This paper mainly introduce the full-process of finite element analysis for temperature field and temperature stress. Furthermore,apply large-scale software ANSYS to simulate calculation of temperature field and temperature stress,supply reference for temperature field and temperature stress considerations in reality project.
The fluid-solid coupling iterative computing method come forward in the paper may make best use of the present large-scale software, FLUENT and ANSYS, to calculate and analyze the complex fluid-solid coupled problems, which is practicable in the engineering.
Nowadays, in the big software enterprise , there may be many software projects going at the same time , the tasks how to build up a high efficiency software project management system to control the process of software and its quality have become urgently imminence.
MDBS a a database system, which is for test and evaluation in & big software engineering. The design of the data scheme in MDBS introducing tbe structure of the individual relations of the scheme and their relevance and some examples about individual software metrics to serve the explanation to the design of tbe data model is given in the paper.
Migrating to OO development from traditional structure development need improve the old software process in software organization, this paper introduces a method of realizing software process improvement,aiming at the status of big software organization.
Recently service orientation is becoming a mainstream approach for building large scale software systems.
Although service-oriented design is our prime target, the contract models, to a large extent, are independent of the framework of design and therefore applicable to large scale software design in general.
Software engineering is an often used term to describe the activities, methods, and tools of large scale software development.
Software design concepts based on Object-Oriented Programming (OOP) are emerging as powerful techniques for developing large scale software systems.
Maintenance costs for large scale software systems can amount to somewhere between 40 and 67% of the total system life cycle cost.
It is a very big software used to solve complex optimization problems formalized using Fuzzy Logic constructs and constraints.
We had a big software reengineering project, for which it quickly became evident that we did not have the internal resources.
A big problem for the development of software is its productivity, especially, in developing large software systems (e.g. Management Information System). This paper describes how to use Petrinet specifying management model to develop large software systems. With Petrinet as a tool to develop MEMIS——a large software system, its developing periods are reduced, reliability and applicability are improved. Also, the computer representation of a management model and its dynamic simulating method are given.
A set of systematic methods and rules in programming a large scale application software system has been proposed in this paper. The programming organization, management and software system structure for large scale application software system are arranged proporly in this set of rules. A series of difficulties in programming can be overcome by using this set of rules. This set of rules are demonstrated by the example of the development of the large scale software system MCSS.)
A big problem for the development of software is Its productivity, especially, in developing large software systems (e.g. Management Information System). This paper describes how to use Petrinet specifying management model to develop large software systems. With Petrinet as a tool to develop MEMIS——a large software system, its developing periods are reduced, reliability and applicability are improved. Also, the computer representation of a management model and its dynamic simulating method are given.