Search results
54 packages found
JavaScript and TypeScript library to work with Internet Computer principals
- internet computer
- ic
- dfinity
- canister
- webauthn
- identity
- principal
- dfx
- candid
- motoko
- javascript
- typescript
- blockchain
- crypto
- View more
JavaScript and TypeScript library to work with candid interfaces
- internet computer
- ic
- dfinity
- canister
- webauthn
- identity
- principal
- dfx
- candid
- motoko
- javascript
- typescript
- blockchain
- crypto
- View more
JavaScript and TypeScript library to manage identity with the Internet Computer
- internet computer
- ic
- dfinity
- canister
- webauthn
- identity
- principal
- authentication
- dfx
- motoko
- javascript
- typescript
- blockchain
- crypto
- View more
JavaScript and TypeScript library to provide a simple integration with an IC Internet Identity
- internet computer
- ic
- dfinity
- canister
- webauthn
- identity
- principal
- authentication
- dfx
- candid
- motoko
- javascript
- typescript
- blockchain
- View more
Compute the principal square root of a double-precision floating-point number.
bls verification strategy in JavaScript
- internet computer
- ic
- dfinity
- canister
- webauthn
- identity
- principal
- dfx
- candid
- motoko
- javascript
- typescript
- blockchain
- crypto
- View more
Compute the principal square root of a single-precision floating-point number.
Compute the reciprocal square root of a double-precision floating-point number.
Compute the reciprocal square root of a single-precision floating-point number.
Compute sqrt(1 + x) - 1.
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
- View more
Compute the reciprocal cube root of a double-precision floating-point number.
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
- View more
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
Compute the reciprocal 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
- reciprocal
- inverse
- View more
Create an iterator which computes the principal square root of each iterated value.
Compute the principal 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
- double-precision
- double
- dbl
- float64
- float64array
- View more
Compute the reciprocal square root for each element in a single-precision floating-point strided array.
- stdlib
- stdmath
- mathematics
- math
- trig
- math.sqrt
- sqrt
- principal
- square
- root
- power
- number
- reciprocal
- inverse
- View more
Create an iterator which computes the reciprocal (inverse) square root of each iterated value.