public class VecFloat
extends java.lang.Object
init()
. In order to
release all resources allocated by this class, shutdown()
has to be called.
Modifier and Type | Method and Description |
---|---|
static void |
acos(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the arc cosine of the input argument.
|
static void |
acosh(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the nonnegative arc hyperbolic cosine of the input argument.
|
static void |
add(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Add the given vectors.
|
static void |
addScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Add the given scalar to the given vector.
|
static void |
asin(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the arc sine of the input argument.
|
static void |
asinh(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the arc hyperbolic sine of the input argument.
|
static void |
atan(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the arc tangent of the input argument.
|
static void |
atanh(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the arc hyperbolic tangent of the input argument.
|
static void |
cbrt(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the cube root of the input argument.
|
static void |
ceil(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate ceiling of the input argument.
|
static void |
copysign(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Create value with given magnitude, copying sign of second value.
|
static void |
cos(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the cosine of the input argument.
|
static void |
cosh(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the hyperbolic cosine of the input argument.
|
static void |
cospi(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the cosine of the input argument × p .
|
static void |
div(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Divide the given vectors.
|
static void |
divScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Divide the given vector by the given scalar.
|
static void |
eq(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Perform a '==' comparison of the given vectors.
|
static void |
eqScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Perform a '==' comparison of the given vector and scalar.
|
static void |
erf(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the error function of the input argument.
|
static void |
erfc(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the complementary error function of the input argument.
|
static void |
erfcinv(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the inverse complementary error function of the input argument.
|
static void |
erfcx(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the scaled complementary error function of the input argument.
|
static void |
erfinv(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the inverse error function of the input argument.
|
static void |
exp(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the base e exponential of the input argument.
|
static void |
exp10(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the base 10 exponential of the input argument.
|
static void |
exp2(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the base 2 exponential of the input argument.
|
static void |
expm1(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the base e exponential of the input argument, minus 1.
|
static void |
fabs(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the absolute value of its argument.
|
static void |
fdim(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Compute the positive difference between x and y.
|
static void |
fdivide(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Divide two floating point values.
|
static void |
floor(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the largest integer less than or equal to x.
|
static void |
fmax(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Determine the maximum numeric value of the arguments.
|
static void |
fmin(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Determine the minimum numeric value of the arguments.
|
static void |
fmod(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Calculate the floating-point remainder of x / y.
|
static void |
gt(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Perform a '>' comparison of the given vectors.
|
static void |
gte(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Perform a '>=' comparison of the given vectors.
|
static void |
gteScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Perform a '>=' comparison of the given vector and scalar.
|
static void |
gtScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Perform a '>' comparison of the given vector and scalar.
|
static void |
hypot(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Calculate the square root of the sum of squares of two arguments.
|
static void |
init()
Initialize this class.
|
static void |
j0(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the value of the Bessel function of the first kind of
order 0 for the input argument.
|
static void |
j1(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the value of the Bessel function of the first kind of
order 1 for the input argument.
|
static void |
lgamma(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the natural logarithm of the absolute value of the gamma
function of the input argument.
|
static void |
log(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the natural logarithm of the input argument.
|
static void |
log10(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the base 10 logarithm of the input argument.
|
static void |
log1p(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the value of l o g e ( 1 + x ) .
|
static void |
log2(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the base 2 logarithm of the input argument.
|
static void |
logb(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the floating point representation of the exponent of the
input argument.
|
static void |
lt(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Perform a '<' comparison of the given vectors.
|
static void |
lte(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Perform a '<=' comparison of the given vectors.
|
static void |
lteScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Perform a '<=' comparison of the given vector and scalar.
|
static void |
ltScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Perform a '<' comparison of the given vector and scalar.
|
static void |
mul(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Multiply the given vectors.
|
static void |
mulScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Multiply the given vector with the given scalar.
|
static void |
ne(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Perform a '!
|
static void |
negate(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Negate the given vector.
|
static void |
neScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Perform a '!
|
static void |
nextafter(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Return next representable single-precision floating-point value
after argument.
|
static void |
normcdf(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the standard normal cumulative distribution function.
|
static void |
normcdfinv(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the inverse of the standard normal cumulative distribution
function.
|
static void |
pow(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Calculate the value of first argument to the power of second argument.
|
static void |
rcbrt(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate reciprocal cube root function.
|
static void |
remainder(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Compute single-precision floating-point remainder.
|
static void |
rint(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Round input to nearest integer value in floating-point.
|
static void |
round(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Round to nearest integer value in floating-point.
