64x4, z Mask64x4) Int64x4 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedAdd(y Int64x8, z Mask64x8) Int64x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedAdd(y Uint8x16, z Mask8x16) Uint8x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedAdd(y Uint8x32, z Mask8x32) Uint8x32 // Add adds corresponding elements of two vectors. // // Asm: VPADDB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedAdd(y Uint8x64, z Mask8x64) Uint8x64 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedAdd(y Uint16x8, z Mask16x8) Uint16x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedAdd(y Uint16x16, z Mask16x16) Uint16x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedAdd(y Uint16x32, z Mask16x32) Uint16x32 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedAdd(y Uint32x4, z Mask32x4) Uint32x4 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedAdd(y Uint32x8, z Mask32x8) Uint32x8 // Add adds corresponding elements of two vectors. // // Asm: VPADDD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedAdd(y Uint32x16, z Mask32x16) Uint32x16 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedAdd(y Uint64x2, z Mask64x2) Uint64x2 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedAdd(y Uint64x4, z Mask64x4) Uint64x4 // Add adds corresponding elements of two vectors. // // Asm: VPADDQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedAdd(y Uint64x8, z Mask64x8) Uint64x8 /* MaskedAnd */ // And performs a masked bitwise AND operation between two vectors. // // Asm: VANDPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedAnd(y Float32x4, z Mask32x4) Float32x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VANDPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedAnd(y Float32x8, z Mask32x8) Float32x8 // And performs a masked bitwise AND operation between two vectors. // // Asm: VANDPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedAnd(y Float32x16, z Mask32x16) Float32x16 // And performs a masked bitwise AND operation between two vectors. // // Asm: VANDPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedAnd(y Float64x2, z Mask64x2) Float64x2 // And performs a masked bitwise AND operation between two vectors. // // Asm: VANDPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedAnd(y Float64x4, z Mask64x4) Float64x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VANDPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedAnd(y Float64x8, z Mask64x8) Float64x8 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedAnd(y Int32x4, z Mask32x4) Int32x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedAnd(y Int32x8, z Mask32x8) Int32x8 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedAnd(y Int32x16, z Mask32x16) Int32x16 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedAnd(y Int64x2, z Mask64x2) Int64x2 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedAnd(y Int64x4, z Mask64x4) Int64x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedAnd(y Int64x8, z Mask64x8) Int64x8 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedAnd(y Uint32x4, z Mask32x4) Uint32x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedAnd(y Uint32x8, z Mask32x8) Uint32x8 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedAnd(y Uint32x16, z Mask32x16) Uint32x16 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedAnd(y Uint64x2, z Mask64x2) Uint64x2 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedAnd(y Uint64x4, z Mask64x4) Uint64x4 // And performs a masked bitwise AND operation between two vectors. // // Asm: VPANDQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedAnd(y Uint64x8, z Mask64x8) Uint64x8 /* MaskedAndNot */ // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VANDNPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedAndNot(y Float32x4, z Mask32x4) Float32x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VANDNPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedAndNot(y Float32x8, z Mask32x8) Float32x8 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VANDNPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedAndNot(y Float32x16, z Mask32x16) Float32x16 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VANDNPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedAndNot(y Float64x2, z Mask64x2) Float64x2 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VANDNPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedAndNot(y Float64x4, z Mask64x4) Float64x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VANDNPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedAndNot(y Float64x8, z Mask64x8) Float64x8 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDND, CPU Feature: AVX512EVEX func (x Int32x4) MaskedAndNot(y Int32x4, z Mask32x4) Int32x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDND, CPU Feature: AVX512EVEX func (x Int32x8) MaskedAndNot(y Int32x8, z Mask32x8) Int32x8 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDND, CPU Feature: AVX512EVEX func (x Int32x16) MaskedAndNot(y Int32x16, z Mask32x16) Int32x16 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDNQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedAndNot(y Int64x2, z Mask64x2) Int64x2 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDNQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedAndNot(y Int64x4, z Mask64x4) Int64x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDNQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedAndNot(y Int64x8, z Mask64x8) Int64x8 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDND, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedAndNot(y Uint32x4, z Mask32x4) Uint32x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDND, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedAndNot(y Uint32x8, z Mask32x8) Uint32x8 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDND, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedAndNot(y Uint32x16, z Mask32x16) Uint32x16 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDNQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedAndNot(y Uint64x2, z Mask64x2) Uint64x2 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDNQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedAndNot(y Uint64x4, z Mask64x4) Uint64x4 // AndNot performs a masked bitwise AND NOT operation between two vectors. // // Asm: VPANDNQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedAndNot(y Uint64x8, z Mask64x8) Uint64x8 /* MaskedApproximateReciprocal */ // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedApproximateReciprocal(y Mask32x4) Float32x4 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedApproximateReciprocal(y Mask32x8) Float32x8 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedApproximateReciprocal(y Mask32x16) Float32x16 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedApproximateReciprocal(y Mask64x2) Float64x2 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedApproximateReciprocal(y Mask64x4) Float64x4 // ApproximateReciprocal computes an approximate reciprocal of each element. // // Asm: VRCP14PD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedApproximateReciprocal(y Mask64x8) Float64x8 /* MaskedApproximateReciprocalOfSqrt */ // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedApproximateReciprocalOfSqrt(y Mask32x4) Float32x4 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedApproximateReciprocalOfSqrt(y Mask32x8) Float32x8 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedApproximateReciprocalOfSqrt(y Mask32x16) Float32x16 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedApproximateReciprocalOfSqrt(y Mask64x2) Float64x2 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedApproximateReciprocalOfSqrt(y Mask64x4) Float64x4 // ApproximateReciprocalOfSqrt computes an approximate reciprocal of the square root of each element. // // Asm: VRSQRT14PD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedApproximateReciprocalOfSqrt(y Mask64x8) Float64x8 /* MaskedAverage */ // Average computes the rounded average of corresponding elements. // // Asm: VPAVGB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedAverage(y Uint8x16, z Mask8x16) Uint8x16 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedAverage(y Uint8x32, z Mask8x32) Uint8x32 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedAverage(y Uint8x64, z Mask8x64) Uint8x64 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedAverage(y Uint16x8, z Mask16x8) Uint16x8 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedAverage(y Uint16x16, z Mask16x16) Uint16x16 // Average computes the rounded average of corresponding elements. // // Asm: VPAVGW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedAverage(y Uint16x32, z Mask16x32) Uint16x32 /* MaskedCeilSuppressExceptionWithPrecision */ // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedCeilSuppressExceptionWithPrecision(imm uint8, y Mask32x4) Float32x4 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedCeilSuppressExceptionWithPrecision(imm uint8, y Mask32x8) Float32x8 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedCeilSuppressExceptionWithPrecision(imm uint8, y Mask32x16) Float32x16 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedCeilSuppressExceptionWithPrecision(imm uint8, y Mask64x2) Float64x2 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedCeilSuppressExceptionWithPrecision(imm uint8, y Mask64x4) Float64x4 // CeilSuppressExceptionWithPrecision rounds elements up with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedCeilSuppressExceptionWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedCeilWithPrecision */ // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedCeilWithPrecision(imm uint8, y Mask32x4) Float32x4 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedCeilWithPrecision(imm uint8, y Mask32x8) Float32x8 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedCeilWithPrecision(imm uint8, y Mask32x16) Float32x16 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedCeilWithPrecision(imm uint8, y Mask64x2) Float64x2 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedCeilWithPrecision(imm uint8, y Mask64x4) Float64x4 // CeilWithPrecision rounds elements up with specified precision, masked. // Const Immediate = 2. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedCeilWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiffWithCeilSuppressExceptionWithPrecision */ // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiffWithCeilSuppressExceptionWithPrecision(imm uint8, y Mask32x4) Float32x4 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiffWithCeilSuppressExceptionWithPrecision(imm uint8, y Mask32x8) Float32x8 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiffWithCeilSuppressExceptionWithPrecision(imm uint8, y Mask32x16) Float32x16 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiffWithCeilSuppressExceptionWithPrecision(imm uint8, y Mask64x2) Float64x2 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiffWithCeilSuppressExceptionWithPrecision(imm uint8, y Mask64x4) Float64x4 // DiffWithCeilSuppressExceptionWithPrecision computes the difference after ceiling with specified precision, suppressing exceptions. // Const Immediate = 10. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiffWithCeilSuppressExceptionWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiffWithCeilWithPrecision */ // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiffWithCeilWithPrecision(imm uint8, y Mask32x4) Float32x4 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiffWithCeilWithPrecision(imm uint8, y Mask32x8) Float32x8 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiffWithCeilWithPrecision(imm uint8, y Mask32x16) Float32x16 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiffWithCeilWithPrecision(imm uint8, y Mask64x2) Float64x2 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiffWithCeilWithPrecision(imm uint8, y Mask64x4) Float64x4 // DiffWithCeilWithPrecision computes the difference after ceiling with specified precision. // Const Immediate = 2. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiffWithCeilWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiffWithFloorSuppressExceptionWithPrecision */ // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiffWithFloorSuppressExceptionWithPrecision(imm uint8, y Mask32x4) Float32x4 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiffWithFloorSuppressExceptionWithPrecision(imm uint8, y Mask32x8) Float32x8 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiffWithFloorSuppressExceptionWithPrecision(imm uint8, y Mask32x16) Float32x16 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiffWithFloorSuppressExceptionWithPrecision(imm uint8, y Mask64x2) Float64x2 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiffWithFloorSuppressExceptionWithPrecision(imm uint8, y Mask64x4) Float64x4 // DiffWithFloorSuppressExceptionWithPrecision computes the difference after flooring with specified precision, suppressing exceptions. // Const Immediate = 9. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiffWithFloorSuppressExceptionWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiffWithFloorWithPrecision */ // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiffWithFloorWithPrecision(imm uint8, y Mask32x4) Float32x4 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiffWithFloorWithPrecision(imm uint8, y Mask32x8) Float32x8 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiffWithFloorWithPrecision(imm uint8, y Mask32x16) Float32x16 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiffWithFloorWithPrecision(imm uint8, y Mask64x2) Float64x2 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiffWithFloorWithPrecision(imm uint8, y Mask64x4) Float64x4 // DiffWithFloorWithPrecision computes the difference after flooring with specified precision. // Const Immediate = 1. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiffWithFloorWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiffWithRoundSuppressExceptionWithPrecision */ // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiffWithRoundSuppressExceptionWithPrecision(imm uint8, y Mask32x4) Float32x4 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiffWithRoundSuppressExceptionWithPrecision(imm uint8, y Mask32x8) Float32x8 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiffWithRoundSuppressExceptionWithPrecision(imm uint8, y Mask32x16) Float32x16 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiffWithRoundSuppressExceptionWithPrecision(imm uint8, y Mask64x2) Float64x2 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiffWithRoundSuppressExceptionWithPrecision(imm uint8, y Mask64x4) Float64x4 // DiffWithRoundSuppressExceptionWithPrecision computes the difference after rounding with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiffWithRoundSuppressExceptionWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiffWithRoundWithPrecision */ // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiffWithRoundWithPrecision(imm uint8, y Mask32x4) Float32x4 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiffWithRoundWithPrecision(imm uint8, y Mask32x8) Float32x8 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiffWithRoundWithPrecision(imm uint8, y Mask32x16) Float32x16 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiffWithRoundWithPrecision(imm uint8, y Mask64x2) Float64x2 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiffWithRoundWithPrecision(imm uint8, y Mask64x4) Float64x4 // DiffWithRoundWithPrecision computes the difference after rounding with specified precision. // Const Immediate = 0. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiffWithRoundWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiffWithTruncSuppressExceptionWithPrecision */ // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiffWithTruncSuppressExceptionWithPrecision(imm uint8, y Mask32x4) Float32x4 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiffWithTruncSuppressExceptionWithPrecision(imm uint8, y Mask32x8) Float32x8 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiffWithTruncSuppressExceptionWithPrecision(imm uint8, y Mask32x16) Float32x16 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiffWithTruncSuppressExceptionWithPrecision(imm uint8, y Mask64x2) Float64x2 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiffWithTruncSuppressExceptionWithPrecision(imm uint8, y Mask64x4) Float64x4 // DiffWithTruncSuppressExceptionWithPrecision computes the difference after truncating with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiffWithTruncSuppressExceptionWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiffWithTruncWithPrecision */ // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiffWithTruncWithPrecision(imm uint8, y Mask32x4) Float32x4 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiffWithTruncWithPrecision(imm uint8, y Mask32x8) Float32x8 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiffWithTruncWithPrecision(imm uint8, y Mask32x16) Float32x16 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiffWithTruncWithPrecision(imm uint8, y Mask64x2) Float64x2 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiffWithTruncWithPrecision(imm uint8, y Mask64x4) Float64x4 // DiffWithTruncWithPrecision computes the difference after truncating with specified precision. // Const Immediate = 3. // // Asm: VREDUCEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiffWithTruncWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedDiv */ // Div divides elements of two vectors. // // Asm: VDIVPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedDiv(y Float32x4, z Mask32x4) Float32x4 // Div divides elements of two vectors. // // Asm: VDIVPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedDiv(y Float32x8, z Mask32x8) Float32x8 // Div divides elements of two vectors. // // Asm: VDIVPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedDiv(y Float32x16, z Mask32x16) Float32x16 // Div divides elements of two vectors. // // Asm: VDIVPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedDiv(y Float64x2, z Mask64x2) Float64x2 // Div divides elements of two vectors. // // Asm: VDIVPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedDiv(y Float64x4, z Mask64x4) Float64x4 // Div divides elements of two vectors. // // Asm: VDIVPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedDiv(y Float64x8, z Mask64x8) Float64x8 /* MaskedEqual */ // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedEqual(y Float32x4, z Mask32x4) Mask32x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedEqual(y Float32x8, z Mask32x8) Mask32x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedEqual(y Float32x16, z Mask32x16) Mask32x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedEqual(y Float64x2, z Mask64x2) Mask64x2 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedEqual(y Float64x4, z Mask64x4) Mask64x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedEqual(y Float64x8, z Mask64x8) Mask64x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedEqual(y Int8x16, z Mask8x16) Mask8x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedEqual(y Int8x32, z Mask8x32) Mask8x32 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedEqual(y Int8x64, z Mask8x64) Mask8x64 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedEqual(y Int16x8, z Mask16x8) Mask16x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedEqual(y Int16x16, z Mask16x16) Mask16x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedEqual(y Int16x32, z Mask16x32) Mask16x32 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedEqual(y Int32x4, z Mask32x4) Mask32x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedEqual(y Int32x8, z Mask32x8) Mask32x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedEqual(y Int32x16, z Mask32x16) Mask32x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedEqual(y Int64x2, z Mask64x2) Mask64x2 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedEqual(y Int64x4, z Mask64x4) Mask64x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedEqual(y Int64x8, z Mask64x8) Mask64x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedEqual(y Uint8x16, z Mask8x16) Mask8x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedEqual(y Uint8x32, z Mask8x32) Mask8x32 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedEqual(y Uint8x64, z Mask8x64) Mask8x64 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedEqual(y Uint16x8, z Mask16x8) Mask16x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedEqual(y Uint16x16, z Mask16x16) Mask16x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedEqual(y Uint16x32, z Mask16x32) Mask16x32 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedEqual(y Uint32x4, z Mask32x4) Mask32x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedEqual(y Uint32x8, z Mask32x8) Mask32x8 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedEqual(y Uint32x16, z Mask32x16) Mask32x16 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedEqual(y Uint64x2, z Mask64x2) Mask64x2 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedEqual(y Uint64x4, z Mask64x4) Mask64x4 // Equal compares for equality, masked. // Const Immediate = 0. