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More graduate and professional training programs are aimed at meeting that need by creating a better understanding of how to integrate and speed up the entire product development process.
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Today’s product development teams have to comprise an integrated group of professionals working from the very beginning of new product planning through design creation and design review and then on to manufacturing planning and cost accounting. Engineers, scientists, librarians, and other information professionals working with engineering and technology information will welcome this research Other sections describe regulations, standards and specifications, government resources, professional and trade associations, and education and career resources. The author also discusses how engineers and scientists use information, the culture and generation of scientific information, different types of engineering information, and the tools and resources you need to locate and access that material. Substantial emphasis is placed on digital resources. Lord highlights basic perspectives, access tools, and English-language resources-directories, encyclopedias, yearbooks, dictionaries, databases, indexes, libraries, buyer's guides, Internet resources, and more. The only source that focuses exclusively on engineering and technology, this important guide maps the dynamic and changing field of information sources published for engineers in recent years. With careful consideration of the economic and technical trade-offs involved in ICD for manufacturing, this reference addresses techniques for physical, electrical, and logical design, keeping coverage fresh and concise for the designers, manufacturers, and researchers defining product architecture and research programs. The result is an extremely functional, systematic presentation that simplifies existing approaches to DfM, outlining a clear set of criteria to help readers assess reliability, functionality, and yield. Averting extended discussion of technology, techniques, or specific device dimensions, the author also avoids the clumsy chapter architecture that can hinder other books on this subject. This material explores the concept of ICD for production by breaking down its major steps: product definition, design, layout, and manufacturing. Presents actual test cases that illustrate product challenges, examine possible solution strategies, and demonstrate how to select and implement the right one This book shows that DfM is a powerful generic engineering concept with potential extending beyond its usual application in automated layout enhancements centered on proximity correction and pattern density. Where most books put the spotlight on detailed engineering enhancements and their implications for device functionality, in contrast, this one offers, among other things, crucial, valuable historical background and roadmapping, all illustrated with examples. Semiconductors: Integrated Circuit Design for Manufacturability covers the gradual evolution of integrated circuit design (ICD) as a basis to propose strategies for improving return-on-investment (ROI) for ICD in manufacturing. That’s why the field requires a reference that takes the focus off of numbers and concentrates more on larger economic concepts than on technical details. Because of the continuous evolution of integrated circuit manufacturing (ICM) and design for manufacturability (DfM), most books on the subject are obsolete before they even go to press.