/external/eigen/blas/ |
level3_impl.h | 45 Scalar beta = *reinterpret_cast<const Scalar*>(pbeta); local 62 if(beta!=Scalar(1)) 64 if(beta==Scalar(0)) matrix(c, *m, *n, *ldc).setZero(); 65 else matrix(c, *m, *n, *ldc) *= beta; 285 // c = alpha*a*b + beta*c for side = 'L'or'l' 286 // c = alpha*b*a + beta*c for side = 'R'or'r 290 // std::cerr << "in symm " << *side << " " << *uplo << " " << *m << "x" << *n << " lda:" << *lda << " ldb:" << *ldb << " ldc:" << *ldc << " alpha:" << *palpha << " beta:" << *pbeta << "\n"; 295 Scalar beta = *reinterpret_cast<const Scalar*>(pbeta); local 308 if(beta!=Scalar(1)) 310 if(beta==Scalar(0)) matrix(c, *m, *n, *ldc).setZero() 384 Scalar beta = *reinterpret_cast<const Scalar*>(pbeta); local 444 Scalar beta = *reinterpret_cast<const Scalar*>(pbeta); local 512 Scalar beta = *reinterpret_cast<const Scalar*>(pbeta); local 588 RealScalar beta = *pbeta; local 638 RealScalar beta = *pbeta; local [all...] |
level2_real_impl.h | 12 // y = alpha*A*x + beta*y 28 Scalar beta = *reinterpret_cast<const Scalar*>(pbeta); local 46 if(beta!=Scalar(1)) 48 if(beta==Scalar(0)) make_vector(actual_y, *n).setZero(); 49 else make_vector(actual_y, *n) *= beta; 154 * y := alpha*A*x + beta*y, 156 * where alpha and beta are scalars, x and y are n element vectors and 160 // RealScalar *x, int *incx, RealScalar *beta, RealScalar *y, int *incy) 168 * y := alpha*A*x + beta*y, 170 * where alpha and beta are scalars, x and y are n element vectors an [all...] |
level2_impl.h | 44 Scalar beta = *reinterpret_cast<const Scalar*>(pbeta); local 57 if(*m==0 || *n==0 || (alpha==Scalar(0) && beta==Scalar(1))) 69 if(beta!=Scalar(1)) 71 if(beta==Scalar(0)) make_vector(actual_c, actual_m).setZero(); 72 else make_vector(actual_c, actual_m) *= beta; 213 * y := alpha*A*x + beta*y, or y := alpha*A'*x + beta*y, 215 * where alpha and beta are scalars, x and y are vectors and A is an 225 Scalar beta = *reinterpret_cast<const Scalar*>(pbeta); local 240 if(*m==0 || *n==0 || (alpha==Scalar(0) && beta==Scalar(1)) [all...] |
/external/iproute2/tc/ |
q_pie.c | 36 fprintf(stderr, "[beta BETA ][bytemode | nobytemode][ecn | noecn ]\n"); 51 unsigned int beta = 0; local 82 } else if (strcmp(*argv, "beta") == 0) { 84 if (get_unsigned(&beta, *argv, 0) || 85 (beta > BETA_MAX) || (beta < BETA_MIN)) { 86 fprintf(stderr, "Illegal \"beta\"\n"); 119 if (beta) 120 addattr_l(n, 1024, TCA_PIE_BETA, &beta, sizeof(beta)) 138 unsigned int beta; local [all...] |
/system/update_engine/ |
omaha_request_params_unittest.cc | 163 EXPECT_TRUE(params_.IsValidChannel("beta-channel")); 180 EXPECT_TRUE(params_.SetTargetChannel("beta-channel", true, nullptr)); 181 EXPECT_EQ("beta-channel", params_.target_channel()); 184 EXPECT_TRUE(params_.SetTargetChannel("beta-channel", true, nullptr)); 185 EXPECT_EQ("beta-channel", params_.target_channel()); 198 EXPECT_TRUE(params_.SetTargetChannel("beta-channel", true, nullptr)); 201 EXPECT_EQ("beta-channel", params_.target_channel()); 206 EXPECT_EQ("beta-channel", params_.download_channel()); 207 EXPECT_EQ("beta-channel", params_.target_channel()); 213 int beta = params_.GetChannelIndex("beta-channel") local [all...] |
/device/google/contexthub/firmware/os/algos/ |
time_sync.c | 112 // Compute alpha and beta so that time1 = alpha + beta * time2. 145 float beta = sum_xy / sum_x2; local 146 float alpha = mean_y - beta * mean_x; 149 sync->beta = beta; 156 *time1 = sync->time1_base + floatToInt64(sync->alpha + sync->beta * floatFromInt64(time2 - sync->time2_base));