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedEqual(y Uint64x8, z Mask64x8) Mask64x8 /* MaskedFloorSuppressExceptionWithPrecision */ // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedFloorSuppressExceptionWithPrecision(imm uint8, y Mask32x4) Float32x4 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedFloorSuppressExceptionWithPrecision(imm uint8, y Mask32x8) Float32x8 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedFloorSuppressExceptionWithPrecision(imm uint8, y Mask32x16) Float32x16 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedFloorSuppressExceptionWithPrecision(imm uint8, y Mask64x2) Float64x2 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedFloorSuppressExceptionWithPrecision(imm uint8, y Mask64x4) Float64x4 // FloorSuppressExceptionWithPrecision rounds elements down with specified precision, suppressing exceptions, masked. // Const Immediate = 9. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedFloorSuppressExceptionWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedFloorWithPrecision */ // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedFloorWithPrecision(imm uint8, y Mask32x4) Float32x4 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedFloorWithPrecision(imm uint8, y Mask32x8) Float32x8 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedFloorWithPrecision(imm uint8, y Mask32x16) Float32x16 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedFloorWithPrecision(imm uint8, y Mask64x2) Float64x2 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedFloorWithPrecision(imm uint8, y Mask64x4) Float64x4 // FloorWithPrecision rounds elements down with specified precision, masked. // Const Immediate = 1. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedFloorWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedFusedMultiplyAdd */ // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedFusedMultiplyAdd(y Float32x4, z Float32x4, u Mask32x4) Float32x4 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedFusedMultiplyAdd(y Float32x8, z Float32x8, u Mask32x8) Float32x8 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedFusedMultiplyAdd(y Float32x16, z Float32x16, u Mask32x16) Float32x16 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedFusedMultiplyAdd(y Float64x2, z Float64x2, u Mask64x2) Float64x2 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedFusedMultiplyAdd(y Float64x4, z Float64x4, u Mask64x4) Float64x4 // FusedMultiplyAdd performs `(v1 * v2) + v3`. // // Asm: VFMADD213PD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedFusedMultiplyAdd(y Float64x8, z Float64x8, u Mask64x8) Float64x8 /* MaskedFusedMultiplyAddSub */ // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedFusedMultiplyAddSub(y Float32x4, z Float32x4, u Mask32x4) Float32x4 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedFusedMultiplyAddSub(y Float32x8, z Float32x8, u Mask32x8) Float32x8 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedFusedMultiplyAddSub(y Float32x16, z Float32x16, u Mask32x16) Float32x16 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedFusedMultiplyAddSub(y Float64x2, z Float64x2, u Mask64x2) Float64x2 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedFusedMultiplyAddSub(y Float64x4, z Float64x4, u Mask64x4) Float64x4 // FusedMultiplyAddSub performs `(v1 * v2) - v3` for odd-indexed elements, and `(v1 * v2) + v3` for even-indexed elements. // // Asm: VFMADDSUB213PD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedFusedMultiplyAddSub(y Float64x8, z Float64x8, u Mask64x8) Float64x8 /* MaskedFusedMultiplySubAdd */ // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedFusedMultiplySubAdd(y Float32x4, z Float32x4, u Mask32x4) Float32x4 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedFusedMultiplySubAdd(y Float32x8, z Float32x8, u Mask32x8) Float32x8 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedFusedMultiplySubAdd(y Float32x16, z Float32x16, u Mask32x16) Float32x16 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedFusedMultiplySubAdd(y Float64x2, z Float64x2, u Mask64x2) Float64x2 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedFusedMultiplySubAdd(y Float64x4, z Float64x4, u Mask64x4) Float64x4 // FusedMultiplySubAdd performs `(v1 * v2) + v3` for odd-indexed elements, and `(v1 * v2) - v3` for even-indexed elements. // // Asm: VFMSUBADD213PD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedFusedMultiplySubAdd(y Float64x8, z Float64x8, u Mask64x8) Float64x8 /* MaskedGreater */ // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedGreater(y Float32x4, z Mask32x4) Mask32x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedGreater(y Float32x8, z Mask32x8) Mask32x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedGreater(y Float32x16, z Mask32x16) Mask32x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedGreater(y Float64x2, z Mask64x2) Mask64x2 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedGreater(y Float64x4, z Mask64x4) Mask64x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedGreater(y Float64x8, z Mask64x8) Mask64x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedGreater(y Int8x16, z Mask8x16) Mask8x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedGreater(y Int8x32, z Mask8x32) Mask8x32 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedGreater(y Int8x64, z Mask8x64) Mask8x64 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedGreater(y Int16x8, z Mask16x8) Mask16x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedGreater(y Int16x16, z Mask16x16) Mask16x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedGreater(y Int16x32, z Mask16x32) Mask16x32 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedGreater(y Int32x4, z Mask32x4) Mask32x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedGreater(y Int32x8, z Mask32x8) Mask32x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedGreater(y Int32x16, z Mask32x16) Mask32x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedGreater(y Int64x2, z Mask64x2) Mask64x2 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedGreater(y Int64x4, z Mask64x4) Mask64x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedGreater(y Int64x8, z Mask64x8) Mask64x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedGreater(y Uint8x16, z Mask8x16) Mask8x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedGreater(y Uint8x32, z Mask8x32) Mask8x32 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedGreater(y Uint8x64, z Mask8x64) Mask8x64 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedGreater(y Uint16x8, z Mask16x8) Mask16x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedGreater(y Uint16x16, z Mask16x16) Mask16x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedGreater(y Uint16x32, z Mask16x32) Mask16x32 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedGreater(y Uint32x4, z Mask32x4) Mask32x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedGreater(y Uint32x8, z Mask32x8) Mask32x8 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedGreater(y Uint32x16, z Mask32x16) Mask32x16 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedGreater(y Uint64x2, z Mask64x2) Mask64x2 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedGreater(y Uint64x4, z Mask64x4) Mask64x4 // Greater compares for greater than. // Const Immediate = 6. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedGreater(y Uint64x8, z Mask64x8) Mask64x8 /* MaskedGreaterEqual */ // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedGreaterEqual(y Float32x4, z Mask32x4) Mask32x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedGreaterEqual(y Float32x8, z Mask32x8) Mask32x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedGreaterEqual(y Float32x16, z Mask32x16) Mask32x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedGreaterEqual(y Float64x2, z Mask64x2) Mask64x2 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedGreaterEqual(y Float64x4, z Mask64x4) Mask64x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedGreaterEqual(y Float64x8, z Mask64x8) Mask64x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedGreaterEqual(y Int8x16, z Mask8x16) Mask8x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedGreaterEqual(y Int8x32, z Mask8x32) Mask8x32 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedGreaterEqual(y Int8x64, z Mask8x64) Mask8x64 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedGreaterEqual(y Int16x8, z Mask16x8) Mask16x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedGreaterEqual(y Int16x16, z Mask16x16) Mask16x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedGreaterEqual(y Int16x32, z Mask16x32) Mask16x32 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedGreaterEqual(y Int32x4, z Mask32x4) Mask32x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedGreaterEqual(y Int32x8, z Mask32x8) Mask32x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedGreaterEqual(y Int32x16, z Mask32x16) Mask32x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedGreaterEqual(y Int64x2, z Mask64x2) Mask64x2 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedGreaterEqual(y Int64x4, z Mask64x4) Mask64x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedGreaterEqual(y Int64x8, z Mask64x8) Mask64x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedGreaterEqual(y Uint8x16, z Mask8x16) Mask8x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedGreaterEqual(y Uint8x32, z Mask8x32) Mask8x32 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedGreaterEqual(y Uint8x64, z Mask8x64) Mask8x64 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedGreaterEqual(y Uint16x8, z Mask16x8) Mask16x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedGreaterEqual(y Uint16x16, z Mask16x16) Mask16x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedGreaterEqual(y Uint16x32, z Mask16x32) Mask16x32 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedGreaterEqual(y Uint32x4, z Mask32x4) Mask32x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedGreaterEqual(y Uint32x8, z Mask32x8) Mask32x8 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedGreaterEqual(y Uint32x16, z Mask32x16) Mask32x16 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedGreaterEqual(y Uint64x2, z Mask64x2) Mask64x2 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedGreaterEqual(y Uint64x4, z Mask64x4) Mask64x4 // GreaterEqual compares for greater than or equal. // Const Immediate = 5. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedGreaterEqual(y Uint64x8, z Mask64x8) Mask64x8 /* MaskedIsNan */ // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedIsNan(y Float32x4, z Mask32x4) Mask32x4 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedIsNan(y Float32x8, z Mask32x8) Mask32x8 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedIsNan(y Float32x16, z Mask32x16) Mask32x16 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedIsNan(y Float64x2, z Mask64x2) Mask64x2 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedIsNan(y Float64x4, z Mask64x4) Mask64x4 // IsNan checks if elements are NaN. Use as x.IsNan(x). // Const Immediate = 3. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedIsNan(y Float64x8, z Mask64x8) Mask64x8 /* MaskedLess */ // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedLess(y Float32x4, z Mask32x4) Mask32x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedLess(y Float32x8, z Mask32x8) Mask32x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedLess(y Float32x16, z Mask32x16) Mask32x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedLess(y Float64x2, z Mask64x2) Mask64x2 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedLess(y Float64x4, z Mask64x4) Mask64x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedLess(y Float64x8, z Mask64x8) Mask64x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedLess(y Int8x16, z Mask8x16) Mask8x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedLess(y Int8x32, z Mask8x32) Mask8x32 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedLess(y Int8x64, z Mask8x64) Mask8x64 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedLess(y Int16x8, z Mask16x8) Mask16x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedLess(y Int16x16, z Mask16x16) Mask16x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedLess(y Int16x32, z Mask16x32) Mask16x32 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedLess(y Int32x4, z Mask32x4) Mask32x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedLess(y Int32x8, z Mask32x8) Mask32x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedLess(y Int32x16, z Mask32x16) Mask32x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedLess(y Int64x2, z Mask64x2) Mask64x2 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedLess(y Int64x4, z Mask64x4) Mask64x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedLess(y Int64x8, z Mask64x8) Mask64x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedLess(y Uint8x16, z Mask8x16) Mask8x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedLess(y Uint8x32, z Mask8x32) Mask8x32 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedLess(y Uint8x64, z Mask8x64) Mask8x64 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedLess(y Uint16x8, z Mask16x8) Mask16x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedLess(y Uint16x16, z Mask16x16) Mask16x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedLess(y Uint16x32, z Mask16x32) Mask16x32 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedLess(y Uint32x4, z Mask32x4) Mask32x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedLess(y Uint32x8, z Mask32x8) Mask32x8 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedLess(y Uint32x16, z Mask32x16) Mask32x16 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedLess(y Uint64x2, z Mask64x2) Mask64x2 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedLess(y Uint64x4, z Mask64x4) Mask64x4 // Less compares for less than. // Const Immediate = 1. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedLess(y Uint64x8, z Mask64x8) Mask64x8 /* MaskedLessEqual */ // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedLessEqual(y Float32x4, z Mask32x4) Mask32x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedLessEqual(y Float32x8, z Mask32x8) Mask32x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedLessEqual(y Float32x16, z Mask32x16) Mask32x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedLessEqual(y Float64x2, z Mask64x2) Mask64x2 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedLessEqual(y Float64x4, z Mask64x4) Mask64x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedLessEqual(y Float64x8, z Mask64x8) Mask64x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedLessEqual(y Int8x16, z Mask8x16) Mask8x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedLessEqual(y Int8x32, z Mask8x32) Mask8x32 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedLessEqual(y Int8x64, z Mask8x64) Mask8x64 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedLessEqual(y Int16x8, z Mask16x8) Mask16x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedLessEqual(y Int16x16, z Mask16x16) Mask16x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedLessEqual(y Int16x32, z Mask16x32) Mask16x32 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedLessEqual(y Int32x4, z Mask32x4) Mask32x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedLessEqual(y Int32x8, z Mask32x8) Mask32x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedLessEqual(y Int32x16, z Mask32x16) Mask32x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedLessEqual(y Int64x2, z Mask64x2) Mask64x2 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedLessEqual(y Int64x4, z Mask64x4) Mask64x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedLessEqual(y Int64x8, z Mask64x8) Mask64x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedLessEqual(y Uint8x16, z Mask8x16) Mask8x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedLessEqual(y Uint8x32, z Mask8x32) Mask8x32 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedLessEqual(y Uint8x64, z Mask8x64) Mask8x64 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedLessEqual(y Uint16x8, z Mask16x8) Mask16x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedLessEqual(y Uint16x16, z Mask16x16) Mask16x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedLessEqual(y Uint16x32, z Mask16x32) Mask16x32 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedLessEqual(y Uint32x4, z Mask32x4) Mask32x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedLessEqual(y Uint32x8, z Mask32x8) Mask32x8 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedLessEqual(y Uint32x16, z Mask32x16) Mask32x16 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedLessEqual(y Uint64x2, z Mask64x2) Mask64x2 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedLessEqual(y Uint64x4, z Mask64x4) Mask64x4 // LessEqual compares for less than or equal. // Const Immediate = 2. