TY  - THES
A1  - Luckow, André
T1  - A dependable middleware for enhancing the fault tolerance of distributed computations in grid environments
Y1  - 2009
CY  - Potsdam
ER  - 
TY  - JOUR
A1  - Andjelkovic, Marko
A1  - Simevski, Aleksandar
A1  - Chen, Junchao
A1  - Schrape, Oliver
A1  - Stamenkovic, Zoran
A1  - Krstić, Miloš
A1  - Ilic, Stefan
A1  - Ristic, Goran
A1  - Jaksic, Aleksandar
A1  - Vasovic, Nikola
A1  - Duane, Russell
A1  - Palma, Alberto J.
A1  - Lallena, Antonio M.
A1  - Carvajal, Miguel A.
T1  - A design concept for radiation hardened RADFET readout system for space applications
JF  - Microprocessors and microsystems
N2  - Instruments for measuring the absorbed dose and dose rate under radiation exposure, known as radiation dosimeters, are indispensable in space missions. They are composed of radiation sensors that generate current or voltage response when exposed to ionizing radiation, and processing electronics for computing the absorbed dose and dose rate. Among a wide range of existing radiation sensors, the Radiation Sensitive Field Effect Transistors (RADFETs) have unique advantages for absorbed dose measurement, and a proven record of successful exploitation in space missions. It has been shown that the RADFETs may be also used for the dose rate monitoring. In that regard, we propose a unique design concept that supports the simultaneous operation of a single RADFET as absorbed dose and dose rate monitor. This enables to reduce the cost of implementation, since the need for other types of radiation sensors can be minimized or eliminated. For processing the RADFET's response we propose a readout system composed of analog signal conditioner (ASC) and a self-adaptive multiprocessing system-on-chip (MPSoC). The soft error rate of MPSoC is monitored in real time with embedded sensors, allowing the autonomous switching between three operating modes (high-performance, de-stress and fault-tolerant), according to the application requirements and radiation conditions.
KW  - RADFET
KW  - Radiation hardness
KW  - Absorbed dose
KW  - Dose rate
KW  - Self-adaptive MPSoC
Y1  - 2022
U6  - https://doi.org/10.1016/j.micpro.2022.104486
SN  - 0141-9331
SN  - 1872-9436
VL  - 90
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Delgrande, James Patrick
A1  - Schaub, Torsten
A1  - Tompits, Hans
T1  - A framework for compiling preferences in logic programs
Y1  - 2003
ER  - 
TY  - JOUR
A1  - Kreowsky, Philipp
A1  - Stabernack, Christian Benno
T1  - A full-featured FPGA-based pipelined architecture for SIFT extraction
JF  - IEEE access : practical research, open solutions / Institute of Electrical and Electronics Engineers
N2  - Image feature detection is a key task in computer vision. Scale Invariant Feature Transform (SIFT) is a prevalent and well known algorithm for robust feature detection. However, it is computationally demanding and software implementations are not applicable for real-time performance. In this paper, a versatile and pipelined hardware implementation is proposed, that is capable of computing keypoints and rotation invariant descriptors on-chip. All computations are performed in single precision floating-point format which makes it possible to implement the original algorithm with little alteration. Various rotation resolutions and filter kernel sizes are supported for images of any resolution up to ultra-high definition. For full high definition images, 84 fps can be processed. Ultra high definition images can be processed at 21 fps.
KW  - Field programmable gate arrays
KW  - Convolution
KW  - Signal processing
KW  - algorithms
KW  - Kernel
KW  - Image resolution
KW  - Histograms
KW  - Feature extraction
KW  - Scale-invariant feature transform (SIFT)
KW  - field-programmable gate array
KW  - (FPGA)
KW  - image processing
KW  - computer vision
KW  - parallel processing
KW  - architecture
KW  - real-time
KW  - hardware architecture
Y1  - 2021
U6  - https://doi.org/10.1109/ACCESS.2021.3104387
SN  - 2169-3536
VL  - 9
SP  - 128564
EP  - 128573
PB  - Inst. of Electr. and Electronics Engineers
CY  - New York, NY
ER  - 
TY  - JOUR
A1  - Delgrande, James Patrick
A1  - Schaub, Torsten
A1  - Tompits, Hans
T1  - A general framework for expressing preferences in causal reasoning and planning
N2  - We consider the problem of representing arbitrary preferences in causal reasoning and planning systems. In planning, a preference may be seen as a goal or constraint that is desirable, but not necessary, to satisfy. To begin, we define a very general query language for histories, or interleaved sequences of world states and actions. Based on this, we specify a second language in which preferences are defined. A single preference defines a binary relation on histories, indicating that one history is preferred to the other. From this, one can define global preference orderings on the set of histories, the maximal elements of which are the preferred histories. The approach is very general and flexible; thus it constitutes a base language in terms of which higher-level preferences may be defined. To this end, we investigate two fundamental types of preferences that we call choice and temporal preferences. We consider concrete strategies for these types of preferences and encode them in terms of our framework. We suggest how to express aggregates in the approach, allowing, e.g. the expression of a preference for histories with lowest total action costs. Last, our approach can be used to express other approaches and so serves as a common framework in which such approaches can be expressed and compared. We illustrate this by indicating how an approach due to Son and Pontelli can be encoded in our approach, as well as the language PDDL3.
