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71	A Generic Synthesizable HDL Platform for Network on Chip(GSHNoC) Agrawal, Natwar 03 August 2011 (has links) No description available. Computer Engineering NoC HDL Platform NoC Experimental Platform GSHNoC Network on Chip Platform Mulitore Architecture HDL Platform Natwar Agrawal
72	Run-time scalable NoC for virtualized FPGA based accelerators as cloud services / NoC évolutif à l'exécution pour les accélérateurs basés sur FPGA virtualisés en tant que services cloud Kidane, Hiliwi Leake 05 November 2018 (has links) Ces dernières années, les fournisseurs de cloud et les centres de données ont intégrés les FPGA dans leur environnement à des fins d'accélération. Cela est dû au fait que les accélérateurs à base de FPGA sont connus pour leur faible puissance et leurs bonnes performances par watt. En outre, l'introduction de la capacité de reconfiguration partielle dynamique (DPR) de certains FPGA incite les chercheurs de l'industrie et des universitaires à proposer des services de cloud FPGA virtualisés baser sur DPR. Dans la plupart des travaux existants, l'interconnexion entre les vFPGA repose soit sur les réseaux BUS ou OpenFlow. Cependant le bus et OpenFlow ne sont pas des solutions optimales pour la virtualisation.Dans cette thèse, nous avons proposé un NoC évolutif à l'exécution pour les accélérateurs basés sur FPGA virtualisés dans un cloud computing. Les composants NoC s'adapteront dynamiquement aux nombres d'accélérateurs virtualisés actifs en ajoutant et en supprimant des sous-noC. Pour minimiser la complexité de la conception de l'architecture NoC à un niveau inférieur (implémentation HDL), nous avons proposé un langage de modélisation unifié de haut niveau (UML) basé sur une ingénierie dirigée par les modèles. Une approche basée sur UML / MARTE et IP-XACT est utilisée pour définir les composants de la topologie NoC de haut niveau et générer les fichiers HDL requis. Les résultats des expériences montrent que le NoC évolutif à l'exécution peut réduire la consommation d'énergie de 17%. La caractérisation NoC sur la modélisation de haut niveau basée sur MDE réduit également le temps de conception de 25%. / In the last few years, cloud providers and data centers have been integrating FPGAs in their environment for acceleration purpose. This is due to the fact that FPGA based accelerator are known for their lower power and good performance per watt. Moreover, the introduction of the ability for dynamic partial reconfiguration (DPR) of some FPGAs trigger researchers in both industry and academics to propose DPR based virtualized FPGA (vFPGA) cloud services. In most of the existing works, the interconnection between the vFPGAs relies either on BUS or OpenFlow networks. However, both the bus and OpenFlow are not virtualization-aware and optimal solutions. In this thesis, we have proposed a virtualization-aware dynamically scalable NoC for virtualized FPGA accelerators in cloud computing. The NoC components will adapt to the number of active virtualized accelerator dynamically by adding and removing sub-NoCs. To minimize the complexity of NoC architecture design at a low level (HDL implementation), we have proposed a Model-Driven Engineering (MDE) based high-level unified modeling language (UML). A UML/MARTE and IP-XACT based approach are used to define the NoC Topology components at a high-level and generate the required HDL files. Experiment results show that the dynamically scalable NoC can reduce the power consumption by 17%. The MDE based high-level modeling based NoC characterization also reduce the design time by 25%. Réseau sur puce (NoC) FPGA virtualisé L'informatique en nuage La reconfiguration dynamique Network-On-Chip (NoC) Virtualized-FPGA Cloud computing Dynamic partial reconfiguration 004.5 004.6
73	Ocin_tsim - A DVFS Aware Simulator for NoC Design Space Exploration and Optimization Prabhu, Subodh 2010 May 1900 (has links) Networks-on-Chip (NoCs) are a general purpose, scalable replacement for shared medium wired interconnects offering many practical applications in industry. Dynamic Voltage Frequency Scaling (DVFS) is a technique whereby a chip?s voltage-frequency levels are varied at run time, often used to conserve dynamic power. Various DVFSbased NoC optimization techniques have been proposed. However, due to the resources required to validate architectural decisions through prototyping, few are implemented. As a result, designers are faced with a lack of insight into potential power savings or performance gains at early architecture stages. This thesis proposes a DVFS aware NoC simulator with support for per node power-frequency modeling to allow fine-tuning of such optimization techniques early on in the design