Scientific Software Design: The Object-Oriented WayCambridge University Press, 29 квіт. 2011 р. The authors analyze how the structure of a package determines its developmental complexity according to such measures as bug search times and documentation information content. The work presents arguments for why these issues impact solution cost and time more than does scalable performance. The final chapter explores the question of scalable execution and shows how scalable design relates to scalable execution. The book's focus is on program organization, which has received considerable attention in the broader software engineering community, where graphical description standards for modeling software structure and behavior have been developed by computer scientists. These discussions might be enriched by engineers who write scientific codes. This book aims to bring such scientific programmers into discussion with computer scientists. The authors do so by introducing object-oriented software design patterns in the context of scientific simulation. |
Зміст
SOOP TO NUTS AND BOLTS | 4 |
The ObjectOriented Way | 31 |
Scientific OOP | 57 |
86 | 66 |
Factory Patterns | 98 |
The Object Pattern | 107 |
The Abstract Calculus Pattern | 129 |
The Strategy and Surrogate Patterns | 143 |
4 | 227 |
MixedLanguage Programming | 251 |
Multiphysics Architectures | 285 |
Appendix A Mathematical Background | 335 |
Appendix B Unified Modeling Language Elements | 357 |
Bibliography | 373 |
379 | |
The Puppeteer Pattern | 167 |
Інші видання - Показати все
Scientific Software Design: The Object-Oriented Way Damian Rouson,Jim Xia,Xiaofeng Xu Попередній перегляд недоступний - 2014 |
Scientific Software Design: The Object-Oriented Way Damian Rouson,Jim Xia,Xiaofeng Xu Попередній перегляд недоступний - 2011 |
Загальні терміни та фрази
ABSTRACT CALCULUS abstract class ADT calculus algorithm allocatable allocate argument array assignment astronaut Burgers Chapter class diagram class field class integrand compiler component computing conductor const crd_t& construct constructor contains context crd_t debugging default defined derived type design patterns differential dimension dynamic end function end interface end subroutine end type Euler example Fortran Fortran 95 ForTrilinos Gaussian elimination heat conduction hermetic HermeticField implementation implicit integer ikind integration intent(in interoperability invoked language Lorenz equation Lorenz system mat_t mathematical matrix memory method model_t multiphysics numerical object object-oriented OpenMP operator package parameter periodic_2nd_order pointer polymorphism problem provides PUPPETEER quantum vortex real rkind real_t RefBase reference counting result Rouson runtime Section sequence diagram simulation solution solver specification strategy STRATEGY pattern structure subroutine superfluid surrogate temperature template timed_lorenz Trilinos type-bound procedures typedef vector virtual ptr_t vortex