Global ETD Search

1901	Experimental characterization of heat transfer in nanostructured silicon-based materials / Caractérisation expérimentale du transfère thermique dans les matériaux nanostructurés à base de silicium Massoud, Mouhannad 20 June 2016 (has links) Ce mémoire de thèse aborde la caractérisation expérimentale du transfert thermique à l’échelle nanométrique dans des matériaux compatibles avec les procédés de la micro-électronique. Pour cela deux techniques de caractérisation sont appliquées chacune à deux différents systèmes, le silicium mésoporeux irradié et les membranes de silicium suspendues. La première technique de caractérisation est la thermométrie micro-Raman. La puissance du laser chauffe l'échantillon exposé. La détermination de la conductivité thermique nécessite la modélisation de la source de chaleur par la méthode des éléments finis. Dans les cas considérés la modélisation de la source de chaleur repose sur différents paramètres qui doivent être soigneusement déterminés. La seconde technique de caractérisation est la microscopie à sonde locale (d’acronyme anglais SThM), basée sur le principe de la microscopie à force atomique (d’acronyme anglais AFM). Utilisée en mode actif, la sonde AFM est remplacée par une sonde résistive de type Wollaston qui est chauffée par effet Joule. Utilisée en mode AFM contact, cette technique permet une excitation thermique locale du matériau étudié. La détermination de la conductivité thermique nécessite l'analyse de la réponse thermique de la sonde au moyen d'échantillons d'étalonnage et également via la modélisation dans le cas des géométries complexes. L'effet de la position de la pointe sur le transfert de chaleur entre la pointe et l'échantillon est étudié. Une nouvelle méthode de découplage entre le transfert de chaleur entre la pointe et l'échantillon, respectivement à travers l'air et au contact, est proposée pour la détermination de la conductivité thermique des géométries complexes. Les résultats obtenus avec les deux techniques pour les échantillons de silicium mésoporeux irradiés à l’aide d’ions lourds dans le régime électronique sont en bon accord. Ils montrent la dégradation de la conductivité thermique du silicium mésoporeux suite à une augmentation dans la phase d’amorphe lorsque la dose d’irradiation croît. Les résultats obtenus sur les membranes de silicium suspendues montrent une réduction de la conductivité thermique de plus de 50 % par rapport au silicium massif. Lorsque la membrane est perforée périodiquement afin de réaliser une structure phononique de période inférieure à 100 nm, cette réduction est approximativement d’un ordre de grandeur. Un chapitre introduisant un matériau prometteur à base de silicium pour observer des effets de cohérence phononique conclut le manuscrit. / This PhD thesis deals with the experimental characterization of heat transfer at the nanoscale in materials compatible with microelectronic processes. Two characterization techniques are applied to two different systems, irradiated mesoporous silicon and suspended silicon membranes. The first characterization technique is micro-Raman thermometry. The laser power heats up the exposed sample. The determination of the thermal conductivity requires the modeling of the heat source using finite element simulations. The modeling of the heat source relies on different parameters that should be carefully determined. The second characterization technique is Scanning Thermal Microscopy (SThM), an Atomic Force Microscopy (AFM)-based technique. Operated in its active mode, the AFM probe is replaced by a resistive Wollaston probe that is heated by Joule heating. Used in AFM contact mode, this technique allows a local thermal excitation of the studied material. The determination of the thermal conductivity requires the analysis of the thermal response of the probe using calibration samples and modeling when dealing with complicated geometries. The effect of the tip position on heat transfer between the tip and the sample is studied. A new method decoupling the heat transfer between the tip and the sample, at the contact and through air, is proposed for determining the thermal conductivity of complicated geometries. The results obtained from the two techniques on irradiated mesoporous silicon samples using heavy ions in the electronic regime are in good agreement. They show a degradation of the thermal conductivity of mesoporous silicon due to the increase in the amorphous phase while increasing the ion fluence. The results obtained on suspended silicon membrane strips show a decrease in the thermal conductivity of more than 50 % in comparison to bulk silicon. When perforated into a phononic structure of sub-100 nm period, the membrane thermal conductivity is about one order of magnitude lower than the bulk. A chapter introducing a promising silicon-based material for the evidence of phonon coherence concludes the manuscript. Nanothermomètrie Silicium mésoporeux Membrane suspensue Irradiation aux ions lourds Silicium amorphe Transfert thermique Conductivité thermique Microscopie à sonde thermique locale Thermométrie micro-Raman Régime électronique Phonon Membrane phonique Cohérence phonique Super-Réseau Nanothermometry Suspended membrane Heavy ion irradiation Amorphous Silicon Heat transfer Thermal conductivity Scanning Thermal Microscopy Micro-Raman thermometry Electronic regime Phononic membrane Phonon coherence Superlattice 620.193 072
