Chemnitzer Informatik-Berichte / Chemnitz Computer Science Reports

29 August 2017

Die Informatik ist von besonderer Bedeutung für die Gestaltung unser alltäglichen Lebensumstände und ist eine Schlüsseltechnologie des 21. Jahrhunderts. Die Fakultät für Informatik vertritt dieses Fachgebiet umfassend und kompetent mit anwendungsorientierten Schwerpunktsetzungen. In unseren Forschungsschwerpunkten - Eingebettete selbstorganisierende Systeme - Intelligente multimediale Systeme - Parallele verteilte Systeme bieten wir international wettbewerbsfähige Forschung und Entwicklung zu aktuellen Problemstellungen. Unsere Lehre basiert auf dem Leitmotiv der beständigen Erneuerung aus der Forschung. Hieraus abgeleitet bieten wir zeitgemäße Bachelor- und Masterstudiengänge mit hervorragenden Studienbedingungen. Die Fakultät hat den Anspruch eines möglichst persönlichen Umgangs zwischen Lehrkörper und Studenten. Mit der Schriftenreihe „Chemnitzer Informatik Berichte“ geben wir Einblicke in die Forschungspraxis der Fakultät. Dabei werden unterschiedliche Forschungsthemen aus den drei Forschungsschwerpunkten und allen Professuren der Fakultät vorgestellt. / Computer science, as a key technology of the 21th century, has an exceptional impact on our everyday life and living standards. The Faculty of Computer Science represents this scientific field in a comprehensive and proficient manner with an application-orientated choice of topics. In the fields of - Embedded and self-organizing systems - Intelligent multimedia systems - Parallel and distributed systems we offer research and development for current problems and challenges on an internationally competitive level. The guiding principle of our education is the continuous innovation through advances in research. Consequently, we are able to provide modern Bachelor and Master programs with excellent academic conditions. The faculty strives to provide a maximally personal interaction between students and staff. With the series of publications „Chemnitz Computer Science Reports“ we give insigths into the reasearch practice of the faculty. We present different subjects of research from the tree research fields and all of the professorships of the Faculty of Computer Science.

