An asynchronous forth microprocessor.

January 2000

Ping-Ki Tsang. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2000. / Includes bibliographical references (leaves 87-95). / Abstracts in English and Chinese. / Abstract --- p.i / Acknowledgments --- p.iii / Chapter 1 --- Introduction --- p.1 / Chapter 1.1 --- Motivation and Aims --- p.1 / Chapter 1.2 --- Contributions --- p.3 / Chapter 1.3 --- Overview of the Thesis --- p.4 / Chapter 2 --- Asynchronous Logic g --- p.6 / Chapter 2.1 --- Motivation --- p.6 / Chapter 2.2 --- Timing Models --- p.9 / Chapter 2.2.1 --- Fundamental-Mode Model --- p.9 / Chapter 2.2.2 --- Delay-Insensitive Model --- p.10 / Chapter 2.2.3 --- QDI and Speed-Independent Models --- p.11 / Chapter 2.3 --- Asynchronous Signalling Protocols --- p.12 / Chapter 2.3.1 --- 2-phase Handshaking Protocol --- p.12 / Chapter 2.3.2 --- 4-phase Handshaking Protocol --- p.13 / Chapter 2.4 --- Data Representations --- p.14 / Chapter 2.4.1 --- Dual Rail Coded Data --- p.15 / Chapter 2.4.2 --- Bundled Data --- p.15 / Chapter 2.5 --- Previous Asynchronous Processors --- p.16 / Chapter 2.6 --- Summary --- p.20 / Chapter 3 --- The MSL16 Architecture --- p.21 / Chapter 3.1 --- RISC Machines --- p.21 / Chapter 3.2 --- Stack Machines --- p.23 / Chapter 3.3 --- Forth and its Applications --- p.24 / Chapter 3.4 --- MSL16 --- p.26 / Chapter 3.4.1 --- Architecture --- p.28 / Chapter 3.4.2 --- Instruction Set --- p.30 / Chapter 3.4.3 --- The Datapath --- p.32 / Chapter 3.4.4 --- Interrupts and Exceptions --- p.33 / Chapter 3.4.5 --- Implementing Forth primitives --- p.34 / Chapter 3.4.6 --- Code Density Estimation --- p.34 / Chapter 3.5 --- Summary --- p.35 / Chapter 4 --- Design Methodology --- p.37 / Chapter 4.1 --- Basic Notation --- p.38 / Chapter 4.2 --- Specification of MSL16A --- p.39 / Chapter 4.3 --- Decomposition into Concurrent Processes --- p.41 / Chapter 4.4 --- Separation of Control and Datapath --- p.45 / Chapter 4.5 --- Handshaking Expansion --- p.45 / Chapter 4.5.1 --- 4-Phase Handshaking Protocol --- p.46 / Chapter 4.6 --- Production-rule Expansion --- p.47 / Chapter 4.7 --- Summary --- p.48 / Chapter 5 --- Implementation --- p.49 / Chapter 5.1 --- C-element --- p.49 / Chapter 5.2 --- Mutual Exclusion Elements --- p.51 / Chapter 5.3 --- Caltech Asynchronous Synthesis Tools --- p.53 / Chapter 5.4 --- Stack Design --- p.54 / Chapter 5.4.1 --- Eager Stack Control --- p.55 / Chapter 5.4.2 --- Lazy Stack Control --- p.56 / Chapter 5.4.3 --- Eager/Lazy Stack Datapath --- p.53 / Chapter 5.4.4 --- Pointer Stack Control --- p.61 / Chapter 5.4.5 --- Pointer Stack Datapath --- p.62 / Chapter 5.5 --- ALU Design --- p.62 / Chapter 5.5.1 --- The Addition Operation --- p.63 / Chapter 5.5.2 --- Zero-Checker --- p.64 / Chapter 5.6 --- Memory Interface and Tri-state Buffers --- p.64 / Chapter 5.7 --- MSL16A --- p.65 / Chapter 5.8 --- Summary --- p.66 / Chapter 6 --- Results --- p.67 / Chapter 6.1 --- FPGA based implementation of MSL16 --- p.67 / Chapter 6.2 --- MSL16A --- p.69 / Chapter 6.2.1 --- A Comparison of 3 Stack Designs --- p.69 / Chapter 6.2.2 --- Evaluation of the ALU --- p.73 / Chapter 6.2.3 --- Evaluation of MSL16A --- p.74 / Chapter 6.3 --- Summary --- p.81 / Chapter 7 --- Conclusions --- p.83 / Chapter 7.1 --- Future Work --- p.85 / Bibliography --- p.87 / Publications --- p.95