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedLessEqual(y Uint64x8, z Mask64x8) Mask64x8 /* MaskedMax */ // Max computes the maximum of corresponding elements. // // Asm: VMAXPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedMax(y Float32x4, z Mask32x4) Float32x4 // Max computes the maximum of corresponding elements. // // Asm: VMAXPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedMax(y Float32x8, z Mask32x8) Float32x8 // Max computes the maximum of corresponding elements. // // Asm: VMAXPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedMax(y Float32x16, z Mask32x16) Float32x16 // Max computes the maximum of corresponding elements. // // Asm: VMAXPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedMax(y Float64x2, z Mask64x2) Float64x2 // Max computes the maximum of corresponding elements. // // Asm: VMAXPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedMax(y Float64x4, z Mask64x4) Float64x4 // Max computes the maximum of corresponding elements. // // Asm: VMAXPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedMax(y Float64x8, z Mask64x8) Float64x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedMax(y Int8x16, z Mask8x16) Int8x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedMax(y Int8x32, z Mask8x32) Int8x32 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedMax(y Int8x64, z Mask8x64) Int8x64 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedMax(y Int16x8, z Mask16x8) Int16x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedMax(y Int16x16, z Mask16x16) Int16x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedMax(y Int16x32, z Mask16x32) Int16x32 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedMax(y Int32x4, z Mask32x4) Int32x4 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedMax(y Int32x8, z Mask32x8) Int32x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedMax(y Int32x16, z Mask32x16) Int32x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedMax(y Int64x2, z Mask64x2) Int64x2 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedMax(y Int64x4, z Mask64x4) Int64x4 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedMax(y Int64x8, z Mask64x8) Int64x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedMax(y Uint8x16, z Mask8x16) Uint8x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedMax(y Uint8x32, z Mask8x32) Uint8x32 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedMax(y Uint8x64, z Mask8x64) Uint8x64 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedMax(y Uint16x8, z Mask16x8) Uint16x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedMax(y Uint16x16, z Mask16x16) Uint16x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedMax(y Uint16x32, z Mask16x32) Uint16x32 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedMax(y Uint32x4, z Mask32x4) Uint32x4 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedMax(y Uint32x8, z Mask32x8) Uint32x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedMax(y Uint32x16, z Mask32x16) Uint32x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedMax(y Uint64x2, z Mask64x2) Uint64x2 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedMax(y Uint64x4, z Mask64x4) Uint64x4 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedMax(y Uint64x8, z Mask64x8) Uint64x8 /* MaskedMin */ // Min computes the minimum of corresponding elements. // // Asm: VMINPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedMin(y Float32x4, z Mask32x4) Float32x4 // Min computes the minimum of corresponding elements. // // Asm: VMINPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedMin(y Float32x8, z Mask32x8) Float32x8 // Min computes the minimum of corresponding elements. // // Asm: VMINPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedMin(y Float32x16, z Mask32x16) Float32x16 // Min computes the minimum of corresponding elements. // // Asm: VMINPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedMin(y Float64x2, z Mask64x2) Float64x2 // Min computes the minimum of corresponding elements. // // Asm: VMINPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedMin(y Float64x4, z Mask64x4) Float64x4 // Min computes the minimum of corresponding elements. // // Asm: VMINPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedMin(y Float64x8, z Mask64x8) Float64x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINSB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedMin(y Int8x16, z Mask8x16) Int8x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINSB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedMin(y Int8x32, z Mask8x32) Int8x32 // Min computes the minimum of corresponding elements. // // Asm: VPMINSB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedMin(y Int8x64, z Mask8x64) Int8x64 // Min computes the minimum of corresponding elements. // // Asm: VPMINSW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedMin(y Int16x8, z Mask16x8) Int16x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINSW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedMin(y Int16x16, z Mask16x16) Int16x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINSW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedMin(y Int16x32, z Mask16x32) Int16x32 // Min computes the minimum of corresponding elements. // // Asm: VPMINSD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedMin(y Int32x4, z Mask32x4) Int32x4 // Min computes the minimum of corresponding elements. // // Asm: VPMINSD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedMin(y Int32x8, z Mask32x8) Int32x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINSD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedMin(y Int32x16, z Mask32x16) Int32x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINSQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedMin(y Int64x2, z Mask64x2) Int64x2 // Min computes the minimum of corresponding elements. // // Asm: VPMINSQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedMin(y Int64x4, z Mask64x4) Int64x4 // Min computes the minimum of corresponding elements. // // Asm: VPMINSQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedMin(y Int64x8, z Mask64x8) Int64x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINUB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedMin(y Uint8x16, z Mask8x16) Uint8x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINUB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedMin(y Uint8x32, z Mask8x32) Uint8x32 // Min computes the minimum of corresponding elements. // // Asm: VPMINUB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedMin(y Uint8x64, z Mask8x64) Uint8x64 // Min computes the minimum of corresponding elements. // // Asm: VPMINUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedMin(y Uint16x8, z Mask16x8) Uint16x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedMin(y Uint16x16, z Mask16x16) Uint16x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedMin(y Uint16x32, z Mask16x32) Uint16x32 // Min computes the minimum of corresponding elements. // // Asm: VPMINUD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedMin(y Uint32x4, z Mask32x4) Uint32x4 // Min computes the minimum of corresponding elements. // // Asm: VPMINUD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedMin(y Uint32x8, z Mask32x8) Uint32x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINUD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedMin(y Uint32x16, z Mask32x16) Uint32x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINUQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedMin(y Uint64x2, z Mask64x2) Uint64x2 // Min computes the minimum of corresponding elements. // // Asm: VPMINUQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedMin(y Uint64x4, z Mask64x4) Uint64x4 // Min computes the minimum of corresponding elements. // // Asm: VPMINUQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedMin(y Uint64x8, z Mask64x8) Uint64x8 /* MaskedMul */ // Mul multiplies corresponding elements of two vectors, masked. // // Asm: VMULPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedMul(y Float32x4, z Mask32x4) Float32x4 // Mul multiplies corresponding elements of two vectors, masked. // // Asm: VMULPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedMul(y Float32x8, z Mask32x8) Float32x8 // Mul multiplies corresponding elements of two vectors, masked. // // Asm: VMULPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedMul(y Float32x16, z Mask32x16) Float32x16 // Mul multiplies corresponding elements of two vectors, masked. // // Asm: VMULPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedMul(y Float64x2, z Mask64x2) Float64x2 // Mul multiplies corresponding elements of two vectors, masked. // // Asm: VMULPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedMul(y Float64x4, z Mask64x4) Float64x4 // Mul multiplies corresponding elements of two vectors, masked. // // Asm: VMULPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedMul(y Float64x8, z Mask64x8) Float64x8 /* MaskedMulByPowOf2 */ // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedMulByPowOf2(y Float32x4, z Mask32x4) Float32x4 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedMulByPowOf2(y Float32x8, z Mask32x8) Float32x8 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedMulByPowOf2(y Float32x16, z Mask32x16) Float32x16 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedMulByPowOf2(y Float64x2, z Mask64x2) Float64x2 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedMulByPowOf2(y Float64x4, z Mask64x4) Float64x4 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedMulByPowOf2(y Float64x8, z Mask64x8) Float64x8 /* MaskedMulEvenWiden */ // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULDQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedMulEvenWiden(y Int64x2, z Mask64x2) Int64x2 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULDQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedMulEvenWiden(y Int64x4, z Mask64x4) Int64x4 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULDQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedMulEvenWiden(y Int64x8, z Mask64x8) Int64x8 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULUDQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedMulEvenWiden(y Uint64x2, z Mask64x2) Uint64x2 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULUDQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedMulEvenWiden(y Uint64x4, z Mask64x4) Uint64x4 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULUDQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedMulEvenWiden(y Uint64x8, z Mask64x8) Uint64x8 /* MaskedMulHigh */ // MulHigh multiplies elements and stores the high part of the result, masked. // // Asm: VPMULHW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedMulHigh(y Int16x8, z Mask16x8) Int16x8 // MulHigh multiplies elements and stores the high part of the result, masked. // // Asm: VPMULHW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedMulHigh(y Int16x16, z Mask16x16) Int16x16 // MulHigh multiplies elements and stores the high part of the result, masked. // // Asm: VPMULHW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedMulHigh(y Int16x32, z Mask16x32) Int16x32 // MulHigh multiplies elements and stores the high part of the result, masked. // // Asm: VPMULHUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedMulHigh(y Uint16x8, z Mask16x8) Uint16x8 // MulHigh multiplies elements and stores the high part of the result, masked. // // Asm: VPMULHUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedMulHigh(y Uint16x16, z Mask16x16) Uint16x16 // MulHigh multiplies elements and stores the high part of the result, masked. // // Asm: VPMULHUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedMulHigh(y Uint16x32, z Mask16x32) Uint16x32 /* MaskedMulLow */ // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedMulLow(y Int16x8, z Mask16x8) Int16x8 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedMulLow(y Int16x16, z Mask16x16) Int16x16 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedMulLow(y Int16x32, z Mask16x32) Int16x32 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedMulLow(y Int32x4, z Mask32x4) Int32x4 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedMulLow(y Int32x8, z Mask32x8) Int32x8 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedMulLow(y Int32x16, z Mask32x16) Int32x16 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedMulLow(y Int64x2, z Mask64x2) Int64x2 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedMulLow(y Int64x4, z Mask64x4) Int64x4 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedMulLow(y Int64x8, z Mask64x8) Int64x8 /* MaskedNotEqual */ // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedNotEqual(y Float32x4, z Mask32x4) Mask32x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedNotEqual(y Float32x8, z Mask32x8) Mask32x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedNotEqual(y Float32x16, z Mask32x16) Mask32x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedNotEqual(y Float64x2, z Mask64x2) Mask64x2 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedNotEqual(y Float64x4, z Mask64x4) Mask64x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedNotEqual(y Float64x8, z Mask64x8) Mask64x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedNotEqual(y Int8x16, z Mask8x16) Mask8x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedNotEqual(y Int8x32, z Mask8x32) Mask8x32 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedNotEqual(y Int8x64, z Mask8x64) Mask8x64 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedNotEqual(y Int16x8, z Mask16x8) Mask16x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedNotEqual(y Int16x16, z Mask16x16) Mask16x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedNotEqual(y Int16x32, z Mask16x32) Mask16x32 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedNotEqual(y Int32x4, z Mask32x4) Mask32x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedNotEqual(y Int32x8, z Mask32x8) Mask32x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedNotEqual(y Int32x16, z Mask32x16) Mask32x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedNotEqual(y Int64x2, z Mask64x2) Mask64x2 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedNotEqual(y Int64x4, z Mask64x4) Mask64x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedNotEqual(y Int64x8, z Mask64x8) Mask64x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedNotEqual(y Uint8x16, z Mask8x16) Mask8x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedNotEqual(y Uint8x32, z Mask8x32) Mask8x32 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedNotEqual(y Uint8x64, z Mask8x64) Mask8x64 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedNotEqual(y Uint16x8, z Mask16x8) Mask16x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedNotEqual(y Uint16x16, z Mask16x16) Mask16x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedNotEqual(y Uint16x32, z Mask16x32) Mask16x32 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedNotEqual(y Uint32x4, z Mask32x4) Mask32x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedNotEqual(y Uint32x8, z Mask32x8) Mask32x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedNotEqual(y Uint32x16, z Mask32x16) Mask32x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedNotEqual(y Uint64x2, z Mask64x2) Mask64x2 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedNotEqual(y Uint64x4, z Mask64x4) Mask64x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedNotEqual(y Uint64x8, z Mask64x8) Mask64x8 /* MaskedOr */ // Or performs a masked bitwise OR operation between two vectors. // // Asm: VORPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedOr(y Float32x4, z Mask32x4) Float32x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VORPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedOr(y Float32x8, z Mask32x8) Float32x8 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VORPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedOr(y Float32x16, z Mask32x16) Float32x16 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VORPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedOr(y Float64x2, z Mask64x2) Float64x2 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VORPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedOr(y Float64x4, z Mask64x4) Float64x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VORPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedOr(y Float64x8, z Mask64x8) Float64x8 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedOr(y Int32x4, z Mask32x4) Int32x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedOr(y Int32x8, z Mask32x8) Int32x8 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedOr(y Int32x16, z Mask32x16) Int32x16 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedOr(y Int64x2, z Mask64x2) Int64x2 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedOr(y Int64x4, z Mask64x4) Int64x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedOr(y Int64x8, z Mask64x8) Int64x8 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedOr(y Uint32x4, z Mask32x4) Uint32x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedOr(y Uint32x8, z Mask32x8) Uint32x8 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedOr(y Uint32x16, z Mask32x16) Uint32x16 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedOr(y Uint64x2, z Mask64x2) Uint64x2 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedOr(y Uint64x4, z Mask64x4) Uint64x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedOr(y Uint64x8, z Mask64x8) Uint64x8 /* MaskedPairDotProd */ // PairDotProd multiplies the elements and add the pairs together, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDWD, CPU Feature: AVX512EVEX func (x Int16x8) MaskedPairDotProd(y Int16x8, z Mask16x8) Int32x4 // PairDotProd multiplies the elements and add the pairs together, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDWD, CPU Feature: AVX512EVEX func (x Int16x16) MaskedPairDotProd(y Int16x16, z Mask16x16) Int32x8 // PairDotProd multiplies the elements and add the pairs together, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDWD, CPU Feature: AVX512EVEX func (x