cycle. The proposed simulator also provides a framework for benchmarking various candidate strategies to allow selective prototyping and optimization. As part of the research, DVFS extensions were built for an existing NoC performance simulator and released for public use. This thesis presents some of the preliminary results from our simulator that show the average power consumed per node for all the benchmarks in SPLASH 2 benchmark suite [74] to be quite similar to each other. This thesis also serves as a technical manual for the simulator extensions. Important links for downloading and using the simulator are provided at the end of this document in Appendix C. NoC DVFS Network on Chip Dynamic Voltage Frequency Scaling NoC Simulator Power Modeling Performance Simulator Ocin_tsim OCTS
74	Využití NIC a NOC klasifikací u pacientů s totální endoprotézou kyčelního kloubu. / Usage of NIC and NOC clasifications on patients with complete artificial hip joint. KULHÁNKOVÁ, Barbora January 2016 (has links) Abstract The theoretical part of the thesis entitled The Use of NIC and NOC Classifications at Patients with the Total Hip Arthroplasty deals with the problem of the total hip replacement, educating patients before surgery and the regime which must be observed by the patient during the hospitalization and when being discharged from the hospital to home nursing. Further, the nurse has been described as a provider of rehabilitation nursing cooperating with the physiotherapist. The thesis is concerned with the nursing process, it preoccupies with the terminology in the health care, the issue of NANDA, NIC and NOC classifications and the Alliance 3N. Three goals of the thesis were defined: 1. to find out what types of NIC activities are typically used by nurses within the care of patients with total hip replacement. 2. to verify the application of NIC an NOC classifications in the care of patients with total hip replacement. 3. to investigate what sorts of the NOC indicators are typically used by the nurses in the care of patients with total hip replacement. The combination of the quantitative and qualitative research is applied. The four hypotheses were determined in the frame of the quantitative survey: 1. Nursing diagnoses are assessed as not being beneficial by the nurses. 2. Ensuring of tools facilitating the movement is a commonly preferred kind of an intervention by the nurses. 3. The knowledge of NIC and NOC terms is influenced by the previous education. 4. The satisfaction of the nurses with the nursing documentation is influenced by the length of practice. Data was collected by means of the questionnaires. One research query was established for the qualitative research: 1. What is the standpoint of the nurses on the NIC and NOC classifications in the care of the patient with total hip replacement? Data was collected by means of the formed nursing documentation based on the NIC and NOC classifications. The semi-structured interviews were used, as well. H1 remained unconfirmed. H2, H3 and H4 were not statistically validated. The NIC and NOC classifications are generally classified as not being beneficial for the nursing practice by the nurses.
75	Exploration architecturale et étude des performances des réseaux sur puce 3D partiellement connectés verticalement / Architectural exploration and performance analysis of Vertically-Partially-Connected Mesh-based 3D-NoC Bahmani, Maryam 09 December 2013 (has links) L'utilisation de la troisième dimension peut entraîner une réduction significative de la puissance et de la latence moyenne du trafic dans les réseaux sur puce (Network-on-Chip). La technologie des vias à travers le substrat (ou Through-Silicon Via) est la technologie la plus prometteuse pour l'intégration 3D, car elle offre des liens verticaux courts qui remédient au problème des longs fils dans les NoCs-2D. Les TSVs sont cependant énormes et les processus de fabrication sont immatures, ce qui réduit le rendement des systèmes sur puce à base de NoC-3D. Par conséquent, l'idée de réseaux sur puce 3D partiellement connectés verticalement a été introduite pour bénéficier de la technologie 3D tout en conservant un haut rendement. En outre, de tels réseaux sont flexibles, car le nombre, l'emplacement et l'affectation des liens verticaux dans chaque couche peuvent être décidés en fonction des exigences de l'application. Cependant, ce type de réseaux pose un certain nombre de défis : Le routage est le problème majeur, car l'élimination de certains liens verticaux fait que l'on ne peut utiliser les algorithmes classiques qui suivent l'ordre des dimensions. Pour répondre à cette question nous expliquons et évaluons un algorithme de routage déterministe appelé “Elevator First”, qui garanti d'une part