Informatik

Technische Informatik

Angewandte Informatik

Theoretische Informatik

Praktische Informatik

Eingebettete Systeme

Parallele Systeme

Verteilte Systeme

Intelligente Systeme

Computer Science

Technical Computer Science

Applied Computer Science

Theoretical Computer Science

Practical Computer Science

Embedded systems

Parallel systems

Distributed systems

Intelligent systems

ddc:004

Informatik

Technische Informatik

Angewandte Informatik

Theoretische Informatik

Interconnect Planning for Physical Design of 3D Integrated Circuits

Knechtel, Johann

14 March 2014

Vertical stacking—based on modern manufacturing and integration technologies—of multiple 2D chips enables three-dimensional integrated circuits (3D ICs). This exploitation of the third dimension is generally accepted for aiming at higher packing densities, heterogeneous integration, shorter interconnects, reduced power consumption, increased data bandwidth, and realizing highly-parallel systems in one device. However, the commercial acceptance of 3D ICs is currently behind its expectations, mainly due to challenges regarding manufacturing and integration technologies as well as design automation. This work addresses three selected, practically relevant design challenges: (i) increasing the constrained reusability of proven, reliable 2D intellectual property blocks, (ii) planning different types of (comparatively large) through-silicon vias with focus on their impact on design quality, as well as (iii) structural planning of massively-parallel, 3D-IC-specific interconnect structures during 3D floorplanning. A key concept of this work is to account for interconnect structures and their properties during early design phases in order to support effective and high-quality 3D-IC-design flows. To tackle the above listed challenges, modular design-flow extensions and methodologies have been developed. Experimental investigations reveal the effectiveness and efficiency of the proposed techniques, and provide findings on 3D integration with particular focus on interconnect structures. We suggest consideration of these findings when formulating guidelines for successful 3D-IC design automation.:1 Introduction 1.1 The 3D Integration Approach for Electronic Circuits 1.2 Technologies for 3D Integrated Circuits 1.3 Design Approaches for 3D Integrated Circuits 2 State of the Art in Design Automation for 3D Integrated Circuits 2.1 Thermal Management 2.2 Partitioning and Floorplanning 2.3 Placement and Routing 2.4 Power and Clock Delivery 2.5 Design Challenges 3 Research Objectives 4 Planning Through-Silicon Via Islands for Block-Level Design Reuse 4.1 Problems for Design Reuse in 3D Integrated Circuits 4.2 Connecting Blocks Using Through-Silicon Via Islands 4.2.1 Problem Formulation and Methodology Overview 4.2.2 Net Clustering 4.2.3 Insertion of Through-Silicon Via Islands 4.2.4 Deadspace Insertion and Redistribution 4.3 Experimental Investigation 4.3.1 Wirelength Estimation 4.3.2 Configuration 4.3.3 Results and Discussion 4.4 Summary and Conclusions 5 Planning Through-Silicon Vias for Design Optimization 5.1 Deadspace Requirements for Optimized Planning of Through-Silicon Vias 5.2 Multiobjective Design Optimization of 3D Integrated Circuits 5.2.1 Methodology Overview and Configuration 5.2.2 Techniques for Deadspace Optimization 5.2.3 Design-Quality Analysis 5.2.4 Planning Different Types of Through-Silicon Vias 5.3 Experimental Investigation 5.3.1 Configuration 5.3.2 Results and Discussion 5.4 Summary and Conclusions 6 3D Floorplanning for Structural Planning of Massive Interconnects 6.1 Block Alignment for Interconnects Planning in 3D Integrated Circuits 6.2 Corner Block List Extended for Block Alignment 6.2.1 Alignment Encoding 6.2.2 Layout Generation: Block Placement and Alignment 6.3 3D Floorplanning Methodology 6.3.1 Optimization Criteria and Phases and Related Cost Models 6.3.2 Fast Thermal Analysis 6.3.3 Layout Operations 6.3.4 Adaptive Optimization Schedule 6.4 Experimental Investigation 6.4.1 Configuration 6.4.2 Results and Discussion 6.5 Summary and Conclusions 7 Research Summary, Conclusions, and Outlook Dissertation Theses Notation Glossary Bibliography / Dreidimensional integrierte Schaltkreise (3D-ICs) beruhen auf neuartigen Herstellungs- und Integrationstechnologien, wobei vor allem “klassische” 2D-ICs vertikal zu einem neuartigen 3D-System gestapelt werden. Dieser Ansatz zur Erschließung der dritten Dimension im Schaltkreisentwurf ist nach Expertenmeinung dazu geeignet, höhere Integrationsdichten zu erreichen, heterogene Integration zu realisieren, kürzere Verdrahtungswege zu ermöglichen, Leistungsaufnahmen zu reduzieren, Datenübertragungsraten zu erhöhen, sowie hoch-parallele Systeme in einer Baugruppe umzusetzen. Aufgrund von technologischen und entwurfsmethodischen Schwierigkeiten bleibt jedoch bisher die kommerzielle Anwendung von 3D-ICs deutlich hinter den Erwartungen zurück. In dieser Arbeit werden drei ausgewählte, praktisch relevante Problemstellungen der Entwurfsautomatisierung von 3D-ICs bearbeitet: (i) die Verbesserung der (eingeschränkten) Wiederverwendbarkeit von zuverlässigen 2D-Intellectual-Property-Blöcken, (ii) die komplexe Planung von verschiedenartigen, verhältnismäßig großen Through-Silicion Vias unter Beachtung ihres Einflusses auf die Entwurfsqualität, und (iii) die strukturelle Einbindung von massiv-parallelen, 3D-IC-spezifischen Verbindungsstrukturen während der Floorplanning-Phase. Das Ziel dieser Arbeit besteht darin, Verbindungsstrukturen mit deren wesentlichen Eigenschaften bereits in den frühen Phasen des Entwurfsprozesses zu berücksichtigen. Dies begünstigt einen qualitativ hochwertigen Entwurf von 3D-ICs. Die in dieser Arbeit vorgestellten modularen Entwurfsprozess-Erweiterungen bzw. -Methodiken dienen zur effizienten Lösung der oben genannten Problemstellungen. Experimentelle Untersuchungen bestätigen die Wirksamkeit sowie die Effektivität der erarbeiten Methoden. Darüber hinaus liefern sie praktische Erkenntnisse bezüglich der Anwendung von 3D-ICs und der Planung deren Verbindungsstrukturen. Diese Erkenntnisse sind zur Ableitung von Richtlinien für den erfolgreichen Entwurf von 3D-ICs dienlich.:1 Introduction 1.1 The 3D Integration Approach for Electronic Circuits 1.2 Technologies for 3D Integrated Circuits 1.3 Design Approaches for 3D Integrated Circuits 2 State of the Art in Design Automation for 3D Integrated Circuits 2.1 Thermal Management 2.2 Partitioning and Floorplanning 2.3 Placement and Routing 2.4 Power and Clock Delivery 2.5 Design Challenges 3 Research Objectives 4 Planning Through-Silicon Via Islands for Block-Level Design Reuse 4.1 Problems for Design Reuse in 3D Integrated Circuits 4.2 Connecting Blocks Using Through-Silicon Via Islands 4.2.1 Problem Formulation and Methodology Overview 4.2.2 Net Clustering 4.2.3 Insertion of Through-Silicon Via Islands 4.2.4 Deadspace Insertion and Redistribution 4.3 Experimental Investigation 4.3.1 Wirelength Estimation 4.3.2 Configuration 4.3.3 Results and Discussion 4.4 Summary and Conclusions 5 Planning Through-Silicon Vias for Design Optimization 5.1 Deadspace Requirements for Optimized Planning of Through-Silicon Vias 5.2 Multiobjective Design Optimization of 3D Integrated Circuits 5.2.1 Methodology Overview and Configuration 5.2.2 Techniques for Deadspace Optimization 5.2.3 Design-Quality Analysis 5.2.4 Planning Different Types of Through-Silicon Vias 5.3 Experimental Investigation 5.3.1 Configuration 5.3.2 Results and Discussion 5.4 Summary and Conclusions 6 3D Floorplanning for Structural Planning of Massive Interconnects 6.1 Block Alignment for Interconnects Planning in 3D Integrated Circuits 6.2 Corner Block List Extended for Block Alignment 6.2.1 Alignment Encoding 6.2.2 Layout Generation: Block Placement and Alignment 6.3 3D Floorplanning Methodology 6.3.1 Optimization Criteria and Phases and Related Cost Models 6.3.2 Fast Thermal Analysis 6.3.3 Layout Operations 6.3.4 Adaptive Optimization Schedule 6.4 Experimental Investigation 6.4.1 Configuration 6.4.2 Results and Discussion 6.5 Summary and Conclusions 7 Research Summary, Conclusions, and Outlook Dissertation Theses Notation Glossary Bibliography

