Catalogue Search | MBRL
Are you sure you want to remove the book from the shelf?
{{itemTitle}}
180
result(s) for
"Microelectronics History."
Sort by:
Driving Semiconductor Innovation: Moore’s Law at Fairchild and Intel
Gordon Moore designed Moore’s Law as a multifunctional tool to drive process and product innovation, sell Fairchild’s and Intel’s microchips, and outcompete other semiconductor firms. Because Intel’s ability to stay on Moore’s Law depended upon other corporations developing materials and manufacturing equipment for exponential scaling, Moore and his closest associates heavily promoted Moore’s Law in the microelectronics community. They also established the national and international technology roadmaps for semiconductors in order to set the direction and cadence of innovation in microelectronics at the national and, later, global scales. Moore’s and his successors’ relentless pursuit of Moore’s Law and their deft management of the roadmaps significantly reinforced Intel’s competitiveness and helped it to dominate semiconductor technology and industry until the mid-2010s.
Journal Article
Chip war : the fight for the world's most critical technology
\"An epic account of the decades-long battle to control what has emerged as the world's most critical resource--microchip technology--with the United States and China increasingly in conflict. You may be surprised to learn that microchips are the new oil--the scarce resource on which the modern world depends. Today, military, economic, and geopolitical power are built on a foundation of computer chips. Virtually everything--from missiles to microwaves, smartphones to the stock market--runs on chips. Until recently, America designed and built the fastest chips and maintained its lead as the #1 superpower. Now, America's edge is slipping, undermined by competitors in Taiwan, Korea, Europe, and, above all, China. Today, as Chip War reveals, China, which spends more money each year importing chips than it spends importing oil, is pouring billions into a chip-building initiative to catch up to the US. At stake is America's military superiority and economic prosperity. Economic historian Chris Miller explains how the semiconductor came to play a critical role in modern life and how the U.S. become dominant in chip design and manufacturing and applied this technology to military systems. America's victory in the Cold War and its global military dominance stems from its ability to harness computing power more effectively than any other power. But here, too, China is catching up, with its chip-building ambitions and military modernization going hand in hand. America has let key components of the chip-building process slip out of its grasp, contributing not only to a worldwide chip shortage but also a new Cold War with a superpower adversary that is desperate to bridge the gap. Illuminating, timely, and fascinating, Chip War shows that, to make sense of the current state of politics, economics, and technology, we must first understand the vital role played by chips\"--Amazon.
Book
Social science – STEM collaborations in agriculture, food and beyond: an STSFAN manifesto
Interdisciplinary research needs innovation. As an action-oriented intervention, this Manifesto begins from the authors’ experiences as social scientists working within interdisciplinary science and technology collaborations in agriculture and food. We draw from these experiences to: 1) explain what social scientists contribute to interdisciplinary agri-food tech collaborations; (2) describe barriers to substantive and meaningful collaboration; and (3) propose ways to overcome these barriers. We encourage funding bodies to develop mechanisms that ensure funded projects respect the integrity of social science expertise and incorporate its insights. We also call for the integration of social scientific questions and methods in interdisciplinary projects
from the outset
, and for a genuine curiosity on the part of STEM and social science researchers alike about the knowledge and skills each of us has to offer. We contend that cultivating such integration and curiosity within interdisciplinary collaborations will make them more enriching for all researchers involved, and more likely to generate socially beneficial outcomes.
Journal Article
Affine Projection Algorithms with Novel Schemes of Variable Projection Order
The projection order of the affine projection algorithm (APA) affects not only the convergence performance but also the steady-state behavior. Therefore, for solving the fixed projection order of the conventional APA, we develop a new scheme of variable projection order (VPO) that enables the evolution from the maximum projection order to the minimum one by resorting to the adaptation of the mixing factor, thereby yielding a novel APA with VPO. Moreover, for dealing with sparse systems with fast convergence, we extend the proposed VPO scheme to proportionate APA and develop a VPO-based memory proportionate APA. Simulation results in the scenarios of system identification and acoustic echo cancellation have shown that the proposed algorithms have a faster convergence rate and lower steady-state error as compared to their original counterparts and the existing VPO algorithms.