que si un chemin existe, alors on le trouve, et que d'autre part il n'y aura pas d'interblocages. Fondamentalement, la performance du NoC est affecté par a) la micro architecture des routeurs et b) l'architecture d'interconnexion. L'architecture du routeur a un effet significatif sur la performance du NoC, à cause de la latence qu'il induit. Nous présentons la conception et la mise en œuvre de la micro-architecture d'un routeur à faible latence implantantl'algorithme de routage Elevator First, qui consomme une quantité raisonnable de surface et de puissance. Du point de vue de l'architecture, le nombre et le placement des liens verticaux ont un rôle important dans la performance des réseaux 3D partiellement connectés verticalement, car ils affectent le nombre moyen de sauts et le taux d'utilisation des FIFOs dans le réseau. En outre, l'affectation des liens verticaux vers les routeurs qui n'ont pas de ports vers le haut ou/et le bas est une question importante qui influe fortement sur les performances. Par conséquent, l'exploration architecturale des réseaux sur puce 3D partiellement connectés verticalement est importante. Nous définissons, étudions et évaluons des paramètres qui décrivent le comportement du réseau, de manière à déterminer le placement et l'affectation des liens verticaux dans les couches de manière simple et efficace. Nous proposons une méthode d'estimation quadratique visantà anticiper le seuil de saturation basée sur ces paramètres. / Utilization of the third dimension can lead to a significant reduction in power and average hop-count in Networks- on-Chip (NoC). TSV technology, as the most promising technology in 3D integration, offers short and fast vertical links which copes with the long wire problem in 2D NoCs. Nonetheless, TSVs are huge and their manufacturing process is still immature, which reduces the yield of 3D NoC based SoC. Therefore, Vertically-Partially-Connected 3D-NoC has been introduced to benefit from both 3D technology and high yield. Moreover, Vertically-Partially-Connected 3D-NoC is flexible, due to the fact that the number, placement, and assignment of the vertical links in each layer can be decided based on the limitations and requirements of the design. However, there are challenges to present a feasible and high-performance Vertically-Partially-Connected Mesh-based 3D-NoC due to the removed vertical links between the layers. This thesis addresses the challenges of Vertically-Partially-Connected Mesh-based 3D-NoC: Routing is the major problem of the Vertically-Partially-Connected 3D-NoC. Since some vertical links are removed, some of the routers do not have up or/and down ports. Therefore, there should be a path to send a packet to upper or lower layer which obviously has to be determined by a routing algorithm. The suggested paths should not cause deadlock through the network. To cope with this problem we explain and evaluate a deadlock- and livelock-free routing algorithm called Elevator First. Fundamentally, the NoC performance is affected by both 1) micro-architecture of routers and 2) architecture of interconnection. The router architecture has a significant effect on the performance of NoC, as it is a part of transportation delay. Therefore, the simplicity and efficiency of the design of NoC router micro architecture are the critical issues, especially in Vertically-Partially-Connected 3D-NoC which has already suffered from high average latency due to some removed vertical links. Therefore, we present the design and implementation the micro-architecture of a router which not only exactly and quickly transfers the packets based on the Elevator First routing algorithm, but it also consumes a reasonable amount of area and power. From the architecture point of view, the number and placement of vertical links have a key role in the performance of the Vertically-Partially-Connected Mesh-based 3D-NoC, since they affect the average hop-count and link and buffer utilization in the network. Furthermore, the assignment of the vertical links to the routers which do not have up or/and down port(s) is an important issue which influences the performance of the 3D routers. Therefore, the architectural exploration of Vertically-Partially-Connected Mesh-based 3D-NoC is both important and non-trivial. We define, study, and evaluate the parameters which describe the behavior of the network. The parameters can be helpful to place and assign the vertical links in the layers effectively. Finally, we propose a quadratic-based estimation method to anticipate the saturation threshold of the network's average latency. Intégration Tridimensionnelle Réseaux sur Puce Interconnexion Routage en Réseaux SoC Routeur de Réseaux sur Puce Three Dimensional integration Network-on-Chip (NoC) Interconnection Network Routing System-on-Chip (SoC) NoC Router 004
