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  1. '''Dynamic'''
  2. *
  3. 2D Constrained Delaunay
  4. 2D formulation for Electrostatic Problems
  5. 2D formulation for Magnetostatic Problems
  6. 3D Constrained Delaunay
  7. ASGS
  8. Acuario
  9. Aeroelastic derivatives evaluation
  10. Analytical Solution of the Poisson's Equation for One-Dimensional Domains
  11. Applications
  12. AxisymSmallDisplacementElement
  13. AxisymUpdatedLagrangianElement
  14. AxisymUpdatedLagrangianUPElement
  15. Boundary Conditions programing in Kratos
  16. C-DEMPack2 manual
  17. C-DEMPack Tutorial 1: Cohesive DemPack 2.0
  18. CDm 1.Introduction
  19. CDm 2.1.Analysis type
  20. CDm 2.2.Kinematical Approaches
  21. CDm 2.3.Solution Strategies
  22. CDm 2.4.Elements
  23. CDm 2.5.Boundary Conditions
  24. CDm 2.6.Initial Conditions
  25. CDm 2.7.HPC
  26. CDm 2.8.Problem Parameters
  27. CDm 2.9.Other Relevant Aspects
  28. CDm 2.Structure
  29. CDm 3.Benchmarking
  30. CDm 4.Tutorials
  31. CDm 5.Contact People
  32. CDm 6.Aknowledgements
  33. CFDm 1.Introduction
  34. CFDm 2.1.Fluid Types
  35. CFDm 2.10.Other Relevant Aspects
  36. CFDm 2.2.Kinematical Approaches
  37. CFDm 2.3.Solution Strategies
  38. CFDm 2.3Elements
  39. CFDm 2.4.Elements
  40. CFDm 2.5.Boundary Conditions
  41. CFDm 2.6.Initial Conditions
  42. CFDm 2.7.Turbulence Models
  43. CFDm 2.8.HPC
  44. CFDm 2.9.Problem Parameters
  45. CFDm 2.Structure
  46. CFDm 3.Benchmarking
  47. CFDm 4.Tutorials
  48. CFDm 5.Contact People
  49. CFDm 6.Aknowledgements
  50. CSMm 1.Introduction
  51. CSMm 2.1.Analysis Type
  52. CSMm 2.2.Elements
  53. CSMm 2.3.Boundary Conditions
  54. CSMm 2.4.Loads
  55. CSMm 2.5.Constitutive Laws
  56. CSMm 2.6.HPC
  57. CSMm 2.7.Problem Parameters
  58. CSMm 2.8.Other Relevant Aspects
  59. CSMm 2.Structure
  60. CSMm 3.Benchmarking
  61. CSMm 4.Tutorials
  62. CSMm 5.Contact People
  63. CSMm 6.Aknowledgements
  64. Calculate
  65. CalculateAll
  66. CalculateLeftHandSide
  67. CalculateLocalSystem
  68. CalculateOnIntegrationPoints
  69. CalculateRightHandSide
  70. Checking memory use with Valgrind
  71. Common errors
  72. Comparison Utilities
  73. Compiling lapack++ for 64 bit Windows
  74. Component-Wise Bossak Scheme
  75. Component-Wise Newton Raphson Strategy
  76. Computational Fluid Dynamic Module (CFDm)
  77. Computational Structural Mechanics Module (CSMm)
  78. ConstitutiveLaw
  79. Constructors
  80. ContactLink3D
  81. ContactUtility
  82. Contact Mechanics Application
  83. Convection Diffusion Application
  84. Convection Diffusion Module (CDm)
  85. Convection diffusion Application Application Files
  86. Convection diffusion Application Conditions
  87. Convection diffusion Application Elements
  88. Convection diffusion Application Global Files
  89. Convection diffusion Application Problem Type
  90. Convection diffusion Application Strategies
  91. Convection diffusion Application Utilies
  92. Convection diffusion Application Utilities
  93. Create Kratos Wiki account
  94. CrisfieldTrussElement
  95. Current events
  96. DEMPack Tutorials
  97. DEM Application
  98. DampMatrix
  99. Data Structure
  100. Debugging the Application
  101. Delete
  102. Deposit with elastic wall
  103. Documentation
  104. Download
  105. Download1
  106. Doxygen Documentation
  107. Dymamic
  108. Electromagnetic Applications
  109. Electromechanical Applications
  110. Electrostatic Application Application Files
  111. Electrostatic Application Conditions
  112. Electrostatic Application Elements
  113. Electrostatic Application Global Files
  114. Electrostatic Application Problem Type
  115. Electrostatic Basic principles
  116. Electrostatic Boundary Conditions
  117. Element
  118. EquationIdVector
  119. Examples
  120. Explicit Central Differences Scheme
  121. Explicit Strategy
  122. External References
  123. F-DEMPack2 manual
  124. F-DEMPack Tutorial 1: Curved pipe
  125. F-DEMPack Tutorial 2: Annular pipe
  126. FAQ
  127. Finite Element Method Formulation for the Poisson's Equation
  128. Fluid2DGLS expl
  129. Fluid Dynamics Application
  130. Forced and free heave/rotation analyses with Kratos
  131. G-DEMPack2 manual
  132. G-DEMPack Tutorial 1: Conveyor belt
  133. G-DEMPack Tutorial 2: DemPack 2.0
  134. G-DEMPack Tutorial 3: DEM Meshers
  135. G-DEMPack installation
  136. G-DEMPack manual
  137. GPU Library Page
  138. Gallery
  139. GeneralTemplate
  140. General Structure
