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Copy file name to clipboardExpand all lines: lib/node_modules/@stdlib/blas/base/README.md
+9-6Lines changed: 9 additions & 6 deletions
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@@ -45,10 +45,11 @@ var o = blas;
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<divclass="namespace-toc">
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- <spanclass="signature">[`caxpy( N, ca, cx, strideX, cy, strideY )`][@stdlib/blas/base/caxpy]</span><spanclass="delimiter">: </span><spanclass="description">scale a single-precision complex floating-point vector by a single-precision complex floating-point constant and add the result to a single-precision complex floating-point vector.</span>
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- <spanclass="signature">[`caxpy( N, alpha, x, strideX, y, strideY )`][@stdlib/blas/base/caxpy]</span><spanclass="delimiter">: </span><spanclass="description">scale a single-precision complex floating-point vector by a single-precision complex floating-point constant and add the result to a single-precision complex floating-point vector.</span>
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- <spanclass="signature">[`ccopy( N, x, strideX, y, strideY )`][@stdlib/blas/base/ccopy]</span><spanclass="delimiter">: </span><spanclass="description">copy values from one complex single-precision floating-point vector to another complex single-precision floating-point vector.</span>
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- <spanclass="signature">[`cscal( N, ca, cx, strideX )`][@stdlib/blas/base/cscal]</span><spanclass="delimiter">: </span><spanclass="description">scales a single-precision complex floating-point vector by a single-precision complex floating-point constant.</span>
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- <spanclass="signature">[`csrot( N, cx, strideX, cy, strideY, c, s )`][@stdlib/blas/base/csrot]</span><spanclass="delimiter">: </span><spanclass="description">applies a plane rotation.</span>
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- <spanclass="signature">[`cscal( N, alpha, x, strideX )`][@stdlib/blas/base/cscal]</span><spanclass="delimiter">: </span><spanclass="description">scales a single-precision complex floating-point vector by a single-precision complex floating-point constant.</span>
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- <spanclass="signature">[`csrot( N, x, strideX, y, strideY, c, s )`][@stdlib/blas/base/csrot]</span><spanclass="delimiter">: </span><spanclass="description">apply a plane rotation.</span>
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- <spanclass="signature">[`csscal( N, alpha, x, strideX )`][@stdlib/blas/base/csscal]</span><spanclass="delimiter">: </span><spanclass="description">scale a single-precision complex floating-point vector by a single-precision floating-point constant.</span>
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- <spanclass="signature">[`cswap( N, x, strideX, y, strideY )`][@stdlib/blas/base/cswap]</span><spanclass="delimiter">: </span><spanclass="description">interchange two complex single-precision floating-point vectors.</span>
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- <spanclass="signature">[`dasum( N, x, stride )`][@stdlib/blas/base/dasum]</span><spanclass="delimiter">: </span><spanclass="description">compute the sum of absolute values (_L1_ norm).</span>
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- <spanclass="signature">[`daxpy( N, alpha, x, strideX, y, strideY )`][@stdlib/blas/base/daxpy]</span><spanclass="delimiter">: </span><spanclass="description">multiply a vector `x` by a constant `alpha` and add the result to `y`.</span>
@@ -61,7 +62,7 @@ var o = blas;
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- <spanclass="signature">[`dscal( N, alpha, x, stride )`][@stdlib/blas/base/dscal]</span><spanclass="delimiter">: </span><spanclass="description">multiply a double-precision floating-point vector `x` by a constant `alpha`.</span>
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- <spanclass="signature">[`dsdot( N, x, strideX, y, strideY )`][@stdlib/blas/base/dsdot]</span><spanclass="delimiter">: </span><spanclass="description">calculate the dot product with extended accumulation and result of two single-precision floating-point vectors.</span>
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- <spanclass="signature">[`dswap( N, x, strideX, y, strideY )`][@stdlib/blas/base/dswap]</span><spanclass="delimiter">: </span><spanclass="description">interchange two double-precision floating-point vectors.</span>