|
static void |
rsqrt(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the reciprocal of the square root of the input argument.
|
static void |
scalarAdd(long n,
jcuda.Pointer result,
float x,
jcuda.Pointer y)
Add the given vector to the given scalar.
|
static void |
scalarDiv(long n,
jcuda.Pointer result,
float x,
jcuda.Pointer y)
Divide the given scalar by the given vector.
|
static void |
scalarMul(long n,
jcuda.Pointer result,
float x,
jcuda.Pointer y)
Multiply the given scalar with the given vector.
|
static void |
scalarSub(long n,
jcuda.Pointer result,
float x,
jcuda.Pointer y)
Subtract the given vector from the given scalar.
|
static void |
set(long n,
jcuda.Pointer result,
float value)
Set all elements of the given vector to the given value
|
static void |
shutdown()
Perform a shutdown and release all resources allocated by this class.
|
static void |
sin(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the sine of the input argument.
|
static void |
sinh(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the hyperbolic sine of the input argument.
|
static void |
sinpi(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the sine of the input argument × p .
|
static void |
sqrt(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the square root of the input argument.
|
static void |
sub(long n,
jcuda.Pointer result,
jcuda.Pointer x,
jcuda.Pointer y)
Subtract the given vectors.
|
static void |
subScalar(long n,
jcuda.Pointer result,
jcuda.Pointer x,
float y)
Subtract the given scalar from the given vector.
|
static void |
tan(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the tangent of the input argument.
|
static void |
tanh(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the hyperbolic tangent of the input argument.
|
static void |
tgamma(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the gamma function of the input argument.
|
static void |
trunc(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Truncate input argument to the integral part.
|
static void |
y0(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the value of the Bessel function of the second kind of
order 0 for the input argument.
|
static void |
y1(long n,
jcuda.Pointer result,
jcuda.Pointer x)
Calculate the value of the Bessel function of the second kind of
order 1 for the input argument.
|
public static void init()
shutdown()
.jcuda.CudaException
- If the class can not be initialized.
Reasons for this may be (but are not limited to) : public static void shutdown()
public static void set(long n, jcuda.Pointer result, float value)
n
- The size of the vectorresult
- The vector that will store the resultvalue
- The value to setpublic static void add(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void sub(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void mul(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void div(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void negate(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void addScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The scalarpublic static void subScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The scalarpublic static void mulScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The scalarpublic static void divScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The scalarpublic static void scalarAdd(long n, jcuda.Pointer result, float x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The scalary
- The vectorpublic static void scalarSub(long n, jcuda.Pointer result, float x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The scalary
- The vectorpublic static void scalarMul(long n, jcuda.Pointer result, float x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The scalary
- The vectorpublic static void scalarDiv(long n, jcuda.Pointer result, float x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The scalary
- The vectorpublic static void lt(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The vectory
- The second vectorpublic static void lte(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The second vectorpublic static void eq(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The second vectorpublic static void gte(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The second vectorpublic static void gt(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The second vectorpublic static void ne(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The second vectorpublic static void ltScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The scalarpublic static void lteScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The scalarpublic static void eqScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The scalarpublic static void gteScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The scalarpublic static void gtScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The scalarpublic static void neScalar(long n, jcuda.Pointer result, jcuda.Pointer x, float y)
1.0f
where the comparison yields
true
, and to 0.0f
where the comparison yields
false
.n
- The size of the vectorsresult
- The vector that will store the result.x
- The first vectory
- The scalarpublic static void acos(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void acosh(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void asin(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void asinh(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void atan(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void atanh(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void cbrt(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void ceil(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void cos(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void cosh(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void cospi(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void erfc(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void erfcinv(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void erfcx(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void erf(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void erfinv(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void exp10(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void exp2(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void exp(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void expm1(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void fabs(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void floor(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void j0(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void j1(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void lgamma(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void log10(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void log1p(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void log2(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void logb(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void log(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void normcdf(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void normcdfinv(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void rcbrt(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void rint(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void round(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void rsqrt(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void sin(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void sinh(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void sinpi(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void sqrt(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void tan(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void tanh(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void tgamma(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void trunc(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void y0(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void y1(long n, jcuda.Pointer result, jcuda.Pointer x)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectorpublic static void copysign(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void fdim(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void fdivide(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void fmax(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void fmin(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void fmod(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void hypot(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void nextafter(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void pow(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vectorpublic static void remainder(long n, jcuda.Pointer result, jcuda.Pointer x, jcuda.Pointer y)
n
- The size of the vectorsresult
- The vector that will store the resultx
- The first vectory
- The second vector