  141. General formulation for Electrostatic Problems
  142. GetDofList
  143. GetFirstderivative and GetSecondDerivative
  144. GidHacks
  145. HOW TOs
  146. Here
  147. How the GiD Graphical User Interface communicates with Kratos
  148. How to "survive" OpenMP parallelism
  149. How to Access DataBase
  150. How to Access Neighbor Nodes and Elements
  151. How to Add a Custom Utilities File
  152. How to Add a New Condition
  153. How to Add a New Element (Condition)
  154. How to Add a New Variable
  155. How to Add a New constitutive law
  156. How to Add a new variable for your element
  157. How to Add a variable
  158. How to Add and Delete Components (Nodes, Elements, ...) from ModelPart
  159. How to Calculate Distance Function
  160. How to Calculate Normals
  161. How to Check Kratos is Correctly Installed in Linux
  162. How to Check your Kratos Installation in Windows
  163. How to Compile Kratos
  164. How to Compile Kratos in Debug mode
  165. How to Compile Kratos on the Acuario Cluster
  166. How to Create Multi-step Elements
  167. How to Create New Application
  168. How to Create New Element
  169. How to Create New Strategy
  170. How to Create a GiD Problem Type
  171. How to Create a New Application using cmake
  172. How to Create a executable without Python
  173. How to Learn OpenMP
  174. How to Measure memory consumption (using google-perftools)
  175. How to Profile (Measure Time Consumption)
  176. How to Profile (measuring time consuming)
  177. How to Profile an application (using OProfile)
  178. How to Profile an application (using google-perftools)
  179. How to Search neighbors
  180. How to Use Solving Strategy
  181. How to Use Ublas
  182. How to Use an Application
  183. How to Use the Meshes as Group
  184. How to Use the ModelPart
  185. How to Use the std::vector (and the kratos containers)
  186. How to access a value in a 'Properties' block
  187. How to acess the values of a Table
  188. How to add automatic benchmarking to your example
  189. How to apply face pressures
  190. How to comment out a section without deleting it
  191. How to compile the Boost if you want to use MPI
  192. How to construct a linear solver using the "Linear Solver Factory"
  193. How to construct the "solving strategies"
  194. How to create a new application
  195. How to create a restart (python) file
  196. How to create the problem type.gid folder with the new problem type generator
  197. How to create unitary tests
  198. How to debug OpenCL programs using GDB
  199. How to debug with valgrind
  200. How to execute an FFT analysis
  201. How to execute fitting of temporal data series
  202. How to force a scalar run
  203. How to get Kratos
  204. How to import Kratos from Python using the KratosMultiphysics module
  205. How to include the restart in python
  206. How to make Git ignore the files resulting from a compilation without conflicts in .gitignore
  207. How to make my application derivable
  208. How to plot graphs
  209. How to print values on Gauss points
  210. How to print values on gauss points
  211. How to profile
  212. How to read a data file
  213. How to read a mdpa file
  214. How to refine an existing triangular or tetrahedral mesh
  215. How to run python recursively
  216. How to run your application in cluster
  217. How to set up OpenCL
  218. How to subscribe to Kratos' mailing list
  219. How to transfer nodal values between non-matching meshes
  220. How to understand Kratos Pointers
  221. How to use "Smart Pointers" within Kratos
  222. How to use Doxygen to generate documentation for our code
  223. How to use Python
  224. How to use Serialization
  225. How to use ThreadSanitizer to detect data race bugs
  226. How to use communicator for parallel synchronization
  227. How to use external linear solvers and preconditioners
  228. How to use multiple model parts
  229. How to use parallel Pardiso solver for your example
  230. How to use parameters
  231. How to use push back
  232. How to use the Constitutive Law class
  233. How to use the Cutting Application (Serial and Parallel)
  234. How to use the Cutting Isosurface Application
  235. How to use the GidIO
  236. How to use the Isosurface Node Printer
  237. How to use the OpenCL linear solvers
  238. How to use the PaStiX solver in Kratos
  239. How to use the ReduceTimeStep
  240. How to use the Spatial Containers
  241. How to use the Spatial Search Algorithm