76	A Reconfigurable Device for GALS Systems Sciaraffa, Rocco January 2018 (has links) Globally Asynchronous Locally Synchronous (GALS) Field-Programmable Gate Array (FPGA) are composed of standard synchronous reconfigurable logic islands that communicate with each other via an asynchronous means. Past research into fully asynchronous FPGA has demonstrated high throughput and reliability adopting dual-rail encoding. GALS FPGAs have been proposed, relying on bundled-data encoding and fixed asynchronous communication between synchronous islands. This thesis proposes a new GALS FPGA architecture with fully reconfigurable asynchronous fabric, that relies on coarse-grained Configurable Logic Blocks (CLBs) to improve the communication capability of the device. Through datapath dedicated elements, asynchronous pipelines are efficiently mapped onto the device. The architecture is presented as well as the customized tool flow needed to compile Verilog for this new coarse-grained reconfigurable circuit.The main purpose of this thesis is to map communication-purpose user-circuits on the proposed asynchronous fabric and evaluate their performance. The benchmark circuits target the design of a Networkon-Chip (NoC) router and employ two-phase bundled-data protocol. The results are obtained through simulation and compared with the performances of the same circuits on a fine-grained classical FPGA style. The proposed architecture achieves up to 3.2x higher throughput and 2.9x lower latency than the classical one. The results show that the coarse-grained style efficiently maps asynchronous communication circuits, and it may be the starting point for future reconfigurable GALS systems. Future work should focus on improving the back-end synthesis and evaluating the FPGA GALS system as a whole. / Globala Asynkrona Lokalt Synkrona (GALS) FPGAer består av standardiserade synkrona rekonfigurerbara logiska öar som kommunicerar med varandra på ett asynkront sätt. Tidigare forskning om helt asynkrona FPGAer har demonstrerat att hög genomströmning och tillförlitlighet kan erhållas mha sk dual-rail kodning. GALS FPGA har också föreslagits, där man istället förlitar sig på kodad data och fast asynkron kommunikation mellan synkrona öar. Denna avhandling föreslår en ny GALS FPGA-arkitektur med en omkonfigurerbar asynkron struktur, bestående av sk Coarse-grained CLBs för att förbättra kommunikationsförmågan på enheten. Genom att datavägarna använder sig av dedikerade element, kan asynkrona pipelines mappas effektivt på enheten. Arkitekturen presenteras liksom det verktygsflöde som behövs för att kompilera Verilog för denna nya grovkornigt omkonfigurerbara krets.Huvudsyftet med denna avhandling är att mappa kommunikationskretsar på den föreslagna asynkrona strukturen och utvärdera dess prestanda. Referenskretsarna som används för utvärdering är en NoC router som använder sig av ett tvåfas kommunikationsprotokoll. Resultaten erhålls genom simulering och jämförs med prestanda av samma krets implementerad i en finkornig klassisk FPGA-stil. Den föreslagna arkitekturen uppnår ca 3.2x högre genomströmning och 2.9x lägre latens än den klassiska. Resultaten visar att en grovkornig stil kan mappa asynkrona kommunikationskretsar på ett effektivt sätt, och att det kan vara en bra utgångspunkt för framtida omkonfigurerbara GALS-system.Framtida arbete bör fokusera på att förbättra back-end-syntesen och att utvärdera FPGA GALS-systemet i sin helhet. FPGA GALS asynchronous coarse-grained NoC bundled-data FPGA GALS asynkron Coarse-Grained Reconfigu- rable NoC bundled data kommunikation Computer and Information Sciences Data- och informationsvetenskap
77	Knowledge, perception and utilisation of chiropractic by National Olympic Committees Labuschagne, Kerry January 2009 (has links) A dissertation submitted in partial compliance with the requirements for a Masters Degree in Technology, in the Department of Chiropractic at the Durban University of Technology, 2009. / Introduction: National Olympic Committees (NOCs) select medical personnel to support their athletes at the Olympic Games. To best support athletes the knowledge, perception and utilisation of all medical professions is assumed to be high, however literature seems to indicate that this is not so. Objective: To determine the knowledge, perception and utilisation of Chiropractic by NOCs in order to develop a better relationship so that more athletes can benefit from Chiropractic care. Methods: A questionnaire was emailed to the 205 NOCs worldwide. Respective executive committee and medical commission members were asked to complete the questionnaires. Results: 76 NOCs responded (37%), returning 27 questionnaires. 