1902	Betydelsefulla faktorer för ensamkommande barn : En kvalitativ studie om faktorer som påverkar ensamkommande flyktingbarns liv Aydogan, Ogaret January 2010 (has links) <p>The aim of this study is to examine which factors in the receiving-country that have had an influence on three now adult unaccompanied refugee children. The method used in the study is qualitative interviews with the three above-mentioned participants. The results show that some factors are perceived as helpful, having a positive influence on the participants life while other factors are perceived as worsening, having a negative influence on their life. Depending on the context some factors such as age, the Swedish language and housing arrangements have had both positive and negative influences on their life. Positive factors are among other things: access to good treatment and support, help with processing trauma and bad mental health, help with understanding coherence, access to a social network, family reunification, resilience and other internal factors. Negative factors are among other things: loneliness, feeling of powerlessness, mistakes made by public authority and “the long waiting” until they get a residence permit. The results correspond with previous research findings but have also originated new knowledge that can be added on the current field of research. The results have furthermore been analyzed with theories of risk and resilience, coping and sense of coherence.</p><p>Keywords: unaccompanied refugee children, unaccompanied children, asylum-seeking children /young adolts/adolecenses/minors, resilience, risk and protective factors, coping, sense of coherence (SOC)</p> unaccompanied refugee children unaccompanied refugee adolecenses unaccompanied refugee minors unaccompanied children unaccompanied adolecenses unaccompanied minors asylum-seeking children asylum-seeking adolecenses asylum-seeking minors resilience risk and protective factors risk and resilience coping sense of coherence SOC ensamkommande flyktingbarn ensamkommande barn asylsökande barn asylsökande ungdomar resilien motståndskraft risk och skyddsfaktorer risk och skydd bemästring känsla av sammanhang KASAM Social work Socialt arbete Children Barn
1903	Betydelsefulla faktorer för ensamkommande barn : En kvalitativ studie om faktorer som påverkar ensamkommande flyktingbarns liv Aydogan, Ogaret January 2010 (has links) The aim of this study is to examine which factors in the receiving-country that have had an influence on three now adult unaccompanied refugee children. The method used in the study is qualitative interviews with the three above-mentioned participants. The results show that some factors are perceived as helpful, having a positive influence on the participants life while other factors are perceived as worsening, having a negative influence on their life. Depending on the context some factors such as age, the Swedish language and housing arrangements have had both positive and negative influences on their life. Positive factors are among other things: access to good treatment and support, help with processing trauma and bad mental health, help with understanding coherence, access to a social network, family reunification, resilience and other internal factors. Negative factors are among other things: loneliness, feeling of powerlessness, mistakes made by public authority and “the long waiting” until they get a residence permit. The results correspond with previous research findings but have also originated new knowledge that can be added on the current field of research. The results have furthermore been analyzed with theories of risk and resilience, coping and sense of coherence. Keywords: unaccompanied refugee children, unaccompanied children, asylum-seeking children /young adolts/adolecenses/minors, resilience, risk and protective factors, coping, sense of coherence (SOC) unaccompanied refugee children unaccompanied refugee adolecenses unaccompanied refugee minors unaccompanied children unaccompanied adolecenses unaccompanied minors asylum-seeking children asylum-seeking adolecenses asylum-seeking minors resilience risk and protective factors risk and resilience coping sense of coherence SOC ensamkommande flyktingbarn ensamkommande barn asylsökande barn asylsökande ungdomar resilien motståndskraft risk och skyddsfaktorer risk och skydd bemästring känsla av sammanhang KASAM Social work Socialt arbete Children Barn