Int16x32) MaskedPairDotProd(y Int16x32, z Mask16x32) Int32x16 /* MaskedPairDotProdAccumulate */ // PairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedPairDotProdAccumulate(y Int16x8, z Int16x8, u Mask32x4) Int32x4 // PairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedPairDotProdAccumulate(y Int16x16, z Int16x16, u Mask32x8) Int32x8 // PairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedPairDotProdAccumulate(y Int16x32, z Int16x32, u Mask32x16) Int32x16 /* MaskedPopCount */ // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedPopCount(y Mask8x16) Int8x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedPopCount(y Mask8x32) Int8x32 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedPopCount(y Mask8x64) Int8x64 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedPopCount(y Mask16x8) Int16x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedPopCount(y Mask16x16) Int16x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedPopCount(y Mask16x32) Int16x32 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedPopCount(y Mask32x4) Int32x4 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedPopCount(y Mask32x8) Int32x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedPopCount(y Mask32x16) Int32x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedPopCount(y Mask64x2) Int64x2 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedPopCount(y Mask64x4) Int64x4 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedPopCount(y Mask64x8) Int64x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedPopCount(y Mask8x16) Uint8x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedPopCount(y Mask8x32) Uint8x32 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedPopCount(y Mask8x64) Uint8x64 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedPopCount(y Mask16x8) Uint16x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedPopCount(y Mask16x16) Uint16x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedPopCount(y Mask16x32) Uint16x32 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedPopCount(y Mask32x4) Uint32x4 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedPopCount(y Mask32x8) Uint32x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedPopCount(y Mask32x16) Uint32x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedPopCount(y Mask64x2) Uint64x2 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedPopCount(y Mask64x4) Uint64x4 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedPopCount(y Mask64x8) Uint64x8 /* MaskedRoundSuppressExceptionWithPrecision */ // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedRoundSuppressExceptionWithPrecision(imm uint8, y Mask32x4) Float32x4 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedRoundSuppressExceptionWithPrecision(imm uint8, y Mask32x8) Float32x8 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedRoundSuppressExceptionWithPrecision(imm uint8, y Mask32x16) Float32x16 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedRoundSuppressExceptionWithPrecision(imm uint8, y Mask64x2) Float64x2 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedRoundSuppressExceptionWithPrecision(imm uint8, y Mask64x4) Float64x4 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedRoundSuppressExceptionWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedRoundWithPrecision */ // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedRoundWithPrecision(imm uint8, y Mask32x4) Float32x4 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedRoundWithPrecision(imm uint8, y Mask32x8) Float32x8 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedRoundWithPrecision(imm uint8, y Mask32x16) Float32x16 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedRoundWithPrecision(imm uint8, y Mask64x2) Float64x2 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedRoundWithPrecision(imm uint8, y Mask64x4) Float64x4 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedRoundWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedSaturatedAdd */ // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedSaturatedAdd(y Int8x16, z Mask8x16) Int8x16 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedSaturatedAdd(y Int8x32, z Mask8x32) Int8x32 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedSaturatedAdd(y Int8x64, z Mask8x64) Int8x64 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedSaturatedAdd(y Int16x8, z Mask16x8) Int16x8 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedSaturatedAdd(y Int16x16, z Mask16x16) Int16x16 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedSaturatedAdd(y Int16x32, z Mask16x32) Int16x32 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedSaturatedAdd(y Uint8x16, z Mask8x16) Uint8x16 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedSaturatedAdd(y Uint8x32, z Mask8x32) Uint8x32 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedSaturatedAdd(y Uint8x64, z Mask8x64) Uint8x64 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedSaturatedAdd(y Uint16x8, z Mask16x8) Uint16x8 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedSaturatedAdd(y Uint16x16, z Mask16x16) Uint16x16 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedSaturatedAdd(y Uint16x32, z Mask16x32) Uint16x32 /* MaskedSaturatedPairDotProdAccumulate */ // SaturatedPairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSDS, CPU Feature: AVX512EVEX func (x Int32x4) MaskedSaturatedPairDotProdAccumulate(y Int16x8, z Int16x8, u Mask32x4) Int32x4 // SaturatedPairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSDS, CPU Feature: AVX512EVEX func (x Int32x8) MaskedSaturatedPairDotProdAccumulate(y Int16x16, z Int16x16, u Mask32x8) Int32x8 // SaturatedPairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSDS, CPU Feature: AVX512EVEX func (x Int32x16) MaskedSaturatedPairDotProdAccumulate(y Int16x32, z Int16x32, u Mask32x16) Int32x16 /* MaskedSaturatedSub */ // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedSaturatedSub(y Int8x16, z Mask8x16) Int8x16 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedSaturatedSub(y Int8x32, z Mask8x32) Int8x32 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedSaturatedSub(y Int8x64, z Mask8x64) Int8x64 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedSaturatedSub(y Int16x8, z Mask16x8) Int16x8 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedSaturatedSub(y Int16x16, z Mask16x16) Int16x16 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedSaturatedSub(y Int16x32, z Mask16x32) Int16x32 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedSaturatedSub(y Uint8x16, z Mask8x16) Uint8x16 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedSaturatedSub(y Uint8x32, z Mask8x32) Uint8x32 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedSaturatedSub(y Uint8x64, z Mask8x64) Uint8x64 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedSaturatedSub(y Uint16x8, z Mask16x8) Uint16x8 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedSaturatedSub(y Uint16x16, z Mask16x16) Uint16x16 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedSaturatedSub(y Uint16x32, z Mask16x32) Uint16x32 /* MaskedSaturatedUnsignedSignedPairDotProd */ // SaturatedPairDotProd multiplies the elements and add the pairs together with saturation, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDUBSW, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedSaturatedUnsignedSignedPairDotProd(y Int8x16, z Mask16x8) Int16x8 // SaturatedPairDotProd multiplies the elements and add the pairs together with saturation, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDUBSW, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedSaturatedUnsignedSignedPairDotProd(y Int8x32, z Mask16x16) Int16x16 // SaturatedPairDotProd multiplies the elements and add the pairs together with saturation, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDUBSW, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedSaturatedUnsignedSignedPairDotProd(y Int8x64, z Mask16x32) Int16x32 /* MaskedSaturatedUnsignedSignedQuadDotProdAccumulate */ // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX512EVEX func (x Int32x4) MaskedSaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x16, z Int8x16, u Mask32x4) Int32x4 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX512EVEX func (x Int32x8) MaskedSaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x32, z Int8x32, u Mask32x8) Int32x8 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX512EVEX func (x Int32x16) MaskedSaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x64, z Int8x64, u Mask32x16) Int32x16 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedSaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x16, z Int8x16, u Mask32x4) Uint32x4 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedSaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x32, z Int8x32, u Mask32x8) Uint32x8 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedSaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x64, z Int8x64, u Mask32x16) Uint32x16 /* MaskedSqrt */ // Sqrt computes the square root of each element. // // Asm: VSQRTPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedSqrt(y Mask32x4) Float32x4 // Sqrt computes the square root of each element. // // Asm: VSQRTPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedSqrt(y Mask32x8) Float32x8 // Sqrt computes the square root of each element. // // Asm: VSQRTPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedSqrt(y Mask32x16) Float32x16 // Sqrt computes the square root of each element. // // Asm: VSQRTPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedSqrt(y Mask64x2) Float64x2 // Sqrt computes the square root of each element. // // Asm: VSQRTPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedSqrt(y Mask64x4) Float64x4 // Sqrt computes the square root of each element. // // Asm: VSQRTPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedSqrt(y Mask64x8) Float64x8 /* MaskedSub */ // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedSub(y Float32x4, z Mask32x4) Float32x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedSub(y Float32x8, z Mask32x8) Float32x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedSub(y Float32x16, z Mask32x16) Float32x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedSub(y Float64x2, z Mask64x2) Float64x2 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedSub(y Float64x4, z Mask64x4) Float64x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedSub(y Float64x8, z Mask64x8) Float64x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX512EVEX func (x Int8x16) MaskedSub(y Int8x16, z Mask8x16) Int8x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX512EVEX func (x Int8x32) MaskedSub(y Int8x32, z Mask8x32) Int8x32 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX512EVEX func (x Int8x64) MaskedSub(y Int8x64, z Mask8x64) Int8x64 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX512EVEX func (x Int16x8) MaskedSub(y Int16x8, z Mask16x8) Int16x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX512EVEX func (x Int16x16) MaskedSub(y Int16x16, z Mask16x16) Int16x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX512EVEX func (x Int16x32) MaskedSub(y Int16x32, z Mask16x32) Int16x32 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedSub(y Int32x4, z Mask32x4) Int32x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedSub(y Int32x8, z Mask32x8) Int32x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedSub(y Int32x16, z Mask32x16) Int32x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedSub(y Int64x2, z Mask64x2) Int64x2 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedSub(y Int64x4, z Mask64x4) Int64x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedSub(y Int64x8, z Mask64x8) Int64x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX512EVEX func (x Uint8x16) MaskedSub(y Uint8x16, z Mask8x16) Uint8x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX512EVEX func (x Uint8x32) MaskedSub(y Uint8x32, z Mask8x32) Uint8x32 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX512EVEX func (x Uint8x64) MaskedSub(y Uint8x64, z Mask8x64) Uint8x64 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX512EVEX func (x Uint16x8) MaskedSub(y Uint16x8, z Mask16x8) Uint16x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX512EVEX func (x Uint16x16) MaskedSub(y Uint16x16, z Mask16x16) Uint16x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX512EVEX func (x Uint16x32) MaskedSub(y Uint16x32, z Mask16x32) Uint16x32 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedSub(y Uint32x4, z Mask32x4) Uint32x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedSub(y Uint32x8, z Mask32x8) Uint32x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedSub(y Uint32x16, z Mask32x16) Uint32x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedSub(y Uint64x2, z Mask64x2) Uint64x2 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedSub(y Uint64x4, z Mask64x4) Uint64x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedSub(y Uint64x8, z Mask64x8) Uint64x8 /* MaskedTruncSuppressExceptionWithPrecision */ // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedTruncSuppressExceptionWithPrecision(imm uint8, y Mask32x4) Float32x4 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedTruncSuppressExceptionWithPrecision(imm uint8, y Mask32x8) Float32x8 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedTruncSuppressExceptionWithPrecision(imm uint8, y Mask32x16) Float32x16 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedTruncSuppressExceptionWithPrecision(imm uint8, y Mask64x2) Float64x2 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedTruncSuppressExceptionWithPrecision(imm uint8, y Mask64x4) Float64x4 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedTruncSuppressExceptionWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedTruncWithPrecision */ // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedTruncWithPrecision(imm uint8, y Mask32x4) Float32x4 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedTruncWithPrecision(imm uint8, y Mask32x8) Float32x8 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedTruncWithPrecision(imm uint8, y Mask32x16) Float32x16 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedTruncWithPrecision(imm uint8, y Mask64x2) Float64x2 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedTruncWithPrecision(imm uint8, y Mask64x4) Float64x4 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedTruncWithPrecision(imm uint8, y Mask64x8) Float64x8 /* MaskedUnsignedSignedQuadDotProdAccumulate */ // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedUnsignedSignedQuadDotProdAccumulate(y Uint8x16, z Int8x16, u Mask32x4) Int32x4 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedUnsignedSignedQuadDotProdAccumulate(y Uint8x32, z Int8x32, u Mask32x8) Int32x8 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedUnsignedSignedQuadDotProdAccumulate(y Uint8x64, z Int8x64, u Mask32x16) Int32x16 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedUnsignedSignedQuadDotProdAccumulate(y Uint8x16, z Int8x16, u Mask32x4) Uint32x4 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedUnsignedSignedQuadDotProdAccumulate(y Uint8x32, z Int8x32, u Mask32x8) Uint32x8 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedUnsignedSignedQuadDotProdAccumulate(y Uint8x64, z Int8x64, u Mask32x16) Uint32x16 /* MaskedXor */ // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VXORPS, CPU Feature: AVX512EVEX func (x Float32x4) MaskedXor(y Float32x4, z Mask32x4) Float32x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VXORPS, CPU Feature: AVX512EVEX func (x Float32x8) MaskedXor(y Float32x8, z Mask32x8) Float32x8 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VXORPS, CPU Feature: AVX512EVEX func (x Float32x16) MaskedXor(y Float32x16, z Mask32x16) Float32x16 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VXORPD, CPU Feature: AVX512EVEX func (x Float64x2) MaskedXor(y Float64x2, z Mask64x2) Float64x2 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VXORPD, CPU Feature: AVX512EVEX func (x Float64x4) MaskedXor(y Float64x4, z Mask64x4) Float64x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VXORPD, CPU Feature: AVX512EVEX func (x Float64x8) MaskedXor(y Float64x8, z Mask64x8) Float64x8 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORD, CPU Feature: AVX512EVEX func (x Int32x4) MaskedXor(y Int32x4, z Mask32x4) Int32x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORD, CPU Feature: AVX512EVEX func (x Int32x8) MaskedXor(y Int32x8, z Mask32x8) Int32x8 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORD, CPU Feature: AVX512EVEX func (x Int32x16) MaskedXor(y Int32x16, z Mask32x16) Int32x16 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORQ, CPU Feature: AVX512EVEX func (x Int64x2) MaskedXor(y Int64x2, z Mask64x2) Int64x2 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORQ, CPU Feature: AVX512EVEX func (x Int64x4) MaskedXor(y Int64x4, z Mask64x4) Int64x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORQ, CPU Feature: AVX512EVEX func (x Int64x8) MaskedXor(y Int64x8, z Mask64x8) Int64x8 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORD, CPU Feature: AVX512EVEX func (x Uint32x4) MaskedXor(y Uint32x4, z Mask32x4) Uint32x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORD, CPU Feature: AVX512EVEX func (x Uint32x8) MaskedXor(y Uint32x8, z Mask32x8) Uint32x8 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORD, CPU Feature: AVX512EVEX func (x Uint32x16) MaskedXor(y Uint32x16, z Mask32x16) Uint32x16 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORQ, CPU Feature: AVX512EVEX func (x Uint64x2) MaskedXor(y Uint64x2, z Mask64x2) Uint64x2 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORQ, CPU Feature: AVX512EVEX func (x Uint64x4) MaskedXor(y Uint64x4, z Mask64x4) Uint64x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORQ, CPU Feature: AVX512EVEX func (x Uint64x8) MaskedXor(y Uint64x8, z Mask64x8) Uint64x8 /* Max */ // Max computes the maximum of corresponding elements. // // Asm: VMAXPS, CPU Feature: AVX func (x Float32x4) Max(y Float32x4) Float32x4 // Max computes the maximum of corresponding elements. // // Asm: VMAXPS, CPU Feature: AVX func (x Float32x8) Max(y Float32x8) Float32x8 // Max computes the maximum of corresponding elements. // // Asm: VMAXPS, CPU Feature: AVX512EVEX func (x Float32x16) Max(y Float32x16) Float32x16 // Max computes the maximum of corresponding elements. // // Asm: VMAXPD, CPU Feature: AVX func (x Float64x2) Max(y Float64x2) Float64x2 // Max computes the maximum of corresponding elements. // // Asm: VMAXPD, CPU Feature: AVX func (x Float64x4) Max(y Float64x4) Float64x4 // Max computes the maximum of corresponding elements. // // Asm: VMAXPD, CPU Feature: AVX512EVEX func (x