30% of the respondents were high ranking members. 93% were highly educated with a bachelor’s degree or higher and 33% had represented their country as an athlete. Both committees agreed on the importance of a post-graduate sports qualification and perceived the profession to be one of spinal care specialists. Overall knowledge of Chiropractic was poor. A trend was observed among the medical commissions in their choice of Medical Doctors or Physiotherapists over Chiropractors and other professionals. The executive committees in contrast seemed more open-minded in their choice of professionals. No association was found between the knowledge and perception of Chiropractic and use of Chiropractic Conclusion: There is confusion regarding the role and scope of practice of Chiropractic by NOCs. In order to achieve a greater level of acceptance and utilisation of Chiropractic in international sports medical teams the profession needs to clarify their role, better educate NOC members on the benefits of Chiropractic, and obtain sports specific post-graduate programmes that are recognised internationally. Chiropractic Knowledge National Olympic Committees NOC Olympics Perceptions Chiropractic--Evaluation Chiropractic--Utilization review Olympics--Societies, etc
78	Exploring the Scalability and Performance of Networks-on-Chip with Deflection Routing in 3D Many-core Architecture Weldezion, Awet Yemane January 2016 (has links) Three-Dimensional (3D) integration of circuits based on die and wafer stacking using through-silicon-via is a critical technology in enabling "more-than-Moore", i.e. functional integration of devices beyond pure scaling ("more Moore"). In particular, the scaling from multi-core to many-core architecture is an excellent candidate for such integration. 3D systems design follows is a challenging and a complex design process involving integration of heterogeneous technologies. It is also expensive to prototype because the 3D industrial ecosystem is not yet complete and ready for low-cost mass production. Networks-on-Chip (NoCs) efficiently facilitates the communication of massively integrated cores on 3D many-core architecture. In this thesis scalability and performance issues of NoCs are explored in terms of architecture, organization and functionality of many-core systems. First, we evaluate on-chip network performance in massively integrated many-core architecture when network size grows. We propose link and channel models to analyze the network traffic and hence the performance. We develop a NoC simulation framework to evaluate the performance of a deflection routing network as the architecture scales up to 1000 cores. We propose and perform comparative analysis of 3D processor-memory model configurations in scalable many-core architectures. Second, we investigate how the deflection routing NoCs can be designed to maximize the benefit of the fast TSVs through clock pumping techniques. We propose multi-rate models for inter-layer communication. We quantify the performance benefit through cycle-accurate simulations for various configurations of 3D architectures. Finally, the complexity of massively integrated many-core architecture by itself brings a multitude of design challenges such as high-cost of prototyping, increasing complexity of the technology, irregularity of the communication network, and lack of reliable simulation models. We formulate a zero-load average distance model that accurately predicts the performance of deflection routing networks in the absence of data flow by capturing the average distance of a packet with spatial and temporal probability distributions of traffic. The thesis research goals are to explore the design space of vertical integration for many-core applications, and to provide solutions to 3D technology challenges through architectural innovations. We believe the research findings presented in the thesis work contribute in addressing few of the many challenges to the field of combined research in many-core architectural design and 3D integration technology. / <p>QC 20151221</p> Alpha-model Average distance B-Model NoC Zero-load predictive model deflection routing q-routing