Y1  - 2007
UR  - http://logcom.oxfordjournals.org/
U6  - https://doi.org/10.1093/logcom/exm046
SN  - 0955-792X
ER  - 
TY  - JOUR
A1  - Delgrande, James Patrick
A1  - Schaub, Torsten
A1  - Tompits, Hans
T1  - A generic compiler for ordered logic programs
Y1  - 2001
SN  - 3-540-42593-4
ER  - 
TY  - JOUR
A1  - Anger, Christian
A1  - Konczak, Kathrin
A1  - Linke, Thomas
A1  - Schaub, Torsten
T1  - A Glimpse of Answer Set Programming
Y1  - 2005
UR  - http://www.cs.uni-potsdam.de/~konczak/Papers/ankolisc05.pdf
SN  - 0170-4516
ER  - 
TY  - CHAP
A1  - Kiy, Alexander
A1  - Geßner, Hendrik
A1  - Lucke, Ulrike
A1  - Grünewald, Franka
T1  - A Hybrid and Modular Framework for Mobile Campus Applications
T2  - i-com
N2  - Mobile devices and associated applications (apps) are an indispensable part of daily life and provide access to important information anytime and anywhere. However, the availability of university-wide services in the mobile sector is still poor. If they exist they usually result from individual activities of students and teachers. Mobile applications can have an essential impact on the improvement of students’ self-organization as well as on the design and enhancement of specific learning scenarios, though. This article introduces a mobile campus app framework, which integrates central campus services and decentralized learning applications. An analysis of strengths and weaknesses of different approaches is presented to summarize and evaluate them in terms of requirements, development, maintenance and operation. The article discusses the underlying service-oriented architecture that allows transferring the campus app to other universities or institutions at reasonable cost. It concludes with a presentation of the results as well as ongoing discussions and future work
KW  - Mobile Campus Application
KW  - Hybrid App
KW  - Framework
KW  - Service-oriented Architecture
Y1  - 2015
UR  - http://www.degruyter.com/view/j/icom.2015.14.issue-1/icom-2015-0016/icom-2015-0016.xml
U6  - https://doi.org/10.1515/icom-2015-0016
SN  - 2196-6826
VL  - 2015
IS  - 14
SP  - 63
EP  - 73
PB  - de Gruyter
CY  - Berlin
ER  - 
TY  - JOUR
A1  - Tiwari, Abhishek
A1  - Prakash, Jyoti
A1  - Groß, Sascha
A1  - Hammer, Christian
T1  - A large scale analysis of Android
BT  - Web hybridization
JF  - The journal of systems and software
N2  - Many Android applications embed webpages via WebView components and execute JavaScript code within Android. Hybrid applications leverage dedicated APIs to load a resource and render it in a WebView. Furthermore, Android objects can be shared with the JavaScript world. However, bridging the interfaces of the Android and JavaScript world might also incur severe security threats: Potentially untrusted webpages and their JavaScript might interfere with the Android environment and its access to native features.
No general analysis is currently available to assess the implications of such hybrid apps bridging the two worlds. To understand the semantics and effects of hybrid apps, we perform a large-scale study on the usage of the hybridization APIs in the wild. We analyze and categorize the parameters to hybridization APIs for 7,500 randomly selected and the 196 most popular applications from the Google Playstore as well as 1000 malware samples. Our results advance the general understanding of hybrid applications, as well as implications for potential program analyses, and the current security situation: We discovered thousands of flows of sensitive data from Android to JavaScript, the vast majority of which could flow to potentially untrustworthy code. Our analysis identified numerous web pages embedding vulnerabilities, which we exemplarily exploited. Additionally, we discovered a multitude of applications in which potentially untrusted JavaScript code may interfere with (trusted) Android objects, both in benign and malign applications.
KW  - Android hybrid apps
KW  - static analysis
KW  - information flow control
Y1  - 2020
U6  - https://doi.org/10.1016/j.jss.2020.110775
SN  - 0164-1212
SN  - 1873-1228
VL  - 170
PB  - Elsevier
CY  - New York
ER  - 
TY  - JOUR
A1  - Hlawiczka, A.
A1  - Gössel, Michael
A1  - Sogomonyan, Egor S.
T1  - A linear code-preserving signature analyzer COPMISR
Y1  - 1997
SN  - 0-8186-7810-0
ER  - 
TY  - INPR
A1  - Arnold, Holger
T1  - A linearized DPLL calculus with clause learning (2nd, revised version)
N2  - Many formal descriptions of DPLL-based SAT algorithms either do not include all essential proof techniques applied by modern SAT solvers or are bound to particular heuristics or data structures. This makes it difficult to analyze proof-theoretic properties or the search complexity of these algorithms. In this paper we try to improve this situation by developing a nondeterministic proof calculus that models the functioning of SAT algorithms based on the DPLL calculus with clause learning. This calculus is independent of implementation details yet precise enough to enable a formal analysis of realistic DPLL-based SAT algorithms.
N2  - Viele formale Beschreibungen DPLL-basierter SAT-Algorithmen enthalten entweder nicht alle wesentlichen Beweistechniken, die in modernen SAT-Solvern implementiert sind, oder sind an bestimmte Heuristiken oder Datenstrukturen gebunden. Dies erschwert die Analyse beweistheoretischer Eigenschaften oder der Suchkomplexität derartiger Algorithmen. Mit diesem Artikel versuchen wir, diese Situation durch die Entwicklung eines nichtdeterministischen Beweiskalküls zu verbessern, der die Arbeitsweise von auf dem DPLL-Kalkül basierenden SAT-Algorithmen mit Klausellernen modelliert. Dieser Kalkül ist unabhängig von Implementierungsdetails, aber dennoch präzise genug, um eine formale Analyse realistischer DPLL-basierter SAT-Algorithmen zu ermöglichen.