Float64x8) Max(y Float64x8) Float64x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSB, CPU Feature: AVX func (x Int8x16) Max(y Int8x16) Int8x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSB, CPU Feature: AVX2 func (x Int8x32) Max(y Int8x32) Int8x32 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSB, CPU Feature: AVX512EVEX func (x Int8x64) Max(y Int8x64) Int8x64 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSW, CPU Feature: AVX func (x Int16x8) Max(y Int16x8) Int16x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSW, CPU Feature: AVX2 func (x Int16x16) Max(y Int16x16) Int16x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSW, CPU Feature: AVX512EVEX func (x Int16x32) Max(y Int16x32) Int16x32 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSD, CPU Feature: AVX func (x Int32x4) Max(y Int32x4) Int32x4 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSD, CPU Feature: AVX2 func (x Int32x8) Max(y Int32x8) Int32x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSD, CPU Feature: AVX512EVEX func (x Int32x16) Max(y Int32x16) Int32x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSQ, CPU Feature: AVX512EVEX func (x Int64x2) Max(y Int64x2) Int64x2 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSQ, CPU Feature: AVX512EVEX func (x Int64x4) Max(y Int64x4) Int64x4 // Max computes the maximum of corresponding elements. // // Asm: VPMAXSQ, CPU Feature: AVX512EVEX func (x Int64x8) Max(y Int64x8) Int64x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUB, CPU Feature: AVX func (x Uint8x16) Max(y Uint8x16) Uint8x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUB, CPU Feature: AVX2 func (x Uint8x32) Max(y Uint8x32) Uint8x32 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUB, CPU Feature: AVX512EVEX func (x Uint8x64) Max(y Uint8x64) Uint8x64 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUW, CPU Feature: AVX func (x Uint16x8) Max(y Uint16x8) Uint16x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUW, CPU Feature: AVX2 func (x Uint16x16) Max(y Uint16x16) Uint16x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUW, CPU Feature: AVX512EVEX func (x Uint16x32) Max(y Uint16x32) Uint16x32 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUD, CPU Feature: AVX func (x Uint32x4) Max(y Uint32x4) Uint32x4 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUD, CPU Feature: AVX2 func (x Uint32x8) Max(y Uint32x8) Uint32x8 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUD, CPU Feature: AVX512EVEX func (x Uint32x16) Max(y Uint32x16) Uint32x16 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUQ, CPU Feature: AVX512EVEX func (x Uint64x2) Max(y Uint64x2) Uint64x2 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUQ, CPU Feature: AVX512EVEX func (x Uint64x4) Max(y Uint64x4) Uint64x4 // Max computes the maximum of corresponding elements. // // Asm: VPMAXUQ, CPU Feature: AVX512EVEX func (x Uint64x8) Max(y Uint64x8) Uint64x8 /* Min */ // Min computes the minimum of corresponding elements. // // Asm: VMINPS, CPU Feature: AVX func (x Float32x4) Min(y Float32x4) Float32x4 // Min computes the minimum of corresponding elements. // // Asm: VMINPS, CPU Feature: AVX func (x Float32x8) Min(y Float32x8) Float32x8 // Min computes the minimum of corresponding elements. // // Asm: VMINPS, CPU Feature: AVX512EVEX func (x Float32x16) Min(y Float32x16) Float32x16 // Min computes the minimum of corresponding elements. // // Asm: VMINPD, CPU Feature: AVX func (x Float64x2) Min(y Float64x2) Float64x2 // Min computes the minimum of corresponding elements. // // Asm: VMINPD, CPU Feature: AVX func (x Float64x4) Min(y Float64x4) Float64x4 // Min computes the minimum of corresponding elements. // // Asm: VMINPD, CPU Feature: AVX512EVEX func (x Float64x8) Min(y Float64x8) Float64x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINSB, CPU Feature: AVX func (x Int8x16) Min(y Int8x16) Int8x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINSB, CPU Feature: AVX2 func (x Int8x32) Min(y Int8x32) Int8x32 // Min computes the minimum of corresponding elements. // // Asm: VPMINSB, CPU Feature: AVX512EVEX func (x Int8x64) Min(y Int8x64) Int8x64 // Min computes the minimum of corresponding elements. // // Asm: VPMINSW, CPU Feature: AVX func (x Int16x8) Min(y Int16x8) Int16x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINSW, CPU Feature: AVX2 func (x Int16x16) Min(y Int16x16) Int16x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINSW, CPU Feature: AVX512EVEX func (x Int16x32) Min(y Int16x32) Int16x32 // Min computes the minimum of corresponding elements. // // Asm: VPMINSD, CPU Feature: AVX func (x Int32x4) Min(y Int32x4) Int32x4 // Min computes the minimum of corresponding elements. // // Asm: VPMINSD, CPU Feature: AVX2 func (x Int32x8) Min(y Int32x8) Int32x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINSD, CPU Feature: AVX512EVEX func (x Int32x16) Min(y Int32x16) Int32x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINSQ, CPU Feature: AVX512EVEX func (x Int64x2) Min(y Int64x2) Int64x2 // Min computes the minimum of corresponding elements. // // Asm: VPMINSQ, CPU Feature: AVX512EVEX func (x Int64x4) Min(y Int64x4) Int64x4 // Min computes the minimum of corresponding elements. // // Asm: VPMINSQ, CPU Feature: AVX512EVEX func (x Int64x8) Min(y Int64x8) Int64x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINUB, CPU Feature: AVX func (x Uint8x16) Min(y Uint8x16) Uint8x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINUB, CPU Feature: AVX2 func (x Uint8x32) Min(y Uint8x32) Uint8x32 // Min computes the minimum of corresponding elements. // // Asm: VPMINUB, CPU Feature: AVX512EVEX func (x Uint8x64) Min(y Uint8x64) Uint8x64 // Min computes the minimum of corresponding elements. // // Asm: VPMINUW, CPU Feature: AVX func (x Uint16x8) Min(y Uint16x8) Uint16x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINUW, CPU Feature: AVX2 func (x Uint16x16) Min(y Uint16x16) Uint16x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINUW, CPU Feature: AVX512EVEX func (x Uint16x32) Min(y Uint16x32) Uint16x32 // Min computes the minimum of corresponding elements. // // Asm: VPMINUD, CPU Feature: AVX func (x Uint32x4) Min(y Uint32x4) Uint32x4 // Min computes the minimum of corresponding elements. // // Asm: VPMINUD, CPU Feature: AVX2 func (x Uint32x8) Min(y Uint32x8) Uint32x8 // Min computes the minimum of corresponding elements. // // Asm: VPMINUD, CPU Feature: AVX512EVEX func (x Uint32x16) Min(y Uint32x16) Uint32x16 // Min computes the minimum of corresponding elements. // // Asm: VPMINUQ, CPU Feature: AVX512EVEX func (x Uint64x2) Min(y Uint64x2) Uint64x2 // Min computes the minimum of corresponding elements. // // Asm: VPMINUQ, CPU Feature: AVX512EVEX func (x Uint64x4) Min(y Uint64x4) Uint64x4 // Min computes the minimum of corresponding elements. // // Asm: VPMINUQ, CPU Feature: AVX512EVEX func (x Uint64x8) Min(y Uint64x8) Uint64x8 /* Mul */ // Mul multiplies corresponding elements of two vectors. // // Asm: VMULPS, CPU Feature: AVX func (x Float32x4) Mul(y Float32x4) Float32x4 // Mul multiplies corresponding elements of two vectors. // // Asm: VMULPS, CPU Feature: AVX func (x Float32x8) Mul(y Float32x8) Float32x8 // Mul multiplies corresponding elements of two vectors, masked. // // Asm: VMULPS, CPU Feature: AVX512EVEX func (x Float32x16) Mul(y Float32x16) Float32x16 // Mul multiplies corresponding elements of two vectors. // // Asm: VMULPD, CPU Feature: AVX func (x Float64x2) Mul(y Float64x2) Float64x2 // Mul multiplies corresponding elements of two vectors. // // Asm: VMULPD, CPU Feature: AVX func (x Float64x4) Mul(y Float64x4) Float64x4 // Mul multiplies corresponding elements of two vectors, masked. // // Asm: VMULPD, CPU Feature: AVX512EVEX func (x Float64x8) Mul(y Float64x8) Float64x8 /* MulByPowOf2 */ // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPS, CPU Feature: AVX512EVEX func (x Float32x4) MulByPowOf2(y Float32x4) Float32x4 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPS, CPU Feature: AVX512EVEX func (x Float32x8) MulByPowOf2(y Float32x8) Float32x8 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPS, CPU Feature: AVX512EVEX func (x Float32x16) MulByPowOf2(y Float32x16) Float32x16 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPD, CPU Feature: AVX512EVEX func (x Float64x2) MulByPowOf2(y Float64x2) Float64x2 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPD, CPU Feature: AVX512EVEX func (x Float64x4) MulByPowOf2(y Float64x4) Float64x4 // MulByPowOf2 multiplies elements by a power of 2. // // Asm: VSCALEFPD, CPU Feature: AVX512EVEX func (x Float64x8) MulByPowOf2(y Float64x8) Float64x8 /* MulEvenWiden */ // MulEvenWiden multiplies even-indexed elements, widening the result. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULDQ, CPU Feature: AVX func (x Int32x4) MulEvenWiden(y Int32x4) Int64x2 // MulEvenWiden multiplies even-indexed elements, widening the result. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULDQ, CPU Feature: AVX2 func (x Int32x8) MulEvenWiden(y Int32x8) Int64x4 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULDQ, CPU Feature: AVX512EVEX func (x Int64x2) MulEvenWiden(y Int64x2) Int64x2 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULDQ, CPU Feature: AVX512EVEX func (x Int64x4) MulEvenWiden(y Int64x4) Int64x4 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULDQ, CPU Feature: AVX512EVEX func (x Int64x8) MulEvenWiden(y Int64x8) Int64x8 // MulEvenWiden multiplies even-indexed elements, widening the result. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULUDQ, CPU Feature: AVX func (x Uint32x4) MulEvenWiden(y Uint32x4) Uint64x2 // MulEvenWiden multiplies even-indexed elements, widening the result. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULUDQ, CPU Feature: AVX2 func (x Uint32x8) MulEvenWiden(y Uint32x8) Uint64x4 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULUDQ, CPU Feature: AVX512EVEX func (x Uint64x2) MulEvenWiden(y Uint64x2) Uint64x2 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULUDQ, CPU Feature: AVX512EVEX func (x Uint64x4) MulEvenWiden(y Uint64x4) Uint64x4 // MulEvenWiden multiplies even-indexed elements, widening the result, masked. // Result[i] = v1.Even[i] * v2.Even[i]. // // Asm: VPMULUDQ, CPU Feature: AVX512EVEX func (x Uint64x8) MulEvenWiden(y Uint64x8) Uint64x8 /* MulHigh */ // MulHigh multiplies elements and stores the high part of the result. // // Asm: VPMULHW, CPU Feature: AVX func (x Int16x8) MulHigh(y Int16x8) Int16x8 // MulHigh multiplies elements and stores the high part of the result. // // Asm: VPMULHW, CPU Feature: AVX2 func (x Int16x16) MulHigh(y Int16x16) Int16x16 // MulHigh multiplies elements and stores the high part of the result, masked. // // Asm: VPMULHW, CPU Feature: AVX512EVEX func (x Int16x32) MulHigh(y Int16x32) Int16x32 // MulHigh multiplies elements and stores the high part of the result. // // Asm: VPMULHUW, CPU Feature: AVX func (x Uint16x8) MulHigh(y Uint16x8) Uint16x8 // MulHigh multiplies elements and stores the high part of the result. // // Asm: VPMULHUW, CPU Feature: AVX2 func (x Uint16x16) MulHigh(y Uint16x16) Uint16x16 // MulHigh multiplies elements and stores the high part of the result, masked. // // Asm: VPMULHUW, CPU Feature: AVX512EVEX func (x Uint16x32) MulHigh(y Uint16x32) Uint16x32 /* MulLow */ // MulLow multiplies elements and stores the low part of the result. // // Asm: VPMULLW, CPU Feature: AVX func (x Int16x8) MulLow(y Int16x8) Int16x8 // MulLow multiplies elements and stores the low part of the result. // // Asm: VPMULLW, CPU Feature: AVX2 func (x Int16x16) MulLow(y Int16x16) Int16x16 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLW, CPU Feature: AVX512EVEX func (x Int16x32) MulLow(y Int16x32) Int16x32 // MulLow multiplies elements and stores the low part of the result. // // Asm: VPMULLD, CPU Feature: AVX func (x Int32x4) MulLow(y Int32x4) Int32x4 // MulLow multiplies elements and stores the low part of the result. // // Asm: VPMULLD, CPU Feature: AVX2 func (x Int32x8) MulLow(y Int32x8) Int32x8 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLD, CPU Feature: AVX512EVEX func (x Int32x16) MulLow(y Int32x16) Int32x16 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLQ, CPU Feature: AVX512EVEX func (x Int64x2) MulLow(y Int64x2) Int64x2 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLQ, CPU Feature: AVX512EVEX func (x Int64x4) MulLow(y Int64x4) Int64x4 // MulLow multiplies elements and stores the low part of the result, masked. // // Asm: VPMULLQ, CPU Feature: AVX512EVEX func (x Int64x8) MulLow(y Int64x8) Int64x8 /* NotEqual */ // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x4) NotEqual(y Float32x4) Mask32x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPS, CPU Feature: AVX func (x Float32x8) NotEqual(y Float32x8) Mask32x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPS, CPU Feature: AVX512EVEX func (x Float32x16) NotEqual(y Float32x16) Mask32x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x2) NotEqual(y Float64x2) Mask64x2 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPD, CPU Feature: AVX func (x Float64x4) NotEqual(y Float64x4) Mask64x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VCMPPD, CPU Feature: AVX512EVEX func (x Float64x8) NotEqual(y Float64x8) Mask64x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x16) NotEqual(y Int8x16) Mask8x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x32) NotEqual(y Int8x32) Mask8x32 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPB, CPU Feature: AVX512EVEX func (x Int8x64) NotEqual(y Int8x64) Mask8x64 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x8) NotEqual(y Int16x8) Mask16x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x16) NotEqual(y Int16x16) Mask16x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPW, CPU Feature: AVX512EVEX func (x Int16x32) NotEqual(y Int16x32) Mask16x32 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x4) NotEqual(y Int32x4) Mask32x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x8) NotEqual(y Int32x8) Mask32x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPD, CPU Feature: AVX512EVEX func (x Int32x16) NotEqual(y Int32x16) Mask32x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x2) NotEqual(y Int64x2) Mask64x2 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x4) NotEqual(y Int64x4) Mask64x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPQ, CPU Feature: AVX512EVEX func (x Int64x8) NotEqual(y Int64x8) Mask64x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x16) NotEqual(y Uint8x16) Mask8x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x32) NotEqual(y Uint8x32) Mask8x32 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUB, CPU Feature: AVX512EVEX func (x Uint8x64) NotEqual(y Uint8x64) Mask8x64 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x8) NotEqual(y Uint16x8) Mask16x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x16) NotEqual(y Uint16x16) Mask16x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUW, CPU Feature: AVX512EVEX func (x Uint16x32) NotEqual(y Uint16x32) Mask16x32 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x4) NotEqual(y Uint32x4) Mask32x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x8) NotEqual(y Uint32x8) Mask32x8 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUD, CPU Feature: AVX512EVEX func (x Uint32x16) NotEqual(y Uint32x16) Mask32x16 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x2) NotEqual(y Uint64x2) Mask64x2 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x4) NotEqual(y Uint64x4) Mask64x4 // NotEqual compares for inequality. // Const Immediate = 4. // // Asm: VPCMPUQ, CPU Feature: AVX512EVEX func (x Uint64x8) NotEqual(y Uint64x8) Mask64x8 /* Or */ // Or performs a bitwise OR operation between two vectors. // // Asm: VORPS, CPU Feature: AVX func (x Float32x4) Or(y Float32x4) Float32x4 // Or performs a bitwise OR operation between two vectors. // // Asm: VORPS, CPU Feature: AVX func (x Float32x8) Or(y Float32x8) Float32x8 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VORPS, CPU Feature: AVX512EVEX func (x Float32x16) Or(y Float32x16) Float32x16 // Or performs a bitwise OR operation between two vectors. // // Asm: VORPD, CPU Feature: AVX func (x Float64x2) Or(y Float64x2) Float64x2 // Or performs a bitwise OR operation between two vectors. // // Asm: VORPD, CPU Feature: AVX func (x Float64x4) Or(y Float64x4) Float64x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VORPD, CPU Feature: AVX512EVEX func (x Float64x8) Or(y Float64x8) Float64x8 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX func (x Int8x16) Or(y Int8x16) Int8x16 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX2 func (x Int8x32) Or(y Int8x32) Int8x32 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX func (x Int16x8) Or(y Int16x8) Int16x8 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX2 func (x Int16x16) Or(y Int16x16) Int16x16 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX func (x Int32x4) Or(y Int32x4) Int32x4 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX2 func (x Int32x8) Or(y Int32x8) Int32x8 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORD, CPU Feature: AVX512EVEX func (x Int32x16) Or(y Int32x16) Int32x16 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX func (x Int64x2) Or(y Int64x2) Int64x2 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX2 func (x Int64x4) Or(y Int64x4) Int64x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORQ, CPU Feature: AVX512EVEX func (x Int64x8) Or(y Int64x8) Int64x8 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX func (x Uint8x16) Or(y Uint8x16) Uint8x16 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX2 func (x Uint8x32) Or(y Uint8x32) Uint8x32 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX func (x Uint16x8) Or(y Uint16x8) Uint16x8 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX2 func (x Uint16x16) Or(y Uint16x16) Uint16x16 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX func (x Uint32x4) Or(y Uint32x4) Uint32x4 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX2 func (x Uint32x8) Or(y Uint32x8) Uint32x8 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORD, CPU Feature: AVX512EVEX func (x Uint32x16) Or(y Uint32x16) Uint32x16 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX func (x Uint64x2) Or(y Uint64x2) Uint64x2 // Or performs a bitwise OR operation between two vectors. // // Asm: VPOR, CPU Feature: AVX2 func (x Uint64x4) Or(y Uint64x4) Uint64x4 // Or performs a masked bitwise OR operation between two vectors. // // Asm: VPORQ, CPU Feature: AVX512EVEX func (x Uint64x8) Or(y Uint64x8) Uint64x8 /* PairDotProd */ // PairDotProd multiplies the elements and add the pairs together, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDWD, CPU