Global ETD Search

471	Design and Characterization of 15nm FinFET Standard Cell Library Sadhu, Phanindra Datta 01 June 2021 (has links) The processors and digital circuits designed today contain billions of transistors on a small piece of silicon. As devices are becoming smaller, slimmer, faster, and more efficient, the transistors also have to keep up with the demands and needs of the daily user. Unfortunately, the CMOS technology has reached its limit and cannot be used to scale down due to the breakdown of the transistor caused by short channel effects. Alternative solution to this is the FinFET transistor technology where the gate of the transistor is a 3D fin which surrounds the transistor and prevents the breakdown caused by scaling and short channel effects. FinFET devices are reported to have excellent control over short channel effects, high On/Off Ratio, extremely low gate leakage current and relative immunization over gate edge line roughness. Sub 20 nm is perceived to the limit of scaling the CMOS transistors but FinFETs can be scaled down further due the above-mentioned reasons. Due to these advantages the VLSI industry have now shifted to FinFET in their designs. Although these transistors have not been completely opened to academia. Analyzing and observing the effects of these devices can be pivotal in gaining an in depth understanding of them. This thesis explores the application of FinFETs using a standard cell library developed using these transistors and are analyzed and compared with CMOS transistors. The FinFET package files used to develop these cell is a 15nm FinFET technology file developed by NCSU in collaboration with Cadence and Mentor Graphics. Post design the cells were characterized and then the results were compared to through various CMOS packages to understand and extrapolate conclusions on the FinFET devices. FinFET Standard Cell Cell Library 3-D Transistor Nano Scale Devices VLSI Electrical and Computer Engineering Engineering Physics Nanoscience and Nanotechnology Nanotechnology Fabrication
472	Simulace CMOS VLSI obvodů / CMOS VLSI Circuits Simulation Šťastná, Hilda January 2017 (has links) This diploma thesis deals with processes of electrical circuits calculations in the last years' worldwide standards like Dymola, MATLAB, Maple or SPICE applications. Circuits calculations are linked with methods for solving linear differential equations, used in this work also by verification of functionality of designed models for CMOS inverter, CMOS NAND, CMOS NOR. Numerical integration method in combination with Taylor series is a suitable method also for parallel calculations of CMOS VLSI circuits. CMOS circuits simulation was implemented with this method in applications in MATLAB language, solving circuits, represented by differential equations. Functionality of the applications was verified by some real examples. Significant acceleration of calculations using Taylor series compared to other methods is an important factor in choosing methods used in circuit simulations.
473	Design and Characterization of Standard Cell Library Using FinFETs Sadhu, Phanindra Datta 01 June 2021 (has links) (PDF) The processors and digital circuits designed today contain billions of transistors on a small piece of silicon. As devices are becoming smaller, slimmer, faster, and more efficient, the transistors also have to keep up with the demands and needs of the daily user. Unfortunately, the CMOS technology has reached its limit and cannot be used to scale down due to the transistor's breakdown caused by short channel effects. An alternative solution to this is the FinFET transistor technology, where the gate of the transistor is a three dimensional fin that surrounds the transistor and prevents the breakdown caused by scaling and short channel effects. FinFET devices are reported to have excellent control over short channel effects, high On/Off Ratio, extremely low gate leakage current and relative immunization over gate edge line roughness. Sub 20 nm node size is perceived to be the limit of scaling the CMOS transistors, but FinFETs can be scaled down further because of its unique design. Due to these advantages, the VLSI industry has now shifted to FinFET in implementation of their designs. However, these transistors have not been completely opened to academia. Analyzing and observing the effects of these devices can be pivotal in gaining an in-depth understanding of them. This thesis explores the implementation of FinFETs using a standard cell library designed using these transistors. The FinFET package file used to design these cells is a 15nm FinFET technology file developed by NCSU in collaboration with Cadence and Mentor Graphics. Post design, the cells were characterized, the results were analyzed and compared with cells designed using CMOS transistors at different node sizes to understand and extrapolate conclusions on FinFET devices. VLSI Nanotechnology Digital Design Design Enablement FinFET Standard Cell Library Semiconductors Atomic, Molecular and Optical Physics Electrical and Electronics Engineering Physics Nanotechnology Fabrication