KW  - Automatisches Beweisen
KW  - Logikkalkül
KW  - SAT
KW  - DPLL
KW  - Klausellernen
KW  - automated theorem proving
KW  - logical calculus
KW  - SAT
KW  - DPLL
KW  - clause learning
Y1  - 2009
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-29080
ER  - 
TY  - JOUR
A1  - Arnold, Holger
T1  - A linearized DPLL calculus with learning
N2  - This paper describes the proof calculus LD for clausal propositional logic, which is a linearized form of the well-known DPLL calculus extended by clause learning. It is motivated by the demand to model how current SAT solvers built on clause learning are working, while abstracting from decision heuristics and implementation details. The calculus is proved sound and terminating. Further, it is shown that both the original DPLL calculus and the conflict-directed backtracking calculus with clause learning, as it is implemented in many current SAT solvers, are complete and proof-confluent instances of the LD calculus.
N2  - Dieser Artikel beschreibt den Beweiskalkül LD für aussagenlogische Formeln in Klauselform. Dieser Kalkül ist eine um Klausellernen erweiterte linearisierte Variante des bekannten DPLL-Kalküls. Er soll dazu dienen, das Verhalten von auf Klausellernen basierenden SAT-Beweisern zu modellieren, wobei von Entscheidungsheuristiken und Implementierungsdetails abstrahiert werden soll. Es werden Korrektheit und Terminierung des Kalküls bewiesen. Weiterhin wird gezeigt, dass sowohl der ursprüngliche DPLL-Kalkül als auch der konfliktgesteuerte Rücksetzalgorithmus mit Klausellernen, wie er in vielen aktuellen SAT-Beweisern implementiert ist, vollständige und beweiskonfluente Spezialisierungen des LD-Kalküls sind.
KW  - SAT
KW  - DPLL
KW  - Klausellernen
KW  - Automatisches Beweisen
KW  - SAT
KW  - DPLL
KW  - Clause Learning
KW  - Automated Theorem Proving
Y1  - 2007
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-15421
ER  - 
TY  - THES
A1  - Scherfenberg, Ivonne
T1  - A logic-based Framwork to enable Attribute Assurance for Digital Identities in Service-oriented Architectures and the Web
Y1  - 2012
CY  - Potsdam
ER  - 
TY  - JOUR
A1  - Besnard, Philippe
A1  - Hunter, Anthony
T1  - A logic-based theory of deductive arguments
Y1  - 2001
SN  - 0004-3702
ER  - 
TY  - JOUR
A1  - Saposhnikov, V. V.
A1  - Saposhnikov, Vl. V.
A1  - Gössel, Michael
A1  - Morosov, Andrej
T1  - A method of construction of combinational self-checking units with detection of all single faults
Y1  - 1999
ER  - 
TY  - THES
A1  - Andjelkovic, Marko
T1  - A methodology for characterization, modeling and mitigation of single event transient effects in CMOS standard combinational cells
T1  - Eine Methode zur Charakterisierung, Modellierung und Minderung von SET Effekten in kombinierten CMOS-Standardzellen
N2  - With the downscaling of CMOS technologies, the radiation-induced Single Event Transient (SET) effects in combinational logic have become a critical reliability issue for modern integrated circuits (ICs) intended for operation under harsh radiation conditions. The SET pulses generated in combinational logic may propagate through the circuit and eventually result in soft errors. It has thus become an imperative to address the SET effects in the early phases of the radiation-hard IC design. In general, the soft error mitigation solutions should accommodate both static and dynamic measures to ensure the optimal utilization of available resources. An efficient soft-error-aware design should address synergistically three main aspects: (i) characterization and modeling of soft errors, (ii) multi-level soft error mitigation, and (iii) online soft error monitoring. Although significant results have been achieved, the effectiveness of SET characterization methods, accuracy of predictive SET models, and efficiency of SET mitigation measures are still critical issues. Therefore, this work addresses the following topics: (i) Characterization and modeling of SET effects in standard combinational cells, (ii) Static mitigation of SET effects in standard combinational cells, and (iii) Online particle detection, as a support for dynamic soft error mitigation.
Since the standard digital libraries are widely used in the design of radiation-hard ICs, the characterization of SET effects in standard cells and the availability of accurate SET models for the Soft Error Rate (SER) evaluation are the main prerequisites for efficient radiation-hard design. This work introduces an approach for the SPICE-based standard cell characterization with the reduced number of simulations, improved SET models and optimized SET sensitivity database. It has been shown that the inherent similarities in the SET response of logic cells for different input levels can be utilized to reduce the number of required simulations. Based on characterization results, the fitting models for the SET sensitivity metrics (critical charge, generated SET pulse width and propagated SET pulse width) have been developed. The proposed models are based on the principle of superposition, and they express explicitly the dependence of the SET sensitivity of individual combinational cells on design, operating and irradiation parameters. In contrast to the state-of-the-art characterization methodologies which employ extensive look-up tables (LUTs) for storing the simulation results, this work proposes the use of LUTs for storing the fitting coefficients of the SET sensitivity models derived from the characterization results. In that way the amount of characterization data in the SET sensitivity database is reduced significantly.
The initial step in enhancing the robustness of combinational logic is the application of gate-level mitigation techniques. As a result, significant improvement of the overall SER can be achieved with minimum area, delay and power overheads. For the SET mitigation in standard cells, it is essential to employ the techniques that do not require modifying the cell structure. This work introduces the use of decoupling cells for improving the robustness of standard combinational cells. By insertion of two decoupling cells at the output of a target cell, the critical charge of the cell’s output node is increased and the attenuation of short SETs is enhanced. In comparison to the most common gate-level techniques (gate upsizing and gate duplication), the proposed approach provides better SET filtering. However, as there is no single gate-level mitigation technique with optimal performance, a combination of multiple techniques is required. This work introduces a comprehensive characterization of gate-level mitigation techniques aimed to quantify their impact on the SET robustness improvement, as well as introduced area, delay and power overhead per gate. By characterizing the gate-level mitigation techniques together with the standard cells, the required effort in subsequent SER analysis of a target design can be reduced. The characterization database of the hardened standard cells can be utilized as a guideline for selection of the most appropriate mitigation solution for a given design.