Feature: AVX func (x Int16x8) PairDotProd(y Int16x8) Int32x4 // PairDotProd multiplies the elements and add the pairs together, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDWD, CPU Feature: AVX2 func (x Int16x16) PairDotProd(y Int16x16) Int32x8 // PairDotProd multiplies the elements and add the pairs together, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDWD, CPU Feature: AVX512EVEX func (x Int16x32) PairDotProd(y Int16x32) Int32x16 /* PairDotProdAccumulate */ // PairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSD, CPU Feature: AVX_VNNI func (x Int32x4) PairDotProdAccumulate(y Int16x8, z Int16x8) Int32x4 // PairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSD, CPU Feature: AVX_VNNI func (x Int32x8) PairDotProdAccumulate(y Int16x16, z Int16x16) Int32x8 // PairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSD, CPU Feature: AVX512EVEX func (x Int32x16) PairDotProdAccumulate(y Int16x32, z Int16x32) Int32x16 /* PairwiseAdd */ // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VHADDPS, CPU Feature: AVX func (x Float32x4) PairwiseAdd(y Float32x4) Float32x4 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VHADDPS, CPU Feature: AVX func (x Float32x8) PairwiseAdd(y Float32x8) Float32x8 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VHADDPD, CPU Feature: AVX func (x Float64x2) PairwiseAdd(y Float64x2) Float64x2 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VHADDPD, CPU Feature: AVX func (x Float64x4) PairwiseAdd(y Float64x4) Float64x4 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDW, CPU Feature: AVX func (x Int16x8) PairwiseAdd(y Int16x8) Int16x8 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDW, CPU Feature: AVX2 func (x Int16x16) PairwiseAdd(y Int16x16) Int16x16 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDD, CPU Feature: AVX func (x Int32x4) PairwiseAdd(y Int32x4) Int32x4 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDD, CPU Feature: AVX2 func (x Int32x8) PairwiseAdd(y Int32x8) Int32x8 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDW, CPU Feature: AVX func (x Uint16x8) PairwiseAdd(y Uint16x8) Uint16x8 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDW, CPU Feature: AVX2 func (x Uint16x16) PairwiseAdd(y Uint16x16) Uint16x16 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDD, CPU Feature: AVX func (x Uint32x4) PairwiseAdd(y Uint32x4) Uint32x4 // PairwiseAdd horizontally adds adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDD, CPU Feature: AVX2 func (x Uint32x8) PairwiseAdd(y Uint32x8) Uint32x8 /* PairwiseSub */ // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VHSUBPS, CPU Feature: AVX func (x Float32x4) PairwiseSub(y Float32x4) Float32x4 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VHSUBPS, CPU Feature: AVX func (x Float32x8) PairwiseSub(y Float32x8) Float32x8 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VHSUBPD, CPU Feature: AVX func (x Float64x2) PairwiseSub(y Float64x2) Float64x2 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VHSUBPD, CPU Feature: AVX func (x Float64x4) PairwiseSub(y Float64x4) Float64x4 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBW, CPU Feature: AVX func (x Int16x8) PairwiseSub(y Int16x8) Int16x8 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBW, CPU Feature: AVX2 func (x Int16x16) PairwiseSub(y Int16x16) Int16x16 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBD, CPU Feature: AVX func (x Int32x4) PairwiseSub(y Int32x4) Int32x4 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBD, CPU Feature: AVX2 func (x Int32x8) PairwiseSub(y Int32x8) Int32x8 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBW, CPU Feature: AVX func (x Uint16x8) PairwiseSub(y Uint16x8) Uint16x8 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBW, CPU Feature: AVX2 func (x Uint16x16) PairwiseSub(y Uint16x16) Uint16x16 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBD, CPU Feature: AVX func (x Uint32x4) PairwiseSub(y Uint32x4) Uint32x4 // PairwiseSub horizontally subtracts adjacent pairs of elements. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBD, CPU Feature: AVX2 func (x Uint32x8) PairwiseSub(y Uint32x8) Uint32x8 /* PopCount */ // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Int8x16) PopCount() Int8x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Int8x32) PopCount() Int8x32 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Int8x64) PopCount() Int8x64 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Int16x8) PopCount() Int16x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Int16x16) PopCount() Int16x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Int16x32) PopCount() Int16x32 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Int32x4) PopCount() Int32x4 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Int32x8) PopCount() Int32x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Int32x16) PopCount() Int32x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Int64x2) PopCount() Int64x2 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Int64x4) PopCount() Int64x4 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Int64x8) PopCount() Int64x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Uint8x16) PopCount() Uint8x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Uint8x32) PopCount() Uint8x32 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTB, CPU Feature: AVX512EVEX func (x Uint8x64) PopCount() Uint8x64 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Uint16x8) PopCount() Uint16x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Uint16x16) PopCount() Uint16x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTW, CPU Feature: AVX512EVEX func (x Uint16x32) PopCount() Uint16x32 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Uint32x4) PopCount() Uint32x4 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Uint32x8) PopCount() Uint32x8 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTD, CPU Feature: AVX512EVEX func (x Uint32x16) PopCount() Uint32x16 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Uint64x2) PopCount() Uint64x2 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Uint64x4) PopCount() Uint64x4 // PopCount counts the number of set bits in each element. // // Asm: VPOPCNTQ, CPU Feature: AVX512EVEX func (x Uint64x8) PopCount() Uint64x8 /* Round */ // Round rounds elements to the nearest integer. // Const Immediate = 0. // // Asm: VROUNDPS, CPU Feature: AVX func (x Float32x4) Round() Float32x4 // Round rounds elements to the nearest integer. // Const Immediate = 0. // // Asm: VROUNDPS, CPU Feature: AVX func (x Float32x8) Round() Float32x8 // Round rounds elements to the nearest integer. // Const Immediate = 0. // // Asm: VROUNDPD, CPU Feature: AVX func (x Float64x2) Round() Float64x2 // Round rounds elements to the nearest integer. // Const Immediate = 0. // // Asm: VROUNDPD, CPU Feature: AVX func (x Float64x4) Round() Float64x4 /* RoundSuppressExceptionWithPrecision */ // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) RoundSuppressExceptionWithPrecision(imm8 uint8) Float32x4 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) RoundSuppressExceptionWithPrecision(imm8 uint8) Float32x8 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) RoundSuppressExceptionWithPrecision(imm8 uint8) Float32x16 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) RoundSuppressExceptionWithPrecision(imm8 uint8) Float64x2 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) RoundSuppressExceptionWithPrecision(imm8 uint8) Float64x4 // RoundSuppressExceptionWithPrecision rounds elements with specified precision, suppressing exceptions. // Const Immediate = 8. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) RoundSuppressExceptionWithPrecision(imm8 uint8) Float64x8 /* RoundWithPrecision */ // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) RoundWithPrecision(imm8 uint8) Float32x4 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) RoundWithPrecision(imm8 uint8) Float32x8 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) RoundWithPrecision(imm8 uint8) Float32x16 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) RoundWithPrecision(imm8 uint8) Float64x2 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) RoundWithPrecision(imm8 uint8) Float64x4 // RoundWithPrecision rounds elements with specified precision. // Const Immediate = 0. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) RoundWithPrecision(imm8 uint8) Float64x8 /* SaturatedAdd */ // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX func (x Int8x16) SaturatedAdd(y Int8x16) Int8x16 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX2 func (x Int8x32) SaturatedAdd(y Int8x32) Int8x32 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX512EVEX func (x Int8x64) SaturatedAdd(y Int8x64) Int8x64 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX func (x Int16x8) SaturatedAdd(y Int16x8) Int16x8 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX2 func (x Int16x16) SaturatedAdd(y Int16x16) Int16x16 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX512EVEX func (x Int16x32) SaturatedAdd(y Int16x32) Int16x32 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX func (x Uint8x16) SaturatedAdd(y Uint8x16) Uint8x16 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX2 func (x Uint8x32) SaturatedAdd(y Uint8x32) Uint8x32 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSB, CPU Feature: AVX512EVEX func (x Uint8x64) SaturatedAdd(y Uint8x64) Uint8x64 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX func (x Uint16x8) SaturatedAdd(y Uint16x8) Uint16x8 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX2 func (x Uint16x16) SaturatedAdd(y Uint16x16) Uint16x16 // SaturatedAdd adds corresponding elements of two vectors with saturation. // // Asm: VPADDSW, CPU Feature: AVX512EVEX func (x Uint16x32) SaturatedAdd(y Uint16x32) Uint16x32 /* SaturatedPairDotProdAccumulate */ // SaturatedPairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSDS, CPU Feature: AVX_VNNI func (x Int32x4) SaturatedPairDotProdAccumulate(y Int16x8, z Int16x8) Int32x4 // SaturatedPairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSDS, CPU Feature: AVX_VNNI func (x Int32x8) SaturatedPairDotProdAccumulate(y Int16x16, z Int16x16) Int32x8 // SaturatedPairDotProdAccumulate performs dot products on pairs of elements of y and z and accumulates the results to x. // // Asm: VPDPWSSDS, CPU Feature: AVX512EVEX func (x Int32x16) SaturatedPairDotProdAccumulate(y Int16x32, z Int16x32) Int32x16 /* SaturatedPairwiseAdd */ // SaturatedPairwiseAdd horizontally adds adjacent pairs of elements with saturation. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDSW, CPU Feature: AVX func (x Int16x8) SaturatedPairwiseAdd(y Int16x8) Int16x8 // SaturatedPairwiseAdd horizontally adds adjacent pairs of elements with saturation. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0+y1, y2+y3, ..., x0+x1, x2+x3, ...]. // // Asm: VPHADDSW, CPU Feature: AVX2 func (x Int16x16) SaturatedPairwiseAdd(y Int16x16) Int16x16 /* SaturatedPairwiseSub */ // SaturatedPairwiseSub horizontally subtracts adjacent pairs of elements with saturation. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBSW, CPU Feature: AVX func (x Int16x8) SaturatedPairwiseSub(y Int16x8) Int16x8 // SaturatedPairwiseSub horizontally subtracts adjacent pairs of elements with saturation. // For x = [x0, x1, x2, x3, ...] and y = [y0, y1, y2, y3, ...], the result is [y0-y1, y2-y3, ..., x0-x1, x2-x3, ...]. // // Asm: VPHSUBSW, CPU Feature: AVX2 func (x Int16x16) SaturatedPairwiseSub(y Int16x16) Int16x16 /* SaturatedSub */ // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX func (x Int8x16) SaturatedSub(y Int8x16) Int8x16 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX2 func (x Int8x32) SaturatedSub(y Int8x32) Int8x32 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX512EVEX func (x Int8x64) SaturatedSub(y Int8x64) Int8x64 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX func (x Int16x8) SaturatedSub(y Int16x8) Int16x8 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX2 func (x Int16x16) SaturatedSub(y Int16x16) Int16x16 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX512EVEX func (x Int16x32) SaturatedSub(y Int16x32) Int16x32 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX func (x Uint8x16) SaturatedSub(y Uint8x16) Uint8x16 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX2 func (x Uint8x32) SaturatedSub(y Uint8x32) Uint8x32 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSB, CPU Feature: AVX512EVEX func (x Uint8x64) SaturatedSub(y Uint8x64) Uint8x64 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX func (x Uint16x8) SaturatedSub(y Uint16x8) Uint16x8 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX2 func (x Uint16x16) SaturatedSub(y Uint16x16) Uint16x16 // SaturatedSub subtracts corresponding elements of two vectors with saturation. // // Asm: VPSUBSW, CPU Feature: AVX512EVEX func (x Uint16x32) SaturatedSub(y Uint16x32) Uint16x32 /* SaturatedUnsignedSignedPairDotProd */ // SaturatedPairDotProd multiplies the elements and add the pairs together with saturation, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDUBSW, CPU Feature: AVX func (x Uint8x16) SaturatedUnsignedSignedPairDotProd(y Int8x16) Int16x8 // SaturatedPairDotProd multiplies the elements and add the pairs together with saturation, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDUBSW, CPU Feature: AVX2 func (x Uint8x32) SaturatedUnsignedSignedPairDotProd(y Int8x32) Int16x16 // SaturatedPairDotProd multiplies the elements and add the pairs together with saturation, // yielding a vector of half as many elements with twice the input element size. // // Asm: VPMADDUBSW, CPU Feature: AVX512EVEX func (x Uint8x64) SaturatedUnsignedSignedPairDotProd(y Int8x64) Int16x32 /* SaturatedUnsignedSignedQuadDotProdAccumulate */ // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX_VNNI func (x Int32x4) SaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x16, z Int8x16) Int32x4 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX_VNNI func (x Int32x8) SaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x32, z Int8x32) Int32x8 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX512EVEX func (x Int32x16) SaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x64, z Int8x64) Int32x16 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX_VNNI func (x Uint32x4) SaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x16, z Int8x16) Uint32x4 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX_VNNI func (x Uint32x8) SaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x32, z Int8x32) Uint32x8 // SaturatedUnsignedSignedQuadDotProdAccumulate multiplies performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSDS, CPU Feature: AVX512EVEX func (x Uint32x16) SaturatedUnsignedSignedQuadDotProdAccumulate(y Uint8x64, z Int8x64) Uint32x16 /* SetElem */ // SetElem sets a single constant-indexed element's value. // // Asm: VPINSRB, CPU Feature: AVX func (x Int8x16) SetElem(imm uint8, y int8) Int8x16 // SetElem sets a single constant-indexed element's value. // // Asm: VPINSRW, CPU Feature: AVX func (x Int16x8) SetElem(imm uint8, y int16) Int16x8 // SetElem sets a single constant-indexed element's value. // // Asm: VPINSRD, CPU Feature: AVX func (x Int32x4) SetElem(imm uint8, y int32) Int32x4 // SetElem sets a single constant-indexed element's value. // // Asm: VPINSRQ, CPU Feature: AVX func (x Int64x2) SetElem(imm uint8, y int64) Int64x2 // SetElem sets a single constant-indexed element's value. // // Asm: VPINSRB, CPU Feature: AVX func (x Uint8x16) SetElem(imm uint8, y uint8) Uint8x16 // SetElem sets a single constant-indexed element's value. // // Asm: VPINSRW, CPU Feature: AVX func (x Uint16x8) SetElem(imm uint8, y uint16) Uint16x8 // SetElem sets a single constant-indexed element's value. // // Asm: VPINSRD, CPU Feature: AVX func (x Uint32x4) SetElem(imm uint8, y uint32) Uint32x4 // SetElem sets a single constant-indexed element's value. // // Asm: VPINSRQ, CPU Feature: AVX func (x Uint64x2) SetElem(imm uint8, y uint64) Uint64x2 /* Sign */ // Sign returns the product of the first operand with -1, 0, or 1, // whichever constant is nearest to the value of the second operand. // // Asm: VPSIGNB, CPU Feature: AVX func (x Int8x16) Sign(y Int8x16) Int8x16 // Sign returns the product of the first operand with -1, 0, or 1, // whichever constant is nearest to the value of the second operand. // // Asm: VPSIGNB, CPU Feature: AVX2 func (x Int8x32) Sign(y Int8x32) Int8x32 // Sign returns the product of the first operand with -1, 0, or 1, // whichever constant is nearest to the value of the second operand. // // Asm: VPSIGNW, CPU Feature: AVX func (x Int16x8) Sign(y Int16x8) Int16x8 // Sign returns the product of the first operand with -1, 0, or 1, // whichever constant is nearest to the value of the second operand. // // Asm: VPSIGNW, CPU Feature: AVX2 func (x Int16x16) Sign(y Int16x16) Int16x16 // Sign returns the product of the first operand with -1, 0, or 1, // whichever constant is nearest to the value of the second operand. // // Asm: VPSIGND, CPU Feature: AVX func (x Int32x4) Sign(y Int32x4) Int32x4 // Sign returns the product of the first operand with -1, 0, or 1, // whichever constant is nearest to the value of the second operand. // // Asm: VPSIGND, CPU Feature: AVX2 func (x Int32x8) Sign(y Int32x8) Int32x8 /* Sqrt */ // Sqrt computes the square root of each element. // // Asm: VSQRTPS, CPU Feature: AVX func (x Float32x4) Sqrt() Float32x4 // Sqrt computes the square root of each element. // // Asm: VSQRTPS, CPU Feature: AVX func (x Float32x8) Sqrt() Float32x8 // Sqrt computes the square root of each element. // // Asm: VSQRTPS, CPU Feature: AVX512EVEX func (x Float32x16) Sqrt() Float32x16 // Sqrt computes the square root of each element. // // Asm: VSQRTPD, CPU Feature: AVX func (x Float64x2) Sqrt() Float64x2 // Sqrt computes the square root of each element. // // Asm: VSQRTPD, CPU Feature: AVX func (x Float64x4) Sqrt() Float64x4 // Sqrt computes the square root of each element. // // Asm: VSQRTPD, CPU Feature: AVX512EVEX func (x Float64x8) Sqrt() Float64x8 /* Sub */ // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPS, CPU Feature: AVX func (x Float32x4) Sub(y Float32x4) Float32x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPS, CPU Feature: AVX func (x Float32x8) Sub(y Float32x8) Float32x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPS, CPU Feature: AVX512EVEX func (x Float32x16) Sub(y Float32x16) Float32x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPD, CPU Feature: AVX func (x Float64x2) Sub(y Float64x2) Float64x2 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPD, CPU Feature: AVX func (x Float64x4) Sub(y