  242. How to use the geometry within an element
  243. How to use the projection between no matching meshes
  244. How to work with Groups (Meshes)
  245. How to work with nodes and elements in python
  246. Incompressible Fluid Application
  247. Incompressible Fluid Application Conditions
  248. Incompressible Fluid Application Strategies
  249. InitalizeSolutionStep and FinalizeSolutionStep
  250. Initialize
  251. InitializeNonLinearIteration and FinalizeNonLinearIteration
  252. InitializeSolutionStep
  253. Input Data
  254. Install
  255. InstallCmake
  256. Install Kratos Prerequisites
  257. Installing from a Freshly installed Ubuntu Linux
  258. Installing kratos in Ubuntu Linux
  259. Installing kratos in macOS
  260. Introduction to OpenCL Programming
  261. Isoparametric formulation
  262. Isotropic3D
  263. Isotropic Damage Utilities
  264. Julio
  265. KPoisson.mdpa
  266. KPoisson.old
  267. Kazem
  268. Kernel
  269. KinematicLinear
  270. Kratos
  271. Kratos 1.0.0
  272. Kratos 1.0.0 Linux Installation
  273. Kratos 1.0.0 Windows Installation
  274. Kratos 1.1.0 Windows Installation
  275. Kratos 1.2.0 Linux Installation
  276. Kratos 2.0.0 Linux Installation
  277. Kratos 2.0.1 Linux Installation
  278. Kratos 2.0.1 Windows Installation
  279. Kratos 2.1.0 Linux Installation
  280. Kratos 2.1.0 Windows Installation
  281. Kratos Electrostatic Application
  282. Kratos For Dummies
  283. Kratos For Dummies OLD
  284. Kratos For Dummies V2
  285. Kratos GiD Graphical User Interface Guide
  286. Kratos Images
  287. Kratos Installation
  288. Kratos Magnetostatic Application
  289. Kratos Structure: Basic Components
  290. Kratos Structure: Elements and Conditions
  291. Kratos Structure: Kernel and applications
  292. Kratos Structure: Mesh and ModelPart
  293. Kratos Structure: Node and Nodal Data
  294. Kratos Structure: Strategies and Processes
  295. Kratos Structure: Workflow
  296. Kratos Tutorials
  297. Kratos Windows Binaries
  298. Kratos kernel and application approach
  299. LHS
  300. Libraries Used
  301. Licence
  302. LineLoadCondition
  303. Line Search Calculation Utilities
  304. Linear
  305. LinearSolidElement
  306. Link title
  307. LinuxInstall
  308. Linux Installation
  309. Load
  310. Logos
  311. MMGUtility
  312. MacOSX Installation
  313. Magnetostatic Application Application Files
  314. Magnetostatic Application Conditions
  315. Magnetostatic Application Elements
  316. Magnetostatic Application Global Files
  317. Magnetostatic Application Problem Type
  318. Main Page
  319. MassMatrix
  320. MasterContactFace3D
  321. Matlab code Case 1 of the Analytical Solution for the Poisson's Equation 1D
  322. Matlab code Case 2 of the Analytical Solution for the Poisson's Equation 1D
  323. Matlab code Case 3 of the Analytical Solution for the Poisson's Equation 1D
  324. Matlab code Case 4 of the Analytical Solution for the Poisson's Equation 1D
  325. Matlab code Case 5 of the Analytical Solution for the Poisson's Equation 1D
  326. Matlab code Case 6 of the Analytical Solution for the Poisson's Equation 1D
  327. Matlab code Case 7 of the Analytical Solution for the Poisson's Equation 1D
  328. Matlab code Collocation Method of the Resolution of the Poisson's equation with the WRM using global Shape Functions
  329. Matlab code Galerkin Method of the Resolution of the Poisson's equation with the WRM using global Shape Functions
  330. Matlab code Least Squares Method of the Resolution of the Poisson's equation with the WRM using global Shape Functions
  331. Matlab code Shape Functions 1D
  332. Matlab code Shape Functions 1D Lagrangian
  333. Matlab code Subdomain Method of the Resolution of the Poisson's equation with the WRM using global Shape Functions
  334. Matlab code of the Resolution of the 1D Poisson's equation using local Shape Functions
  335. MeshingApplication
  336. MiguelAngel
  337. Modify Kratos Main Page contents
  338. Naca 12 incompressible example
  339. New
  340. New1
  341. New Main Page
  342. News for constitutive laws
  343. Nonlinear
  344. Numerical Integration
  345. Old Input Data
  346. Old Main Page
  347. One-dimensional Shape Functions
  348. Operations
  349. Other test page
  350. PFIRE
  351. Parametric interpolation for a cubic function
  352. Pavel
  353. Pfem Base Application
  354. Pfem Fluid Dynamics Application
  355. Pfem Solid Mechanics Application
  356. PointLoadCondition
  357. Poisson's Equation
