Proxy-based integration of reconfigurable hardware within simulation environments: improving e-learning experience in microelectronics

2005 IEEE International Conference on Microelectronic Systems Education (MSE'05) Pub Date : 2005-06-12 DOI:10.1109/MSE.2005.45

Diego Fernando Jimenez Orostegui, L. Indrusiak, M. Glesner

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引用次数: 5

Abstract

Education in microelectronics technology ideally reaches beyond theoretical lecturing. After basic information is reviewed, practical activities allow for clarification of learned concepts. Therefore, e-learning environments in microelectronics must allow for such activities. This is not easy to accomplish due to the fact that practical experience is, for most students, available only inside shared laboratory rooms. The objective of the present project is to address this problem by granting remote access of reconfigurable hardware to students. Using this concept, students can reach real reconfigurable hardware as a part of a model within a simulation tool, in this case Ptolemy II. They can upload their own or use existing configurations to the hardware, and then make it interact with other Actors of the simulation. Such a tool enhances e-learning systems where the students can also access design automation tools, libraries, and prototyping platforms. Moreover, through these systems, students can communicate with fellow students and instructors.

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模拟环境中基于代理的可重构硬件集成:改善微电子电子学习体验

微电子技术教育理想地超越了理论讲授。在回顾了基本信息之后，实践活动允许对所学概念进行澄清。因此，微电子学的电子学习环境必须允许这样的活动。要做到这一点并不容易，因为对大多数学生来说，实际经验只能在共用的实验室里获得。本项目的目标是通过允许学生远程访问可重构硬件来解决这个问题。使用这个概念，学生可以在仿真工具中获得真正的可重构硬件作为模型的一部分，在本例中为托勒密二世。他们可以将自己的或使用现有的配置上传到硬件，然后使其与模拟的其他actor进行交互。这种工具增强了电子学习系统，学生也可以访问设计自动化工具、库和原型平台。此外，通过这些系统，学生可以与同学和老师交流。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2005 IEEE International Conference on Microelectronic Systems Education (MSE'05)

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