Journal Article
History-Dependent Impact Ionization Theory Applied to HgCdTe e-APDs
The variation of the gain and the excess noise factor in HgCdTe avalanche photodiodes (APDs) with different junction geometries are compared with published theoretical and numerical work. It is shown that, although some features of the gain curves are reproduced, such as the constant exponential increase in the gain, the theoretical work fails to predict the observed variation of the gain as a function of multiplication layer width. In contrast, a new analytical gain model based on local impact ionization coefficients and a first direct comparison of the prediction of history-dependent impact ionization theory are shown to give a good general fit to the experimental gain data. A generic model of the gain in HgCdTe APDs has been obtained by fitting the analytical local model to gain curves of APDs with various geometries and cut-off wavelengths. The study of different hypotheses on the electric field dependence of the dead-space length and the saturation value of the impact ionization coefficient has shown that a variable dead-space effect has a direct impact on the excess noise of APDs, which is why exact excess noise measurements are necessary to achieve a pertinent estimation of the nonlocal impact ionization function.
Journal Article
An Abstract Thing We Call “Intellectual Atmosphere”: Science, Urban Development, and Business/Government Relations in Dallas, 1956–1969
This article explores the efforts of Dallas businessmen, especially the leadership of Texas Instruments (TI), to build a science and research sector to facilitate new types of capital accumulation for Dallas and North Texas in the 1960s. The creation of the Graduate Center of the Southwest (GRCSW), and its subsequent transformation into the public University of Texas at Dallas in 1969, offers new perspectives on science and research, urban growth strategies, and the relationship between business and government in the postwar Sunbelt. TI leaders envisioned the center as a way to become more competitive in the microelectronics industry and also to direct urban growth and, ultimately, create a city and region that better reflected the private, growth-oriented interests of the Dallas business community. However, when the center began to falter economically in the mid-1960s, TI leaders sought out the state to take it over and transform it into a science and technology graduate school branch of the University of Texas system (UT). The exchange, although mutually beneficial, demonstrates how powerful businesses coopted the resources of the state to further their own ends.
Journal Article
ESD Basics
Electrostatic discharge (ESD) continues to impact semiconductor manufacturing, semiconductor components and systems, as technologies scale from micro- to nano electronics.This book introduces the fundamentals of ESD, electrical overstress (EOS), electromagnetic interference (EMI), electromagnetic compatibility (EMC), and latchup, as well as.
eBook
The Problem of Sustaining a Successful Enterprise: Kodak’s Multiple Takes at Strategic Renewal that Culminated in Failure
In 1888, George Eastman introduced Kodak, one of the first affordable, user-friendly photographic film cameras. The camera’s success planted seeds for a global market for amateur photography that the Eastman Kodak Company would dominate for over a century. Leveraging substantial profits from photographic film, Kodak invested heavily in research and development, continuously innovating in amateur photography and pioneering new technological domains. From the 1970s onward, as growth in its core business began to slow and new imaging technologies emerged, Kodak embarked on significant strategic renewal initiatives. These efforts included diversifying into industries such as plain paper copiers and pharmaceuticals and developing digital products for photography applications. Despite considerable investments in innovation and growing new businesses over several decades, Kodak ultimately failed to find a viable path to sustaining its success; it filed for bankruptcy in 2012. The company’s decline illustrates the inherent challenges of sustaining a successful enterprise in evolving markets and technologies. Furthermore, it raises critical questions about the effectiveness of strategic renewal efforts, particularly when high-performance expectations are set within an environment of significant uncertainty.
Journal Article
Art Painting Diagnostic Before Restoration with Terahertz and Millimeter Waves
Art painting diagnostic is commonly performed using electromagnetic waves at wavelengths from terahertz to X-ray. These former techniques are essential in conservation and art history research, but they could be also very useful for restoring artwork. While most studies use time domain imaging technique, in this study, a painting has been investigated using both time domain imaging (TDI) and frequency-modulated continuous wave (FMCW) system in the millimeter frequency range. By applying these systems to a painting of the eighteenth century, we detect and analyze the structure of some defects. This study underlines the differences between FMCW and TDI. We present the advantages and disadvantages of each technique on a real artwork.
Journal Article