1904	Brain-computer interfaces for inducing brain plasticity and motor learning: implications for brain-injury rehabilitation Babalola, Karolyn Olatubosun 08 July 2011 (has links) The goal of this investigation was to explore the efficacy of implementing a rehabilitation robot controlled by a noninvasive brain-computer interface (BCI) to influence brain plasticity and facilitate motor learning. The motivation of this project stemmed from the need to address the population of stroke survivors who have few or no options for therapy. A stroke occurs every 40 seconds in the United States and it is the leading cause of long-term disability [1-3]. In a country where the elderly population is growing at an astounding rate, one in six persons above the age of 55 is at risk of having a stroke. Internationally, the rates of strokes and stroke-induced disabilities are comparable to those of the United States [1, 4-6]. Approximately half of all stroke survivors suffer from immediate unilateral paralysis or weakness, 30-60% of which never regain function [1, 6-9]. Many individuals who survive stroke will be forced to seek institutional care or long-term assistance. Clinicians have typically implemented stroke rehabilitative treatment using active training techniques such as constraint induced movement therapy (CIMT) and robotic therapy [10-12]. Such techniques restore motor activity by forcing the movement of weakened limbs. That active engagement of the weakened limb movement stimulates neural pathways and activates the motor cortex, thus inducing brain plasticity and motor learning. Several studies have demonstrated that active training does in fact have an effect on the way the brain restores itself and leads to faster rehabilitation [10, 13-15]. In addition, studies involving mental practice, another form of rehabilitation, have shown that mental imagery directly stimulates the brain, but is not effective unless implemented as a supplemental to active training [16, 17]. Only stroke survivors retaining residual motor ability are able to undergo active rehabilitative training; the current selection of therapies has overlooked the significant population of stroke survivors suffering from severe control loss or complete paralysis [6, 10]. A BCI is a system or device that detects minute changes in brain signals to facilitate communication or control. In this investigation, the BCI was implemented through an electroencephalograph (EEG) device. EEG devices detect electrical brain signals transmitted through the scalp that corresponded with imagined motor activity. Within the BCI, a linear transformation algorithm converted EEG spectral features into control commands for an upper-limb rehabilitative robot, thus implementing a closed-looped feedback-control training system. The concept of the BCI-robot system implemented in this investigation may provide an alternative to current therapies by demonstrating the results of bypassing motor activity using brain signals to facilitate robotic therapy. In this study, 24 able-bodied volunteers were divided into two study groups; one group trained to use sensorimotor rhythms (SMRs) (produced by imagining motor activity) to control the movement of a robot and the other group performed the 'guided-imagery' task of watching the robot move without control. This investigation looked for contrasts between the two groups that showed that the training involved with controlling the BCI-robot system had an effect on brain plasticity and motor learning. To analyze brain plasticity and motor learning, EEG data corresponding to imagined arm movement and motor learning were acquired before, during, and after training. Features extracted from the EEG data consisted of frequencies in the 5-35Hz range, which produced amplitude fluctuations that were measurably significant during reaching. Motor learning data consisted of arm displacement measures (error) produced during an motor adaptation task performed daily by all subjects. The results of the brain plasticity analysis showed persistent reductions in beta activity for subjects in the BCI group. The analysis also showed that subjects in the Non-BCI group had significant reductions in mu activity; however, these results were likely due to the fact that different EEG caps were used in each stage of the study. These results were promising but require further investigation. The motor learning data showed that the BCI group out-performed non-BCI group in all measures of motor learning. These findings were significant because this was the first time a BCI had been applied to a motor learning protocol and the findings suggested that BCI had