Microprocessors--Design and construction

Cryptography for Ultra-Low Power Devices

Kaps, Jens-Peter E

04 May 2006

Ubiquitous computing describes the notion that computing devices will be everywhere: clothing, walls and floors of buildings, cars, forests, deserts, etc. Ubiquitous computing is becoming a reality: RFIDs are currently being introduced into the supply chain. Wireless distributed sensor networks (WSN) are already being used to monitor wildlife and to track military targets. Many more applications are being envisioned. For most of these applications some level of security is of utmost importance. Common to WSN and RFIDs are their severely limited power resources, which classify them as ultra-low power devices. Early sensor nodes used simple 8-bit microprocessors to implement basic communication, sensing and computing services. Security was an afterthought. The main power consumer is the RF-transceiver, or radio for short. In the past years specialized hardware for low-data rate and low-power radios has been developed. The new bottleneck are security services which employ computationally intensive cryptographic operations. Customized hardware implementations hold the promise of enabling security for severely power constrained devices. Most research groups are concerned with developing secure wireless communication protocols, others with designing efficient software implementations of cryptographic algorithms. There has not been a comprehensive study on hardware implementations of cryptographic algorithms tailored for ultra-low power applications. The goal of this dissertation is to develop a suite of cryptographic functions for authentication, encryption and integrity that is specifically fashioned to the needs of ultra-low power devices. This dissertation gives an introduction to the specific problems that security engineers face when they try to solve the seemingly contradictory challenge of providing lightweight cryptographic services that can perform on ultra-low power devices and shows an overview of our current work and its future direction.

rfid

wireless sensor networks

low energy

low power

cryptography

Cryptography

Radio frequency identification systems

Low voltage systems

Planejamento de redes de distribuição secundária. Uma modelagem por programação dinâmica. / Low voltage electric power distribution planning: a dynamic programming model.

Kagan, Nelson

05 May 1988

Neste trabalho, apresenta-se um método para o Planejamento de Redes de Distribuição Secundária. O modelo básico desenvolvido baseia-se em técnica de programação dinâmica a fim de selecionar a política de evolução de trocas de transformadores de distribuição e rede secundária, com mínimo custo operacional dentro de limites de qualidade de serviço, para o atendimento de carga crescente no tempo em uma área de estudo restrita. Inicialmente, apresenta-se a filosofia básica do método, incluindo-se os dados necessários, critérios de planejamento e metodologia para o cálculo elétrico de redes secundárias. Em sequência, são apresentados três modelos para a solução do problema; tais modelos são diferenciados pela eliminação progressiva de hipóteses simplificativas. Nos dois primeiros modelos, a carga e seu crescimento são supostos uniformemente distribuídos ao longo dos trechos da rede secundária. No terceiro modelo, a distribuição da carga dos pontos presentes na rede secundária, durante o período de estudo, é estabelecida por procedimento randômico, com o único vínculo de serem mantidos os mercados globais de demanda e número de consumidores na área em estudo. Posteriormente, estabelece-se um exemplo de aplicação que permite proceder à comparação entre os três modelos desenvolvidos. Finalizando o trabalho, são estabelecidas as conclusões, possibilidades de aplicação do método em diversos estudos do sistema de Distribuição Secundária e são tecidos comentários sobre tópicos para ulterior desenvolvimento. / This work focuses on a method for the Planning of Secondary Distribution Systems. The basic model deals with dynamic programming in order to get an optimized design - Distribution Transformer and Secondaries - which presents the lowest operation cost within service quality limits in order to supply growing load on a restricted area. Initially the basic concepts of the method are presented, including the establishment of the data base, planning criteria and methodology in order to get operating conditions at secondary networks. Concerning this method, three computational models were established. These models differ form each other as far as some of the simplified hypothesis are eliminated. The first two models consider a uniform distribution of loads along the secondary system. The third model establishes a randomic distribution of loads on the restricted studying area. Following an application example, comparison is proceeded among the developed models. Eventually the conclusions, some possible applications of the method on Distribution system studies and research topics for further developments are settled.

