Multi-Chip Module Test Strategies

Multi-Chip Module Test Strategies

Author: Yervant Zorian

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 161

ISBN-13: 1461561078

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MCMs today consist of complex and dense VLSI devices mounted into packages that allow little physical access to internal nodes. The complexity and cost associated with their test and diagnosis are major obstacles to their use. Multi-Chip Module Test Strategies presents state-of-the-art test strategies for MCMs. This volume of original research is designed for engineers interested in practical implementations of MCM test solutions and for designers looking for leading edge test and design-for-testability solutions for their next designs. Multi-Chip Module Test Strategies consists of eight contributions by leading researchers. It is designed to provide a comprehensive and well-balanced coverage of the MCM test domain. Multi-Chip Module Test Strategies has also been published as a special issue of the Journal of Electronic Testing: Theory and Applications (JETTA, Volume 10, Numbers 1 and 2).


Multichip Module Technologies and Alternatives: The Basics

Multichip Module Technologies and Alternatives: The Basics

Author: Daryl Ann Doane

Publisher: Springer Science & Business Media

Published: 2013-11-27

Total Pages: 895

ISBN-13: 1461531004

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Far from being the passive containers for semiconductor devices of the past, the packages in today's high performance computers pose numerous challenges in interconnecting, powering, cooling and protecting devices. While semiconductor circuit performance measured in picoseconds continues to improve, computer performance is expected to be in nanoseconds for the rest of this century -a factor of 1000 difference between on-chip and off-chip performance which is attributable to losses associated with the package. Thus the package, which interconnects all the chips to form a particular function such as a central processor, is likely to set the limits on how far computers can evolve. Multichip packaging, which can relax these limits and also improve the reliability and cost at the systems level, is expected to be the basis of all advanced computers in the future. In addition, since this technology allows chips to be spaced more closely, in less space and with less weight, it has the added advantage of being useful in portable consumer electronics as well as in medical, aerospace, automotive and telecommunications products. The multichip technologies with which these applications can be addressed are many. They range from ceramics to polymer-metal thin films to printed wiring boards for interconnections; flip chip, TAB or wire bond for chip-to-substrate connections; and air or water cooling for the removal of heat.


Integrated Circuit Manufacturability

Integrated Circuit Manufacturability

Author: José Pineda de Gyvez

Publisher: John Wiley & Sons

Published: 1998-10-30

Total Pages: 338

ISBN-13: 0780334477

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"INTEGRATED CIRCUIT MANUFACTURABILITY provides comprehensive coverage of the process and design variables that determine the ease and feasibility of fabrication (or manufacturability) of contemporary VLSI systems and circuits. This book progresses from semiconductor processing to electrical design to system architecture. The material provides a theoretical background as well as case studies, examining the entire design for the manufacturing path from circuit to silicon. Each chapter includes tutorial and practical applications coverage. INTEGRATED CIRCUIT MANUFACTURABILITY illustrates the implications of manufacturability at every level of abstraction, including the effects of defects on the layout, their mapping to electrical faults, and the corresponding approaches to detect such faults. The reader will be introduced to key practical issues normally applied in industry and usually required by quality, product, and design engineering departments in today's design practices: * Yield management strategies * Effects of spot defects * Inductive fault analysis and testing * Fault-tolerant architectures and MCM testing strategies. This book will serve design and product engineers both from academia and industry. It can also be used as a reference or textbook for introductory graduate-level courses on manufacturing."


Program Information Package for Defense Technology Conversion, Reinvestment, and Transition Assistance

Program Information Package for Defense Technology Conversion, Reinvestment, and Transition Assistance

Author: Advanced Research Projects Agency Staff

Publisher: DIANE Publishing

Published: 1994

Total Pages: 132

ISBN-13: 9780788103605

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Addresses defense industry and technology base activities under eight separate statutory authority programs and sets forth planned selection criteria by which proposals received under a future solicitation will be evaluated. Covers: technology reinvestment activities (technology development, technology deployment, and manufacturing education and training), and eligibility and statutory programs. Also, planning for submission of proposals.