As a support for dynamic soft error mitigation techniques, it is important to enable the online detection of energetic particles causing the soft errors. This allows activating the power-greedy fault-tolerant configurations based on N-modular redundancy only at the high radiation levels. To enable such a functionality, it is necessary to monitor both the particle flux and the variation of particle LET, as these two parameters contribute significantly to the system SER. In this work, a particle detection approach based on custom-sized pulse stretching inverters is proposed. Employing the pulse stretching inverters connected in parallel enables to measure the particle flux in terms of the number of detected SETs, while the particle LET variations can be estimated from the distribution of SET pulse widths. This approach requires a purely digital processing logic, in contrast to the standard detectors which require complex mixed-signal processing. Besides the possibility of LET monitoring, additional advantages of the proposed particle detector are low detection latency and power consumption, and immunity to error accumulation.
The results achieved in this thesis can serve as a basis for establishment of an overall soft-error-aware database for a given digital library, and a comprehensive multi-level radiation-hard design flow that can be implemented with the standard IC design tools. The following step will be to evaluate the achieved results with the irradiation experiments.
N2  - Mit der Verkleinerung der Strukturen moderner CMOS-Technologien sind strahlungsinduzierte Single Event Transient (SET)-Effekte in kombinatorischer Logik zu einem kritischen Zuverlässigkeitsproblem in integrierten Schaltkreisen (ICs) geworden, die für den Betrieb unter rauen Strahlungsbedingungen (z. B. im Weltraum) vorgesehen sind. Die in der Kombinationslogik erzeugten SET-Impulse können durch die Schaltungen propagieren und schließlich in Speicherelementen (z.B. Flip-Flops oder Latches) zwischengespeichert werden, was zu sogenannten Soft-Errors  und folglich zu Datenbeschädigungen oder einem Systemausfall führt. Daher ist es in den frühen Phasen des strahlungsharten IC-Designs unerlässlich geworden, die SET-Effekte systematisch anzugehen. Im Allgemeinen sollten die Lösungen zur Minderung von Soft-Errors sowohl statische als auch dynamische Maßnahmen berücksichtigen, um die optimale Nutzung der verfügbaren Ressourcen sicherzustellen. Somit sollte ein effizientes Soft-Error-Aware-Design drei Hauptaspekte synergistisch berücksichtigen: (i) die Charakterisierung und Modellierung von Soft-Errors, (ii) eine mehrstufige-Soft-Error-Minderung und (iii) eine Online-Soft-Error-Überwachung. Obwohl signifikante Ergebnisse erzielt wurden, sind die Wirksamkeit der SET-Charakterisierung, die Genauigkeit von Vorhersagemodellen und die Effizienz der Minderungsmaßnahmen immer noch die kritischen Punkte. 
Daher stellt diese Arbeit die folgenden Originalbeiträge vor: 
• Eine ganzheitliche Methodik zur SPICE-basierten Charakterisierung von SET-Effekten in kombinatorischen Standardzellen und entsprechenden Härtungskonfigurationen auf Gate-Ebene mit reduzierter Anzahl von Simulationen und reduzierter SET-Sensitivitätsdatenbank.
• Analytische Modelle für SET-Empfindlichkeit (kritische Ladung, erzeugte SET-Pulsbreite und propagierte SET-Pulsbreite), basierend auf dem Superpositionsprinzip und Anpassung der Ergebnisse aus SPICE-Simulationen.
• Ein Ansatz zur SET-Abschwächung auf Gate-Ebene, der auf dem Einfügen von zwei Entkopplungszellen am Ausgang eines Logikgatters basiert, was den Anstieg der kritischen Ladung und die signifikante Unterdrückung kurzer SETs beweist.
• Eine vergleichende Charakterisierung der vorgeschlagenen SET-Abschwächungstechnik mit Entkopplungszellen und sieben bestehenden Techniken durch eine quantitative Bewertung ihrer Auswirkungen auf die Verbesserung der SET-Robustheit einzelner Logikgatter.
• Ein Partikeldetektor auf Basis von Impulsdehnungs-Invertern in Skew-Größe zur Online-Überwachung des Partikelflusses und der LET-Variationen mit rein digitaler Anzeige.
Die in dieser Dissertation erzielten Ergebnisse können als Grundlage für den Aufbau einer umfassenden Soft-Error-aware-Datenbank für eine gegebene digitale Bibliothek und eines umfassenden mehrstufigen strahlungsharten Designflusses dienen, der mit den Standard-IC-Designtools implementiert werden kann. Im nächsten Schritt werden die mit den Bestrahlungsexperimenten erzielten Ergebnisse ausgewertet.
KW  - Single Event Transient
KW  - radiation hardness design
KW  - Single Event Transient
KW  - Strahlungshärte Entwurf
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-534843
ER  - 
TY  - THES
A1  - Wolter, Christian
T1  - A methodology for model-driven process security
Y1  - 2010
CY  - Potsdam
ER  - 
TY  - JOUR
A1  - Brüning, Stefan
A1  - Schaub, Torsten
T1  - A model-based approach to consistency-checking
Y1  - 1996
SN  - 3-540-61286-6
ER  - 
TY  - JOUR
A1  - Delgrande, James
A1  - Schaub, Torsten
A1  - Tompits, Hans
A1  - Woltran, Stefan
T1  - A model-theoretic approach to belief change in answer set programming
JF  - ACM transactions on computational logic
N2  - We address the problem of belief change in (nonmonotonic) logic programming under answer set semantics. Our formal techniques are analogous to those of distance-based belief revision in propositional logic. In particular, we build upon the model theory of logic programs furnished by SE interpretations, where an SE interpretation is a model of a logic program in the same way that a classical interpretation is a model of a propositional formula. Hence we extend techniques from the area of belief revision based on distance between models to belief change in logic programs.
