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Neurochirurgie --- Direct electrical stimulation --- Hersenonderzoek --- Logopedie
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As technology scales into nano-meter region, design and test of Static Random Access Memories (SRAMs) becomes a highly complex task. Process disturbances and various defect mechanisms contribute to the increasing number of unstable SRAM cells with parametric sensitivity. Growing sizes of SRAM arrays increase the likelihood of cells with marginal stability and pose strict constraints on transistor parameters distributions. Standard functional tests often fail to detect unstable SRAM cells. Undetected unstable cells deteriorate quality and reliability of the product as such cells may fail to retain the data and cause a system failure. Special design and test measures have to be taken to identify cells with marginal stability. However, it is not sufficient to identify the unstable cells. To ensure reliable system operation, unstable cells have to be repaired. CMOS SRAM Circuit Design and Parametric Test in Nano-Scaled Technologies covers a broad range of topics related to SRAM design and test. From SRAM operation basics through cell electrical and physical design to process-aware and economical approach to SRAM testing. The emphasis of the book is on challenges and solutions of stability testing as well as on development of understanding of the link between the process technology and SRAM circuit design in modern nano-scaled technologies.
Molecular biology --- Electrical engineering --- hersenonderzoek --- elektrische circuits --- moleculaire biologie
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How to develop innovative architectures based on emerging molecular devices? The simple yet ambitious objective of Molecular Electronics Materials, Devices and Applications is to give the reader the necessary information to understand the challenges and opportunities of this recent field of research. In order to provide a good overview and understanding, the main molecular devices are first presented. A complete set of presentation and discussion of the actual molecular architectures follows. Nevertheless, another goal of Molecular Electronics Materials, Devices and Applications is also to promote a practical approach. As a starting point for future developments, a pragmatic methodology for VHDL-AMS device modelling and circuit design based on experimental data is then proposed. It includes an original fault tolerant memory architecture based on molecular electronics. Academics, researchers, students, and random people looking for an exhaustive state of the art in nanotechnologies will find in Molecular Electronics Materials, Devices and Applications, accessible to most readers interested in sciences, the more complete reference on molecular electronics covering technologies, devices and architectures.
Molecular biology --- Electronics --- Electrical engineering --- nanotechniek --- hersenonderzoek --- elektronica --- moleculaire biologie
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Conventional on-chip communication design mostly use ad-hoc approaches that fail to meet the challenges posed by the next-generation MultiCore Systems on-chip (MCSoC) designs. These major challenges include wiring delay, predictability, diverse interconnection architectures, and power dissipation. A Network-on-Chip (NoC) paradigm is emerging as the solution for the problems of interconnecting dozens of cores into a single system on-chip. However, there are many problems associated with the design of such systems. These problems arise from non-scalable global wire delays, failure to achieve global synchronization, and difficulties associated with non-scalable bus-based functional interconnects. The book consists of three parts, with each part being subdivided into four chapters. The first part deals with design and methodology issues. The architectures used in conventional methods of MCSoCs design and custom multiprocessor architectures are not flexible enough to meet the requirements of different application domains and not scalable enough to meet different computation needs and different complexities of various applications. Several chapters of the first part will emphasize on the design techniques and methodologies. The second part covers the most critical part of MCSoCs design the interconnections. One approach to addressing the design methodologies is to adopt the so-called reusability feature to boost design productivity. In the past years, the primitive design units evolved from transistors to gates, finite state machines, and processor cores. The network-on-chip paradigm offers this attractive property for the future and will be able to close the productivity gap. The last part of this book delves into MCSoCs validations and optimizations. A more qualitative approach of system validation is based on the use of formal techniques for hardware design. The main advantage of formal methods is the possibility to prove the validity of essential design requirements. As formal languages have a mathematical foundation, it is possible to formally extract and verify these desired properties of the complete abstract state space. Online testing techniques for identifying faults that can lead to system failure are also surveyed. Emphasis is given to analytical redundancy-based techniques that have been developed for fault detection and isolation in the automatic control area.
Molecular biology --- Computer. Automation --- computers --- hersenonderzoek --- moleculaire biologie
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Molecular biology --- Electrical engineering --- hersenonderzoek --- elektrische circuits --- moleculaire biologie
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Molecular biology --- Electronics --- Electrical engineering --- nanotechniek --- hersenonderzoek --- elektronica --- moleculaire biologie
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Neuropathology --- hersenverlamming --- hersenen --- revalidatie --- stroke --- hersendood --- hersenletsel --- hersenonderzoek
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Conventional on-chip communication design mostly use ad-hoc approaches that fail to meet the challenges posed by the next-generation MultiCore Systems on-chip (MCSoC) designs. These major challenges include wiring delay, predictability, diverse interconnection architectures, and power dissipation. A Network-on-Chip (NoC) paradigm is emerging as the solution for the problems of interconnecting dozens of cores into a single system on-chip. However, there are many problems associated with the design of such systems. These problems arise from non-scalable global wire delays, failure to achieve global synchronization, and difficulties associated with non-scalable bus-based functional interconnects. The book consists of three parts, with each part being subdivided into four chapters. The first part deals with design and methodology issues. The architectures used in conventional methods of MCSoCs design and custom multiprocessor architectures are not flexible enough to meet the requirements of different application domains and not scalable enough to meet different computation needs and different complexities of various applications. Several chapters of the first part will emphasize on the design techniques and methodologies. The second part covers the most critical part of MCSoCs design — the interconnections. One approach to addressing the design methodologies is to adopt the so-called reusability feature to boost design productivity. In the past years, the primitive design units evolved from transistors to gates, finite state machines, and processor cores. The network-on-chip paradigm offers this attractive property for the future and will be able to close the productivity gap. The last part of this book delves into MCSoCs validations and optimizations. A more qualitative approach of system validation is based on the use of formal techniques for hardware design. The main advantage of formal methods is the possibility to prove the validity of essential design requirements. As formal languages have a mathematical foundation, it is possible to formally extract and verify these desired properties of the complete abstract state space. Online testing techniques for identifying faults that can lead to system failure are also surveyed. Emphasis is given to analytical redundancy-based techniques that have been developed for fault detection and isolation in the automatic control area.
Molecular biology --- Computer. Automation --- computers --- hersenonderzoek --- moleculaire biologie
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Psychology --- psychologie --- sociale wetenschappen --- cognitieve psychologie --- denken --- hersenonderzoek
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pr. titel: The emerging mind
bewustzijn --- Neuropathology --- neurologie --- hersenen --- Bewustzijn --- Neuropsychologie --- Hersenen --- Hersenonderzoek --- #gsdbP --- psychologie --- 159.9 --- Psychologie --- neuropsychologie
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