| /external/apache-commons-math/src/main/java/org/apache/commons/math/ode/ |
| D | FirstOrderConverter.java | 61 private final SecondOrderDifferentialEquations equations; field in FirstOrderConverter
79 public FirstOrderConverter (final SecondOrderDifferentialEquations equations) { in FirstOrderConverter() argument
80 this.equations = equations; in FirstOrderConverter()
81 dimension = equations.getDimension(); in FirstOrderConverter()
111 equations.computeSecondDerivatives(t, z, zDot, zDDot); in computeDerivatives()
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| D | AbstractIntegrator.java | 79 private transient FirstOrderDifferentialEquations equations; field in AbstractIntegrator
194 protected void setEquations(final FirstOrderDifferentialEquations equations) { in setEquations() argument
195 this.equations = equations; in setEquations()
210 equations.computeDerivatives(t, y, yDot); in computeDerivatives()
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| D | FirstOrderIntegrator.java | 57 double integrate (FirstOrderDifferentialEquations equations, in integrate() argument
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| D | SecondOrderIntegrator.java | 55 void integrate(SecondOrderDifferentialEquations equations, in integrate() argument
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| /external/apache-commons-math/src/main/java/org/apache/commons/math/ode/nonstiff/ |
| D | AdaptiveStepsizeIntegrator.java | 180 protected void sanityChecks(final FirstOrderDifferentialEquations equations, in sanityChecks() argument
185 super.sanityChecks(equations, t0, y0, t, y); in sanityChecks()
187 if (equations instanceof ExtendedFirstOrderDifferentialEquations) { in sanityChecks()
188 … mainSetDimension = ((ExtendedFirstOrderDifferentialEquations) equations).getMainSetDimension(); in sanityChecks()
190 mainSetDimension = equations.getDimension(); in sanityChecks()
219 public double initializeStep(final FirstOrderDifferentialEquations equations, in initializeStep() argument
318 public abstract double integrate (FirstOrderDifferentialEquations equations, in integrate() argument
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| D | EmbeddedRungeKuttaIntegrator.java | 192 public double integrate(final FirstOrderDifferentialEquations equations, in integrate() argument
197 sanityChecks(equations, t0, y0, t, y); in integrate()
198 setEquations(equations); in integrate()
257 hNew = initializeStep(equations, forward, getOrder(), scale, in integrate()
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| D | RungeKuttaIntegrator.java | 95 public double integrate(final FirstOrderDifferentialEquations equations, in integrate() argument
100 sanityChecks(equations, t0, y0, t, y); in integrate()
101 setEquations(equations); in integrate()
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| D | AdamsBashforthIntegrator.java | 188 public double integrate(final FirstOrderDifferentialEquations equations, in integrate() argument
194 sanityChecks(equations, t0, y0, t, y); in integrate()
195 setEquations(equations); in integrate()
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| D | AdamsMoultonIntegrator.java | 205 public double integrate(final FirstOrderDifferentialEquations equations, in integrate() argument
211 sanityChecks(equations, t0, y0, t, y); in integrate()
212 setEquations(equations); in integrate()
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| D | AdamsIntegrator.java | 85 public abstract double integrate(final FirstOrderDifferentialEquations equations, in integrate() argument
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| D | GraggBulirschStoerIntegrator.java | 550 public double integrate(final FirstOrderDifferentialEquations equations, in integrate() argument
554 sanityChecks(equations, t0, y0, t, y); in integrate()
555 setEquations(equations); in integrate()
653 hNew = initializeStep(equations, forward, in integrate()
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| /external/deqp/modules/gles31/functional/ |
| D | es31fAdvancedBlendTests.cpp | 634 const glw::GLenum* equations,
648 const glw::GLenum* equations, in BlendEquationStateCase() argument
653 , m_equations (equations) in BlendEquationStateCase()
687 const glw::GLenum* equations,
701 const glw::GLenum* equations, in BlendEquationIndexedStateCase() argument
706 , m_equations (equations) in BlendEquationIndexedStateCase()
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| /external/ceres-solver/docs/source/ |
| D | bibliography.rst | 53 properties for solving nonlinear equations with convex
76 numerical solution of partial differential equations**, Springer
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| D | solving.rst | 194 equations. Typically an iterative linear solver like the Conjugate
438 equivalent to solving the *normal equations*.
469 R^\top R` be the Cholesky factorization of the normal equations, where
486 Cholesky factorization of the normal equations. Ceres uses
490 Cholesky factorization of the normal equations. This leads to
605 Conjugate Gradients solver on the *normal equations*, but without
606 forming the normal equations explicitly. It exploits the relation
653 structural engineering and partial differential equations. In the
757 :math:`x` from the two equations, solving for y and then back
1339 numerical conditioning of the normal equations.
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| D | version_history.rst | 621 LDLT factorization on the normal equations.
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| /external/libvorbis/doc/ |
| D | 09-helper.tex | 4 \section{Helper equations} \label{vorbis:spec:helper}
8 The equations below are used in multiple places by the Vorbis codec
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| /external/deqp/doc/testspecs/GLES31/ |
| D | functional.draw_buffers_indexed.txt | 25 + Blend equations, blend functions, blend enable and color masks.
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| /external/deqp/modules/gles2/stress/ |
| D | es2sSpecialFloatTests.cpp | 1493 static const GLenum equations[] = in testFBO() local
1511 const int numBlendFuncs = DE_LENGTH_OF_ARRAY(equations) * DE_LENGTH_OF_ARRAY(functions); in testFBO()
1582 const GLenum blendEquation = equations[y % DE_LENGTH_OF_ARRAY(equations)]; in testFBO()
1583 const GLenum blendFunction = functions[y / DE_LENGTH_OF_ARRAY(equations)]; in testFBO()
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| /external/deqp/modules/gles3/stress/ |
| D | es3sSpecialFloatTests.cpp | 1859 static const GLenum equations[] = in testFBO() local
1879 const int numBlendFuncs = DE_LENGTH_OF_ARRAY(equations) * DE_LENGTH_OF_ARRAY(functions); in testFBO()
1950 const GLenum blendEquation = equations[y % DE_LENGTH_OF_ARRAY(equations)]; in testFBO()
1951 const GLenum blendFunction = functions[y / DE_LENGTH_OF_ARRAY(equations)]; in testFBO()
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| /external/mesa3d/docs/ |
| D | MESA_texture_array.spec | 282 and d_t are as defined by equations 3.15, 3.16, and 3.17 with
757 the LOD selection equations for 2D textures are used. For 1D
759 equations for 1D textures are used. The expected usage is in a
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| /external/mesa3d/src/gallium/docs/source/ |
| D | screen.rst | 50 * ``PIPE_CAP_BLEND_EQUATION_SEPARATE``: Whether alpha blend equations may be different
51 from color blend equations, in :ref:`Blend` state.
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| /external/eigen/doc/ |
| D | TutorialLinearAlgebra.dox | 13 \b The \b problem: You have a system of equations, that you have written as a single matrix equation
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| D | QuickReference.dox | 609 Solving linear equations:\n
657 Solving linear equations:\n(\f$ M_2 := M_1^{-1} M_2 \f$)
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| /external/eigen/unsupported/Eigen/ |
| D | MatrixFunctions | 124 differential equations: the solution of \f$ y' = My \f$ with the
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