an influence on the speed at which subjects adapted to a motor learning task. Additional findings suggested that BCI subjects who were in the 40 and over age group had greater decreases in error after the learning phase of motor assessment. These finding suggests that BCI could have positive long term effects on individuals who are more likely to suffer from a stroke and possibly could be beneficial for chronic stroke patients. In addition to exploring the effects of BCI training on brain plasticity and motor learning this investigation sought to detect whether the EEG features produced during guided-imagery could differentiate between reaching direction. While the analysis presented in this project produced classification accuracies no greater than ~77%, it formed the basis of future studies that would incorporate different pattern recognition techniques. The results of this study show the potential for developing new rehabilitation therapies and motor learning protocols that incorporate BCI. Guided-imagery Brain injury R2 Motor imagery EEG Stroke Motor learning Brain plasticity Mu Beta Robotic rehabilitation Rehabilitation Learning curves Rate of learning Beta coherence SMR Sensorimotor rhythms Closed-loop User interfaces (Computer systems) Brain-computer interfaces Human-robot interaction Robotics in medicine Cerebrovascular disease
1905	Spectral Simplification In Scalar And Dipolar Coupled Spins Using Multiple Quantum NMR : Developments Of Novel Methodologies Baishya, Bikash 05 1900 (has links) Spin selective MQ-SQ correlation has been demonstrated by either selective pulses in homo-nuclear spin systems in isotropic and weakly orienting chiral media or by nonselective pulses in hetero-nuclear spin systems in strongly aligned media. As a consequence of the spin selective correlation, the coherence transfer pathway from MQ to SQ is spin state selective. This two dimensional approach enables the utilization of the passive couplings (remote couplings) to break a complex one dimensional spectrum into many sub spectra. Each sub spectrum contains fewer transitions and hence fewer couplings (active couplings). The role of the passive couplings is to displace the sub spectra and measurement of the displacements taking into account their relative tilt provides the magnitude of the passive couplings along with relative signs. Further possibility of a spin state selective MQ-SQ resolved experiment to determine very small remote couplings otherwise buried within linewidth in one dimensional spectrum has been demonstrated. The resolution of the multiple quantum spectrum in indirect dimension has also been exploited to separate the sub spectra. The technique renders the analysis of complex spectrum in isotropic system much simpler. The potentialities of the technique have also been demonstrated for discrimination of optical enantiomers and derivation of the residual dipolar couplings from very complicated spectrum. The second order spectrum in strongly aligned media restrict selective excitation, however in hetero-nuclear spin system the nonselective pulses on protons do not interact with the hetero-nuclear spins. Thus the weakly coupled part of a strongly coupled spectrum has been exploited for simplifying the second order spectrum and thereby its analysis. Thus several methodologies derived from spin selective correlation has been demonstrated. Enantiopure spectrum has been recorded from a mixture of R and S enantiomers by a novel pulse scheme called Double Quantum Selective Refocusing Experiment. The dipolar coupled methyl protons in weakly orienting media are utilized. The selective excitation of double quantum coherence reduces the three spin system into a two spin system and remote couplings are refocused which otherwise leads to broadening. The sum of passive couplings being different for the enantiomers resolution in the DQ dimension is enhanced and thereby their discrimination. Finally several decoupling schemes has been compared in the indirect dimension of HSQC experiment to resolve 13C satellite spectra otherwise buried within line width for increased confidence in determining hetero-nuclear framework information. Spin (Physics) Nuclear Magnetic Resonance Quantum Nuclear Magnetic Resonance Spectral Simplification Nuclear Magnetic Resonance Spectroscopy Enantiomers - NMR Spectra Multiple Quantum Coherence Thermotropic Liquid Crystals 13C-1H HSQC Magnetism
