S. Gallopoulos, E.N. Houstis, and J. Rice. Computer as Thinker/Doer: Problem-Solving Environments for Computational Science. In Computational Science and Engineering. IEEE, 1994.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....components represent definitions of stochastic processes. Similarly to the real option components, an external interface is defined For a problem solving environment scope denotes the extent of the problem set that it can address, while power refers to its ability to solve the posed problems [11]. 7 for the interaction with the numerical method components in a stochastic modelindependent way. The necessary mathematical manipulation of the stochastic models such as symbolic transformations and derivation of pricing equations in our system is done using the symbolic algebra system ....

E. Gallopoulos, E. Houstis, and J.R. Rice, Computer as Thinker/Doer: Problem Solving Environments for Computational Science, IEEE Computational Science and Engineering, vol. 1, pp. 11-23, 1994.

....(PSE) software demonstration in a classroom setting. A PSE is a computer system that provides all the computational facilities necessary to solve a target class of problems. It seeks to combine discipline specific software tools into integrated systems for decision making and problem solving [1]. The development work of the PSE software, hereafter called L2W (Landscapes to Waterscapes) PSE, was carried out as a part of a multidisciplinary research project: From Landscapes to Waterscapes: Integrating Framework for Urbanizing Watersheds, supported by USEPA during 19972001, at Virginia ....

Gallopoulos, E., Houstis, E., Rice, J., R., " Computer as Thinker/Doer: Problem-Solving Environment for Computational Science", IEEE Computational Science and Engineering , Vol. 1(2), 1994, pp. 11-23.

....domain, increasing their productivity by allowing them to focus on the problem at hand rather than on general computation issues. 1. 1 What is a PSE A PSE is a system that provides a complete, usable, and integrated set of high level facilities for solving problems in a specific domain [34, 44]. PSEs allow users to define and modify problems, choose solution strategies, interact with and manage appropriate hardware and software resources, visualize and analyze results, and record and coordinate extended problem solving tasks. In complex problem domains, a PSE may provide intelligent and ....

.... a computing resource management subsystem such as Globus [32, 33] or Legion [66, 40] An important goal of PSE researchers is to define a generic architecture for PSEs and to develop middleware (typically object oriented) to facilitate the construction and tailoring of problem specific PSEs [34]. This emphasis, along with work in Web based, distributed, and collaborative PSEs, characterizes much of the current research in PSEs. For example, in [17] the authors describe PDELab, a multilayered, object oriented framework for creating highlevel PSEs. PDELab supports PDESpec, a PDE ....

E. Gallopoulos, E.N. Houstis, and J.R. Rice. Computer as thinker/doer: Problemsolving environments for computational science. IEEE Computational Science and Engineering, 1:11--23, 1994.

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S. Gallopoulos, E.N. Houstis, and J. Rice. Computer as Thinker/Doer: Problem-Solving Environments for Computational Science. In Computational Science and Engineering. IEEE, 1994.

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E. Gallopoulos, E.N. Houstis, and J.R. Rice. Computer as Thinker/Doer: Problem-Solving Environments for Computational Science. IEEE Computational Science and Engineering, Vol. 1(2):pages 11--23, 1994.

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E. Gallopoulos, E. N. Houstis, and J. R. Rice. Computer as thinker/doer: Problem solving environments for computational science. IEEE Computational Science Engineering Magazine, 1(2):11--23, 1994.

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S. Gallopoulos, E.N. Houstis, and J. Rice. Computer as Thinker/Doer: Problem-Solving Environments for Computational Science. In Computational Science and Engineering. IEEE, 1994.

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E. Gallopoulos, E.N. Houstis, and J.R. Rice, "Computer as thinker/doer: Problem solving environments for computational science". IEEE Computing in Science and Engineering, I 11-23, (1994).

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E. Gallopoulos, E.N. Houstis, and J.R. Rice, Computer as thinker/doer: Problem solving environments for computational science. IEEE Comp. Sci. Engr., 1 (1994), 11-23.

....is the management of data transfer among modules. MDAs require not only efficient communication mechanisms for large amounts of data but also complex value interpolation and conversions between different data organization schemes. Problem Solving Environments. Problem Solving Environments (PSEs) [86, 111] are specialized computing systems for solving a specific target class of problems. Specifically, PSEs contain highly tuned software systems, such as numerical libraries that are installed on high end machines and may be accessed remotely in a client server style. This access is either done ....

E. Gallopoulos, E. Houstis, and J. Rice. Computer as Thinker/Doer: Problem-Solving Environments for Computational Science. IEEE Computational Science & Engineering, 1(2):11--23, Summer 1994.

....The philosophy of such computing environments, and a detailed description of the working of our visualization tool are discussed. A problem solving environment is a system that provides a complete, usable, and integrated set of high level facilities for solving problems from a prescribed domain [20, 28]. PSEs allow users to define and modify problems, choose solution strategies, interact with and manage appropriate hardware and software resources, visualize and analyze results, and record and coordinate extended problem solving tasks. In complex problem domains, a PSE may provide intelligent and ....

E. Gallopoulos, E.N. Houstis, and J.R. Rice. Computer as thinker/doer: Problem-solving environ- ments for computational science. IEEE Computational Science and Engineering, 1:11-23, 1994.

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E. Gallopoulos, E.N. Houstis, and J.R. Rice, "Computer as Thinker/Doer: Problem-Solving Environments for Computational Science," IEEE Computational Science & Engineering, Vol. 1, No. 2, Summer 1994, pp. 11--23.

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E. Gallopoulos, E. Houstis, J.R. Rice, "Computer as thinker/doer: Problem-solving environments for computational science", IEEE Computational Science & Engineering, 1 (1994) 11--23.

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E. Gallopoulos, E.N. Houstis, and J.R. Rice. Computer as Thinker/Doer: Problem Solving Environments for Computational Science. IEEE Computational Science and Engineering, Vol. 1(2):pages 11--23, 1994.

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Gallopoulos, E., Houstis, E., Rice, J.R.: Computer as thinker/doer: Problemsolving environments for computational science. IEEE Comput. Sci. Eng. 1 (1994) 11--23

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Stratis Gallopoulos, Elias N. Houstis, and John R. Rice. Computer as thinker/doer: Problem-solving environments for computational science. IEEE Computational Science and Engineering, 1(2):11--23, 1994.

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E. Gallopoulos, E. Houstis, J.R. Rice, Computer as Thinker/Doer: Problem-Solving Environments for Computational Science, IEEE Computational Science & Engineering 1 (2) (1994) 11-23.

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E. Gallopoulos, E. Houstis, and J. R. Rice. Computer as Thinker/Doer: Problem-Solving Environments for Computational Science. IEEE Computational Science & Engineering, 1(2):11--23, Summer 1994.

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E. Gallopoulos, E. Houstis, and J. Rice, "Computer As Thinker/Doer: Problem-Solving Environments for Computational Science," IEEE Computational Science and Engineering, vol. 1, no. 2, pp. 11--23, 1994.

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Gallopoulos, E., Houstis, E. N., and Rice, J. R.: "Computer as thinker/doer: Problem solving environments for computational science," IEEE Comp. Sci. Engr. 1, 11-23, 1994.

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E. Gallopoulos, E. Houstis, J. Rice, Computer as Thinker/Doer: ProblemSolving Environments for Computational Science, IEEE Computational Science and Engineering vol. 1 no. 2 (1994)

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