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/external/bouncycastle/bcprov/src/main/java/org/bouncycastle/math/ec/endo/ |
GLVTypeBParameters.java | 15 protected final BigInteger beta; field in class:GLVTypeBParameters 21 public GLVTypeBParameters(BigInteger beta, BigInteger lambda, BigInteger[] v1, BigInteger[] v2, BigInteger g1, 27 this.beta = beta; 40 return beta;
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/external/eigen/bench/ |
benchBlasGemm.cpp | 101 Scalar alpha, beta; local 111 beta = 1; 123 CBLAS_GEMM(CblasRowMajor, CblasNoTrans, CblasNoTrans, M, N, K, alpha, ma.data(), K, mb.data(), N, beta, mc.data(), N); 125 CBLAS_GEMM(CblasColMajor, CblasNoTrans, CblasNoTrans, M, N, K, alpha, ma.data(), M, mb.data(), K, beta, mc.data(), M);
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/packages/apps/Gallery2/jni/filters/ |
edge.c | 26 // f(v) = exp(-alpha * v^beta) 27 // use beta ~ 1 30 float const beta = p; local 96 float ret = 1.0f - exp (- alpha * pow(mag, beta));
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/device/google/dragon/audio/hal/dsp/ |
biquad.c | 57 double beta = 0.5 * (1 - sn) / (1 + sn); local 58 double gamma = (0.5 + beta) * cos(theta); 59 double alpha = 0.25 * (0.5 + beta - gamma); 65 double a2 = 2 * beta; 92 double beta = 0.5 * (1 - sn) / (1 + sn); local 93 double gamma = (0.5 + beta) * cos(theta); 94 double alpha = 0.25 * (0.5 + beta + gamma); 100 double a2 = 2 * beta;
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drc.c | 161 float beta = (b0 + b1 + b2) / (a0 + a1 + a2); local 163 deemphasis->b0 = a0 * beta; 164 deemphasis->b1 = a1 * beta; 165 deemphasis->b2 = a2 * beta;
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/external/apache-commons-math/src/main/java/org/apache/commons/math/distribution/ |
BetaDistributionImpl.java | 23 import org.apache.commons.math.special.Beta; 27 * Implements the Beta distribution. 32 * Beta distribution</a></li> 54 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) { 74 this.beta = beta; 82 * @param beta second shape parameter (must be positive [all...] |
GammaDistributionImpl.java | 48 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) { 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) { 73 setBetaInternal(beta); 100 ret = Gamma.regularizedGammaP(alpha, x / beta); [all...] |
/external/eigen/Eigen/src/Eigenvalues/ |
HessenbergDecomposition.h | 303 RealScalar beta; local 305 matA.col(i).tail(remainingSize).makeHouseholderInPlace(h, beta); 306 matA.col(i).coeffRef(i+1) = beta;
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/external/eigen/Eigen/src/IterativeLinearSolvers/ |
BiCGSTAB.h | 82 Scalar beta = (rho/rho_old) * (alpha / w); local 83 p = r + beta * (p - w * v);
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ConjugateGradient.h | 84 RealScalar beta = absNew / absOld; // calculate the Gram-Schmidt value used to create the new search direction local 85 p = z + beta * p; // update search direction
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LeastSquareConjugateGradient.h | 86 RealScalar beta = absNew / absOld; // calculate the Gram-Schmidt value used to create the new search direction local 87 p = z + beta * p; // update search direction
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/external/eigen/test/ |