Distribution planning

Dynamic programming

Low voltage distribution systems

Planejamento da distribuição

Programação dinâmica

Sistemas de distribuição secundária

Uncertainty analysis and application on smart homes and smart grids : big data approaches

Shi, Heng

January 2018

Methods for uncertainty quantification (UQ) and mitigation in the electrical power system are very basic, Monte Carlo (MC) method and its meta methods are generally deployed in most applications, due to its simplicity and easy to be generalised. They are adequate for a traditional power system when the load is predictable, and generation is controllable. However, the large penetration of low carbon technologies, such as solar panels, electric vehicles, and energy storage, has necessitated the needs for more comprehensive approaches to uncertainty as these technologies introduce new sources of uncertainties with larger volume and diverse characteristics, understanding source and consequences of uncertainty becomes highly complex issues. Traditional methods assume that for a given system it has a unique uncertainty characteristic, hence deal with the uncertainty of the system as a single component in applications. However, this view is no longer applicable in the new context as it neglects the important underlying information associated with individual uncertainty components. Therefore, this thesis aims at: i) systematically developing UQ methodologies to identify, discriminate, and quantify different uncertainty components (forward UQ), and critically to model and trace the associated sources independently (inverse UQ) to deliver new uncertainty information, such as, how uncertainty components generated from its sources, how uncertainty components correlate with each other and how uncertainty components propagate through system aggregation; ii) applying the new uncertainty information to further improve a range of fundamental power system applications from Load Forecasting (LF) to Energy Management System (EMS).In the EMS application, the proposed forward UQ methods enable the development of a decentralised system that is able to tap into the new uncertainty information concerning the correlations between load pattern across individual households, the characteristics of uncertainty components and their propagation through aggregation. The decentralised EMS was able to achieve peak and uncertainty reduction by 18% and 45% accordingly at the grid level. In the LF application, this thesis developed inverse UQ through a deep learning model to directly build the connection between uncertainty components and its corresponding sources. For Load Forecasting on expectation (point LF) and probability (probabilistic LF) and witnessed 20%/12% performance improvement compared to the state-of-the-art, such as Support Vector Regression (SVR), Autoregressive Integrated Moving Average (ARIMA), and Multiple Linear Quantile Regression (MLQR).

621.3

Coordenação de dispositivos de proteção contra surtos em baixa tensão: ênfase instalações nucleares. / Low-voltage surge pretective device coordination: emphasis nuclear facilities.

