Global ETD Search

131	Using Apache Spark's MLlib to Predict Closed Questions on Stack Overflow Madeti, Preetham 07 June 2016 (has links) No description available. Computer Science Information Systems Machine learning Feature Extraction Apache Spark Stack Overflow Textual Analysis
132	A Parametric Study of Stack Performance for a 4.8kW PEM Fuel Cell Edwards, Tyler A. 20 July 2010 (has links) No description available. Mechanical Engineering PEM PEMFC parametric study effects parameter sensitivity stack orientation dynamics ammonia car
133	Databas och kommunikationslösningför ett ritningshanteringsgränssnitt : Database and Communications Solution for a Blueprint Management Interface / Database and Communications Solution for a Blueprint Management Interface Ferlin, Angelica, Fredriksson, Hillevi, Hedlund, William, Hegg, Malte, Lundgren, Ellen, Palm, Fredrik, Pettersson, Daniel, Ågren, Simon January 2022 (has links) Denna kandidatrapport producerades i anknytning till kursen TDDD96 - Kandidatprojekt i programvaruutveckling som hölls vid Linköpings universitet våren 2022, där åtta studenter utförde ett gemensamt kandidatarbete. Målet med projektet var att utveckla en databas och en kommunikationslösning för ritningshantering till ett redan existerande gränssnitt. Projektet, beställt av BIT Sverige, är en del av en vision att skapa en standardiserad programvara för ritningshantering, logistik och transparens inom byggindustrin. Resultatet av projektet var en prototyp där ritningar, användare och revisioner av ritningar kan sparas och hämtas från en databas med hjälp av en affärslogik. Rapporten beskriver bakgrunden till projektet och den grundläggande teorin inom projektet. Därefter behandlar rapporten metodiken i projektet, däribland projektgruppens utvecklingsprocess med Scrum. Projektets resultat presenteras, och diskuteras sedan tillsammans med metodiken. Slutligen besvaras rapportens frågeställningar. Efter den gemensamma rapporten återfinns de individuella bidrag där gruppens medlemmar fördjupar sig inom olika ämnen relaterade till det projekt som utförts. Databaslösning MongoDB digital ritningshantering MEVN stack lagringshantering Express hållbarhet ritningshantering i byggbranschen Software Engineering Programvaruteknik
134	DEVELOPMENT OF MAGNETO-OPTIC SENSORS WITH GALLIUM IN BISMUTH DOPED RARE-EARTH IRON-GARNET THICK FILMS Shinn, Mannix Anderson January 2017 (has links) We have investigated the Faraday effect of bismuth-doped rare-earth iron-garnets with varying doping levels of gallium from z = 1.0 to 1.35. We used lutetium to control the film's in-plane magnetic properties and found that gallium doping levels above the compensation point caused a loss of anisotropy control, a canted out-of-plane magnetization in the film, and an extremely weak but linear coercivity above 10 micro-Tesla fields. Using these results we focused on in-plane films to create 8 layer stacks of 500 um thick films to achieve a minimum detectable field of 50 pT at 1 kHz. Unlike previous Magneto-Optic (MO) studies that typically used thin films of approximately 1um thickness, we used approximately 400um thick films to allow experimentation with the final, robust, ideal form the MO sensor would take. We measured what most other MO studies with garnets neglected: the magnetic anisotropy axis or structure within the film. Knowledge of this structure is essential in improving the sensitivity of a stacked MO probe. Studying thick films proved to be key to understanding the magnetic anisotropy and domain properties that can degrade or enhance the sensitivity of the Faraday rotation in bismuth doped rare-earth iron-garnets to an applied magnetic field and to pointing the direction of future research to develop the conditions for rugged magnetometer sensors. / Physics Physics, Condensed Matter Applied Physics Physics Faraday Effect Gallium Garnets Magnetometer Magneto-optics Stack
135	Exploring the Boundaries of Operating System in the Era of Ultra-fast Storage Technologies Ramanathan, Madhava Krishnan 24 May 2023 (has links) The storage hardware is evolving at a rapid pace to keep up with the exponential rise of data consumption. Recently, ultra-fast storage technologies such as nano-second scale byte- addressable Non-Volatile Memory (NVM), micro-second scale SSDs are being commercialized. However, the OS storage stack has not been evolving fast enough to keep up with these new ultra-fast storage hardware. Hence, the latency due user-kernel context switch caused by system calls and hardware interrupts is no longer negligible as presumed in the era of slower high latency hard disks. Further, the OS storage stack is not designed with multi-core scalability in mind; so with CPU core count continuously increasing, the OS storage stack particularly the Virtual Filesystem (VFS) and filesystem layer are increasingly becoming a scalability bottleneck. Applications bypass the kernel (kernel-bypass storage stack) completely to eliminate the storage stack from becoming a performance and scalability bottleneck. But this comes at the cost of programmability, isolation, safety, and reliability. Moreover, scalability bottlenecks in the filesystem can not be addressed by simply moving the filesystem to the userspace. Overall, while designing a kernel-bypass storage stack looks obvious and promising there are several critical challenges in the aspects of programmability, performance, scalability, safety, and reliability that needs to be addressed to bypass the traditional OS storage stack. This thesis proposes a series of kernel-bypass storage techniques designed particularly for fast memory-centric storage. First, this thesis proposes a scalable persistent transactional memory (PTM) programming model to address the programmability and multi-core scalability challenges. Next, this thesis proposes techniques to make the PTM memory safe and fault tolerant. Further, this thesis also proposes a kernel-bypass programming framework to port legacy DRAM-based in-memory database applications to run on persistent memory-centric storage. Finally, this thesis explores an application-driven approach to address the CPU side and storage side bottlenecks in the deep learning model training by proposing a kernel-bypass programming framework to move to compute closer to the storage. Overall, the techniques proposed in this thesis will be a strong foundation for the applications to adopt and exploit the emerging ultra-fast storage technologies without being bottlenecked by the traditional OS storage stack. / Doctor of Philosophy / The storage hardware is evolving at a rapid pace to keep up with the exponential rise of data consumption. Recently, ultra-fast storage technologies such as nano-second scale byte- addressable Non-Volatile Memory (NVM), micro-second scale SSDs are being commercialized. The Operating System (OS) has been the gateway for the applications to access and manage the storage hardware. Unfortunately, the OS storage stack that is designed with slower storage technologies (e.g., hard disk drives) becomes a performance, scalability, and programmability bottleneck for the emerging ultra-fast storage technologies. This has created a large gap between the storage hardware advancements and the system software support for such emerging storage technologies. Consequently, applications are constrained by the limitations of the OS storage stack when they intend to explore these emerging storage technologies. In this thesis, we propose a series of novel kernel-bypass storage stack designs to address the performance, scalability, and programmability limitations of the conventional OS storage stack. The kernel-bypass storage stack proposed in this thesis is carefully designed with ultra-fast modern storage hardware in mind. Application developers can leverage the kernel-bypass techniques proposed in this thesis to develop new applications or port the legacy applications to use the emerging ultra-fast storage technologies without being constrained by the limitations of the conventional OS storage stack. Kernel-bypass storage stack Non-volatile Memory Concurrency Multi-core Scalability Operating System Computational Storage
136	Characterization and Failure Mode Analysis of Cascode GaN HEMT Liu, Zhengyang 16 July 2014 (has links) Recent emerging gallium nitride (GaN) high electron mobility transistor (HEMT) is expected to be a promising candidate for high frequency power conversion techniques. Due to the advantages of the material, the GaN HEMT has a better figure of merit (FOM) compared to the state-of-the-art silicon (Si) power metal oxide silicon field effect transistor (MOSFET), which allows the GaN HEMT to switch with faster transition and lower switching loss. By applying the GaN HEMT in a circuit design, it is possible to achieve high frequency, high efficiency, and high density power conversion at the same time. To characterize the switching performance of the GaN HEMT, an accurate behavior-level simulation model is developed in this thesis. The packaging related parasitic inductance, including both self-inductance and mutual-inductance, are extracted based on finite element analysis (FEA) methods. Then the accuracy of the simulation model is verified by a double-pulse tester, and the simulation results match well with experiment in terms of both device switching waveform and switching energy. Based on the simulation model, detailed loss breakdown and loss mechanism analysis are made. The cascode GaN HEMT has high turn-on loss due to the body diode reverse recovery of the low voltage Si MOSFET and the common source inductance (CSI) of