Regular cell design approach considering lithography-induced process variations

The deployment delays for EUVL, forces IC design to continue using 193nm wavelength lithography with innovative and costly techniques in order to faithfully print sub-wavelength features and combat lithography induced process variations. The effect of the lithography gap in current and upcoming technologies is to cause severe distortions due to optical diffraction in the printed patterns and thus degrading manufacturing yield. Therefore, a paradigm shift in layout design is mandatory towards more regular litho-friendly cell designs in order to improve line pattern resolution. However, it is still unclear the amount of layout regularity that can be introduced and how to measure the benefits and weaknesses of regular layouts. This dissertation is focused on searching the degree of layout regularity necessary to combat lithography variability and outperform the layout quality of a design. The main contributions that have been addressed to accomplish this objective are: (1) the definition of several layout design guidelines to mitigate lithography variability; (2) the proposal of a parametric yield estimation model to evaluate the lithography impact on layout design; (3) the development of a global Layout Quality Metric (LQM) including a Regularity Metric (RM) to capture the degree of layout regularity of a layout implementation and; (4) the creation of different layout architectures exploiting the benefits of layout regularity to outperform line-pattern resolution, referred as Adaptive Lithography Aware Regular Cell Designs (ALARCs). The first part of this thesis provides several regular layout design guidelines derived from lithography simulations so that several important lithography related variation sources are minimized. Moreover, a design level methodology, referred as gate biasing, is proposed to overcome systematic layout dependent variations, across-field variations and the non-rectilinear gate effect (NRG) applied to regular fabrics by properly configuring the drawn transistor channel length. The second part of this dissertation proposes a lithography yield estimation model to predict the amount of lithography distortion expected in a printed layout due to lithography hotspots with a reduced set of lithography simulations. An efficient lithography hotspot framework to identify the different layout pattern configurations, simplify them to ease the pattern analysis and classify them according to the lithography degradation predicted using lithography simulations is presented. The yield model is calibrated with delay measurements of a reduced set of identical test circuits implemented in a CMOS 40nm technology and thus actual silicon data is utilized to obtain a more realistic yield estimation. The third part of this thesis presents a configurable Layout Quality Metric (LQM) that considering several layout aspects provides a global evaluation of a layout design with a single score. The LQM can be leveraged by assigning different weights to each evaluation metric or by modifying the parameters under analysis. The LQM is here configured following two different set of partial metrics. Note that the LQM provides a regularity metric (RM) in order to capture the degree of layout regularity applied in a layout design. Lastly, this thesis presents different ALARC designs for a 40nm technology using different degrees of layout regularity and different area overheads. The quality of the gridded regular templates is demonstrated by automatically creating a library containing 266 cells including combinational and sequential cells and synthesizing several ITC'99 benchmark circuits. Note that the regular cell libraries only presents a 9\% area penalty compared to the 2D standard cell designs used for comparison and thus providing area competitive designs. The layout evaluation of benchmark circuits considering the LQM shows that regular layouts can outperform other 2D standard cell designs depending on the layout implementation.Los continuos retrasos en la implementación de la EUVL, fuerzan que el diseño de IC se realice mediante litografía de longitud de onda de 193 nm con innovadoras y costosas técnicas para poder combatir variaciones de proceso de litografía. La gran diferencia entre la longitud de onda y el tamaño de los patrones causa severas distorsiones debido a la difracción óptica en los patrones impresos y por lo tanto degradando el yield. En consecuencia, es necesario realizar un cambio en el diseño de layouts hacia diseños más regulares para poder mejorar la resolución de los patrones. Sin embargo, todavía no está claro el grado de regularidad que se debe introducir y como medir los beneficios y los perjuicios de los diseños regulares. El objetivo de esta tesis es buscar el grado de regularidad necesario para combatir las variaciones de litografía y mejorar la calidad del layout de un diseño. Las principales contribuciones para conseguirlo son: (1) la definición de diversas reglas de diseño de layout para mitigar las variaciones de litografía; (2) la propuesta de un modelo para estimar el yield paramétrico y así evaluar el impacto de la litografía en el diseño de layout; (3) el diseño de una métrica para analizar la calidad de un layout (LQM) incluyendo una métrica para capturar el grado de regularidad de un diseño (RM) y; (4) la creación de diferentes tipos de layout explotando los beneficios de la regularidad, referidos como Adaptative Lithography Aware Regular Cell Designs (ALARCs). La primera parte de la tesis, propone las diversas reglas de diseño para layouts regulares derivadas de simulaciones de litografía de tal manera que las fuentes de variación de litografía son minimizadas. Además, se propone una metodología de diseño para layouts regulares, referida como "gate biasing" para contrarrestar las variaciones sistemáticas dependientes del layout, las variaciones en la ventana de proceso del sistema litográfico y el efecto de puerta no rectilínea para configurar la longitud del canal del transistor correctamente. La segunda parte de la tesis, detalla el modelo de estimación del yield de litografía para predecir mediante un número reducido de simulaciones de litografía la cantidad de distorsión que se espera en un layout impreso debida a "hotspots". Se propone una eficiente metodología que identifica los distintos patrones de un layout, los simplifica para facilitar el análisis de los patrones y los clasifica en relación a la degradación predecida mediante simulaciones de litografía. El modelo de yield se calibra utilizando medidas de tiempo de un número reducido de idénticos circuitos de test implementados en una tecnología CMOS de 40nm y de esta manera, se utilizan datos de silicio para obtener una estimación realista del yield. La tercera parte de este trabajo, presenta una métrica para medir la calidad del layout (LQM), que considera diversos aspectos para dar una evaluación global de un diseño mediante un único valor. La LQM puede ajustarse mediante la asignación de diferentes pesos para cada métrica de evaluación o modificando los parámetros analizados. La LQM se configura mediante dos conjuntos de medidas diferentes. Además, ésta incluye una métrica de regularidad (RM) para capturar el grado de regularidad que se aplica en un diseño. Finalmente, esta disertación presenta los distintos diseños ALARC para una tecnología de 40nm utilizando diversos grados de regularidad y diferentes impactos en área. La calidad de estos diseños se demuestra creando automáticamente una librería de 266 celdas incluyendo celdas combinacionales y secuenciales y, sintetizando diversos circuitos ITC'99. Las librerías regulares solo presentan un 9% de impacto en área comparado con diseños de celdas estándar 2D y por tanto proponiendo diseños competitivos en área. La evaluación de los circuitos considerando la LQM muestra que los diseños regulares pueden mejorar otros diseños 2D dependiendo de la implementación del layout

