3D Stacked Chips, 1st ed. 2016
From Emerging Processes to Heterogeneous Systems

Language: English

52.74 €

In Print (Delivery period: 15 days).

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3D Stacked Chips
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Support: Print on demand

52.74 €

In Print (Delivery period: 15 days).

Add to cartAdd to cart
3D Stacked Chips
Publication date:
Support: Print on demand
This book explains for readers how 3D chip stacks promise to increase the level of on-chip integration, and to design new heterogeneous semiconductor devices that combine chips of different integration technologies (incl. sensors) in a single package of the smallest possible size.  The authors focus on heterogeneous 3D integration, addressing some of the most important challenges in this emerging technology, including contactless, optics-based, and carbon-nanotube-based 3D integration, as well as signal-integrity and thermal management issues in copper-based 3D integration. Coverage also includes the 3D heterogeneous integration of power sources, photonic devices, and non-volatile memories based on new materials systems.

Introduction to Electrical 3D Integration.- Copper-based TSV – Interposer.- Multi-TSV Crosstalk Channel Equalization with Non-Uniform Quantization.- Energy Efficient Electrical Intra-Chip Stack Communication.- Clock Generators for Heterogeneous MPSoCs within 3D Chip Stacks.- Energy Efficient Communications Employing 1-Bit Quantization at the Receiver.- 2-nm Laser Synthesized Si-Nanoparticles for Low Power Memory Applications.- Accurate Temperature Measurement for 3D Thermal Management.- EDA Environments for 3D Chip Stacks.- Integrating 3D Floorplanning and Optimization of Thermal Through-Silicon Vias.- Introduction to Optical Inter- and Intraconnects.- Optical Through-Silicon Vias.- Integrated Optical Devices for 3D Photonic Transceivers.- Cantilever Design for Tunable WDM Filters based on Silicon Microring Resonators.- Athermal photonic circuits for optical on-chip interconnects.- Integrated Circuits for 3D Photonic Transceivers.- Review of interdigitated back contacted full heterojunction solar cell (IBC-SHJ): a simulation approach.-

 Ibrahim (Abe) M. Elfadel has 15 years of industrial experience in the research, development and deployment of advanced computer-aided design (CAD) tools and methodologies for deep-submicron, high-performance digital designs. Most recently, he played a key role in the development and deployment of IBM’s next-generation layout verification tools for the ultra-deep submicron CMOS technology nodes. Dr. Elfadel is the recipient of six Invention Achievement Awards, an Outstanding Technical Achievement Award and a Research Division Award, all from IBM, for his contributions in the area of VLSI CAD.  He is currently serving as an Associate Editor for the IEEE Transactions on Computer-Aided Design for Integrated Circuits and Systems.

Gerhard Fettweis earned his Ph.D. under H. Meyr's supervision from RWTH Aachen in 1990. After one year at IBM Research in San Jose, CA he moved to TCSI Inc., Berkeley, CA. Since 1994 he is Vodafone Chair Professor at TU Dresden, Germany, with currently 20 companies from Asia/Europe/US sponsoring his research on wireless transmission and chip design. He coordinates 2 DFG centers at TU Dresden, cfAED and HAEC. Gerhard is IEEE Fellow, member of acatech, has an honorary doctorate from TU Tampere, and has received multiple awards. In Dresden he has spun-out ten start-ups, and setup funded projects of more than EUR 1/3 billion volume. He has helped organized IEEE conferences, most notably as TPC Chair of IEEE ICC 2009, IEEE TTM 2012, and Ge

neral Chair of VTC Spring 2013. He remains active within IEEE.

 

Provides single-source reference to the latest research in 3D optoelectronic integration: process, devices, and systems;

Explains the use of wireless 3D integration to improve 3D IC reliability and yield;

Describes techniques for monitoring and mitigating thermal behavior in 3D ICs;

Includes discussion of 3D integration of high-density power sources and novel NVM.

Includes supplementary material: sn.pub/extras