 We first consider belief revision: for logic programs P and Q, the goal is to determine a program R that corresponds to the revision of P by Q, denoted P * Q. We investigate several operators, including (logic program) expansion and two revision operators based on the distance between the SE models of logic programs. It proves to be the case that expansion is an interesting operator in its own right, unlike in classical belief revision where it is relatively uninteresting. Expansion and revision are shown to satisfy a suite of interesting properties; in particular, our revision operators satisfy all or nearly all of the AGM postulates for revision.
 We next consider approaches for merging a set of logic programs, P-1,...,P-n. Again, our formal techniques are based on notions of relative distance between the SE models of the logic programs. Two approaches are examined. The first informally selects for each program P-i those models of P-i that vary the least from models of the other programs. The second approach informally selects those models of a program P-0 that are closest to the models of programs P-1,...,P-n. In this case, P-0 can be thought of as a set of database integrity constraints. We examine these operators with regards to how they satisfy relevant postulate sets.
 Last, we present encodings for computing the revision as well as the merging of logic programs within the same logic programming framework. This gives rise to a direct implementation of our approach in terms of off-the-shelf answer set solvers. These encodings also reflect the fact that our change operators do not increase the complexity of the base formalism.
KW  - Theory
KW  - Answer set programming
KW  - belief revision
KW  - belief merging
KW  - program encodings
KW  - strong equivalence
Y1  - 2013
U6  - https://doi.org/10.1145/2480759.2480766
SN  - 1529-3785
VL  - 14
IS  - 2
PB  - Association for Computing Machinery
CY  - New York
ER  - 
TY  - JOUR
A1  - Sogomonyan, Egor S.
A1  - Singh, Adit D.
A1  - Gössel, Michael
T1  - A multi-mode scannable memory element for high test application efficiency and delay testing
Y1  - 1999
ER  - 
TY  - JOUR
A1  - Sogomonyan, Egor S.
A1  - Singh, Adit D.
A1  - Gössel, Michael
T1  - A multi-mode scannable memory element for high test application efficiency and delay testing
Y1  - 1998
ER  - 
TY  - THES
A1  - Ghasemzadeh, Mohammad
T1  - A new algorithm  for  the quantified satisfiability problem, based on zero-suppressed binary decision diagrams and memoization
T1  - Ein neuer Algorithmus für die quantifizierte Aussagenlogik, basierend auf Zero-suppressed BDDs und Memoization
N2  - Quantified Boolean formulas (QBFs) play an important role in theoretical computer science. QBF extends propositional logic in such a way that many advanced forms of reasoning can be easily formulated and evaluated. In this dissertation we present our ZQSAT, which is an algorithm for evaluating quantified Boolean formulas. ZQSAT is based on ZBDD: Zero-Suppressed Binary Decision Diagram , which is a variant of BDD, and an adopted version of the DPLL algorithm. It has been implemented in C using the CUDD: Colorado University Decision Diagram package.  The capability of ZBDDs in storing sets of subsets efficiently enabled us to store the clauses of a QBF very compactly and let us to embed the notion of memoization to the DPLL algorithm. These points led us to implement the search algorithm in such a way that we could store and reuse the results of all previously solved subformulas with a little overheads. ZQSAT can solve some sets of standard QBF benchmark problems (known to be hard for DPLL based algorithms) faster than the best existing solvers. In addition to prenex-CNF, ZQSAT accepts prenex-NNF formulas. We show and prove how this capability can be exponentially beneficial.
N2  - In der Dissertation stellen wir einen neuen Algorithmus vor, welcher Formeln der quantifizierten Aussagenlogik (engl. Quantified Boolean formula, kurz QBF) löst. QBFs sind eine Erweiterung der klassischen Aussagenlogik um die Quantifizierung über aussagenlogische Variablen. Die quantifizierte Aussagenlogik ist dabei eine konservative Erweiterung der Aussagenlogik, d.h. es können nicht mehr Theoreme nachgewiesen werden als in der gewöhnlichen Aussagenlogik. Der Vorteil der Verwendung von QBFs ergibt sich durch die Möglichkeit, Sachverhalte kompakter zu repräsentieren.  SAT (die Frage nach der Erfüllbarkeit einer Formel der Aussagenlogik) und QSAT (die Frage nach der Erfüllbarkeit einer QBF) sind zentrale Probleme in der Informatik mit einer Fülle von Anwendungen, wie zum Beispiel in der Graphentheorie, bei Planungsproblemen, nichtmonotonen Logiken oder bei der Verifikation. Insbesondere die Verifikation von Hard- und Software ist ein sehr aktuelles und wichtiges Forschungsgebiet in der Informatik.  Unser Algorithmus zur Lösung von QBFs basiert auf sogenannten ZBDDs (engl. Zero-suppressed Binary decision Diagrams), welche eine Variante der BDDs (engl. Binary decision Diagrams) sind. BDDs sind eine kompakte Repräsentation von Formeln der Aussagenlogik. Der Algorithmus kombiniert nun bekannte Techniken zum Lösen von QBFs mit der ZBDD-Darstellung unter Verwendung geeigneter Heuristiken und Memoization. Memoization ermöglicht dabei das einfache Wiederverwenden bereits gelöster Teilprobleme.  Der Algorithmus wurde unter Verwendung des CUDD-Paketes (Colorado University Decision Diagram) implementiert und unter dem Namen ZQSAT veröffentlicht. In Tests konnten wir nachweisen, dass ZQSAT konkurrenzfähig zu existierenden QBF-Beweisern ist, in einigen Fällen sogar bessere Resultate liefern kann.
