Introducing industrial design flow of an RFIC chip to a graduate course: building the ecosystem and bridging the gap between industry and academia

IET Circuits Devices Syst. Pub Date : 2017-06-06 DOI:10.1049/iet-cds.2016.0434

L. Albasha, O. Hammi

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引用次数: 5

Abstract

Radio-frequency integrated circuits (RFICs) design and fabrication require sets of skills that are professionally earned through years of hands-on experiences in a developed industrial environment such as fabless design houses. Difficult design specifications, dynamic working environment, and tight deadlines in ruthless time cycles of design to mass production are all, but few examples that academia often fails to train young engineers to face. In general, no skill-based education can be easily found for fresh graduates interested in a career in IC design. As part of an industry-oriented graduate course in RFIC, students were introduced into industry design flow through lectures and major project assignments. The latter were selected to form an integrated design flow that ultimately leads to the design of a full RFIC. Students were offered to select design blocks as projects and were given specifications to meet, extracted from a transceiver architecture study. The outcome of the work showed an interesting trend of students starting their design in individual efforts, but later clustering together in team effort to match their designs together and to finish their tasks at the fictitious tape-out deadline.

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将RFIC芯片的工业设计流程引入研究生课程:构建生态系统，弥合产学研的差距

射频集成电路(rfic)的设计和制造需要通过在发达的工业环境(如无晶圆厂设计公司)中多年的实践经验而获得的专业技能。困难的设计规范，动态的工作环境，以及从设计到批量生产的残酷时间周期中的紧迫的最后期限，这些都是学术界经常无法培养年轻工程师面对的例子。一般来说，对于有意从事集成电路设计的应届毕业生来说，很难找到以技能为基础的教育。作为RFIC工业导向研究生课程的一部分，学生们通过讲座和主要项目作业了解工业设计流程。后者被选择形成一个集成的设计流程，最终导致一个完整的RFIC的设计。学生们可以选择设计模块作为项目，并从收发器架构研究中提取出满足的规范。这项工作的结果显示了一个有趣的趋势:学生们以个人的方式开始他们的设计，但后来聚集在一起，以团队的方式将他们的设计组合在一起，并在虚拟的截止日期前完成他们的任务。

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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IET Circuits Devices Syst.

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