/external/cblas/testing/ |
c_zblas2.c | 14 const void *beta, void *y, int *incy) { 30 beta, y, *incy ); 35 *m, *n, alpha, a, *lda, x, *incx, beta, y, *incy ); 38 *m, *n, alpha, a, *lda, x, *incx, beta, y, *incy ); 44 CBLAS_TEST_ZOMPLEX *beta, CBLAS_TEST_ZOMPLEX *y, int *incy) { 77 *incx, beta, y, *incy ); 82 *incx, beta, y, *incy ); 85 *incx, beta, y, *incy ); 147 int *incx, CBLAS_TEST_ZOMPLEX *beta, CBLAS_TEST_ZOMPLEX *y, int *incy){ 164 beta, y, *incy ) [all...] |
/prebuilts/sdk/renderscript/lib/ |
javalib.jar | |
/device/google/dragon/audio/hal/dsp/ |
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/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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/external/eigen/blas/ |
level2_real_impl.h | 12 // y = alpha*A*x + beta*y 34 Scalar beta = *reinterpret_cast<Scalar*>(pbeta); local 52 if(beta!=Scalar(1)) 54 if(beta==Scalar(0)) vector(actual_y, *n).setZero(); 55 else vector(actual_y, *n) *= beta; 202 * y := alpha*A*x + beta*y, 204 * where alpha and beta are scalars, x and y are n element vectors and 208 // RealScalar *x, int *incx, RealScalar *beta, RealScalar *y, int *incy) 216 * y := alpha*A*x + beta*y, 218 * where alpha and beta are scalars, x and y are n element vectors an [all...] |
level2_impl.h | 34 Scalar beta = *reinterpret_cast<Scalar*>(pbeta); local 47 if(*m==0 || *n==0 || (alpha==Scalar(0) && beta==Scalar(1))) 59 if(beta!=Scalar(1)) 61 if(beta==Scalar(0)) vector(actual_c, actual_m).setZero(); 62 else vector(actual_c, actual_m) *= beta; 195 * y := alpha*A*x + beta*y, or y := alpha*A'*x + beta*y, 197 * where alpha and beta are scalars, x and y are vectors and A is an 207 Scalar beta = *reinterpret_cast<Scalar*>(pbeta); local 222 if(*m==0 || *n==0 || (alpha==Scalar(0) && beta==Scalar(1)) [all...] |
level2_cplx_impl.h | 14 * y := alpha*A*x + beta*y, 16 * where alpha and beta are scalars, x and y are n element vectors and 40 Scalar beta = *reinterpret_cast<Scalar*>(pbeta); local 58 if(beta!=Scalar(1)) 60 if(beta==Scalar(0)) vector(actual_y, *n).setZero(); 61 else vector(actual_y, *n) *= beta; 81 * y := alpha*A*x + beta*y, 83 * where alpha and beta are scalars, x and y are n element vectors and 87 // RealScalar *x, int *incx, RealScalar *beta, RealScalar *y, int *incy) 94 * y := alpha*A*x + beta*y [all...] |
/external/iproute2/examples/diffserv/ |
Edge32-cb-chains | 13 IPROUTE=/root/DS-6-beta/iproute2-990530-dsing 16 IPCHAINS=/root/DS-6-beta/ipchains-1.3.9/ipchains
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Edge32-ca-u32 | 14 IPROUTE=/root/DS-6-beta/iproute2-990530-dsing 17 IPCHAINS=/root/DS-6-beta/ipchains-1.3.9/ipchains
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/external/opencv/cvaux/src/ |
cvmat.cpp | 392 if( mat_add.beta == 1 ) 398 if( mat_add.beta == -1 ) 405 cvScaleAdd( b, cvScalar(mat_add.beta), a, this ); 407 cvAddWeighted( a, 1, b, mat_add.beta, 0, this ); 422 cvAddWeighted( a, mat_add.alpha, b, mat_add.beta, mat_add.gamma, this ); 450 cvConvertScale( src, this, scale_shift_mat.alpha, scale_shift_mat.beta ); 508 if( mmuladd.t_abc == 0 && mmuladd.alpha == 1 && mmuladd.beta == 1 ) 511 cvGEMM( a, b, mmuladd.alpha, c, mmuladd.beta, this, mmuladd.t_abc );
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enmin.cpp | 96 // between two labels ( alpha and beta ) 98 // beta - label number two 99 inline int vFunc( int alpha, int beta ) 101 if( alpha == beta ) 172 // beta - label number two for doing exchange 184 int beta, 209 if( corr[i] == alpha || corr[i] == beta ) { 219 ( ( Vertex* )newVtxPtr ) -> coord = -1; /* adding beta vertex */ 252 ( ( Edge* )tempEdgePtr ) -> weight = vFunc( alpha, beta ); 273 ( ( Edge* )tempEdgePtr ) -> weight = vFunc( alpha, beta ); [all...] |
/external/opencv3/modules/core/src/cuda/ |
gpu_mat.cu | 446 S beta; 450 return cudev::saturate_cast<D>(alpha * src + beta); 455 void convertToScale(const GpuMat& src, const GpuMat& dst, double alpha, double beta, Stream& stream) 464 op.beta = cv::saturate_cast<scalar_type>(beta); 511 void cv::cuda::GpuMat::convertTo(OutputArray _dst, int rtype, double alpha, double beta, Stream& stream) const 526 typedef void (*func_t)(const GpuMat& src, const GpuMat& dst, double alpha, double beta, Stream& stream); 538 funcs[sdepth][ddepth](reshape(1), dst.reshape(1), alpha, beta, stream);