info:eu-repo/classification/ddc/621.3

ddc:621.3

info:eu-repo/classification/ddc/620

ddc:620

Elektrotechnik; Elektronik; CAD

Chemnitzer Informatik-Berichte

Hardt, Wolfram

29 August 2017

Die Informatik ist von besonderer Bedeutung für die Gestaltung unser alltäglichen Lebensumstände und ist eine Schlüsseltechnologie des 21. Jahrhunderts. Die Fakultät für Informatik vertritt dieses Fachgebiet umfassend und kompetent mit anwendungsorientierten Schwerpunktsetzungen. In unseren Forschungsschwerpunkten - Eingebettete selbstorganisierende Systeme - Intelligente multimediale Systeme - Parallele verteilte Systeme bieten wir international wettbewerbsfähige Forschung und Entwicklung zu aktuellen Problemstellungen. Unsere Lehre basiert auf dem Leitmotiv der beständigen Erneuerung aus der Forschung. Hieraus abgeleitet bieten wir zeitgemäße Bachelor- und Masterstudiengänge mit hervorragenden Studienbedingungen. Die Fakultät hat den Anspruch eines möglichst persönlichen Umgangs zwischen Lehrkörper und Studenten. Mit der Schriftenreihe „Chemnitzer Informatik Berichte“ geben wir Einblicke in die Forschungspraxis der Fakultät. Dabei werden unterschiedliche Forschungsthemen aus den drei Forschungsschwerpunkten und allen Professuren der Fakultät vorgestellt. / Computer science, as a key technology of the 21th century, has an exceptional impact on our everyday life and living standards. The Faculty of Computer Science represents this scientific field in a comprehensive and proficient manner with an application-orientated choice of topics. In the fields of - Embedded and self-organizing systems - Intelligent multimedia systems - Parallel and distributed systems we offer research and development for current problems and challenges on an internationally competitive level. The guiding principle of our education is the continuous innovation through advances in research. Consequently, we are able to provide modern Bachelor and Master programs with excellent academic conditions. The faculty strives to provide a maximally personal interaction between students and staff. With the series of publications „Chemnitz Computer Science Reports“ we give insigths into the reasearch practice of the faculty. We present different subjects of research from the tree research fields and all of the professorships of the Faculty of Computer Science.