1906	The Hair Bundle: Fluid-Structure Interaction in the Inner Ear Baumgart, Johannes 22 December 2010 (has links) (PDF) A multitude of processes cooperate to produce the sensation of sound. The key initial step, the transformation from mechanical motion into an electrical signal, takes place in highly specialized mechanosensitive organelles that are called hair bundles due to their characteristic appearance. Each hair bundle comprises many apposed cylindrical stereocilia that are located in a liquid-filled compartment of the inner ear. The viscous liquid surrounding the hair bundle dissipates energy and dampens oscillations, which poses a fundamental physical challenge to the high sensitivity and sharp frequency selectivity of hearing. To understand the structure-function relationship in this complex system, a realistic physical model of the hair bundle with an appropriate representation of the fluid-structure interactions is needed to identify the relevant physical effects. In this work a novel approach is introduced to analyze the mechanics of the fluid-structure interaction problem in the inner ear. Because the motions during normal mechanotransduction are much smaller than the geometrical scales, a unified linear system of equations describes with sufficient accuracy the behavior of the liquid and solid in terms of a displacement variable. The finite-element method is employed to solve this system of partial differential equations. Based on data from the hair bundle of the bullfrog's sacculus, a detailed model is constructed that resolves simultaneously the interaction with the surrounding liquid as well as the coupling liquid in the narrow gaps between the individual stereocilia. The experimental data are from high-resolution interferometric measurements at physiologically relevant amplitudes in the range from a fraction of a nanometer to several tens of nanometers and over a broad range of frequencies from one millihertz to hundred kilohertz. Different modes of motion are analyzed and their induced viscous drag is calculated. The investigation reveals that grouping stereocilia in a bundle dramatically reduces the total drag as compared to the sum of the drags on individual stereocilia moving in isolation. The stereocilia in a hair bundle are interconnected by oblique tip links that transmit the energy in a sound to the mechanotransduction channels and by horizontal top connectors that provide elastic coupling between adjacent stereocilia. During hair-bundle deflections, the tip links induce additional drag by causing small but very dissipative relative motions between stereocilia; this effect is offset by the horizontal top connectors that restrain such relative movements, assuring that the hair bundle moves as a unit and keeping the total drag low. In the model the stiffness of the links, the stiffness of the stereocilia, and the geometry are carefully adjusted to match experimental observations. The references are stiffness and drag measurements, as well as the coherence measurements for the bundle's opposite edges, both with and without the tip links. The results are further validated by a comparison with the relative motions measured in a sinusoidally stimulated bundle for the distortion frequencies at which movements are induced by the nonlinearity imposed by channel gating. The model of the fluid-structure interactions described here provides insight into the key step in the perception of sound and the method presented provides an efficient and reliable approach to fluid-structure interaction problems at small amplitudes. / Bei der Hörwahrnehmung eines Klangs spielen viele komplexe Prozesse zusammen. Der Schlüsselprozess, die Umwandlung mechanischer Schwingungsbewegung in elektrische Signale, findet in den Haarbündeln im Innenohr statt. Diese Haarbündel sind hoch entwickelte mechanosensitive Organellen, bestehend aus vielen nahe beieinander stehenden Stereozilien umgeben von Flüssigkeit. Die beträchtliche Viskosität dieser Flüssigkeit führt zur Energiedissipation und zur Schwingungsdämpfung, was im Gegensatz zur bekannten hohen Empfindlichkeit und der ausgezeichneten Frequenzselektivität der Hörwahrnehmung steht. Um die Komponenten des Haarbündelsystems in ihrem funktionalen Zusammenspiel besser zu verstehen, bedarf es eines wirklichkeitsgetreuen Modells unter Einbeziehung der Wechselwirkung zwischen Flüssigkeit und Struktur. Mit dieser Arbeit wird ein neuer Ansatz vorgestellt, um die Mechanik der Fluid-Struktur-Wechselwirkung im Innenohr zu analysieren. Da die Bewegungen bei der normalen Mechanotransduktion wesentlich kleiner als die geometrischen Abmessungen sind, ist es möglich, das Verhalten von Fluid und Struktur in Form der Verschiebungsvariable in einem linearen einheitlichen System von Gleichungen ausreichend genau zu beschreiben. Dieses System von partiellen Differentialgleichungen wird mit der Finite-Elemente-Methode gelöst. Basierend auf experimentell ermittelten Daten vom Haarbündel des Ochsenfrosches wird ein detailliertes Modell erstellt, welches sowohl die Interaktion mit der umgebenden Flüssigkeit als auch die koppelnde Flüssigkeit in den engen Spalten zwischen den einzelnen Stereozilien erfasst. Die experimentellen Daten sind Ergebnisse von hochauflösenden interferometrischen