Implementing the IEC Common Information Model for Distribution System Operators

This thesis evaluates a move towards a Service Oriented Architecture design in ABB MicroSCADA Pro DMS 600, a Distribution Management System. The IEC standards 61968 and 61970, commonly referred to as the Common Information Model are expected to provide a foundation for building such a computing architecture in an interoperable fashion. A Service Oriented Architecture differs in some ways from the existing DMS 600 architecture. In addition to identifying these differences, a short look is given to some possible changes in the business environment of both system vendors and operators made possible by the SOA. Security and other design issues raised by SOA were discussed. The maturity of the CIM data types is evaluated by implementing a network data import functionality on the DMS 600 system using the CIM/RDF network model format. This part of the standard is found to be in a usable state for application in production environments, although additional CIM profiles would be useful. The internal communication protocols of the DMS 600 system are found to be suitable for most types of information exchanges to be translated into such CIM messages. Some Service Oriented design principles are found potentially bene cial to the DMS 600 system internally, and proposals are given for some future development work. /Kir1

INForum 2017: Atas do Nono Simpósio de Informática

Este volume contém as atas da 9.a edição do Simpósio em Informática, INForum 2017, a qual decorreu no Pavilhão de Exposições de Aveiro, em Aveiro, conjuntamente com o TechDays 2017, nos dias 12 e 13 de outubro de 2017. (...

Water Resources Management Plan: Arches National Park & Canyonlands National Park, Utah

The National Park Service recognizes the importance of preserving, conserving, and protecting water resources within its boundaries. Water resources, whether as large as the Colorado River or as small as a seep in Ernie\u27s Country of Canyonlands National Park, play a distinctive role in linking ecosystems and , in general, provide habitat for a number of organisms. To protect park water resources, the Natinoal Park Service initiated a Water REsources Planning Program in 1991. The planning program provides an essential step in developing a comprehensive understanding of a park\u27s hydrological system and the complex resource issues which surround it. The planning program includes several products including Water Resource Issues Overviews, Water Resources Scoping Reports, and Water Resources Mangement Plan