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Automated Solution of Differential Equations by the Finite Element Method
other
Editor(s):
Anders Logg
,
Kent-Andre Mardal
,
Garth Wells
Publication date
(Print):
2012
Publisher:
Springer Berlin Heidelberg
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Related collections
Numerical Algebra, Matrix Theory, Differential-Algebraic Equations, and Control Theory
Author and book information
Book
ISBN (Print):
978-3-642-23098-1
ISBN (Electronic):
978-3-642-23099-8
Publication date (Print):
2012
DOI:
10.1007/978-3-642-23099-8
SO-VID:
943ea9d4-9e2f-4e60-9059-b83e2e82fc37
License:
http://www.springer.com/tdm
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Book chapters
pp. 1
A FEniCS tutorial
pp. 77
The finite element method
pp. 95
Common and unusual finite elements
pp. 121
Constructing general reference finite elements
pp. 133
Finite element variational forms
pp. 141
Finite element assembly
pp. 147
Quadrature representation of finite element variational forms
pp. 159
Tensor representation of finite element variational forms
pp. 163
Discrete optimization of finite element matrix evaluation
pp. 173
DOLFIN: a C++/Python finite element library
pp. 227
FFC: the FEniCS form compiler
pp. 239
FErari: an optimizing compiler for variational forms
pp. 247
FIAT: numerical construction of finite element basis functions
pp. 257
Instant: just-in-time compilation of C/C++ in Python
pp. 273
SyFi and SFC: symbolic finite elements and form compilation
pp. 283
UFC: a finite element code generation interface
pp. 303
UFL: a finite element form language
pp. 339
Unicorn: a unified continuum mechanics solver
pp. 363
Lessons learned in mixed language programming
pp. 385
Finite elements for incompressible fluids
pp. 399
A comparison of finite element schemes for the incompressible Navier–Stokes equations
pp. 421
Simulation of transitional flows
pp. 441
Computational hemodynamics
pp. 455
Cerebrospinal fluid flow
pp. 471
Improved Boussinesq equations for surface water waves
pp. 505
Applications in solid mechanics
pp. 525
A computational framework for nonlinear elasticity
pp. 543
Turbulent flow and fluid–structure interaction
pp. 553
An adaptive finite element solver for fluid–structure interaction problems
pp. 571
Modeling evolving discontinuities
pp. 585
Dynamic simulations of convection in the Earth’s mantle
pp. 601
Automatic calibration of depositional models
pp. 611
A coupled stochastic and deterministic model of Ca2+ dynamics in the dyadic cleft
pp. 629
Electromagnetic waveguide analysis
pp. 643
Block preconditioning of systems of PDEs
pp. 657
Automated testing of saddle point stability conditions
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