the package; while the turn-off loss is extremely small attributing to the cascode structure. With this unique feature, the critical conduction mode (CRM) soft switching technique are applied to reduce the dominant turn on loss and increase converter efficiency significantly. The switching frequency is successfully pushed to 5MHz while maintaining high efficiency and good thermal performance. Traditional packaging method is becoming a bottle neck to fully utilize the advantages of GaN HEMT. So an investigation of the package influence on the cascode GaN HEMT is also conducted. Several critical parasitic inductors are identified, which cause high turn on loss and high parasitic ringing which may lead to device failure. To solve the issue, the stack-die package is proposed to eliminate all critical parasitic inductors, and as a result, reducing turn on loss by half and avoiding potential failure mode of the cascode GaN device effectively. Utilizing the proposed stack-die package and ZVS soft switching, the GaN HEMT high frequency, high efficiency, and high density power conversion capability can be further extended to a higher level. / Master of Science cascode GaN simulation model loss analysis soft switching stack-die package
137	Cognizant Networks: A Model and Framework for Session-based Communications and Adaptive Networking Kalim, Umar 09 August 2017 (has links) The Internet has made tremendous progress since its inception. The kingpin has been the transmission control protocol (TCP), which supports a large fraction of communication. With the Internet's wide-spread access, users now have increased expectations. The demands have evolved to an extent which TCP was never designed to support. Since network stacks do not provide the necessary functionality for modern applications, developers are forced to implement them over and over again --- as part of the application or supporting libraries. Consequently, application developers not only bear the burden of developing application features but are also responsible for building networking libraries to support sophisticated scenarios. This leads to considerable duplication of effort. The challenge for TCP in supporting modern use cases is mostly due to limiting assumptions, simplistic communication abstractions, and (once expedient) implementation shortcuts. To further add to the complexity, the limited TCP options space is insufficient to support extensibility and thus, contemporary communication patterns. Some argue that radical changes are required to extend the networks functionality; some researchers believe that a clean slate approach is the only path forward. Others suggest that evolution of the network stack is necessary to ensure wider adoption --- by avoiding a flag day. In either case, we see that the proposed solutions have not been adopted by the community at large. This is perhaps because the cost of transition from the incumbent to the new technology outweighs the value offered. In some cases, the limited scope of the proposed solutions limit their value. In other cases, the lack of backward compatibility or significant porting effort precludes incremental adoption altogether. In this dissertation, we focus on the development of a communication model that explicitly acknowledges the context of the conversation and describes (much of) modern communications. We highlight how the communication stack should be able to discover, interact with and use available resources to compose richer communication constructs. The model is able to do so by using session, flow and endpoint abstractions to describe communications between two or more endpoints. These abstractions provide means to the application developers for setting up and manipulating constructs, while the ability to recognize change in the operating context and reconfigure the constructs allows applications to adapt to the changing requirements. The model considers two or more participants to be involved in the conversation and thus enables most modern communication patterns, which is in contrast with the well-established two-participant model. Our contributions also include an implementation of a framework that realizes such communication methods and enables future innovation. We substantiate our claims by demonstrating case studies where we use the proposed abstractions to highlight the gains. We also show how the proposed model may be implemented in a backwards compatible manner, such that it does not break legacy applications, network stacks, or middleboxes in the network infrastructure. We also present use cases to substantiate our claims about backwards compatibility. This establishes that incremental evolution is possible. We highlight the benefits of context awareness in setting up complex communication constructs by presenting use cases and their evaluation. Finally, we show how the communication model may open the door for new and richer communication patterns. / PHD Session Management Context Awareness Dynamic Network Configuration Network-Stack Extensions Next-Generation Networking