KW  - Binäres Entscheidungsdiagramm
KW  - Erfüllbarkeitsproblem
KW  - DPLL
KW  - Zero-Suppressed Binary Decision Diagram (ZDD)
KW  - Formeln der quantifizierten Aussagenlogik
KW  - Erfüllbarkeit einer Formel der Aussagenlogik
KW  - ZQSA
KW  - DPLL
KW  - Zero-Suppressed Binary Decision Diagram (ZDD)
KW  - Quantified Boolean Formula (QBF)
KW  - Satisfiability
KW  - ZQSAT
Y1  - 2005
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-6378
ER  - 
TY  - JOUR
A1  - Gohlke, Mario
T1  - A new approach for model-based recognition using colour regions
Y1  - 1995
ER  - 
TY  - JOUR
A1  - Saposhnikov, V. V.
A1  - Morosov, Andrej
A1  - Saposhnikov, Vl. V.
A1  - Gössel, Michael
T1  - A new design method for self-checking unidirectional combinational circuits
Y1  - 1998
ER  - 
TY  - JOUR
A1  - Richter, Peter
T1  - A new deterministic approach for the optimization of cable layouts for power supply systems
Y1  - 1995
ER  - 
TY  - JOUR
A1  - Gössel, Michael
T1  - A new method of redundancy addition for circuit optimization
JF  - Preprint / Universität Potsdam, Institut für Informatik
Y1  - 1999
SN  - 0946-7580
VL  - 1999, 08
PB  - Univ.
CY  - Potsdam
ER  - 
TY  - JOUR
A1  - Sogomonyan, Egor S.
A1  - Gössel, Michael
T1  - A new parity preserving multi-input signature analyser
Y1  - 1995
ER  - 
TY  - BOOK
A1  - Sogomonyan, Egor S.
A1  - Marienfeld, Daniel
A1  - Ocheretnij, V.
A1  - Gössel, Michael
T1  - A new self-checking sum-bit duplicated carry-select adder
T3  - Preprint / Universität Potsdam, Institut für Informatik
Y1  - 2003
SN  - 0946-7580
VL  - 2003, 5
PB  - Univ.
CY  - Potsdam
ER  - 
TY  - JOUR
A1  - Gössel, Michael
A1  - Sogomonyan, Egor S.
T1  - A new self-testing parity checker for ultra-reliable applications
Y1  - 1996
ER  - 
TY  - JOUR
A1  - Gössel, Michael
A1  - Sogomonyan, Egor S.
A1  - Morosov, Andrej
T1  - A new totally error propagating compactor for arbitrary cores with digital interfaces
Y1  - 1999
ER  - 
TY  - JOUR
A1  - Kawanabe, Motoaki
A1  - Blanchard, Gilles
A1  - Sugiyama, Masashi
A1  - Spokoiny, Vladimir G.
A1  - Müller, Klaus-Robert
T1  - A novel dimension reduction procedure for searching non-Gaussian subspaces
N2  - In this article, we consider high-dimensional data which contains a low-dimensional non-Gaussian structure contaminated with Gaussian noise and propose a new linear method to identify the non-Gaussian subspace. Our method NGCA (Non-Gaussian Component Analysis) is based on a very general semi-parametric framework and has a theoretical guarantee that the estimation error of finding the non-Gaussian components tends to zero at a parametric rate. NGCA can be used not only as preprocessing for ICA, but also for extracting and visualizing more general structures like clusters. A numerical study demonstrates the usefulness of our method
Y1  - 2006
UR  - http://www.springerlink.com/content/105633/
U6  - https://doi.org/10.1007/11679363_19
SN  - 0302-9743
ER  - 
TY  - JOUR
A1  - Liang, Feng
A1  - Liu, Yunzhen
A1  - Liu, Hai
A1  - Ma, Shilong
A1  - Schnor, Bettina
T1  - A Parallel Job Execution Time Estimation Approach Based on User Submission Patterns within Computational Grids
JF  - International journal of parallel programming
N2  - Scheduling performance in computational grid can potentially benefit a lot from accurate execution time estimation for parallel jobs. Most existing approaches for the parallel job execution time estimation, however, require ample past job traces and the explicit correlations between the job execution time and the outer layout parameters such as the consumed processor numbers, the user-estimated execution time and the job ID, which are hard to obtain or reveal. This paper presents and evaluates a novel execution time estimation approach for parallel jobs, the user-behavior clustering for execution time estimation, which can give more accurate execution time estimation for parallel jobs through exploring the job similarity and revealing the user submission patterns. Experiment results show that compared to the state-of-art algorithms, our approach can improve the accuracy of the job execution time estimation up to 5.6 %, meanwhile the time that our approach spends on calculation can be reduced up to 3.8 %.
KW  - User submission pattern
KW  - Parallel job execution time estimation
KW  - Computational grid
Y1  - 2015
U6  - https://doi.org/10.1007/s10766-013-0294-1
SN  - 0885-7458
SN  - 1573-7640
VL  - 43
IS  - 3
SP  - 440
EP  - 454
PB  - Springer
CY  - New York
ER  - 
TY  - JOUR
A1  - Gössel, Michael
A1  - Sogomonyan, Egor S.