info:eu-repo/classification/ddc/004

ddc:004

Verification of Branching-Time and Alternating-Time Properties for Exogenous Coordination Models

Klüppelholz, Sascha

19 March 2012

Information and communication systems enter an increasing number of areas of daily lives. Our reliance and dependence on the functioning of such systems is rapidly growing together with the costs and the impact of system failures. At the same time the complexity of hardware and software systems extends to new limits as modern hardware architectures become more and more parallel, dynamic and heterogenous. These trends demand for a closer integration of formal methods and system engineering to show the correctness of complex systems within the design phase of large projects. The goal of this thesis is to introduce a formal holistic approach for modeling, analysis and synthesis of parallel systems that potentially addresses complex system behavior at any layer of the hardware/software stack. Due to the complexity of modern hardware and software systems, we aim to have a hierarchical modeling framework that allows to specify the behavior of a parallel system at various levels of abstraction and that facilitates designing complex systems in an iterative refinement procedure, in which more detailed behavior is added successively to the system description. In this context, the major challenge is to provide modeling formalisms that are expressive enough to address all of the above issues and are at the same time amenable to the application of formal methods for proving that the system behavior conforms to its specification. In particular, we are interested in specification formalisms that allow to apply formal verification techniques such that the underlying model checking problems are still decidable within reasonable time and space bounds. The presented work relies on an exogenous modeling approach that allows a clear separation of coordination and computation and provides an operational semantic model where formal methods such as model checking are well suited and applicable. The channel-based exogenous coordination language Reo is used as modeling formalism as it supports hierarchical modeling in an iterative top-down refinement procedure. It facilitates reusability, exchangeability, and heterogeneity of components and forms the basis to apply formal verification methods. At the same time Reo has a clear formal semantics based on automata, which serve as foundation to apply formal methods such as model checking. In this thesis new modeling languages are presented that allow specifying complex systems in terms of Reo and automata models which yield the basis for a holistic approach on modeling, verification and synthesis of parallel systems. The second main contribution of this thesis are tailored branching-time and alternating time temporal logics as well as corresponding model checking algorithms. The thesis includes results on the theoretical complexity of the underlying model checking problems as well as practical results. For the latter the presented approach has been implemented in the symbolic verification tool set Vereofy. The implementation within Vereofy and evaluation of the branching-time and alternating-time model checker is the third main contribution of this thesis.

info:eu-repo/classification/ddc/004

ddc:004

Confiabilidade em sistemas coerentes: um modelo bayesiano Weibull. / Reliability in coherent systems: a bayesian weibull model