138	Advocating Silence Forth, Stephen 12 June 2013 (has links) The buildings people inhabit everyday frame their existence and provide a backdrop for life. This relationship is inextricable and, as such, begs the question as to whether buildings can function as more than mere containers for life or whether they, at some point or in some capacity, can begin to bare influence over the life or quality of life of their patrons. This project is an intention to explore this qualitative, unquantifiable aspect of building. Through a manipulation of volume and mass, constriction and expansion, solid and void, light and shadow, and the qualities of interiority and exteriority an occupied space will begin to impress itself upon the user. The main objective of this project is to use these architectural properties to create a place that fosters introspection through self awareness. By choosing presence over practicality and content over convention, the construct proposed in this thesis attempts to create spaces that are imposing and unfamiliar yet somehow emotionally reminiscent. Confronted by these contradictions and juxtapositions, this building will stand as an object, in opposition to the occupant, and through that opposition inspire and promote a greater awareness of, and possibly a reflection upon, normally unconscious thought processes. / Master of Architecture Architecture silence stone masonry dry-stack self consciousness physicality mass heaviness ruins mountain pavilion
139	Self-Assembled Multilayered Dielectric Spectral Filters Chandran, Ashwin 11 January 2002 (has links) Thin film optical filters are made by depositing thin films of optical materials on a substrate in such a way as to produce the required optical and mechanical properties. The Electrostatic Self Assembly (ESA) process is accomplished by the alternate adsorption of poly-anionic and poly-cationic molecules on progressive oppositely charged surfaces. This technique offers several advantages such as ease of fabrication, molecular level uniformity, stable multilayer synthesis and avoidance of the need for a vacuum environment. The ESA process offers an excellent choice for manufacturing optical thin film coatings due to its capability to incorporate multiple properties into films at the molecular level and its ability to be a fast and inexpensive process. The ESA process, as a method for manufacturing optical thin film filters has been investigated in detail in this thesis. A specific design was made and analyzed using TFCalc, a commercial thin film design software. Sensitivity analysis detailing the changes in filter response to errors in thickness and refractive index produced by the ESA process were done. These proved that with a high level of quality control, highly reliable and accurate optical thin films can be made by the ESA process. / Master of Science Needle Filters Optical Thin Films Electro Static Self-Assembly Dielectric stack filter
140	Identifying reputation collectors in community question answering (CQA) sites: Exploring the dark side of social media Roy, P.K., Singh, J.P., Baabdullah, A.M., Kizgin, Hatice, Rana, Nripendra P. 08 August 2019 (has links) Yes / This research aims to identify users who are posting as well as encouraging others to post low-quality and duplicate contents on community question answering sites. The good guys called Caretakers and the bad guys called Reputation Collectors are characterised by their behaviour, answering pattern and reputation points. The proposed system is developed and analysed over publicly available Stack Exchange data dump. A graph based methodology is employed to derive the characteristic of Reputation Collectors and Caretakers. Results reveal that Reputation Collectors are primary sources of low-quality answers as well as answers to duplicate questions posted on the site. The Caretakers answer limited questions of challenging nature and fetches maximum reputation against those questions whereas Reputation Collectors answers have so many low-quality and duplicate questions to gain the reputation point. We have developed algorithms to identify the Caretakers and Reputation Collectors of the site. Our analysis finds that 1.05% of Reputation Collectors post 18.88% of low quality answers. This study extends previous research by identifying the Reputation Collectors and 2 how they collect their reputation points. Community Question Answering CQA Reputation collectors Expert users Stack exchange Data analysis

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