Float64x4) Float64x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VSUBPD, CPU Feature: AVX512EVEX func (x Float64x8) Sub(y Float64x8) Float64x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX func (x Int8x16) Sub(y Int8x16) Int8x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX2 func (x Int8x32) Sub(y Int8x32) Int8x32 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX512EVEX func (x Int8x64) Sub(y Int8x64) Int8x64 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX func (x Int16x8) Sub(y Int16x8) Int16x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX2 func (x Int16x16) Sub(y Int16x16) Int16x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX512EVEX func (x Int16x32) Sub(y Int16x32) Int16x32 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX func (x Int32x4) Sub(y Int32x4) Int32x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX2 func (x Int32x8) Sub(y Int32x8) Int32x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX512EVEX func (x Int32x16) Sub(y Int32x16) Int32x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX func (x Int64x2) Sub(y Int64x2) Int64x2 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX2 func (x Int64x4) Sub(y Int64x4) Int64x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX512EVEX func (x Int64x8) Sub(y Int64x8) Int64x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX func (x Uint8x16) Sub(y Uint8x16) Uint8x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX2 func (x Uint8x32) Sub(y Uint8x32) Uint8x32 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBB, CPU Feature: AVX512EVEX func (x Uint8x64) Sub(y Uint8x64) Uint8x64 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX func (x Uint16x8) Sub(y Uint16x8) Uint16x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX2 func (x Uint16x16) Sub(y Uint16x16) Uint16x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBW, CPU Feature: AVX512EVEX func (x Uint16x32) Sub(y Uint16x32) Uint16x32 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX func (x Uint32x4) Sub(y Uint32x4) Uint32x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX2 func (x Uint32x8) Sub(y Uint32x8) Uint32x8 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBD, CPU Feature: AVX512EVEX func (x Uint32x16) Sub(y Uint32x16) Uint32x16 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX func (x Uint64x2) Sub(y Uint64x2) Uint64x2 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX2 func (x Uint64x4) Sub(y Uint64x4) Uint64x4 // Sub subtracts corresponding elements of two vectors. // // Asm: VPSUBQ, CPU Feature: AVX512EVEX func (x Uint64x8) Sub(y Uint64x8) Uint64x8 /* Trunc */ // Trunc truncates elements towards zero. // Const Immediate = 3. // // Asm: VROUNDPS, CPU Feature: AVX func (x Float32x4) Trunc() Float32x4 // Trunc truncates elements towards zero. // Const Immediate = 3. // // Asm: VROUNDPS, CPU Feature: AVX func (x Float32x8) Trunc() Float32x8 // Trunc truncates elements towards zero. // Const Immediate = 3. // // Asm: VROUNDPD, CPU Feature: AVX func (x Float64x2) Trunc() Float64x2 // Trunc truncates elements towards zero. // Const Immediate = 3. // // Asm: VROUNDPD, CPU Feature: AVX func (x Float64x4) Trunc() Float64x4 /* TruncSuppressExceptionWithPrecision */ // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) TruncSuppressExceptionWithPrecision(imm8 uint8) Float32x4 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) TruncSuppressExceptionWithPrecision(imm8 uint8) Float32x8 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) TruncSuppressExceptionWithPrecision(imm8 uint8) Float32x16 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) TruncSuppressExceptionWithPrecision(imm8 uint8) Float64x2 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) TruncSuppressExceptionWithPrecision(imm8 uint8) Float64x4 // TruncSuppressExceptionWithPrecision truncates elements with specified precision, suppressing exceptions. // Const Immediate = 11. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) TruncSuppressExceptionWithPrecision(imm8 uint8) Float64x8 /* TruncWithPrecision */ // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x4) TruncWithPrecision(imm8 uint8) Float32x4 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x8) TruncWithPrecision(imm8 uint8) Float32x8 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPS, CPU Feature: AVX512EVEX func (x Float32x16) TruncWithPrecision(imm8 uint8) Float32x16 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x2) TruncWithPrecision(imm8 uint8) Float64x2 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x4) TruncWithPrecision(imm8 uint8) Float64x4 // TruncWithPrecision truncates elements with specified precision. // Const Immediate = 3. // // Asm: VRNDSCALEPD, CPU Feature: AVX512EVEX func (x Float64x8) TruncWithPrecision(imm8 uint8) Float64x8 /* UnsignedSignedQuadDotProdAccumulate */ // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX_VNNI func (x Int32x4) UnsignedSignedQuadDotProdAccumulate(y Uint8x16, z Int8x16) Int32x4 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX_VNNI func (x Int32x8) UnsignedSignedQuadDotProdAccumulate(y Uint8x32, z Int8x32) Int32x8 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX512EVEX func (x Int32x16) UnsignedSignedQuadDotProdAccumulate(y Uint8x64, z Int8x64) Int32x16 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX_VNNI func (x Uint32x4) UnsignedSignedQuadDotProdAccumulate(y Uint8x16, z Int8x16) Uint32x4 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX_VNNI func (x Uint32x8) UnsignedSignedQuadDotProdAccumulate(y Uint8x32, z Int8x32) Uint32x8 // UnsignedSignedQuadDotProdAccumulate performs dot products on groups of 4 elements of y and z and accumulates the results to x. // // Asm: VPDPBUSD, CPU Feature: AVX512EVEX func (x Uint32x16) UnsignedSignedQuadDotProdAccumulate(y Uint8x64, z Int8x64) Uint32x16 /* Xor */ // Xor performs a bitwise XOR operation between two vectors. // // Asm: VXORPS, CPU Feature: AVX func (x Float32x4) Xor(y Float32x4) Float32x4 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VXORPS, CPU Feature: AVX func (x Float32x8) Xor(y Float32x8) Float32x8 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VXORPS, CPU Feature: AVX512EVEX func (x Float32x16) Xor(y Float32x16) Float32x16 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VXORPD, CPU Feature: AVX func (x Float64x2) Xor(y Float64x2) Float64x2 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VXORPD, CPU Feature: AVX func (x Float64x4) Xor(y Float64x4) Float64x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VXORPD, CPU Feature: AVX512EVEX func (x Float64x8) Xor(y Float64x8) Float64x8 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX func (x Int8x16) Xor(y Int8x16) Int8x16 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX2 func (x Int8x32) Xor(y Int8x32) Int8x32 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX func (x Int16x8) Xor(y Int16x8) Int16x8 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX2 func (x Int16x16) Xor(y Int16x16) Int16x16 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX func (x Int32x4) Xor(y Int32x4) Int32x4 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX2 func (x Int32x8) Xor(y Int32x8) Int32x8 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORD, CPU Feature: AVX512EVEX func (x Int32x16) Xor(y Int32x16) Int32x16 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX func (x Int64x2) Xor(y Int64x2) Int64x2 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX2 func (x Int64x4) Xor(y Int64x4) Int64x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORQ, CPU Feature: AVX512EVEX func (x Int64x8) Xor(y Int64x8) Int64x8 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX func (x Uint8x16) Xor(y Uint8x16) Uint8x16 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX2 func (x Uint8x32) Xor(y Uint8x32) Uint8x32 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX func (x Uint16x8) Xor(y Uint16x8) Uint16x8 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX2 func (x Uint16x16) Xor(y Uint16x16) Uint16x16 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX func (x Uint32x4) Xor(y Uint32x4) Uint32x4 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX2 func (x Uint32x8) Xor(y Uint32x8) Uint32x8 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORD, CPU Feature: AVX512EVEX func (x Uint32x16) Xor(y Uint32x16) Uint32x16 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX func (x Uint64x2) Xor(y Uint64x2) Uint64x2 // Xor performs a bitwise XOR operation between two vectors. // // Asm: VPXOR, CPU Feature: AVX2 func (x Uint64x4) Xor(y Uint64x4) Uint64x4 // Xor performs a masked bitwise XOR operation between two vectors. // // Asm: VPXORQ, CPU Feature: AVX512EVEX func (x Uint64x8) Xor(y Uint64x8) Uint64x8 // Float64x2 converts from Float32x4 to Float64x2 func (from Float32x4) AsFloat64x2() (to Float64x2) // Int8x16 converts from Float32x4 to Int8x16 func (from Float32x4) AsInt8x16() (to Int8x16) // Int16x8 converts from Float32x4 to Int16x8 func (from Float32x4) AsInt16x8() (to Int16x8) // Int32x4 converts from Float32x4 to Int32x4 func (from Float32x4) AsInt32x4() (to Int32x4) // Int64x2 converts from Float32x4 to Int64x2 func (from Float32x4) AsInt64x2() (to Int64x2) // Uint8x16 converts from Float32x4 to Uint8x16 func (from Float32x4) AsUint8x16() (to Uint8x16) // Uint16x8 converts from Float32x4 to Uint16x8 func (from Float32x4) AsUint16x8() (to Uint16x8) // Uint32x4 converts from Float32x4 to Uint32x4 func (from Float32x4) AsUint32x4() (to Uint32x4) // Uint64x2 converts from Float32x4 to Uint64x2 func (from Float32x4) AsUint64x2() (to Uint64x2) // Float64x4 converts from Float32x8 to Float64x4 func (from Float32x8) AsFloat64x4() (to Float64x4) // Int8x32 converts from Float32x8 to Int8x32 func (from Float32x8) AsInt8x32() (to Int8x32) // Int16x16 converts from Float32x8 to Int16x16 func (from Float32x8) AsInt16x16() (to Int16x16) // Int32x8 converts from Float32x8 to Int32x8 func (from Float32x8) AsInt32x8() (to Int32x8) // Int64x4 converts from Float32x8 to Int64x4 func (from Float32x8) AsInt64x4() (to Int64x4) // Uint8x32 converts from Float32x8 to Uint8x32 func (from Float32x8) AsUint8x32() (to Uint8x32) // Uint16x16 converts from Float32x8 to Uint16x16 func (from Float32x8) AsUint16x16() (to Uint16x16) // Uint32x8 converts from Float32x8 to Uint32x8 func (from Float32x8) AsUint32x8() (to Uint32x8) // Uint64x4 converts from Float32x8 to Uint64x4 func (from Float32x8) AsUint64x4() (to Uint64x4) // Float64x8 converts from Float32x16 to Float64x8 func (from Float32x16) AsFloat64x8() (to Float64x8) // Int8x64 converts from Float32x16 to Int8x64 func (from Float32x16) AsInt8x64() (to Int8x64) // Int16x32 converts from Float32x16 to Int16x32 func (from Float32x16) AsInt16x32() (to Int16x32) // Int32x16 converts from Float32x16 to Int32x16 func (from Float32x16) AsInt32x16() (to Int32x16) // Int64x8 converts from Float32x16 to Int64x8 func (from Float32x16) AsInt64x8() (to Int64x8) // Uint8x64 converts from Float32x16 to Uint8x64 func (from Float32x16) AsUint8x64() (to Uint8x64) // Uint16x32 converts from Float32x16 to Uint16x32 func (from Float32x16) AsUint16x32() (to Uint16x32) // Uint32x16 converts from Float32x16 to Uint32x16 func (from Float32x16) AsUint32x16() (to Uint32x16) // Uint64x8 converts from Float32x16 to Uint64x8 func (from Float32x16) AsUint64x8() (to Uint64x8) // Float32x4 converts from Float64x2 to Float32x4 func (from Float64x2) AsFloat32x4() (to Float32x4) // Int8x16 converts from Float64x2 to Int8x16 func (from Float64x2) AsInt8x16() (to Int8x16) // Int16x8 converts from Float64x2 to Int16x8 func (from Float64x2) AsInt16x8() (to Int16x8) // Int32x4 converts from Float64x2 to Int32x4 func (from Float64x2) AsInt32x4() (to Int32x4) // Int64x2 converts from Float64x2 to Int64x2 func (from Float64x2) AsInt64x2() (to Int64x2) // Uint8x16 converts from Float64x2 to Uint8x16 func (from Float64x2) AsUint8x16() (to Uint8x16) // Uint16x8 converts from Float64x2 to Uint16x8 func (from Float64x2) AsUint16x8() (to Uint16x8) // Uint32x4 converts from Float64x2 to Uint32x4 func (from Float64x2) AsUint32x4() (to Uint32x4) // Uint64x2 converts from Float64x2 to Uint64x2 func (from Float64x2) AsUint64x2() (to Uint64x2) // Float32x8 converts from Float64x4 to Float32x8 func (from Float64x4) AsFloat32x8() (to Float32x8) // Int8x32 converts from Float64x4 to Int8x32 func (from Float64x4) AsInt8x32() (to Int8x32) // Int16x16 converts from Float64x4 to Int16x16 func (from Float64x4) AsInt16x16() (to Int16x16) // Int32x8 converts from Float64x4 to Int32x8 func (from Float64x4) AsInt32x8() (to Int32x8) // Int64x4 converts from Float64x4 to Int64x4 func (from Float64x4) AsInt64x4() (to Int64x4) // Uint8x32 converts from Float64x4 to Uint8x32 func (from Float64x4) AsUint8x32() (to Uint8x32) // Uint16x16 converts from Float64x4 to Uint16x16 func (from Float64x4) AsUint16x16() (to Uint16x16) // Uint32x8 converts from Float64x4 to Uint32x8 func (from Float64x4) AsUint32x8() (to Uint32x8) // Uint64x4 converts from Float64x4 to Uint64x4 func (from Float64x4) AsUint64x4() (to Uint64x4) // Float32x16 converts from Float64x8 to Float32x16 func (from Float64x8) AsFloat32x16() (to Float32x16) // Int8x64 converts from Float64x8 to Int8x64 func (from Float64x8) AsInt8x64() (to Int8x64) // Int16x32 converts from Float64x8 to Int16x32 func (from Float64x8) AsInt16x32() (to Int16x32) // Int32x16 converts from Float64x8 to Int32x16 func (from Float64x8) AsInt32x16() (to Int32x16) // Int64x8 converts from Float64x8 to Int64x8 func (from Float64x8) AsInt64x8() (to Int64x8) // Uint8x64 converts from Float64x8 to Uint8x64 func (from Float64x8) AsUint8x64() (to Uint8x64) // Uint16x32 converts from Float64x8 to Uint16x32 func (from Float64x8) AsUint16x32() (to Uint16x32) // Uint32x16 converts from Float64x8 to Uint32x16 func (from Float64x8) AsUint32x16() (to Uint32x16) // Uint64x8 converts from Float64x8 to Uint64x8 func (from Float64x8) AsUint64x8() (to Uint64x8) // Float32x4 converts from Int8x16 to Float32x4 func (from Int8x16) AsFloat32x4() (to Float32x4) // Float64x2 converts from Int8x16 to Float64x2 func (from Int8x16) AsFloat64x2() (to Float64x2) // Int16x8 converts from Int8x16 to Int16x8 func (from Int8x16) AsInt16x8() (to Int16x8) // Int32x4 converts from Int8x16 to Int32x4 func (from Int8x16) AsInt32x4() (to Int32x4) // Int64x2 converts from Int8x16 to Int64x2 func (from Int8x16) AsInt64x2() (to Int64x2) // Uint8x16 converts from Int8x16 to Uint8x16 func (from Int8x16) AsUint8x16() (to Uint8x16) // Uint16x8 converts from Int8x16 to Uint16x8 func (from Int8x16) AsUint16x8() (to Uint16x8) // Uint32x4 converts from Int8x16 to Uint32x4 func (from Int8x16) AsUint32x4() (to Uint32x4) // Uint64x2 converts from Int8x16 to Uint64x2 func (from Int8x16) AsUint64x2() (to Uint64x2) // Float32x8 converts from Int8x32 to Float32x8 func (from Int8x32) AsFloat32x8() (to Float32x8) // Float64x4 converts from Int8x32 to Float64x4 func (from Int8x32) AsFloat64x4() (to Float64x4) // Int16x16 converts from Int8x32 to Int16x16 func (from Int8x32) AsInt16x16() (to Int16x16) // Int32x8 converts from Int8x32 to Int32x8 func (from Int8x32) AsInt32x8() (to Int32x8) // Int64x4 converts from Int8x32 to Int64x4 func (from Int8x32) AsInt64x4() (to Int64x4) // Uint8x32 converts from Int8x32 to Uint8x32 func (from Int8x32) AsUint8x32() (to Uint8x32) // Uint16x16 converts from Int8x32 to Uint16x16 func (from Int8x32) AsUint16x16() (to Uint16x16) // Uint32x8 converts from Int8x32 to Uint32x8 func (from Int8x32) AsUint32x8() (to Uint32x8) // Uint64x4 converts from Int8x32 to Uint64x4 func (from Int8x32) AsUint64x4() (to Uint64x4) // Float32x16 converts from Int8x64 to Float32x16 func (from Int8x64) AsFloat32x16() (to Float32x16) // Float64x8 converts from Int8x64 to Float64x8 func (from Int8x64) AsFloat64x8() (to Float64x8) // Int16x32 converts from Int8x64 to Int16x32 func (from Int8x64) AsInt16x32() (to Int16x32) // Int32x16 converts from Int8x64 to Int32x16 func (from Int8x64) AsInt32x16() (to Int32x16) // Int64x8 converts from Int8x64 to Int64x8 func (from Int8x64) AsInt64x8() (to Int64x8) // Uint8x64 converts from Int8x64 to Uint8x64 func (from Int8x64) AsUint8x64() (to Uint8x64) // Uint16x32 converts from Int8x64 to Uint16x32 func (from Int8x64) AsUint16x32() (to Uint16x32) // Uint32x16 converts from Int8x64 to Uint32x16 func (from Int8x64) AsUint32x16() (to Uint32x16) // Uint64x8 converts from Int8x64 to Uint64x8 func (from Int8x64) AsUint64x8() (to Uint64x8) // Float32x4 converts from Int16x8 to Float32x4 func (from Int16x8) AsFloat32x4() (to Float32x4) // Float64x2 converts from Int16x8 to Float64x2 func (from Int16x8) AsFloat64x2() (to Float64x2) // Int8x16 converts from Int16x8 to Int8x16 func (from Int16x8) AsInt8x16() (to Int8x16) // Int32x4 converts from Int16x8 to Int32x4 func (from Int16x8) AsInt32x4() (to Int32x4) // Int64x2 converts from Int16x8 to Int64x2 func (from Int16x8) AsInt64x2() (to Int64x2) // Uint8x16 converts from Int16x8 to Uint8x16 func (from Int16x8) AsUint8x16() (to Uint8x16) // Uint16x8 converts from Int16x8 to Uint16x8 func (from Int16x8) AsUint16x8() (to Uint16x8) // Uint32x4 converts from Int16x8 to Uint32x4 func (from Int16x8) AsUint32x4() (to Uint32x4) // Uint64x2 converts from Int16x8 to Uint64x2 func (from Int16x8) AsUint64x2() (to Uint64x2) // Float32x8 converts from Int16x16 to Float32x8 func (from Int16x16) AsFloat32x8() (to Float32x8) // Float64x4 converts from Int16x16 to Float64x4 func (from Int16x16) AsFloat64x4() (to Float64x4) // Int8x32 converts from Int16x16 to Int8x32 func (from Int16x16) AsInt8x32() (to Int8x32) // Int32x8 converts from Int16x16 to Int32x8 func (from Int16x16) AsInt32x8() (to Int32x8) // Int64x4 converts from Int16x16 to Int64x4 func (from Int16x16) AsInt64x4() (to Int64x4) // Uint8x32 converts from Int16x16 to Uint8x32 func (from Int16x16) AsUint8x32() (to Uint8x32) // Uint16x16 converts from Int16x16 to Uint16x16 func (from Int16x16) AsUint16x16() (to Uint16x16) // Uint32x8 converts from Int16x16 to Uint32x8 func (from Int16x16) AsUint32x8() (to Uint32x8) // Uint64x4 converts from Int16x16 to Uint64x4 func (from Int16x16) AsUint64x4() (to Uint64x4) // Float32x16 converts from Int16x32 to Float32x16 func (from Int16x32) AsFloat32x16() (to Float32x16) // Float64x8 converts from Int16x32 to Float64x8 func (from Int16x32) AsFloat64x8() (to Float64x8) // Int8x64 converts from Int16x32 to Int8x64 func (from Int16x32) AsInt8x64() (to Int8x64) // Int32x16 converts from Int16x32 to Int32x16 func (from Int16x32) AsInt32x16() (to Int32x16) // Int64x8 converts from Int16x32 to Int64x8 func (from Int16x32) AsInt64x8() (to Int64x8) // Uint8x64 converts from Int16x32 to Uint8x64 func (from Int16x32) AsUint8x64() (to