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437 packages found
pivot for path hierarchy
Numerically compute the extrema of a given (analytic) function: minima, maxima, and points of inflection
Determines absolute path to project root and main file
Compute sqrt(1 + x) - 1.
Square root of 3.
Square root of 0.5π.
Try to downgrade the permissions of a process with root privileges and block access if it fails
allow root-of-project (closest package.json) requires in browserify with `^`
Node bindings to the ROOT scientific framework
compute the MAX interval of two intervals
compute MIN of two intervals
Require your modules from the root of your project
Compute the principal square root of the product of π and a positive double-precision floating-point number.
Compute an integer square root.
- stdlib
- stdfastmath
- mathematics
- math
- fastmath
- fast
- approximate
- approximation
- approx
- math.sqrt
- sqrt
- principal
- square
- root
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Compute the reciprocal square root for each element in a double-precision floating-point strided array according to a strided mask array.
- stdlib
- trig
- math.sqrt
- sqrt
- principal
- square
- root
- power
- number
- reciprocal
- inverse
- double-precision
- double
- dbl
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Compute the cube root of each element in a double-precision floating-point strided array.
Create an iterator which computes the cube root of each iterated value.
Compute the cube root for each element in a double-precision floating-point strided array according to a strided mask array.
- stdlib
- stdmath
- mathematics
- math
- math.cbrt
- cbrt
- cube
- cubic
- root
- power
- double-precision
- double
- dbl
- float64
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Compute the principal square root for each element in a double-precision floating-point strided array.
- stdlib
- stdmath
- mathematics
- math
- trig
- math.sqrt
- sqrt
- principal
- square
- root
- power
- number
- double-precision
- double
- View more