Multichip Module Technology Handbook

Multichip Module Technology Handbook

Author: Philip E. Garrou

Publisher: McGraw-Hill Professional Publishing

Published: 1998

Total Pages: 696

ISBN-13:

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MCMs are electronic components that house multiple integrated circuits (ICs) upon a single chip. Their use in design allow systems that are faster, hotter and more reliable than those built with standalone ICs. More and more, the speed needs of electronic systems require MCMs. This comprehensive handbook aims to provide designers with the knowledge needed to understand and work with MCMs.


Economics of Electronic Design, Manufacture and Test

Economics of Electronic Design, Manufacture and Test

Author: M. Abadir

Publisher: Springer Science & Business Media

Published: 2013-06-29

Total Pages: 181

ISBN-13: 147575048X

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The general understanding of design is that it should lead to a manufacturable product. Neither the design nor the process of manufacturing is perfect. As a result, the product will be faulty, will require testing and fixing. Where does economics enter this scenario? Consider the cost of testing and fixing the product. If a manufactured product is grossly faulty, or too many of the products are faulty, the cost of testing and fixing will be high. Suppose we do not like that. We then ask what is the cause of the faulty product. There must be something wrong in the manufacturing process. We trace this cause and fix it. Suppose we fix all possible causes and have no defective products. We would have eliminated the need for testing. Unfortunately, things are not so perfect. There is a cost involved with finding and eliminating the causes of faults. We thus have two costs: the cost of testing and fixing (we will call it cost-1), and the cost of finding and eliminating causes of faults (call it cost-2). Both costs, in some way, are included in the overall cost of the product. If we try to eliminate cost-1, cost-2 goes up, and vice versa. An economic system of production will minimize the overall cost of the product. Economics of Electronic Design, Manufacture and Test is a collection of research contributions derived from the Second Workshop on Economics of Design, Manufacture and Test, written for inclusion in this book.


Conceptual Design of Multichip Modules and Systems

Conceptual Design of Multichip Modules and Systems

Author: Peter A. Sandborn

Publisher: Springer Science & Business Media

Published: 2013-03-14

Total Pages: 270

ISBN-13: 1475748418

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Conceptual Design of Multichip Modules and Systems treats activities which take place at the conceptual and specification level of the design of complex multichip systems. These activities include the formalization of design knowledge (information modeling), tradeoff analysis, partitioning, and decision process capture. All of these functions occur prior to the traditional CAD activities of synthesis and physical design. Inherent in the design of electronic modules are tradeoffs which must be understood before feasible technology, material, process, and partitioning choices can be selected. The lack of a complete set of technology information is an especially serious problem in the packaging and interconnect field since the number of technologies, process, and materials is substantial and selecting optimums is arduous and non-trivial if one truly wants a balance in cost and performance. Numerous tradeoff and design decisions have to be made intelligently and quickly at the beginning of the design cycle before physical design work begins. These critical decisions, made within the first 10% of the total design cycle, ultimately define up to 80% of the final product cost. Conceptual Design of Multichip Modules and Systems lays the groundwork for concurrent estimation level analysis including size, routing, electrical performance, thermal performance, cost, reliability, manufacturability, and testing. It will be useful both as a reference for system designers and as a text for those wishing to gain a perspective on the nature of packaging and interconnect design, concurrent engineering, computer-aided design, and system synthesis.


Multichip Module Design, Fabrication, and Testing

Multichip Module Design, Fabrication, and Testing

Author: James J. Licari

Publisher: McGraw-Hill Companies

Published: 1995

Total Pages: 408

ISBN-13:

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The advent of multichip modules (MCMs) is revolutionizing the ways in which electronic systems and equipment are designed, tested and manufactured. This evolving technology for packaging printed circuit boards (PCBs) is commanding both interest and excitement.


Microelectronics Packaging Handbook

Microelectronics Packaging Handbook

Author: Rao Tummala

Publisher: Springer Science & Business Media

Published: 1997-01-31

Total Pages: 1070

ISBN-13: 9780412084416

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Provides the advances in microelectronics design methods, modeling tools, simulation techniques, and manufacturing procedures. This book discusses packages that meet the power, cooling, protection, and interconnection requirements of increasingly dense and fast microcircuitry.