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- <spanclass="signature">[`dznrm2( N, zx, strideX )`][@stdlib/blas/base/dznrm2]</span><spanclass="delimiter">: </span><spanclass="description">compute the L2-norm of a complex double-precision floating-point vector.</span>
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- <spanclass="signature">[`dznrm2( N, x, strideX )`][@stdlib/blas/base/dznrm2]</span><spanclass="delimiter">: </span><spanclass="description">compute the L2-norm of a complex double-precision floating-point vector.</span>
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- <spanclass="signature">[`gasum( N, x, stride )`][@stdlib/blas/base/gasum]</span><spanclass="delimiter">: </span><spanclass="description">compute the sum of absolute values (_L1_ norm).</span>
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- <spanclass="signature">[`gaxpy( N, alpha, x, strideX, y, strideY )`][@stdlib/blas/base/gaxpy]</span><spanclass="delimiter">: </span><spanclass="description">multiply `x` by a constant `alpha` and add the result to `y`.</span>
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- <spanclass="signature">[`gcopy( N, x, strideX, y, strideY )`][@stdlib/blas/base/gcopy]</span><spanclass="delimiter">: </span><spanclass="description">copy values from `x` into `y`.</span>
@@ -84,9 +85,9 @@ var o = blas;
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- <spanclass="signature">[`srotm( N, x, strideX, y, strideY, param )`][@stdlib/blas/base/srotm]</span><spanclass="delimiter">: </span><spanclass="description">apply a modified Givens plane rotation.</span>
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- <spanclass="signature">[`sscal( N, alpha, x, stride )`][@stdlib/blas/base/sscal]</span><spanclass="delimiter">: </span><spanclass="description">multiply a single-precision floating-point vector `x` by a constant `alpha`.</span>
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- <spanclass="signature">[`sswap( N, x, strideX, y, strideY )`][@stdlib/blas/base/sswap]</span><spanclass="delimiter">: </span><spanclass="description">interchange two single-precision floating-point vectors.</span>
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- <spanclass="signature">[`zaxpy( N, za, zx, strideX, zy, strideY )`][@stdlib/blas/base/zaxpy]</span><spanclass="delimiter">: </span><spanclass="description">scale a double-precision complex floating-point vector by a double-precision complex floating-point constant and add the result to a double-precision complex floating-point vector.</span>
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- <spanclass="signature">[`zaxpy( N, alpha, x, strideX, y, strideY )`][@stdlib/blas/base/zaxpy]</span><spanclass="delimiter">: </span><spanclass="description">scale a double-precision complex floating-point vector by a double-precision complex floating-point constant and add the result to a double-precision complex floating-point vector.</span>
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- <spanclass="signature">[`zcopy( N, x, strideX, y, strideY )`][@stdlib/blas/base/zcopy]</span><spanclass="delimiter">: </span><spanclass="description">copy values from one complex double-precision floating-point vector to another complex double-precision floating-point vector.</span>
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- <spanclass="signature">[`zdrot( N, zx, strideX, zy, strideY, c, s )`][@stdlib/blas/base/zdrot]</span><spanclass="delimiter">: </span><spanclass="description">applies a plane rotation.</span>
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- <spanclass="signature">[`zdrot( N, x, strideX, y, strideY, c, s )`][@stdlib/blas/base/zdrot]</span><spanclass="delimiter">: </span><spanclass="description">apply a plane rotation.</span>
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- <spanclass="signature">[`zdscal( N, da, zx, strideZX )`][@stdlib/blas/base/zdscal]</span><spanclass="delimiter">: </span><spanclass="description">scale a double-precision complex floating-point vector by a double-precision floating-point constant.</span>
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- <spanclass="signature">[`zscal( N, alpha, x, strideX )`][@stdlib/blas/base/zscal]</span><spanclass="delimiter">: </span><spanclass="description">scales a double-precision complex floating-point vector by a double-precision complex floating-point constant.</span>
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- <spanclass="signature">[`zswap( N, x, strideX, y, strideY )`][@stdlib/blas/base/zswap]</span><spanclass="delimiter">: </span><spanclass="description">interchange two complex double-precision floating-point vectors.</span>
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