Bhering, Felipe Lunardi

28 June 2013

O principal objetivo desse trabalho é introduzir um modelo geral bayesiano Weibull hierárquico para dados censurados que estima a função de confiabilidade de cada componente para sistemas de confiabilidade coerentes. São introduzidos formas de estimação mais sólidas, sem a inserção de estimativas médias nas funções de confiabilidade (estimador plug-in). Através desse modelo, são expostos e solucionados exemplos na área de confiabilidade como sistemas em série, sistemas em paralelo, sistemas k-de-n, sistemas bridge e um estudo clínico com dados censurados intervalares. As soluções consideram que as componentes tem diferentes distribuições, e nesse caso, o sistema bridge ainda não havia solução na literatura. O modelo construído é geral e pode ser utilizado para qualquer sistema coerente e não apenas para dados da área de confiabilidade, como também na área de sobrevivência, dentre outros. Diversas simulações com componentes com diferentes proporções de censura, distintas médias, três tipos de distribuições e tamanhos de amostra foram feitas em todos os sistemas para avaliar a eficácia do modelo. / The main purpose of this work is to introduce a general bayesian Weibull hierarchical model for censored data which estimates each reliability components function from coherent systems. Its introduced estimation procedures which do not consider plug-in estimators. Also, its exposed and solved with this model examples in reliability area such as series systems, parallel systems, k-out-of-n systems, bridge systems and a clinical study with interval censoring data. The problem of bridge system hadnt a solution before for the case of each component with different distribution. Actually, this model is general and can be used to analyse any kind of coherent system and censored data, not only reliability ones, but also survival data and others. Several components simulations with different censored proportions, distinct means, three kinds of distributions and sample size were made in all systems to evaluate model efficiency.

algoritmo EM

Análise de Sobrevivência

Bayesian Statistics

bridge systems

Censored Data

censura à direita

censura à esquerda

censura intervalar

Confiabilidade

Dados Censurados

distribuição Weibull.

EM algorithm

Estatística Bayesiana

Hierarchical Models

interval censoring

left censoring

MCMC

MCMC

Métodos de Monte Carlo

Modelos Hierárquicos

Monte Carlo Methods

parallel systems

Programação em R

R programming

redundant systems

Reliability

right censoring

series systems

Simulações

Simulation

sistemas bridge

sistemas em paralelo

sistemas em série

sistemas redundante

Survival Analysis

Weibull distribution.

Confiabilidade em sistemas coerentes: um modelo bayesiano Weibull. / Reliability in coherent systems: a bayesian weibull model

Felipe Lunardi Bhering

28 June 2013

O principal objetivo desse trabalho é introduzir um modelo geral bayesiano Weibull hierárquico para dados censurados que estima a função de confiabilidade de cada componente para sistemas de confiabilidade coerentes. São introduzidos formas de estimação mais sólidas, sem a inserção de estimativas médias nas funções de confiabilidade (estimador plug-in). Através desse modelo, são expostos e solucionados exemplos na área de confiabilidade como sistemas em série, sistemas em paralelo, sistemas k-de-n, sistemas bridge e um estudo clínico com dados censurados intervalares. As soluções consideram que as componentes tem diferentes distribuições, e nesse caso, o sistema bridge ainda não havia solução na literatura. O modelo construído é geral e pode ser utilizado para qualquer sistema coerente e não apenas para dados da área de confiabilidade, como também na área de sobrevivência, dentre outros. Diversas simulações com componentes com diferentes proporções de censura, distintas médias, três tipos de distribuições e tamanhos de amostra foram feitas em todos os sistemas para avaliar a eficácia do modelo. / The main purpose of this work is to introduce a general bayesian Weibull hierarchical model for censored data which estimates each reliability components function from coherent systems. Its introduced estimation procedures which do not consider plug-in estimators. Also, its exposed and solved with this model examples in reliability area such as series systems, parallel systems, k-out-of-n systems, bridge systems and a clinical study with interval censoring data. The problem of bridge system hadnt a solution before for the case of each component with different distribution. Actually, this model is general and can be used to analyse any kind of coherent system and censored data, not only reliability ones, but also survival data and others. Several components simulations with different censored proportions, distinct means, three kinds of distributions and sample size were made in all systems to evaluate model efficiency.

algoritmo EM

Análise de Sobrevivência

censura à direita

censura à esquerda

censura intervalar

Confiabilidade

Dados Censurados

distribuição Weibull.

Estatística Bayesiana

MCMC

Métodos de Monte Carlo

Modelos Hierárquicos

Programação em R

Simulações

sistemas bridge

sistemas em paralelo

sistemas em série

sistemas redundante

Bayesian Statistics

bridge systems

Censored Data

EM algorithm

Hierarchical Models

interval censoring

left censoring

MCMC

Monte Carlo Methods

parallel systems

R programming

redundant systems

Reliability

right censoring

series systems

Simulation

Survival Analysis

Weibull distribution.