2,841 research outputs found
Interoperability of Information Systems and Heterogenous Databases Using XML
Interoperabilily of information systerrrs is the most critical issue facing businesse!
that need to access information from multiple idormution systems on
tlifferent environments ancl diverse platforms. Interoperability has been a basic
requirement for the modern information systems in a competitive and volatile
business environment, particularly with the advent of distributed network system
and the growing relevance of inter-network communications. Our objective
in tltis paper is to develop a comprehensiveframework tofacilitate interoperability
smong distributed and heterogeneous information systems and to develop prototype
software to validate tlte application of XML in interoperability of infurmation
systems and databases
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Leveraging legacy codes to distributed problem solving environments: A web service approach
This paper describes techniques used to leverage high performance legacy codes as CORBA components to a distributed problem solving environment. It first briefly introduces the software architecture adopted by the environment. Then it presents a CORBA oriented wrapper generator (COWG) which can be used to automatically wrap high performance legacy codes as CORBA components. Two legacy codes have been wrapped with COWG. One is an MPI-based molecular dynamic simulation (MDS) code, the other is a finite element based computational fluid dynamics (CFD) code for simulating incompressible Navier-Stokes flows. Performance comparisons between runs of the MDS CORBA component and the original MDS legacy code on a cluster of workstations and on a parallel computer are also presented. Wrapped as CORBA components, these legacy codes can be reused in a distributed computing environment. The first case shows that high performance can be maintained with the wrapped MDS component. The second case shows that a Web user can submit a task to the wrapped CFD component through a Web page without knowing the exact implementation of the component. In this way, a user’s desktop computing environment can be extended to a high performance computing environment using a cluster of workstations or a parallel computer
JAVA Wrappers for Automated Interoperability
Databases in Networked Information Systems International Workshop DNIS 2000This paper concentrates on the issues related to implementation of interoperability between distributed subsystems, particularly in the context of reengineering and integration of several centralized legacy systems. Currently, most interoperability techniques require the data or services to be tightly coupled to a particular server. Furthermore, as most programmers are trained in designing stand- alone application, developing distributed system proves to be time-consuming and difficult. Here, we addressed those concerns by creating an interface wrapper model that allows developers to treat distributed objects as local objects. A tool that automatically generates the features of Java interface wrapper from a specification language called the Prototyping System Description Language has been developed based on the model.U.S. Army Research OfficeARO 40473.30-MA-S
Engineering Automation for Reliable Software Interim Progress Report (10/01/2000 - 09/30/2001)
Prepared for: U.S. Army Research Office
P.O. Box 12211
Research Triangle Park, NC 27709-2211The objective of our effort is to develop a scientific basis for producing reliable
software that is also flexible and cost effective for the DoD distributed software domain.
This objective addresses the long term goals of increasing the quality of service provided
by complex systems while reducing development risks, costs, and time. Our work focuses on
"wrap and glue" technology based on a domain specific distributed prototype model. The key
to making the proposed approach reliable, flexible, and cost-effective is the automatic
generation of glue and wrappers based on a designer's specification. The "wrap and glue"
approach allows system designers to concentrate on the difficult interoperability problems
and defines solutions in terms of deeper and more difficult interoperability issues, while
freeing designers from implementation details. Specific research areas for the proposed
effort include technology enabling rapid prototyping, inference for design checking,
automatic program generation, distributed real-time scheduling, wrapper and glue
technology, and reliability assessment and improvement. The proposed technology will be
integrated with past research results to enable a quantum leap forward in the state of the
art for rapid prototyping.U. S. Army Research Office P.O. Box 12211 Research Triangle Park, NC 27709-22110473-MA-SPApproved for public release; distribution is unlimited
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