Sad Sandrini Borsoi

15 December 2017

O trabalho apresenta uma metodologia aplicável à coordenação de dispositivos de proteção contra surtos em sistemas de corrente alternada de baixa tensão. Esta tem como base a adequação dos níveis de isolamento e imunidade dos equipamentos elétricos e eletrônicos e de energia absorvida pelos dispositivos de proteção. A principal motivação está relacionada aos critérios de segurança e confiabilidade requeridos por instalações nucleares, em que a coordenação da proteção contra surtos assume um importante papel. Uma metodologia interativa é implementada visando otimizar o processo de análise e especificação dos dispositivos de proteção, considerando a adoção de métodos analíticos e numéricos. Modelos de equipamentos elétricos e eletrônicos, quando submetidos a surtos de tensão e corrente, além dos dispositivos de proteção contra surtos, são implementados no simulador de transitórios eletromagnéticos - ATP. Destacam-se nestes estudos, as análises de configurações e arranjos do sistema elétrico, assim como seus parâmetros, a influência destes na configuração ou arranjo ótimo dos dispositivos de proteção, além do atendimento aos requisitos das normas aplicáveis. / The work presents a methodology regarding to low-voltage surge protective device coordination. This is based on adequacy of the isolation and immunity level of electrical and electronic equipment and the energy absorbed by the protective devices. The main motivation is related to the required nuclear plant reliability and safety criteria, in whose the surge protection coordination can assume an important role. An interactive methodology is carried out to optimize the analysis and the protection device specification, considering the adoption of analytical and numerical methods. Electrical and electronic equipment models, when submitted to voltage and current surges, in addition to surge protective devices, are implemented in the electromagnetic transient simulator - ATP. In these studies, the analysis of electrical system configurations and arrangements, as well as their parameters, and their influence on the configuration or optimum protective device arrangement, besides compliance with the requirements of applicable standards are highlighted.

Compatibilidade eletromagnética

Descarga atmosférica

Low-voltage protective device

Nuclear facilities

Safety requirements

Surge protection coordination

Análise e aplicação de compensação reativa em redes secundária de distribuição com cargas não lineares /

Mertens Junior, Ernesto Alberto.

January 2008

Orientador: Luis Carlos Origa de Oliveira / Banca: José Carlos Rossi / Banca: Olivio Carlos Nascimento Souto / Resumo: O presente trabalho avalia a viabilidade técnica da aplicação de compensação reativa em circuitos secundários aéreos de baixa tensão, através da aplicação de capacitores e / ou filtros para aplicação em Baixa Tensão, buscando assim uma otimização dos reativos presentes nas redes secundárias. Considerando-se as constantes mudanças que vêm ocorrendo no cenário de distribuição de energia elétrica, devido ao grande avanço da eletrônica de potência e de cargas não lineares cada vez mais presentes no sistema elétrico, fazem-se necessários estudos para diagnosticar como e em que níveis tais mudanças podem estar afetando as características das redes de distribuição. Verifica-se que tais cargas, possuem um baixo fator de potência, e podem aumentar significativamente o nível de correntes harmônicas devido às técnicas de chaveamento utilizadas nestes dispositivos. Com isto, acentuam-se os problemas da propagação das distorções de forma de onda das correntes às tensões da rede, além de aumentar consideravelmente as perdas de energia elétrica ao longo de seus condutores e transformadores. Há necessidade de se conhecer as características dessas cargas de forma a permitir a correta modelagem das mesmas. O objetivo deste trabalho é identificar o perfil da rede secundária frente aos níveis de harmônicos e fator de potência, permitindo a adequada aplicação de filtros e capacitores para instalação no secundário dos transformadores de distribuição, visando a correção do fator de potência nos circuitos, redução do reativo circulante, das perdas elétricas e eventualmente dos níveis de distorção harmônica. Avaliando-se as interferências no carregamento dos transformadores de distribuição e melhoria do perfil da tensão de alimentação. Neste sentido, foi feita uma campanha de monitoramento em alguns circuitos selecionados... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: This paper seeks to evaluate the technical feasibility of applying for compensation reactive side air circuits in low-voltage, by the application of capacitors and / or filters for use in the Low Voltage, thereby seeking an optimization of reactive present in the secondary networks. Analysis with a focus on secondary distribution network should consider a new factor, which is the proliferation of non-linear loads. Considering the constant changes that are occurring in the scenario of distribution of electric energy, due to the general advancement of power electronics and nonlinear loads increasingly present in the electrical system, are made necessary studies to diagnose how and to what levels such changes may be affecting the characteristics of distribution networks. It appears that such loads, have a low power factor, and can significantly increase the level of harmonic currents because of the techniques used in these switching devices. With this, stressing the problems of the spread of distortions of waveform of the current tensions to the network, in addition to considerably increase the loss of power over their drivers and processors. Thus, the objective of this study is to identify the profile of the network front secondary levels of harmonics and power factor, allowing the proper implementation of filters and capacitors for installation of transformers in the secondary distribution, aiming to correct the power factor in circuits, Reducing the reactive stock, loss of electrical and possibly the levels of harmonic distortion. Judging is interference in the shipment of processors for distribution and improving the profile of the supply voltage. In this sense, there was a campaign tracking in some selected circuits, computer simulations were also conducted, equipment developed and deployed pilot projects. / Mestre

Energia elétrica - Transmissão.