79	Scenarios preprocessing for efficient routing reconfiguration in MPSoC fault tolerance Noc based / PrÃ-processamento de cenÃrios para reconfiguraÃÃo de roteamento eficiente em MPSOC baseado em NoC tolerante a falhas Jarbas Aryel Nunes da Silveira 30 September 2015 (has links) nÃo hÃ / The latest technologies of integrated circuit manufacturing allow billions of transistors to be arranged on a single chip, enabling us to implement a complex parallel system, which requires a communications architecture with high scalability and high degree of parallelism, such as a Network-on-Chip (NoC). These technologies are very close to physical limitations, which increases the quantity of faults in circuit manufacturing and at runtime. Therefore, it is essential to provide a method for fault recovery that would enable the NoC to operate in the presence of faults and still ensure deadlock-free routing. The preprocessing of the most probable fault scenarios allows us to anticipate the calculation of deadlock-free routing, reducing the time that is necessary to interrupt the system during a fault occurrence. This work proposes a technique that employs the preprocessing of fault scenarios based on forecasting fault tendencies, which is performed with a fault threshold circuit operating in agreement with high-level software. The technique encompasses methods for dissimilarity analysis of scenarios based on cross-correlation measurements of fault link matrices, which allow us to define a reduced and efficient set of fault coverage scenarios. Experimental results employing RTL simulation with synthetic traffic prove the quality of the analytic metrics that are used to select the preprocessed scenarios. Furthermore, the experiments show the efficacy and efficiency of the proposed dissimilarity methods, quantifying the latency penalization when using the coverage scenarios approach. / As Ãltimas tecnologias de fabricaÃÃo de circuitos integrados habilitam bilhÃes de transistores a serem postos em um Ãnico chip, permitindo implementar um sistema paralelo complexo, o qual requer uma arquitetura de comunicaÃÃo que tenha grande escalabilidade e alto grau de paralelismo, tal como uma rede intrachip, em inglÃs, Network-on-Chip (NoC). Estas tecnologias estÃo muito prÃximas de limitaÃÃes fÃsicas, aumentando a quantidade de falhas na fabricaÃÃo dos circuitos e em tempo de operaÃÃo. Portanto, Ã essencial fornecer um mÃtodo para recuperaÃÃo de falha que permita a NoC operar na presenÃa de falhas e ainda garantir roteamento livre de deadlock. O prÃ-processamento de cenÃrios de falha mais provÃveis permite antecipar o cÃlculo de rotas livres de deadlock, reduzindo o tempo necessÃrio para interromper o sistema durante a ocorrÃncia de uma falha. Esta tese propÃe uma tÃcnica que emprega o prÃ-processamento de cenÃrios de falha baseado na previsÃo de tendÃncia de falhas, a qual Ã realizada com um circuito de limiar de falha operando em conjunto com um software de alto nÃvel. A tÃcnica contempla anÃlises de mÃtodos de dissimilaridade de cenÃrios baseadas na correlaÃÃo cruzada de matrizes bidimensionais de conexÃes com falha, que permite definir um conjunto reduzido e eficiente de cenÃrios de cobertura de falhas. Resultados experimentais, empregando simulaÃÃo com precisÃo em nÃvel de ciclo e trÃfego sintÃtico, provam a qualidade das mÃtricas analÃticas usadas para selecionar os cenÃrios prÃ-processados. AlÃm do mais, os experimentos mostraram a eficÃcia e eficiÃncia dos mÃtodos de dissimilaridades propostos, quantificando a penalizaÃÃo de latÃncia no uso da abordagem de cenÃrios de cobertura. Topologia irregular TolerÃncia a falhas MÃtodos de roteamento NoC Irregular topology Fault-tolerance Routing methods ENGENHARIA ELETRICA
80	School nursing documentation: knowledge, attitude, and barriers to using standardized nursing languages and current practices Yearous, Sharon Kay Guthrie 01 July 2011 (has links) The independent, complex role of a school nurse requires accurate documentation of assessments, interventions, and outcomes. Consistent documentation by all school nurses is crucial to study the impact of nursing interventions on children's health and success in school. While standardized nursing languages are available, the actual use of these languages is in the infancy stages of implementation. This national survey of school nurses reveals diverse practices in school nursing documentation. Using Everett Rogers' (2003) Diffusion of Innovation (DOI) theory, a web-based survey allowed respondents to identify their knowledge and attitude towards the use of standardized languages, including NANDA International (NANDA-I), Nursing Interventions Classification (NIC), and Nursing Outcomes Classification (NOC). Respondents also rated barriers to adopting the use of NANDA-I, NIC, and NOC (NNN). The results of this survey serve as a foundation for moving the practice of school nursing towards consistent documentation. Ultimately, the implementation of NNN will allow school nurses to document more consistently, base practice decisions on evidence, and improve the health and academic success of children in schools. diffusion of innovation (DOI) documentation NANDA NIC NOC school health school nurse standardized nursing language Nursing

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