Radical technological changes (so-called "technology shocks") frequently disrupt the competitive market structure. New entrants appear, industries need to be redefined, incumbents lose their positions or vanish completely. Fast moving industries - like the often quoted example of the semiconductor industry - have preferably been analyzed for these phenomena. But do the findings hold for industries with longer development cycles like the global machine tool industry? Here, multivariate analysis is used to find out what management needs to focus on in order to lead companies through the technology shocks. The research for this book builds on in-depth interviews with 100 experts and decision makers from the machine tool industry involved in technology shocks and statistical analysis of detailed quantitative surveys collected from 58 companies. In several instances the results challenge classical teaching of technology management. Adrian J. Slywotzky - US top selling business author and one of the most distinguished intellectual leaders in business - comments: "In Technology Shocks, Heinrich Arnold develops a very useful model for analyzing technology shocks, and for focusing on those factors that will enable a company to navigate through these shocks successfully, and repeatedly. Although this work is focused on technology, its thinking has useful implications beyond technology shocks. It provides ideas that managers can use to protect their firms when they are faced with any type of discontinuity, technology-based or not".
After a brief introduction to low-power VLSI design, the design space of ASIP instruction set architectures (ISAs) is introduced with a special focus on important features for digital signal processing. Based on the degrees of freedom offered by this design space, a consistent ASIP design flow is proposed: this design flow starts with a given application and uses incremental optimization of the ASIP hardware, of ASIP coprocessors and of the ASIP software by using a top-down approach and by applying application-specific modifications on all levels of design hierarchy. A broad range of real-world signal processing applications serves as vehicle to illustrate each design decision and provides a hands-on approach to ASIP design. Finally, two complete case studies demonstrate the feasibility and the efficiency of the proposed methodology and quantitatively evaluate the benefits of ASIPs in an industrial context.
Halbleiter-Leistungsbauelemente sind das Kernstück der Leistungselektronik. Sie bestimmen die Leistungsfähigkeit und machen neuartige und verlustarme Schaltungen erst möglich. In dem Band wird neben den Halbleiter-Leistungsbauelementen selbst auch die Aufbau- und Verbindungstechnik behandelt: von den physikalischen Grundlagen und der Herstellungstechnologie über einzelne Bauelemente bis zu thermomechanischen Problemen, Zerstörungsmechanismen und Störungseffekten. Die 2., überarbeitete Auflage berücksichtigt technische Neuerungen und Entwicklungen.
Increasing complexity of modern embedded systems demands system designers to ramp up their design productivity without compromising performance goals. This is promoted by modern Electronic System Level (ESL) techniques. Language-driven Exploration and Implementation of Partially Re-configurable ASIPs addresses an important segment of the ESL area by modeling partially re-configurable processors via high-level Architecture Description Language (ADL). This approach also hints an imminent evolution in the area of re-configurable system design.
This monograph contains a survey on the role of chirality in ecotoxicological processes. The focus is on environmental trace analysis. Areas such as toxicology, ecotoxicology, synthetic chemistry, biology, and physics are also covered in detail in order to explain the different properties of enantiomers in environmental samples. This monograph delivers a comprehensive survey for environmental trace analysts, analytical chemists, ecotoxicologists, food scientists and experienced lab workers.
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