Searched refs:beta (Results 1 - 25 of 227) sorted by relevance

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/external/libcxx/test/std/numerics/rand/rand.dis/rand.dist.pois/rand.dist.pois.gamma/
H A Dctor_double_double.pass.cpp15 // explicit gamma_distribution(result_type alpha = 0, result_type beta = 1);
26 assert(d.beta() == 1);
32 assert(d.beta() == 1);
38 assert(d.beta() == 5.25);
H A Dparam_ctor.pass.cpp28 assert(p.beta() == 1);
35 assert(p.beta() == 1);
42 assert(p.beta() == 5);
H A Dctor_param.pass.cpp28 assert(d.beta() == 10);
H A Dparam_assign.pass.cpp30 assert(p.beta() == 6);
H A Dparam_copy.pass.cpp29 assert(p.beta() == .125);
/external/apache-commons-math/src/main/java/org/apache/commons/math/distribution/
H A DBetaDistributionImpl.java54 private double beta; field in class:BetaDistributionImpl
57 * updated whenever alpha or beta are changed.
67 * @param beta second shape parameter (must be positive)
72 public BetaDistributionImpl(double alpha, double beta, double inverseCumAccuracy) { argument
74 this.beta = beta;
82 * @param beta second shape parameter (must be positive)
84 public BetaDistributionImpl(double alpha, double beta) { argument
85 this(alpha, beta, DEFAULT_INVERSE_ABSOLUTE_ACCURACY);
106 public void setBeta(double beta) { argument
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H A DGammaDistributionImpl.java48 private double beta; field in class:GammaDistributionImpl
54 * Create a new gamma distribution with the given alpha and beta values.
56 * @param beta the scale parameter.
58 public GammaDistributionImpl(double alpha, double beta) { argument
59 this(alpha, beta, DEFAULT_INVERSE_ABSOLUTE_ACCURACY);
63 * Create a new gamma distribution with the given alpha and beta values.
65 * @param beta the scale parameter.
70 public GammaDistributionImpl(double alpha, double beta, double inverseCumAccuracy) { argument
73 setBetaInternal(beta);
100 ret = Gamma.regularizedGammaP(alpha, x / beta);
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H A DGammaDistribution.java48 * Modify the scale parameter, beta.
49 * @param beta the new scale parameter.
53 void setBeta(double beta); argument
56 * Access the scale parameter, beta
57 * @return beta.
H A DWeibullDistribution.java61 * @param beta The new scale parameter value.
65 void setScale(double beta); argument
H A DBetaDistribution.java22 * Computes the cumulative, inverse cumulative and density functions for the beta distribuiton.
44 * Modify the shape parameter, beta.
45 * @param beta the new scale parameter.
49 void setBeta(double beta); argument
52 * Access the shape parameter, beta
53 * @return beta.
H A DWeibullDistributionImpl.java71 * @param beta the scale parameter.
73 public WeibullDistributionImpl(double alpha, double beta){ argument
74 this(alpha, beta, DEFAULT_INVERSE_ABSOLUTE_ACCURACY);
81 * @param beta the scale parameter.
86 public WeibullDistributionImpl(double alpha, double beta, double inverseCumAccuracy){ argument
89 setScaleInternal(beta);
203 * @param beta the new scale parameter value.
207 public void setScale(double beta) { argument
208 setScaleInternal(beta);
213 * @param beta th
215 setScaleInternal(double beta) argument
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/external/ImageMagick/MagickCore/
H A Dcomposite-private.h36 const double q,const double beta)
43 Da=QuantumScale*beta;
53 const double alpha,const Quantum *q,const double beta,Quantum *composite)
67 Da=QuantumScale*beta;
87 (double) q[i],beta));
93 (double) q[i],beta));
99 (double) q[i],beta));
105 (double) q[i],beta));
123 const double alpha,const PixelInfo *q,const double beta,PixelInfo *composite)
134 Da=QuantumScale*beta,
35 MagickOver_(const double p,const double alpha, const double q,const double beta) argument
52 CompositePixelOver(const Image *image,const PixelInfo *p, const double alpha,const Quantum *q,const double beta,Quantum *composite) argument
122 CompositePixelInfoOver(const PixelInfo *p, const double alpha,const PixelInfo *q,const double beta,PixelInfo *composite) argument
145 CompositePixelInfoPlus(const PixelInfo *p, const double alpha,const PixelInfo *q,const double beta,PixelInfo *composite) argument
168 CompositePixelInfoAreaBlend(const PixelInfo *p, const double alpha,const PixelInfo *q,const double beta,const double area, PixelInfo *composite) argument