householder.cpp | 37 Scalar beta; local 43 v1.makeHouseholder(essential, beta, alpha); 44 v1.applyHouseholderOnTheLeft(essential,beta,tmp); 49 v1.applyHouseholderOnTheLeft(essential,beta,tmp); 59 m1.col(0).makeHouseholder(essential, beta, alpha); 60 m1.applyHouseholderOnTheLeft(essential,beta,tmp); 71 m3.row(0).makeHouseholder(essential, beta, alpha); 72 m3.applyHouseholderOnTheRight(essential,beta,tmp);
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/external/eigen/unsupported/Eigen/src/EulerAngles/ |
EulerAngles.h | 30 * - then, rotate the axes system over the beta axis(which was rotated in the first stage) in angle beta 131 /** \returns the axis vector of the second (beta) rotation */ 149 /** Constructs and initialize Euler angles(\p alpha, \p beta, \p gamma). */ 150 EulerAngles(const Scalar& alpha, const Scalar& beta, const Scalar& gamma) : 151 m_angles(alpha, beta, gamma) {} 168 * \param positiveRangeBeta If true, beta will be in [0, 2*PI]. Otherwise, in [-PI, +PI]. 198 * \param positiveRangeBeta If true, beta will be in [0, 2*PI]. Otherwise, in [-PI, +PI]. 211 /** \returns The angle values stored in a vector (alpha, beta, gamma). */ 213 /** \returns A read-write reference to the angle values stored in a vector (alpha, beta, gamma). * 222 Scalar beta() const { return m_angles[1]; } function in class:Eigen::EulerAngles 224 Scalar& beta() { return m_angles[1]; } function in class:Eigen::EulerAngles [all...] |
/external/eigen/unsupported/Eigen/src/IterativeSolvers/ |
GMRES.h | 99 RealScalar beta; local 100 r0.makeHouseholder(H0_tail, tau.coeffRef(0), beta); 101 w(0) = Scalar(beta); 131 v.tail(m - k).makeHouseholder(Hk_tail, tau.coeffRef(k), beta); 198 r0.makeHouseholder(H0_tail, tau.coeffRef(0), beta); 199 w(0) = Scalar(beta);
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/external/walt/android/WALT/app/src/main/java/org/chromium/latency/walt/ |
TouchCatcherView.java | 76 // b = beta is a dimensionless smoothing parameter, value selected by experimentation. 78 double beta = 4; local 79 double y_smooth = y_tri / (1 + Math.exp(beta*(Math.abs(y_tri)-1))/(beta - 1));
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/external/webrtc/webrtc/modules/remote_bitrate_estimator/ |
aimd_rate_control.cc | 245 double beta = 0.0; local 247 beta = std::min((now_ms - last_ms) / static_cast<double>(response_time_ms), 250 beta /= 2.0; 256 1000.0, beta * avg_packet_size_bits);
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/frameworks/av/tools/resampler_tools/ |
fir.cpp | 61 static double kaiser(int k, int N, double beta) { 64 return I0(beta * sqrt(1.0 - sqr((2.0*k)/N - 1.0))) / I0(beta); 70 " [-f {float|fixed|fixed16}] [-b beta] [-v dBFS] [-l lerp]\n" 72 " [-f {float|fixed|fixed16}] [-b beta] [-v dBFS] -p M/N\n" 83 " -b kaiser window parameter beta (7.865 [-80dB])\n" 121 // beta = | 0.5842*(A - 21)^0.4 + 0.07886*(A - 21) 21 <= A <= 50 135 double beta = 7.865; local 157 * beta = 10.056 208 beta = atof(optarg) [all...] |
/external/ImageMagick/MagickCore/ |
cipher.c | 303 const unsigned char beta) 308 if ((alpha == 0) || (beta == 0)) 310 return(InverseLog[(Log[alpha]+Log[beta]) % 0xff]); 980 beta; local 1007 beta; local [all...] |
/external/ImageMagick/coders/ |
xpm.c | 943 beta; 960 beta=(double) TransparentAlpha-(double) 962 if (alpha < beta) 978 beta=(Quantum) TransparentAlpha-(double) 980 if (alpha < beta) 935 beta; local [all...] |