T1  - A parity-preserving multi-input signature analyzer and it application for concurrent checking and BIST
Y1  - 1996
ER  - 
TY  - JOUR
A1  - Pearce, David
A1  - Sarsakov, Vladimir
A1  - Schaub, Torsten
A1  - Tompits, Hans
A1  - Woltran, Stefan
T1  - A polynomial translation of logic programs with nested expressions into disjunctive logic programs
Y1  - 2002
SN  - 3-540-43930-7
ER  - 
TY  - JOUR
A1  - Pearce, David
A1  - Sarsakov, Vladimir
A1  - Schaub, Torsten
A1  - Tompits, Hans
A1  - Woltran, Stefan
T1  - A polynomial translation of logic programs with nested expressions into disjunctive logic programs : preliminary report
Y1  - 2002
ER  - 
TY  - JOUR
A1  - Delgrande, James Patrick
A1  - Schaub, Torsten
A1  - Tompits, Hans
T1  - A preference-based framework for updating logic programs
Y1  - 2007
SN  - 978-3-540- 72199-4
ER  - 
TY  - JOUR
A1  - Delgrande, James Patrick
A1  - Schaub, Torsten
A1  - Tompits, Hans
T1  - A Preference-Based Framework for Updating logic Programs : preliminary reports
Y1  - 2006
UR  - http://www.easychair.org/FLoC-06/PREFS-preproceedings.pdf
ER  - 
TY  - BOOK
A1  - Polyvyanyy, Artem
A1  - Kuropka, Dominik
T1  - A Quantitative Evalution of the Enhanced Topic-based Vector Space Model
T3  - Technische Berichte des Hasso-Plattner-Instituts für Softwaresystemtechnik an der Universität Potsda
Y1  - 2007
SN  - 978-3-939469-95-7
SN  - 1613-5652
VL  - 19
PB  - Universitätsverlag Potsdam
CY  - Potsdam
ER  - 
TY  - THES
A1  - Müller, Jürgen J.
T1  - A real-time in-memory discovery service
Y1  - 2012
CY  - Potsdam
ER  - 
TY  - JOUR
A1  - Börner, Ferdinand
T1  - A remark on the finite lattice representation problem
Y1  - 1998
ER  - 
TY  - JOUR
A1  - Schöbel, Michael
T1  - A runtime environment for online processing of operating system kernel events
Y1  - 2010
SN  - 978-3-86956-036-6
ER  - 
TY  - JOUR
A1  - Sogomonyan, Egor S.
A1  - Singh, Adit D.
A1  - Gössel, Michael
T1  - A scan based concrrent BIST approach for low cost on-line testing
Y1  - 1998
ER  - 
TY  - THES
A1  - Chen, Junchao
T1  - A self-adaptive resilient method for implementing and managing the high-reliability processing system
T1  - Eine selbstadaptive belastbare Methode zum Implementieren und Verwalten von hochzuverlässigen Verarbeitungssysteme
N2  - As a result of CMOS scaling, radiation-induced Single-Event Effects (SEEs) in electronic circuits became a critical reliability issue for modern Integrated Circuits (ICs) operating under harsh radiation conditions. SEEs can be triggered in combinational or sequential logic by the impact of high-energy particles, leading to destructive or non-destructive faults, resulting in data corruption or even system failure. Typically, the SEE mitigation methods are deployed statically in processing architectures based on the worst-case radiation conditions, which is most of the time unnecessary and results in a resource overhead. Moreover, the space radiation conditions are dynamically changing, especially during Solar Particle Events (SPEs). The intensity of space radiation can differ over five orders of magnitude within a few hours or days, resulting in several orders of magnitude fault probability variation in ICs during SPEs. This thesis introduces a comprehensive approach for designing a self-adaptive fault resilient multiprocessing system to overcome the static mitigation overhead issue. This work mainly addresses the following topics: (1) Design of on-chip radiation particle monitor for real-time radiation environment detection, (2) Investigation of space environment predictor, as support for solar particle events forecast, (3) Dynamic mode configuration in the resilient multiprocessing system. Therefore, according to detected and predicted in-flight space radiation conditions, the target system can be configured to use no mitigation or low-overhead mitigation during non-critical periods of time. The redundant resources can be used to improve system performance or save power. On the other hand, during increased radiation activity periods, such as SPEs, the mitigation methods can be dynamically configured appropriately depending on the real-time space radiation environment, resulting in higher system reliability. Thus, a dynamic trade-off in the target system between reliability, performance and power consumption in real-time can be achieved. All results of this work are evaluated in a highly reliable quad-core multiprocessing system that allows the self-adaptive setting of optimal radiation mitigation mechanisms during run-time. Proposed methods can serve as a basis for establishing a comprehensive self-adaptive resilient system design process. Successful implementation of the proposed design in the quad-core multiprocessor shows its application perspective also in the other designs.