Electrical losses. eng

Power factor. eng

Levels of voltage. eng

Harmonic distortion. eng

Low voltage capacitors banks. eng

Desenvolvimento de um smart trafo para monitoramento e telemetria de dados em sistemas de distribuição de energia elétrica / Development of a smart trafo for data monitoring and telemetry in electric energy distribution systems

Portal, Renne Takao Meguro

11 May 2017

Com o crescimento constante da infraestrutura do sistema de distribuição de baixa tensão, tem-se a necessidade de um monitoramento mais preciso das grandezas elétricas no ponto de conexão com os clientes. O impacto da implantação de sistemas smart grids são positivos, visto que para o lado do consumidor o acompanhamento do consumo de forma online permite realizar um melhor planejamento, e para o lado da concessionária, o levantamento de perfil dos clientes e planejamento de demanda, visto que os medidores podem fornecer os dados em tempo real de horários de maior consumo e acompanhamento dos níveis, de forma a adequar conforme os níveis de qualidade de energia definidos pelo módulo 8 PRODIST. Além do acompanhamento, das variáveis e limites, este projeto poderá atuar de forma a auxiliar as companhias elétricas a comparar os pontos de cargas estimadas com o fornecimento para detectar possíveis fraudes no ponto de distribuição. Outro aspecto importante é tornar possível a integração com uma rede de clientes que além de consumidores podem tornar-se pequenas unidades geradoras, alimentando o sistema maior. / With the constant growth of the infrastructure of the low voltage distribution system, there is a need for a more refined monitoring of the electrical quantities in the distribution network. The impact of the implementation of smart grids systems are positive, since for the consumer side the monitoring of consumption in an online way allows to carry out consumption planning, and for the side of the concessionaire, customer profile survey and demand planning, Since the meters can provide the real time data of schedules of greater consumption and monitoring of the levels, in order to adapt according to the levels of quality of energy defined by the module 8 PRODIST. In addition to the monitoring of variables and limits, this project may act in a way that helps utilities compare the estimated load points with the supply to detect possible fraud at the distribution point. Another important aspect is to make it possible to integrate with a network of customers that in addition to consumers can become small generating units, feeding the larger system.

Smart grid

Baixa tensão

Distribution system

Low voltage

Rede secundária

Secondary distribuition grid

Sistema de distribuição

Smart grid

Transformadores

Transformers

Just-In-Time Power Gating of GasP Circuits

Padwal, Prachi Gulab

13 February 2013

In modern integrated circuits, one way to reduce power consumption is to turn off power to parts of the circuit when those are idle. This method is called power gating. This thesis presents a state-preserving technique to achieve power savings in GasP family of asynchronous circuits by turning off the power when the circuit is idle. The power control logic turns on the power in anticipation of the receiving data. The power control logic turns off the power when the stage is idle either because it is empty or because the pipeline is clogged. The low logical effort of GasP circuits makes just-in-time power gating possible on a stage-by-stage basis. A new latch called Lazy Latch is introduced in this thesis. The lazy latch preserves its output and permits power gating of its larger transistors. The lazy latch is power efficient because it drives strongly only when necessary. A new latch called Blended Latch is proposed in this thesis which blends the advantages of the Conventional latches and the Lazy latches. Performance of power gating is evaluated by comparing the power-gated pipeline against the non-power gated pipeline. Power savings achieved are dependent on the duty cycle of operation. The fact that just-in-time power gating achieves power savings after it is idle for a minimum of 106 cycles makes it useful in limited applications where a quick start is required after long idle times.