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/prebuilts/gdb/darwin-x86/lib/python2.7/sqlite3/test/ |
dump.py | 63 CREATE_BETA = """CREATE TABLE "beta" ("two");"""
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/prebuilts/gdb/linux-x86/lib/python2.7/sqlite3/test/ |
dump.py | 63 CREATE_BETA = """CREATE TABLE "beta" ("two");"""
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/prebuilts/python/darwin-x86/2.7.5/lib/python2.7/sqlite3/test/ |
dump.py | 63 CREATE_BETA = """CREATE TABLE "beta" ("two");"""
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/prebuilts/python/linux-x86/2.7.5/lib/python2.7/sqlite3/test/ |
dump.py | 63 CREATE_BETA = """CREATE TABLE "beta" ("two");"""
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/external/antlr/antlr-3.4/runtime/Ruby/test/functional/parser/ |
scopes.rb | 66 /* rule scopes, from the book, final beta, p.147 */ 83 /* rule scopes, from the book, final beta, p.148 */ 107 /* recursive rule scopes, from the book, final beta, p.150 */
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/external/eigen/Eigen/src/QR/ |
ColPivHouseholderQR.h | 488 RealScalar beta; local 489 m_qr.col(k).tail(rows-k).makeHouseholderInPlace(m_hCoeffs.coeffRef(k), beta); 492 m_qr.coeffRef(k,k) = beta; 495 if(abs(beta) > m_maxpivot) m_maxpivot = abs(beta);
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FullPivHouseholderQR.h | 475 RealScalar beta; local 476 m_qr.col(k).tail(rows-k).makeHouseholderInPlace(m_hCoeffs.coeffRef(k), beta); 477 m_qr.coeffRef(k,k) = beta; 480 if(abs(beta) > m_maxpivot) m_maxpivot = abs(beta);
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HouseholderQR.h | 249 RealScalar beta; local 250 mat.col(k).tail(remainingRows).makeHouseholderInPlace(hCoeffs.coeffRef(k), beta); 251 mat.coeffRef(k,k) = beta;
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/external/eigen/lapack/ |
dlarfg.f | 40 *> H * ( alpha ) = ( beta ), H**T * H = I. 43 *> where alpha and beta are scalars, and x is an (n-1)-element real 71 *> On exit, it is overwritten with the value beta. 130 DOUBLE PRECISION BETA, RSAFMN, SAFMIN, XNORM 160 BETA = -SIGN( DLAPY2( ALPHA, XNORM ), ALPHA ) 163 IF( ABS( BETA ).LT.SAFMIN ) THEN 165 * XNORM, BETA may be inaccurate; scale X and recompute them 171 BETA = BETA*RSAFMN 173 IF( ABS( BETA ).LT.SAFMIN [all...] |
/external/opencv3/modules/cudaarithm/src/ |
arithm.cpp | 157 void cv::cuda::gemm(InputArray _src1, InputArray _src2, double alpha, InputArray _src3, double beta, OutputArray _dst, int flags, Stream& stream) 164 (void) beta; 205 if (beta != 0) 232 const float betaf = static_cast<float>(beta); 238 const cuDoubleComplex betac = make_cuDoubleComplex(beta, 0); 259 &beta,
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/external/opencv3/modules/core/src/opencl/ |
arithm.cl | 246 #define EXTRA_PARAMS , scaleT alpha, scaleT beta, scaleT gamma 248 #define PROCESS_ELEM storedst(convertToDT(mad24(srcelem1, alpha, mad24(srcelem2, beta, gamma)))) 250 #define PROCESS_ELEM storedst(convertToDT(fma(srcelem1, alpha, fma(srcelem2, beta, gamma)))) 306 #define EXTRA_PARAMS , workT1 alpha, workT1 beta 309 workT value = mad24(srcelem1, (workT)(alpha), (workT)(beta)); \ 313 workT value = fma(srcelem1, (workT)(alpha), (workT)(beta)); \
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/external/apache-commons-math/src/main/java/org/apache/commons/math/analysis/interpolation/ |
BicubicSplineInterpolatingFunction.java | 144 final double[] beta = new double[] { local 151 splines[i][j] = new BicubicSplineFunction(computeSplineCoefficients(beta)); 325 * @param beta List of function values and function partial derivatives 329 private double[] computeSplineCoefficients(double[] beta) { 336 result += row[j] * beta[j];
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TricubicSplineInterpolatingFunction.java | 258 final double[] beta = new double[] { local 300 splines[i][j][k] = new TricubicSplineFunction(computeSplineCoefficients(beta)); 397 * @param beta List of function values and function partial derivatives 401 private double[] computeSplineCoefficients(double[] beta) { 409 result += row[j] * beta[j];
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