179 CompositePixelInfoBlend(const PixelInfo *p, const double alpha,const PixelInfo *q,const double beta,PixelInfo *composite) argument
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/external/eigen/unsupported/test/
H A Dcxx11_tensor_sugar.cpp43 const float beta = 0.21f; local
46 Tensor<float, 3> R = A.constant(gamma) + A * A.constant(alpha) + B * B.constant(beta);
47 Tensor<float, 3> S = A * alpha + B * beta + gamma;
48 Tensor<float, 3> T = gamma + alpha * A + beta * B;
63 const float beta = 0.21f; local
68 - B.constant(beta) / B - A.constant(delta);
69 Tensor<float, 3> S = gamma - A / alpha - beta / B - delta;
/external/bouncycastle/bcprov/src/main/java/org/bouncycastle/math/ec/endo/
H A DGLVTypeBParameters.java15 protected final BigInteger beta; field in class:GLVTypeBParameters
21 public GLVTypeBParameters(BigInteger beta, BigInteger lambda, BigInteger[] v1, BigInteger[] v2, BigInteger g1, argument
27 this.beta = beta;
40 return beta;
/external/vboot_reference/scripts/image_signing/sample-test-configs/
H A Densure_sane_lsb-release.config20 beta-channel
/external/eigen/Eigen/src/Householder/
H A DHouseholder.h26 * \f$ H *this = [ beta 0 ... 0]^T \f$
36 * \param beta the result of H * \c *this
42 void MatrixBase<Derived>::makeHouseholderInPlace(Scalar& tau, RealScalar& beta) argument
45 makeHouseholder(essentialPart, tau, beta);
49 * \f$ H *this = [ beta 0 ... 0]^T \f$
58 * \param beta the result of H * \c *this
68 RealScalar& beta) const
83 beta = numext::real(c0);
88 beta = sqrt(numext::abs2(c0) + tailSqNorm);
90 beta
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/external/testng/bin/
H A Dtestng.bat2 set JAR=%ROOT%\testng-5.2beta-jdk15.jar;%ROOT%\test\build
/external/iproute2/examples/
H A DSYN-DoS.rate.limit12 IPROUTE=/root/DS-6-beta/iproute2-990530-dsing
15 IPCHAINS=/root/DS-6-beta/ipchains-1.3.9/ipchains
/external/llvm/test/MC/ARM/
H A Dthumb_set-diagnostics.s48 .type beta,%function
49 beta: label
52 .thumb_set beta, alpha
54 @ CHECK: error: redefinition of 'beta'
55 @ CHECK: .thumb_set beta, alpha
/external/cblas/examples/
H A Dcblas_example1.c13 double alpha, beta; local
25 beta = 0;
60 cblas_dgemv( order, transa, m, n, alpha, a, lda, x, incx, beta,
/external/cblas/src/
H A Dcblas_dgemv.c14 const double *X, const int incX, const double beta,
53 &beta, Y, &F77_incY);
72 &F77_incX, &beta, Y, &F77_incY);
11 cblas_dgemv(const enum CBLAS_ORDER order, const enum CBLAS_TRANSPOSE TransA, const int M, const int N, const double alpha, const double *A, const int lda, const double *X, const int incX, const double beta, double *Y, const int incY) argument
H A Dcblas_dsbmv.c15 const double *X, const int incX, const double beta,
53 &F77_incX, &beta, Y, &F77_incY);
71 A ,&F77_lda, X,&F77_incX, &beta, Y, &F77_incY);
12 cblas_dsbmv(const enum CBLAS_ORDER order, const enum CBLAS_UPLO Uplo, const int N, const int K, const double alpha, const double *A, const int lda, const double *X, const int incX, const double beta, double *Y, const int incY) argument
H A Dcblas_dspmv.c16 const double *X, const int incX, const double beta,
52 &F77_incX, &beta, Y, &F77_incY);
70 AP, X,&F77_incX, &beta, Y, &F77_incY);
13 cblas_dspmv(const enum CBLAS_ORDER order, const enum CBLAS_UPLO Uplo, const int N, const double alpha, const double *AP, const double *X, const int incX, const double beta, double *Y, const int incY) argument
H A Dcblas_dsymv.c15 const double *X, const int incX, const double beta,
52 &F77_incX, &beta, Y, &F77_incY);
70 A ,&F77_lda, X,&F77_incX, &beta, Y, &F77_incY);
12 cblas_dsymv(const enum CBLAS_ORDER order, const enum CBLAS_UPLO Uplo, const int N, const double alpha, const double *A, const int lda, const double *X, const int incX, const double beta, double *Y, const int incY) argument
H A Dcblas_sgemv.c14 const float *X, const int incX, const float beta,
53 &beta, Y, &F77_incY);
72 &F77_incX, &beta, Y, &F77_incY);
11 cblas_sgemv(const enum CBLAS_ORDER order, const enum CBLAS_TRANSPOSE TransA, const int M, const int N, const float alpha, const float *A, const int lda, const float *X, const int incX, const float beta, float *Y, const int incY) argument

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