Messungen bei physiologisch relevanten Bewegungsamplituden im Bereich von unter einem Nanometer bis zu mehreren Dutzend Nanometern, sowie über einen breiten Frequenzbereich von einem Millihertz bis hundert Kilohertz. Das Modell erlaubt die Berechnung der auftretenden viskosen Widerstände aus der numerischen Analyse der verschiedenen beobachteten Bewegungsmoden. Es kann gezeigt werden, dass durch die Gruppierung zu einem Bündel der Gesamtwiderstand drastisch reduziert ist, im Vergleich zur Summe der Widerstände einzelner Stereozilien, die sich individuell und unabhängig voneinander bewegen. Die einzelnen Stereozilien in einem Haarbündel sind durch elastische Strukturen mechanisch miteinander verbunden: Die Energie des Schalls wird durch schräg angeordnete sogenannte Tiplinks auf die mechanotransduktiven Kanäle übertragen, wohingegen horizontale Querverbindungen die Stereozilien direkt koppeln. Während der Haarbündelauslenkung verursachen die Tiplinks zusätzlichen Widerstand durch stark dissipative Relativbewegungen zwischen den Stereozilien. Die horizontalen Querverbindungen unterdrücken diese Bewegungen und sind dafür verantwortlich, dass sich das Haarbündel als Einheit bewegt und der Gesamtwiderstand gering bleibt. Die Steifigkeit der Stereozilien und der Verbindungselemente sowie deren Geometrie sind in dem Modell sorgfältig angepasst, um eine Übereinstimmung mit den Beobachtungen aus verschiedenen Experimenten zu erzielen. Als Referenz dienen Steifigkeits- und Widerstandsmessungen, sowie Kohärenzmessungen für die gegenüberliegenden Außenkanten des Bündels, die jeweils mit und ohne Tiplinks durchgeführt wurden. Darüberhinaus sind die Ergebnisse durch den Vergleich mit experimentell beobachteten Relativbewegungen validiert, die das Haarbündel infolge von sinusförmiger Anregung bei Distorsionsfrequenzen zeigt. Diese haben ihren Ursprung in dem nichtlinearen Prozess des öffnens von Ionenkanälen. Das entwickelte Modell eines Haarbündels liefert neue Einblicke in den Schlüsselprozess der auditiven Wahrnehmung. Zur Behandlung von Problemen der Fluid-Struktur-Wechselwirkungen bei kleinen Amplituden hat sich der hier ausgearbeitete Ansatz als effizient und zuverlässig erwiesen. Gehörforschung Haarbündel Innenohr Finite-Elemente-Methode Druck-Verschiebung-Formulierung Navier-Stokes Zylinderwiderstand Kohärenz Hearing research Hair bundle Inner ear Finite-element method Pressure-displacement formulation Navier-Stokes Cylinder drag Coherence ddc:531 ddc:570 ddc:610 rvk:WW 1660 Fluid-Struktur-Wechselwirkung Numerische Strömungssimulation Ohr Labyrinth <Anatomie> Finite-Elemente-Methode Kohärenz
1907	Marcas cohesivas y construcción del sentido: análisis y comparación de estrategias traductoras Cunillera Domènech, Montserrat 14 June 2002 (has links) Aquesta tesi és un estudi descriptiu que s'inscriu en un doble àmbit d'anàlisi, discursiu i traductològic. Es proposa un doble objectiu: per una banda, analitzar un conjunt de marques de cohesió franceses en dos tipos de textos diferents (un text polític i un text literari) per tal de mostrar la pertinència d'aquests elements lingüístics en la construcció del sentit; i per altra banda, descriure i comparar les principals estratègies traductores utilitzades en les traduccions castellanes del corpus per recuperar les esmentades marques de cohesió i veure quines en són les conseqüències en el nivell micro i macrotextual.Les marques de cohesió seleccionades per a l'anàlisi són les repeticions, les anàfores pronominals, l'ordre intrafràstic i interfràstic, les elipsis, algunes formes de creativitat lèxica, la puntuació, la unitat et i una sèrie de connectors argumentatius. / This doctoral thesis is a descriptive study which falls into the general framework of discourse and translational analysis. The study has two main aims: on the one hand, it firstly analyses the role of some French cohesive devices in two different types of texts (a political text and a literary one) in order to show how relevant they are to the construction of meaning. On the other hand, the study describes and compares the main translational strategies used in the Spanish target texts to translate these linguistic devices. Moreover, the analysis shows the consequences of these translational strategies both on the microstructure and the macrostructure of the target texts. The cohesive devices we have chosen to analyse include repetitions, pronominal anaphors, order into the sentences, ellipsis, lexical creativity, punctuation, the French conjunction "et" and some discourse markers. cohesion omission punctuation the French conjunction "et" ellipsis "Théorie de l'Argumentation" discourse analysis anàlisi del discurs discourse markers cohesió coherència Teoria de l'Argumentació repeticions anàfores ordre intrafràstic i interfràstic el.lipsis modification creativitat lèxica traducció order into the sentences coherence lexical creativity anaphora repetition translation explicitation 81