  358. Poisson's Equation in Electrostatics
  359. Pooyan
  360. Problem: 'locked' or 'bloqueado' files and folders
  361. Problem: 'locked file'
  362. Problem: menus not expanding
  363. Profiling the Kratos
  364. Programming Conventions
  365. Prova
  366. Prova 1
  367. PureConvectionEdgeBased
  368. Purpose of the Meshing Applications
  369. Python Script Tutorial: Getting Started
  370. Python Script Tutorial: Going for a unified script
  371. Python Script Tutorial: Hello Kratos
  372. Python Script Tutorial: Main Solution
  373. Python Script Tutorial: ModelPart Elements and Conditions
  374. Python Script Tutorial: ModelPart Nodes and Nodal Data
  375. Python Script Tutorial: Reading ModelPart From Input File
  376. Python Script Tutorial: Using Kratos Solvers
  377. Python Script Tutorial: Writing Output File
  378. Python Script Tutorial: Writing a JSon configuration file
  379. Python code of the Resolution of the 1D Poisson's equation using local Shape Functions
  380. Python interpreter for Kratos
  381. RHS
  382. RapidSVN
  383. Required components
  384. Residual-Based Bossak Scheme
  385. Residual-Based Newmark Scheme
  386. Residual-Based Newton Raphson Line Search Strategy
  387. Residual-Based Newton Raphson Strategy
  388. Residual-Based Static Scheme
  389. Residual Based Arc Length Strategy
  390. Residual Based Central Differences Strategy
  391. Residual Based Newton Raphson Line Search Strategy
  392. Residual Based Newton Raphson Strategy
  393. Resolution of the 1D Poisson's equation using local Shape Functions
  394. Resolution of the Poisson's equation with the WRM using global Shape Functions
  395. Running Kratos Standalone under Windows
  396. Save
  397. Scientific Publications
  398. Segment preserving Interface
  399. Shape Functions
  400. ShellAnisotropic
  401. ShellIsotropic
  402. Shell Analysis using Structural Mechanics Application
  403. SlaveContactFace3D
  404. SmallDisplacementElement
  405. Solid Mechanics Application
  406. Solid Mechanics Application Conditions
  407. Solid Mechanics Application Constitutive Laws
  408. Solid Mechanics Application Elements
  409. Solid Mechanics Application Flow Rules
  410. Solid Mechanics Application Hardening Laws
  411. Solid Mechanics Application Input Data
  412. Solid Mechanics Application Problem Type
  413. Solid Mechanics Application Processes
  414. Solid Mechanics Application Python Interface
  415. Solid Mechanics Application Schemes
  416. Solid Mechanics Application Strategies
  417. Solid Mechanics Application Utilities
  418. Solid Mechanics Application Yield Criteria
  419. Solid Mechanics Math Utilities
  420. Some aspects of programation
  421. Some aspects of programing
  422. Specific Examples of the Resolution of the Poisson's equation with the WRM using global Shape Functions
  423. Strategy python
  424. Structural Application
  425. Structural Application Conditions
  426. Structural Application Constitutive Laws
  427. Structural Application Elements
  428. Structural Application Fluency Criteria
  429. Structural Application Strategies
  430. Structural Application Utilities
  431. SubgridScale
  432. Support for double-precision floating point basic arithmetic in ATI Stream SDK (2.1 and later)
  433. SurfaceLoadCondition
  434. Telling to the kratos that a new element exists
  435. Template for Application Documentation
  436. Test page
  437. Test page with index 1
  438. Test page with index 2
  439. Testing Tutorial: Getting Started
  440. Testing Tutorial: What is Testing
  441. Testing a python file as a copy&paste with some format
  442. Testing a python file as a direct copy&paste
  443. Tetgen Mesh Suite
  444. Tetgen PFEM refine
  445. TotalLagrangian
  446. TotalLagrangianElement
  447. Trigen Mesh Suite
  448. Trigen PFEM refine
  449. Tutorial:Creating an Utility
  450. Tutorial:Creating the Conditions
  451. Tutorial:Creating the Element
  452. Tutorial:Creating the Python Solver file
  453. Tutorial:Editing the main files
  454. Two-dimensional Shape Functions
  455. Typical Errors
  456. ULF Application
  457. Ubuntu
  458. UpdatedLagrangianElement
  459. UpdatedLagrangianUPElement
  460. Useful OpenCL links
  461. Vtune
  462. What is Kratos
  463. Who are we
  464. Windows 7 Download and Installation
  465. Windows Installation
  466. Working
  467. Working kernel
  468. Www.cimne.com/pavel
  469. XXXXXXX

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