474	SiLago: Enabling System Level Automation Methodology to Design Custom High-Performance Computing Platforms : Toward Next Generation Hardware Synthesis Methodologies Farahini, Nasim January 2016 (has links) <p>QC 20160428</p> System Level Synthesis High Level Synthesis VLSI Design Methodology Brain-like Computation Neuromorphic Hardware Address Generation Thread Level Parallelism
475	Development of high performance hardware architectures for multimedia applications Khan, Shafqat 29 September 2010 (has links) (PDF) Les besoins en puissance de calcul des processeurs sont en constante augmentation en raison de l'importance croissante des applications multimédia dans la vie courante. Ces applications requièrent de nombreux calculs avec des données de faible précision généralement issues des pixels. Le moyen le plus efficace pour exploiter le parallélisme de données de ces applications est le parallélisme dit de sous-mots (SWP pour \textit{subword parallelism}). Les opérations sont effectuées en parallèle sur des données de faible précision regroupées ce qui permet d'utiliser au mieux les ressources disponibles dimensionnées pour traiter des mots. Dans cette thèse, la conception de différents opérateurs SWP pour les applications multimédia est proposée. Une bonne adéquation entre largeur des sous-mots et largeur des données manipulées permet une meilleure utilisation des ressources et conduit ainsi à améliorer l'efficacité de l'exécution de l'application sur le processeur. Les opérateurs arithmétiques de base développés sont ensuite utilisés dans un opérateur SWP reconfigurable. Ce dernier peut être configuré pour effectuer diverses opérations multimédia avec différentes largeurs de données. L'opérateur reconfigurable peut être utilisé comme unité spécialisée ou comme co-processeur dans un processeur multimédia afin d'en améliorer les performances. La vitesse interne des différentes unités de traitement est également améliorée en représentant les nombres en système redondant plutôt qu'en système binaire. Le système redondant permet entre autre d'augmenter la vitesse des opérations arithmétiques en évitant une propagation de retenue couteuse lors d'opérations d'addition. Les résultats obtenus montrent l'intérêt en terme de performances d'utiliser des opérateurs SWP lors de l'exécution d'applications multimédia. applications multimédia conception d'opérateurs VLSI
476	On The Engineering of a Stable Force-Directed Placer Vorwerk, Kristofer January 2004 (has links) Analytic and force-directed placement methods that simultaneously minimize wire length and spread cells are receiving renewed attention from both academia and industry. However, these methods are by no means trivial to implement---to date, published works have failed to provide sufficient engineering details to replicate results. This dissertation addresses the implementation of a generic force-directed placer entitled FDP. Specifically, this thesis provides (1) a description of efficient force computation for spreading cells, (2) an illustration of numerical instability in this method and a means to avoid the instability, (3) metrics for measuring cell distribution throughout the placement area, and (4) a complementary technique that aids in minimizing wire length. FDP is compared to Kraftwerk and other leading academic tools including Capo, Dragon, and mPG for both standard cell and mixed-size circuits. Wire lengths produced by FDP are found to be, on average, up to 9% and 3% better than Kraftwerk and Capo, respectively. All told, this thesis confirms the validity and applicability of the approach, and provides clarifying details of the intricacies surrounding the implementation of a force-directed global placer. Electrical & Computer Engineering VLSI CAD placement partitioning quadratic optimization force forces BoxPlace circuit clustering placer FDP
477	Field Programmable Gate Array Based Miniaturised Central Controller for a Decentralised Base-Band Telemetry System for Satellite Launch Vehicles Krishnakumar, M., Sreelal, S., Narayana, T. V., Anguswamy, P., Singh, U. S. 11 1900 (has links) International Telemetering Conference Proceedings / October 30-November 02, 1995 / Riviera Hotel, Las Vegas, Nevada / The Central Control Unit (CCU) for a decentralised on-board base-band telemetry system is designed for use in launch vehicle missions of the Indian Space Research Organisation (ISRO). This new design is a highly improved and miniaturised version of an earlier design. The major design highlights are as follows: usage of CMOS Field Programmable Gate Array (FPGA) devices in place of LS TTL devices, high level user programmability of TM format using EEPROMs, usage of high density memory for on-board data storage and delayed data transmission, HMC based pre-modulation filter and final output driver etc. The entire system is realised on a single 6 layer MLB and is packaged on a stackable modular frame. This design has resulted in a 1:4 reduction in weight, 1:4 reduction in volume, 1:5 reduction in power consumption and 1:3 reduction in height in addition to drastic reduction of part diversity and solder joints and thus greatly increased reliability. This paper discusses the design approach, implementation details, tools used, simulations carried out and the results of detailed qualification tests done on the realised qualification model. Field Programmable Gate Array (FPGA) Telemetry (TM) Format Hybrid Micro Circuit (HMC) Very Large Scale Integration (VLSI)