1908	Projeto e implementa??o de uma plataforma MP-SoC usando SystemC Rego, Rodrigo Soares de Lima S? 19 May 2006 (has links) Made available in DSpace on 2014-12-17T15:47:57Z (GMT). No. of bitstreams: 1 RodrigoSLSR.pdf: 1278461 bytes, checksum: ac21fe12bc1ce120cf688ba59e4bf754 (MD5) Previous issue date: 2006-05-19 / This work presents the concept, design and implementation of a MP-SoC platform, named STORM (MP-SoC DirecTory-Based PlatfORM). Currently the platform is composed of the following modules: SPARC V8 processor, GPOP processor, Cache module, Memory module, Directory module and two different modles of Network-on-Chip, NoCX4 and Obese Tree. All modules were implemented using SystemC, simulated and validated, individually or in group. The modules description is presented in details. For programming the platform in C it was implemented a SPARC assembler, fully compatible with gcc s generated assembly code. For the parallel programming it was implemented a library for mutex managing, using the due assembler s support. A total of 10 simulations of increasing complexity are presented for the validation of the presented concepts. The simulations include real parallel applications, such as matrix multiplication, Mergesort, KMP, Motion Estimation and DCT 2D / Este trabalho apresenta o conceito, desenvolvimento e implementa??o de uma plataforma MP-SoC, batizada STORM (MP-SoC DirecTory-Based PlatfORM). A plataforma atualmente ? composta pelos seguintes m?dulos: processador SPARC V8, processador GPOP, m?dulo de Cache, m?dulo de Mem?ria, m?dulo de Diret?rio e dois diferentes modelos de Network-on-Chip, a NoCX4 e a ?rvore Obesa. Todos os m?dulos foram implementados usando a linguagem SystemC, simulados e validados, tanto separadamente quanto em conjunto. A descri??o dos m?dulos ? apresentada em detalhes. Para a programa??o da plataforma usando C foi implementado um montador SPARC, totalmente compat?vel com o c?digo assembly gerado pelo compilador gcc. Para a programa??o concorrente foi implementada uma biblioteca de fun??es para gerenciamento de mutexes, com o devido suporte por parte do montador. S?o apresentadas 10 simula??es do sistema, de complexidade crescente, para valida??o de todos os conceitos apresentados. As simula??es incluem aplica??es paralelas reais, como a multiplica??o de matrizes, Mergesort, KMP, Estima??o de Movimento e DCT 2D System-on-Chip Network-on-Chip Projeto baseado em plataforma Coer?ncia de cache Diret?rio SPARC ?rvore obesa Processamento paralelo System-on-Chip Network-on-Chip Platform-based design Cache coherence Directory SPARC Obese tree Parallel processing
1909	Peut-on donner d’une clause et reprendre de l’autre? Essai sur la cause comme instrument de contrôle de la cohérence matérielle du contrat Berthold, Gabriel-Arnaud 03 1900 (has links) No description available. contrat synallagmatique cause immunisation contractuelle cohérence matérielle clauses « contracticides » nullité partielle clauses réputées non-écrites synallagmatic contract cause immunization by contract material coherence « contract-killing » provisions exclusion and limitation of obligations exclusion and limitation of liability partial nullity provisions deemed unwritten
1910	The interdependence hypothesis: exploring the effects on English writing following an expository writing course in Zulu Rodseth, Wendy Sue 31 January 2005 (has links) This study explores Cummins' interdependence hypothesis in the South African context. The design is experimental, involving Zulu primary language writing instruction to explore whether skills taught in Zulu composition classes transfer into English expository writing. The intervention and control groups were drawn from two ex-Model C high schools and the focus was on measuring use of coherence and cohesion in English essays. Quantitative findings showed, although the intervention group's writing skills did not improve significantly, they did not decline. By contrast, the control group's writing skills declined significantly. A more qualitative investigation of the corpus supports the statistical findings. However, because of the limitations of this study, more research is required into Cummins' hypothesis, bilingual programmes and teaching academic writing skills in African languages. It is hoped that this research design will benefit future researchers investigate the current debate about the efficacy of bilingual and multilingual approaches to education. / Linguistics and Modern Languages / M. A. (Applied Linguistics) Home Language Project Bilingualism and Multilingualism Cohesion Coherence Expository writing Interdependence hypothesis Transference of writing skills 808.0666 Technical writing -- Research

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