Basic linear algebra subprograms (BLAS) compiled to WebAssembly.
JavaScript
0
0
Apache License 2.0
This project provides a JavaScript library for basic linear algebra subprograms (BLAS) compiled to WebAssembly, enabling high-performance numerical computations in web browsers and Node.js. It is part of the stdlib project, which aims to make the web a preferred environment for numerical and scientific computing.
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Support the dependencies of stdlib-js/blas-base-wasm
Copy values from one complex single-precision floating-point vector to another complex single-precision floating-point vector.
Scale a single-precision complex floating-point vector by a single-precision complex floating-point constant.
Apply a plane rotation.
Interchange two complex single-precision floating-point vectors.
Compute the sum of absolute values (L1 norm).
Multiply a vector `x` by a constant and add the result to `y`.
Copy values from x into y.
Calculate the dot product of two double-precision floating-point vectors.
Calculate the L2-norm of a double-precision floating-point vector.
Apply a plane rotation.
Apply a modified Givens transformation.
Multiply a double-precision floating-point vector by a constant.
Calculate the dot product with extended accumulation and result of two single-precision floating-point vectors.
Interchange two double-precision floating-point vectors.
Compute the L2-norm of a complex double-precision floating-point vector.
Find the index of the first element having the maximum absolute value.
Find the index of the first element having the maximum absolute value.
Compute the sum of absolute values (L1 norm).
Multiply a vector `x` by a constant and add the result to `y`.
Compute the sum of the absolute values of the real and imaginary components of a single-precision complex floating-point vector.
Compute the L2-norm of a complex single-precision floating-point vector.
Copy values from x into y.
Calculate the dot product of two single-precision floating-point vectors.
Calculate the dot product of two single-precision floating-point vectors with extended accumulation.
Calculate the L2-norm of a single-precision floating-point vector.
Apply a plane rotation.
Apply a modified Givens transformation.
Multiply a single-precision floating-point vector by a constant.
Interchange two single-precision floating-point vectors.
Copy values from one complex double-precision floating-point vector to another complex double-precision floating-point vector.
Apply a plane rotation.
Interchange two complex double-precision floating-point vectors.
Define a read-only property.
Complex128Array.
Complex64Array.
Float32Array.
Float64Array.
Float32Array in little-endian byte order.
Float64Array in little-endian byte order.
Generate a linearly spaced numeric array whose elements increment by 1 starting from one.
Create an array filled with ones and having a specified length.
Create a zero-filled array having a specified length.
Detect native WebAssembly support.
Test if two arguments are both Complex128Arrays and have the same values.
Test if a value is a WebAssembly memory instance.
Fill a strided array with a specified scalar constant.
Fill a strided array according to a provided callback function.
64-bit complex number.
Return the real and imaginary components of a single-precision complex floating-point number.
128-bit complex number.
Support the repos that depend on stdlib-js/blas-base-wasm
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