N2  - Infolge der CMOS-Skalierung wurden strahleninduzierte Einzelereignis-Effekte (SEEs) in elektronischen Schaltungen zu einem kritischen Zuverlässigkeitsproblem für moderne integrierte Schaltungen (ICs), die unter rauen Strahlungsbedingungen arbeiten. SEEs können in der kombinatorischen oder sequentiellen Logik durch den Aufprall hochenergetischer Teilchen ausgelöst werden, was zu destruktiven oder nicht-destruktiven Fehlern und damit zu Datenverfälschungen oder sogar Systemausfällen führt. Normalerweise werden die Methoden zur Abschwächung von SEEs statisch in Verarbeitungsarchitekturen auf der Grundlage der ungünstigsten Strahlungsbedingungen eingesetzt, was in den meisten Fällen unnötig ist und zu einem Ressourcen-Overhead führt. Darüber hinaus ändern sich die Strahlungsbedingungen im Weltraum dynamisch, insbesondere während Solar Particle Events (SPEs). Die Intensität der Weltraumstrahlung kann sich innerhalb weniger Stunden oder Tage um mehr als fünf Größenordnungen ändern, was zu einer Variation der Fehlerwahrscheinlichkeit in ICs während SPEs um mehrere Größenordnungen führt. In dieser Arbeit wird ein umfassender Ansatz für den Entwurf eines selbstanpassenden, fehlerresistenten Multiprozessorsystems vorgestellt, um das Problem des statischen Mitigation-Overheads zu überwinden. Diese Arbeit befasst sich hauptsächlich mit den folgenden Themen: (1) Entwurf eines On-Chip-Strahlungsteilchen Monitors zur Echtzeit-Erkennung von Strahlung Umgebungen, (2) Untersuchung von Weltraumumgebungsprognosen zur Unterstützung der Vorhersage von solaren Teilchen Ereignissen, (3) Konfiguration des dynamischen Modus in einem belastbaren Multiprozessorsystem. Daher kann das Zielsystem je nach den erkannten und vorhergesagten Strahlungsbedingungen während des Fluges so konfiguriert werden, dass es während unkritischer Zeiträume keine oder nur eine geringe Strahlungsminderung vornimmt. Die redundanten Ressourcen können genutzt werden, um die Systemleistung zu verbessern oder Energie zu sparen. In Zeiten erhöhter Strahlungsaktivität, wie z. B. während SPEs, können die Abschwächungsmethoden dynamisch und in Abhängigkeit von der Echtzeit-Strahlungsumgebung im Weltraum konfiguriert werden, was zu einer höheren Systemzuverlässigkeit führt. Auf diese Weise kann im Zielsystem ein dynamischer Kompromiss zwischen Zuverlässigkeit, Leistung und Stromverbrauch in Echtzeit erreicht werden. Alle Ergebnisse dieser Arbeit wurden in einem hochzuverlässigen Quad-Core-Multiprozessorsystem evaluiert, das die selbstanpassende Einstellung optimaler Strahlungsschutzmechanismen während der Laufzeit ermöglicht. Die vorgeschlagenen Methoden können als Grundlage für die Entwicklung eines umfassenden, selbstanpassenden und belastbaren Systementwurfsprozesses dienen. Die erfolgreiche Implementierung des vorgeschlagenen Entwurfs in einem Quad-Core-Multiprozessor zeigt, dass er auch für andere Entwürfe geeignet ist.
KW  - single event upset
KW  - solar particle event
KW  - machine learning
KW  - self-adaptive multiprocessing system
KW  - maschinelles Lernen
KW  - selbstanpassendes Multiprozessorsystem
KW  - strahleninduzierte Einzelereignis-Effekte
KW  - Sonnenteilchen-Ereignis
Y1  - 2023
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-583139
ER  - 
TY  - JOUR
A1  - Schaub, Torsten
A1  - Wang, Kewen
T1  - A semantic framework for prefernce handling in answer set programming
Y1  - 2003
ER  - 
TY  - JOUR
A1  - Goessel, Michael
A1  - Chakrabarty, Krishnendu
A1  - Ocheretnij, V.
A1  - Leininger, Andreas
T1  - A signature analysis technique for the identification of failing vectors with application to Scan-BIST
N2  - We present a new technique for uniquely identifying a single failing vector in an interval of test vectors. This technique is applicable to combinational circuits and for scan-BIST in sequential circuits with multiple scan chains. The proposed method relies on the linearity properties of the MISR and on the use of two test sequences, which are both applied to the circuit under test. The second test sequence is derived from the first in a straightforward manner and the same test pattern source is used for both test sequences. If an interval contains only a single failing vector, the algebraic analysis is guaranteed to identify it. We also show analytically that if an interval contains two failing vectors, the probability that this case is interpreted as one failing vector is very low. We present experimental results for the ISCAS benchmark circuits to demonstrate the use of the proposed method for identifying failing test vectors
Y1  - 2004
SN  - 0923-8174
ER  - 
TY  - JOUR
A1  - Besnard, Philippe
A1  - Schaub, Torsten
T1  - A simple signed system for paraconsistent reasoning
Y1  - 1996
SN  - 3-540-61630-6
ER  - 
TY  - JOUR
A1  - Seuring, Markus
A1  - Gössel, Michael
A1  - Sogomonyan, Egor S.
T1  - A structural approach for space compaction for concurrent checking and BIST
Y1  - 1998
ER  - 
TY  - BOOK
A1  - Seuring, Markus
A1  - Gössel, Michael
A1  - Sogomonyan, Egor S.
T1  - A structural approach for space compaction for concurrent checking and BIST
T3  - Preprint / Universität Potsdam, Institut für Informatik
Y1  - 1997
SN  - 0946-7580
VL  - 1997, 01
PB  - Univ. Potsdam
CY  - Potsdam [u.a.]
ER  - 
TY  - JOUR
A1  - Seuring, Markus
A1  - Gössel, Michael
T1  - A structural approach for space compaction for sequential circuits
Y1  - 1999
ER  - 
TY  - BOOK
A1  - Seuring, Markus
A1  - Gössel, Michael
T1  - A structural approach for space compaction for sequential circuits
T3  - Preprint / Universität Potsdam, Institut für Informatik
Y1  - 1998
SN  - 0946-7580
VL  - 1998, 05
PB  - Univ.
CY  - Potsdam
ER  -