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DBpedia 2014

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Alternating_direction_implicit_method abstract "In numerical analysis, the Alternating Direction Implicit (ADI) method is a finite difference method for solving parabolic, hyperbolic and elliptic partial differential equations. It is most notably used to solve the problem of heat conduction or solving the diffusion equation in two or more dimensions. It is an example of an operator splitting method.The traditional method for solving the heat conduction equation numerically is the Crank–Nicolson method. This method results in a very complicated set of equations in multiple dimensions, which are costly to solve. The advantage of the ADI method is that the equations that have to be solved in each step have a simpler structure and can be solved efficiently with the tridiagonal matrix algorithm.".
Alternating_direction_implicit_method thumbnail ADI-stencil.svg?width=300.
Alternating_direction_implicit_method wikiPageID "14668760".
Alternating_direction_implicit_method wikiPageRevisionID "603396758".
Alternating_direction_implicit_method hasPhotoCollection Alternating_direction_implicit_method.
Alternating_direction_implicit_method subject Category:Numerical_differential_equations.
Alternating_direction_implicit_method subject Category:Partial_differential_equations.
Alternating_direction_implicit_method type Abstraction100002137.
Alternating_direction_implicit_method type Communication100033020.
Alternating_direction_implicit_method type DifferentialEquation106670521.
Alternating_direction_implicit_method type Equation106669864.
Alternating_direction_implicit_method type MathematicalStatement106732169.
Alternating_direction_implicit_method type Message106598915.
Alternating_direction_implicit_method type NumericalDifferentialEquations.
Alternating_direction_implicit_method type PartialDifferentialEquation106670866.
Alternating_direction_implicit_method type PartialDifferentialEquations.
Alternating_direction_implicit_method type Statement106722453.
Alternating_direction_implicit_method comment "In numerical analysis, the Alternating Direction Implicit (ADI) method is a finite difference method for solving parabolic, hyperbolic and elliptic partial differential equations. It is most notably used to solve the problem of heat conduction or solving the diffusion equation in two or more dimensions. It is an example of an operator splitting method.The traditional method for solving the heat conduction equation numerically is the Crank–Nicolson method.".
Alternating_direction_implicit_method label "Alternating direction implicit method".
Alternating_direction_implicit_method label "Método da direção implícita alternada".
Alternating_direction_implicit_method label "交替方向隐式法".
Alternating_direction_implicit_method sameAs Método_da_direção_implícita_alternada.
Alternating_direction_implicit_method sameAs m.03gsgjs.
Alternating_direction_implicit_method sameAs Q4736413.
Alternating_direction_implicit_method sameAs Q4736413.
Alternating_direction_implicit_method sameAs Alternating_direction_implicit_method.
Alternating_direction_implicit_method wasDerivedFrom Alternating_direction_implicit_method?oldid=603396758.
Alternating_direction_implicit_method depiction ADI-stencil.svg.
Alternating_direction_implicit_method isPrimaryTopicOf Alternating_direction_implicit_method.