478	Replacement of the Hubble Space Telescope (HST) Telemetry Front-End Using Very-Large-Scale Integration (VLSI)-Based Components Scaffidi, Charles, Stafford, Richard 10 1900 (has links) International Telemetering Conference Proceedings / October 25-28, 1993 / Riviera Hotel and Convention Center, Las Vegas, Nevada / The Hubble Space Telescope (HST) Observatory Management System (HSTOMS), located at the Goddard Space Flight Center (GSFC), provides telemetry, command, analysis and mission planning functions in support of the HST spacecraft. The Telemetry and Command System (TAC) is an aging system that performs National Aeronautics and Space Administration (NASA) Communications (Nascom) block and telemetry processing functions. Future maintainability is of concern because of the criticality of this system element. HSTOMS has embarked on replacing the TAC by using functional elements developed by the Microelectronics Systems Branch of the GSFC. This project, known as the Transportable TAC (TTAC) because of its inherent flexibility, is addressing challenges that have resulted from applying recent technological advances into an existing operational environment. Besides presenting a brief overview of the original TAC and the new TTAC, this paper also describes the challenges faced and the approach to overcoming them. Hubble Space Telescope (HST) telemetry front-end very-large-scale integration (VLSI)
479	Conversion of Digital Circuits Labs Taber, Caleb N 01 May 2016 (has links) The engineering technology department at ETSU currently lacks a modern method to teach digital circuits. The aim of this thesis is to convert our current digital circuits labs to equivalent labs suited to run on the Basys 3. The Basys has several advantages over the aging NI Elvis boards (and now just breadboards) currently in use. The first advantage is that the Basys gives students a taste of FPGA programming without being overwhelmingly; like the systems currently in place for the digital signal processing class. The Basys is also a more modern system; our current integrated circuit and breadboard system is from the 70’s and has little to do with the modern world of electronics. There are several major difficulties with moving towards the Basys 3. It requires several tweaks to the current computer security setting of the lab computers. The other issue to be solved is that very few people in the department have even an inkling of how to program in VHDL and most of them are outgoing students. This lack of skills could be a threat to the class but I have included an appendix and a few recommendations for books on the subject to ensure that system development can continue. The other objective of this project was to see if there were ways to incorporate new educational techniques into the engineering technology curriculum. While there have been no actual tests on students, the groundwork has been laid to use some new ideas in the classroom. All of these new systems are designed to get students to think about how devices actually work and develop models to help them fully understand what is being taught. Basys 3 VHDL Digital Logic Electronics Educational Methods Electrical and Electronics Engineering Education Signal Processing
480	EMERGING COMPUTING BASED NOVEL SOLUTIONS FOR DESIGN OF LOW POWER CIRCUITS Mohammad, Azhar 01 January 2018 (has links) The growing applications for IoT devices have caused an increase in the study of low power consuming circuit design to meet the requirement of devices to operate for various months without external power supply. Scaling down the conventional CMOS causes various complications to design due to CMOS properties, therefore various non-conventional CMOS design techniques are being proposed that overcome the limitations. This thesis focuses on some of those emerging and novel low power design technique namely Adiabatic logic and low power devices like Magnetic Tunnel Junction (MTJ) and Carbon Nanotube Field Effect transistor (CNFET). Circuits that are used for large computations (multipliers, encryption engines) that amount to maximum part of power consumption in a whole chip are designed using these novel low power techniques. Adiabatic Logic Differential Power Analysis Magnetic Tunnel Junction Carbon Nanotube Field effect Transistor

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