Uint8x64) // Uint16x32 converts from Int16x32 to Uint16x32 func (from Int16x32) AsUint16x32() (to Uint16x32) // Uint32x16 converts from Int16x32 to Uint32x16 func (from Int16x32) AsUint32x16() (to Uint32x16) // Uint64x8 converts from Int16x32 to Uint64x8 func (from Int16x32) AsUint64x8() (to Uint64x8) // Float32x4 converts from Int32x4 to Float32x4 func (from Int32x4) AsFloat32x4() (to Float32x4) // Float64x2 converts from Int32x4 to Float64x2 func (from Int32x4) AsFloat64x2() (to Float64x2) // Int8x16 converts from Int32x4 to Int8x16 func (from Int32x4) AsInt8x16() (to Int8x16) // Int16x8 converts from Int32x4 to Int16x8 func (from Int32x4) AsInt16x8() (to Int16x8) // Int64x2 converts from Int32x4 to Int64x2 func (from Int32x4) AsInt64x2() (to Int64x2) // Uint8x16 converts from Int32x4 to Uint8x16 func (from Int32x4) AsUint8x16() (to Uint8x16) // Uint16x8 converts from Int32x4 to Uint16x8 func (from Int32x4) AsUint16x8() (to Uint16x8) // Uint32x4 converts from Int32x4 to Uint32x4 func (from Int32x4) AsUint32x4() (to Uint32x4) // Uint64x2 converts from Int32x4 to Uint64x2 func (from Int32x4) AsUint64x2() (to Uint64x2) // Float32x8 converts from Int32x8 to Float32x8 func (from Int32x8) AsFloat32x8() (to Float32x8) // Float64x4 converts from Int32x8 to Float64x4 func (from Int32x8) AsFloat64x4() (to Float64x4) // Int8x32 converts from Int32x8 to Int8x32 func (from Int32x8) AsInt8x32() (to Int8x32) // Int16x16 converts from Int32x8 to Int16x16 func (from Int32x8) AsInt16x16() (to Int16x16) // Int64x4 converts from Int32x8 to Int64x4 func (from Int32x8) AsInt64x4() (to Int64x4) // Uint8x32 converts from Int32x8 to Uint8x32 func (from Int32x8) AsUint8x32() (to Uint8x32) // Uint16x16 converts from Int32x8 to Uint16x16 func (from Int32x8) AsUint16x16() (to Uint16x16) // Uint32x8 converts from Int32x8 to Uint32x8 func (from Int32x8) AsUint32x8() (to Uint32x8) // Uint64x4 converts from Int32x8 to Uint64x4 func (from Int32x8) AsUint64x4() (to Uint64x4) // Float32x16 converts from Int32x16 to Float32x16 func (from Int32x16) AsFloat32x16() (to Float32x16) // Float64x8 converts from Int32x16 to Float64x8 func (from Int32x16) AsFloat64x8() (to Float64x8) // Int8x64 converts from Int32x16 to Int8x64 func (from Int32x16) AsInt8x64() (to Int8x64) // Int16x32 converts from Int32x16 to Int16x32 func (from Int32x16) AsInt16x32() (to Int16x32) // Int64x8 converts from Int32x16 to Int64x8 func (from Int32x16) AsInt64x8() (to Int64x8) // Uint8x64 converts from Int32x16 to Uint8x64 func (from Int32x16) AsUint8x64() (to Uint8x64) // Uint16x32 converts from Int32x16 to Uint16x32 func (from Int32x16) AsUint16x32() (to Uint16x32) // Uint32x16 converts from Int32x16 to Uint32x16 func (from Int32x16) AsUint32x16() (to Uint32x16) // Uint64x8 converts from Int32x16 to Uint64x8 func (from Int32x16) AsUint64x8() (to Uint64x8) // Float32x4 converts from Int64x2 to Float32x4 func (from Int64x2) AsFloat32x4() (to Float32x4) // Float64x2 converts from Int64x2 to Float64x2 func (from Int64x2) AsFloat64x2() (to Float64x2) // Int8x16 converts from Int64x2 to Int8x16 func (from Int64x2) AsInt8x16() (to Int8x16) // Int16x8 converts from Int64x2 to Int16x8 func (from Int64x2) AsInt16x8() (to Int16x8) // Int32x4 converts from Int64x2 to Int32x4 func (from Int64x2) AsInt32x4() (to Int32x4) // Uint8x16 converts from Int64x2 to Uint8x16 func (from Int64x2) AsUint8x16() (to Uint8x16) // Uint16x8 converts from Int64x2 to Uint16x8 func (from Int64x2) AsUint16x8() (to Uint16x8) // Uint32x4 converts from Int64x2 to Uint32x4 func (from Int64x2) AsUint32x4() (to Uint32x4) // Uint64x2 converts from Int64x2 to Uint64x2 func (from Int64x2) AsUint64x2() (to Uint64x2) // Float32x8 converts from Int64x4 to Float32x8 func (from Int64x4) AsFloat32x8() (to Float32x8) // Float64x4 converts from Int64x4 to Float64x4 func (from Int64x4) AsFloat64x4() (to Float64x4) // Int8x32 converts from Int64x4 to Int8x32 func (from Int64x4) AsInt8x32() (to Int8x32) // Int16x16 converts from Int64x4 to Int16x16 func (from Int64x4) AsInt16x16() (to Int16x16) // Int32x8 converts from Int64x4 to Int32x8 func (from Int64x4) AsInt32x8() (to Int32x8) // Uint8x32 converts from Int64x4 to Uint8x32 func (from Int64x4) AsUint8x32() (to Uint8x32) // Uint16x16 converts from Int64x4 to Uint16x16 func (from Int64x4) AsUint16x16() (to Uint16x16) // Uint32x8 converts from Int64x4 to Uint32x8 func (from Int64x4) AsUint32x8() (to Uint32x8) // Uint64x4 converts from Int64x4 to Uint64x4 func (from Int64x4) AsUint64x4() (to Uint64x4) // Float32x16 converts from Int64x8 to Float32x16 func (from Int64x8) AsFloat32x16() (to Float32x16) // Float64x8 converts from Int64x8 to Float64x8 func (from Int64x8) AsFloat64x8() (to Float64x8) // Int8x64 converts from Int64x8 to Int8x64 func (from Int64x8) AsInt8x64() (to Int8x64) // Int16x32 converts from Int64x8 to Int16x32 func (from Int64x8) AsInt16x32() (to Int16x32) // Int32x16 converts from Int64x8 to Int32x16 func (from Int64x8) AsInt32x16() (to Int32x16) // Uint8x64 converts from Int64x8 to Uint8x64 func (from Int64x8) AsUint8x64() (to Uint8x64) // Uint16x32 converts from Int64x8 to Uint16x32 func (from Int64x8) AsUint16x32() (to Uint16x32) // Uint32x16 converts from Int64x8 to Uint32x16 func (from Int64x8) AsUint32x16() (to Uint32x16) // Uint64x8 converts from Int64x8 to Uint64x8 func (from Int64x8) AsUint64x8() (to Uint64x8) // Float32x4 converts from Uint8x16 to Float32x4 func (from Uint8x16) AsFloat32x4() (to Float32x4) // Float64x2 converts from Uint8x16 to Float64x2 func (from Uint8x16) AsFloat64x2() (to Float64x2) // Int8x16 converts from Uint8x16 to Int8x16 func (from Uint8x16) AsInt8x16() (to Int8x16) // Int16x8 converts from Uint8x16 to Int16x8 func (from Uint8x16) AsInt16x8() (to Int16x8) // Int32x4 converts from Uint8x16 to Int32x4 func (from Uint8x16) AsInt32x4() (to Int32x4) // Int64x2 converts from Uint8x16 to Int64x2 func (from Uint8x16) AsInt64x2() (to Int64x2) // Uint16x8 converts from Uint8x16 to Uint16x8 func (from Uint8x16) AsUint16x8() (to Uint16x8) // Uint32x4 converts from Uint8x16 to Uint32x4 func (from Uint8x16) AsUint32x4() (to Uint32x4) // Uint64x2 converts from Uint8x16 to Uint64x2 func (from Uint8x16) AsUint64x2() (to Uint64x2) // Float32x8 converts from Uint8x32 to Float32x8 func (from Uint8x32) AsFloat32x8() (to Float32x8) // Float64x4 converts from Uint8x32 to Float64x4 func (from Uint8x32) AsFloat64x4() (to Float64x4) // Int8x32 converts from Uint8x32 to Int8x32 func (from Uint8x32) AsInt8x32() (to Int8x32) // Int16x16 converts from Uint8x32 to Int16x16 func (from Uint8x32) AsInt16x16() (to Int16x16) // Int32x8 converts from Uint8x32 to Int32x8 func (from Uint8x32) AsInt32x8() (to Int32x8) // Int64x4 converts from Uint8x32 to Int64x4 func (from Uint8x32) AsInt64x4() (to Int64x4) // Uint16x16 converts from Uint8x32 to Uint16x16 func (from Uint8x32) AsUint16x16() (to Uint16x16) // Uint32x8 converts from Uint8x32 to Uint32x8 func (from Uint8x32) AsUint32x8() (to Uint32x8) // Uint64x4 converts from Uint8x32 to Uint64x4 func (from Uint8x32) AsUint64x4() (to Uint64x4) // Float32x16 converts from Uint8x64 to Float32x16 func (from Uint8x64) AsFloat32x16() (to Float32x16) // Float64x8 converts from Uint8x64 to Float64x8 func (from Uint8x64) AsFloat64x8() (to Float64x8) // Int8x64 converts from Uint8x64 to Int8x64 func (from Uint8x64) AsInt8x64() (to Int8x64) // Int16x32 converts from Uint8x64 to Int16x32 func (from Uint8x64) AsInt16x32() (to Int16x32) // Int32x16 converts from Uint8x64 to Int32x16 func (from Uint8x64) AsInt32x16() (to Int32x16) // Int64x8 converts from Uint8x64 to Int64x8 func (from Uint8x64) AsInt64x8() (to Int64x8) // Uint16x32 converts from Uint8x64 to Uint16x32 func (from Uint8x64) AsUint16x32() (to Uint16x32) // Uint32x16 converts from Uint8x64 to Uint32x16 func (from Uint8x64) AsUint32x16() (to Uint32x16) // Uint64x8 converts from Uint8x64 to Uint64x8 func (from Uint8x64) AsUint64x8() (to Uint64x8) // Float32x4 converts from Uint16x8 to Float32x4 func (from Uint16x8) AsFloat32x4() (to Float32x4) // Float64x2 converts from Uint16x8 to Float64x2 func (from Uint16x8) AsFloat64x2() (to Float64x2) // Int8x16 converts from Uint16x8 to Int8x16 func (from Uint16x8) AsInt8x16() (to Int8x16) // Int16x8 converts from Uint16x8 to Int16x8 func (from Uint16x8) AsInt16x8() (to Int16x8) // Int32x4 converts from Uint16x8 to Int32x4 func (from Uint16x8) AsInt32x4() (to Int32x4) // Int64x2 converts from Uint16x8 to Int64x2 func (from Uint16x8) AsInt64x2() (to Int64x2) // Uint8x16 converts from Uint16x8 to Uint8x16 func (from Uint16x8) AsUint8x16() (to Uint8x16) // Uint32x4 converts from Uint16x8 to Uint32x4 func (from Uint16x8) AsUint32x4() (to Uint32x4) // Uint64x2 converts from Uint16x8 to Uint64x2 func (from Uint16x8) AsUint64x2() (to Uint64x2) // Float32x8 converts from Uint16x16 to Float32x8 func (from Uint16x16) AsFloat32x8() (to Float32x8) // Float64x4 converts from Uint16x16 to Float64x4 func (from Uint16x16) AsFloat64x4() (to Float64x4) // Int8x32 converts from Uint16x16 to Int8x32 func (from Uint16x16) AsInt8x32() (to Int8x32) // Int16x16 converts from Uint16x16 to Int16x16 func (from Uint16x16) AsInt16x16() (to Int16x16) // Int32x8 converts from Uint16x16 to Int32x8 func (from Uint16x16) AsInt32x8() (to Int32x8) // Int64x4 converts from Uint16x16 to Int64x4 func (from Uint16x16) AsInt64x4() (to Int64x4) // Uint8x32 converts from Uint16x16 to Uint8x32 func (from Uint16x16) AsUint8x32() (to Uint8x32) // Uint32x8 converts from Uint16x16 to Uint32x8 func (from Uint16x16) AsUint32x8() (to Uint32x8) // Uint64x4 converts from Uint16x16 to Uint64x4 func (from Uint16x16) AsUint64x4() (to Uint64x4) // Float32x16 converts from Uint16x32 to Float32x16 func (from Uint16x32) AsFloat32x16() (to Float32x16) // Float64x8 converts from Uint16x32 to Float64x8 func (from Uint16x32) AsFloat64x8() (to Float64x8) // Int8x64 converts from Uint16x32 to Int8x64 func (from Uint16x32) AsInt8x64() (to Int8x64) // Int16x32 converts from Uint16x32 to Int16x32 func (from Uint16x32) AsInt16x32() (to Int16x32) // Int32x16 converts from Uint16x32 to Int32x16 func (from Uint16x32) AsInt32x16() (to Int32x16) // Int64x8 converts from Uint16x32 to Int64x8 func (from Uint16x32) AsInt64x8() (to Int64x8) // Uint8x64 converts from Uint16x32 to Uint8x64 func (from Uint16x32) AsUint8x64() (to Uint8x64) // Uint32x16 converts from Uint16x32 to Uint32x16 func (from Uint16x32) AsUint32x16() (to Uint32x16) // Uint64x8 converts from Uint16x32 to Uint64x8 func (from Uint16x32) AsUint64x8() (to Uint64x8) // Float32x4 converts from Uint32x4 to Float32x4 func (from Uint32x4) AsFloat32x4() (to Float32x4) // Float64x2 converts from Uint32x4 to Float64x2 func (from Uint32x4) AsFloat64x2() (to Float64x2) // Int8x16 converts from Uint32x4 to Int8x16 func (from Uint32x4) AsInt8x16() (to Int8x16) // Int16x8 converts from Uint32x4 to Int16x8 func (from Uint32x4) AsInt16x8() (to Int16x8) // Int32x4 converts from Uint32x4 to Int32x4 func (from Uint32x4) AsInt32x4() (to Int32x4) // Int64x2 converts from Uint32x4 to Int64x2 func (from Uint32x4) AsInt64x2() (to Int64x2) // Uint8x16 converts from Uint32x4 to Uint8x16 func (from Uint32x4) AsUint8x16() (to Uint8x16) // Uint16x8 converts from Uint32x4 to Uint16x8 func (from Uint32x4) AsUint16x8() (to Uint16x8) // Uint64x2 converts from Uint32x4 to Uint64x2 func (from Uint32x4) AsUint64x2() (to Uint64x2) // Float32x8 converts from Uint32x8 to Float32x8 func (from Uint32x8) AsFloat32x8() (to Float32x8) // Float64x4 converts from Uint32x8 to Float64x4 func (from Uint32x8) AsFloat64x4() (to Float64x4) // Int8x32 converts from Uint32x8 to Int8x32 func (from Uint32x8) AsInt8x32() (to Int8x32) // Int16x16 converts from Uint32x8 to Int16x16 func (from Uint32x8) AsInt16x16() (to Int16x16) // Int32x8 converts from Uint32x8 to Int32x8 func (from Uint32x8) AsInt32x8() (to Int32x8) // Int64x4 converts from Uint32x8 to Int64x4 func (from Uint32x8) AsInt64x4() (to Int64x4) // Uint8x32 converts from Uint32x8 to Uint8x32 func (from Uint32x8) AsUint8x32() (to Uint8x32) // Uint16x16 converts from Uint32x8 to Uint16x16 func (from Uint32x8) AsUint16x16() (to Uint16x16) // Uint64x4 converts from Uint32x8 to Uint64x4 func (from Uint32x8) AsUint64x4() (to Uint64x4) // Float32x16 converts from Uint32x16 to Float32x16 func (from Uint32x16) AsFloat32x16() (to Float32x16) // Float64x8 converts from Uint32x16 to Float64x8 func (from Uint32x16) AsFloat64x8() (to Float64x8) // Int8x64 converts from Uint32x16 to Int8x64 func (from Uint32x16) AsInt8x64() (to Int8x64) // Int16x32 converts from Uint32x16 to Int16x32 func (from Uint32x16) AsInt16x32() (to Int16x32) // Int32x16 converts from Uint32x16 to Int32x16 func (from Uint32x16) AsInt32x16() (to Int32x16) // Int64x8 converts from Uint32x16 to Int64x8 func (from Uint32x16) AsInt64x8() (to Int64x8) // Uint8x64 converts from Uint32x16 to Uint8x64 func (from Uint32x16) AsUint8x64() (to Uint8x64) // Uint16x32 converts from Uint32x16 to Uint16x32 func (from Uint32x16) AsUint16x32() (to Uint16x32) // Uint64x8 converts from Uint32x16 to Uint64x8 func (from Uint32x16) AsUint64x8() (to Uint64x8) // Float32x4 converts from Uint64x2 to Float32x4 func (from Uint64x2) AsFloat32x4() (to Float32x4) // Float64x2 converts from Uint64x2 to Float64x2 func (from Uint64x2) AsFloat64x2() (to Float64x2) // Int8x16 converts from Uint64x2 to Int8x16 func (from Uint64x2) AsInt8x16() (to Int8x16) // Int16x8 converts from Uint64x2 to Int16x8 func (from Uint64x2) AsInt16x8() (to Int16x8) // Int32x4 converts from Uint64x2 to Int32x4 func (from Uint64x2) AsInt32x4() (to Int32x4) // Int64x2 converts from Uint64x2 to Int64x2 func (from Uint64x2) AsInt64x2() (to Int64x2) // Uint8x16 converts from Uint64x2 to Uint8x16 func (from Uint64x2) AsUint8x16() (to Uint8x16) // Uint16x8 converts from Uint64x2 to Uint16x8 func (from Uint64x2) AsUint16x8() (to Uint16x8) // Uint32x4 converts from Uint64x2 to Uint32x4 func (from Uint64x2) AsUint32x4() (to Uint32x4) // Float32x8 converts from Uint64x4 to Float32x8 func (from Uint64x4) AsFloat32x8() (to Float32x8) // Float64x4 converts from Uint64x4 to Float64x4 func (from Uint64x4) AsFloat64x4() (to Float64x4) // Int8x32 converts from Uint64x4 to Int8x32 func (from Uint64x4) AsInt8x32() (to Int8x32) // Int16x16 converts from Uint64x4 to Int16x16 func (from Uint64x4) AsInt16x16() (to Int16x16) // Int32x8 converts from Uint64x4 to Int32x8 func (from Uint64x4) AsInt32x8() (to Int32x8) // Int64x4 converts from Uint64x4 to Int64x4 func (from Uint64x4) AsInt64x4() (to Int64x4) // Uint8x32 converts from Uint64x4 to Uint8x32 func (from Uint64x4) AsUint8x32() (to Uint8x32) // Uint16x16 converts from Uint64x4 to Uint16x16 func (from Uint64x4) AsUint16x16() (to Uint16x16) // Uint32x8 converts from Uint64x4 to Uint32x8 func (from Uint64x4) AsUint32x8() (to Uint32x8) // Float32x16 converts from Uint64x8 to Float32x16 func (from Uint64x8) AsFloat32x16() (to Float32x16) // Float64x8 converts from Uint64x8 to Float64x8 func (from Uint64x8) AsFloat64x8() (to Float64x8) // Int8x64 converts from Uint64x8 to Int8x64 func (from Uint64x8) AsInt8x64() (to Int8x64) // Int16x32 converts from Uint64x8 to Int16x32 func (from Uint64x8) AsInt16x32() (to Int16x32) // Int32x16 converts from Uint64x8 to Int32x16 func (from Uint64x8) AsInt32x16() (to Int32x16) // Int64x8 converts from Uint64x8 to Int64x8 func (from Uint64x8) AsInt64x8() (to Int64x8) // Uint8x64 converts from Uint64x8 to Uint8x64 func (from Uint64x8) AsUint8x64() (to Uint8x64) // Uint16x32 converts from Uint64x8 to Uint16x32 func (from Uint64x8) AsUint16x32() (to Uint16x32) // Uint32x16 converts from Uint64x8 to Uint32x16 func (from Uint64x8) AsUint32x16() (to Uint32x16) // converts from Mask8x16 to Int8x16 func (from Mask8x16) AsInt8x16() (to Int8x16) // converts from Int8x16 to Mask8x16 func (from Int8x16) AsMask8x16() (to Mask8x16) func (x Mask8x16) And(y Mask8x16) Mask8x16 func (x Mask8x16) Or(y Mask8x16) Mask8x16 // converts from Mask8x32 to Int8x32 func (from Mask8x32) AsInt8x32() (to Int8x32) // converts from Int8x32 to Mask8x32 func (from Int8x32) AsMask8x32() (to Mask8x32) func (x Mask8x32) And(y Mask8x32) Mask8x32 func (x Mask8x32) Or(y Mask8x32) Mask8x32 // converts from Mask8x64 to Int8x64 func (from Mask8x64) AsInt8x64() (to Int8x64) // converts from Int8x64 to Mask8x64 func (from Int8x64) AsMask8x64() (to Mask8x64) func (x Mask8x64) And(y Mask8x64) Mask8x64 func (x Mask8x64) Or(y Mask8x64) Mask8x64 // converts from Mask16x8 to Int16x8 func (from Mask16x8) AsInt16x8() (to Int16x8) // converts from Int16x8 to Mask16x8 func (from Int16x8) AsMask16x8() (to Mask16x8) func (x Mask16x8) And(y Mask16x8) Mask16x8 func (x Mask16x8) Or(y Mask16x8) Mask16x8 // converts from Mask16x16 to Int16x16 func (from Mask16x16) AsInt16x16() (to Int16x16) // converts from Int16x16 to Mask16x16 func (from Int16x16) AsMask16x16() (to Mask16x16) func (x Mask16x16) And(y Mask16x16) Mask16x16 func (x Mask16x16) Or(y Mask16x16) Mask16x16 // converts from Mask16x32 to Int16x32 func (from Mask16x32) AsInt16x32() (to Int16x32) // converts from Int16x32 to Mask16x32 func (from Int16x32) AsMask16x32() (to Mask16x32) func (x Mask16x32) And(y Mask16x32) Mask16x32 func (x Mask16x32) Or(y Mask16x32) Mask16x32 // converts from Mask32x4 to Int32x4 func (from Mask32x4) AsInt32x4() (to Int32x4) // converts from Int32x4 to Mask32x4 func (from Int32x4) AsMask32x4() (to Mask32x4) func (x Mask32x4) And(y Mask32x4) Mask32x4 func (x Mask32x4) Or(y Mask32x4) Mask32x4 // converts from Mask32x8 to Int32x8 func (from Mask32x8) AsInt32x8() (to Int32x8) // converts from Int32x8 to Mask32x8 func (from Int32x8) AsMask32x8() (to Mask32x8) func (x Mask32x8) And(y Mask32x8) Mask32x8 func (x Mask32x8) Or(y Mask32x8) Mask32x8 // converts from Mask32x16 to Int32x16 func (from Mask32x16) AsInt32x16() (to Int32x16) // converts from Int32x16 to Mask32x16 func (from Int32x16) AsMask32x16() (to Mask32x16) func (x Mask32x16) And(y Mask32x16) Mask32x16 func (x Mask32x16) Or(y Mask32x16) Mask32x16 // converts from Mask64x2 to Int64x2 func (from Mask64x2) AsInt64x2() (to Int64x2) // converts from Int64x2 to Mask64x2 func (from Int64x2) AsMask64x2() (to Mask64x2) func (x Mask64x2) And(y Mask64x2) Mask64x2 func (x Mask64x2) Or(y Mask64x2) Mask64x2 // converts from Mask64x4 to Int64x4 func (from Mask64x4) AsInt64x4() (to Int64x4) // converts from Int64x4 to Mask64x4 func (from Int64x4) AsMask64x4() (to Mask64x4) func (x Mask64x4) And(y Mask64x4) Mask64x4 func (x Mask64x4) Or(y Mask64x4) Mask64x4 // converts from Mask64x8 to Int64x8 func (from Mask64x8) AsInt64x8() (to Int64x8) // converts from Int64x8 to Mask64x8 func (from Int64x8) AsMask64x8() (to Mask64x8) func (x Mask64x8) And(y Mask64x8) Mask64x8 func (x Mask64x8) Or(y Mask64x8) Mask64x8