Logic circuits

Electrical and Computer Engineering

Other Computer Sciences

Prospects of voltage regulators for next generation computer microprocessors

López Julià, Toni

18 June 2010

Synchronous buck converter based multiphase architectures are evaluated to determine whether or not the most widespread voltage regulator topology can meet the power delivery requirements of next generation computer microprocessors. According to the prognostications, the load current will rise to 200A along with the decrease of the supply voltage to 0.5V and staggering tight dynamic and static load line tolerances. In view of these demands, researchers face serious challenges to bring forth compliant solutions that can further offer acceptable conversion efficiencies and minimum mainboard area occupancy. Among the most prominent investigation fronts are those surveying fundamental technology improvements aiming at making power semiconductor devices more effective at high switching frequency. The latter is of critical importance as the increase of the switching frequency is fundamentally recognized as the way forward to enhance power density conversion. Provided that switching losses must be kept low to enable the miniaturization of the filter components, one primary goal is to cope with semiconductor and system integration technologies enabling fast dynamic operation of ultra-low ON resistance power switches. This justifies the main focus of this thesis work, centered around a comprehensive analysis of the MOSFET switching behavior in the synchronous buck converter. The MOSFETs dynamic operation, far from being well describable with the traditional clamped inductive hard-switching mode, is strongly influenced by a number of frequently ignored linear and nonlinear parasitic elements that must be taken into account in order to fully predict real switching waveforms, understand their dynamics, and most importantly, identify and quantify the related mechanisms leading to heat generation. This will be revealed from in-depth investigations of the switched converter under fast switching speeds and heavy load. Recognizing the key relevance of appropriate modeling tools that support this task, the second focal point of the thesis aims at developing a number of suitable models for the switching analysis of power MOSFETs. Combined with a series of design guidelines and optimization procedures, these models form the basis of a proposed methodological approach, where numerical computations replace the usually enormous experimental effort to elucidate the most effective pathways towards reducing power losses. This gives rise to the concept referred to as virtual design loop, which is successfully applied to the development of a new power MOSFET technology offering outstanding dynamic and static performance characteristics. From a system perspective, the limits of the power density conversion will be explored for this and other emerging technologies that promise to open up a new paradigm in power integration capabilities.

Voltage regulators

Power mosfets

High switching frequency

Buck converter

Syncaronous

Microprocessor

Power supply

High current

Low voltage

621.3

Power quality in low voltage grids with integrated microproduction

Einarsson, Mårten

January 2010

This report seeks to evaluate and predict possible power quality issues regarding Fortums engagement in the project of Stockholm Royal Seaport. Stockholm Royal Seaport is a city district planned by Stockholm Municipality to be constructed based on sustainable urban city principles. Fortum has, together with additional partners, engaged in the challenge to create a sustainable energy system. This is thought to be achieved through several measures. Energy saving actions are incorporated at several levels and there is a plan to create a “smart grid” for the electricity supply. A smart grid has no strict definition but in this case a key feature is “demand-response” which effectively means a way to optimize the consumption to have a more balanced consumption over the 24 hours of a day. One of the key components in the smart grid is the “active house” which is planned to have several specific features separating it from an ordinary house. It is planned to have its own contribution to electricity production using solar cells and an energy storage using batteries. Another feature is thought to be both automation and economic incentives measures to achieve peak load reduction. This thesis has taken the perspective of the end customer in the active house and has tried to evaluate the power quality to be experienced. An investigation regarding the different components has been carried out to get an overview from the mentioned perspective and identify possible problems or issues that may require attention in the realization of Stockholm Royal Seaport. It has been found that no major problems are to be expected but some smaller issues has arisen that might be worthwhile giving some attention.

Power quality

low voltage grid

solar cells

micro production

smart grid

Stockholm Royal Seaport

Electric power engineering

Elkraftteknik