We will review some of the major results in random graphs and some of the more challenging open problems. We will cover algorithmic and structural questions. We will touch on newer models, including those related to the WWW.

Random graphs

From the Publisher:
This work covers all aspects of physical design. The book is a core reference for graduate students and CAD professionals. For students, concept and algorithms are presented in an intuitive manner. For CAD professionals, the material presents a balance of theory and practice. An extensive bibliography is provided which is useful for finding advanced material on a topic. At the end of each chapter, exercises are provided, which range in complexity from simple to research level.

Algorithms for VLSI Physical Design Automation

This paper is the result of a literature study carried out by the authors. It is a review of the different attempts made to solve the Travelling Salesman Problem with Genetic Algorithms. We present crossover and mutation operators, developed to tackle the Travelling Salesman Problem with Genetic Algorithms with different representations such as: binary representation, path representation, adjacency representation, ordinal representation and matrix representation. Likewise, we show the experimental results obtained with different standard examples using combination of crossover and mutation operators in relation with path representation.

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Genetic Algorithms for the Travelling Salesman Problem: A Review of Representations and Operators

Hybrid metaheuristics have received considerable interest these recent years in the field of combinatorial optimization. A wide variety of hybrid approaches have been proposed in the literature. In this paper, a taxonomy of hybrid metaheuristics is presented in an attempt to provide a common terminology and classification mechanisms. The taxonomy, while presented in terms of metaheuristics, is also applicable to most types of heuristics and exact optimization algorithms.

As an illustration of the usefulness of the taxonomy an annoted bibliography is given which classifies a large number of hybrid approaches according to the taxonomy.

A Taxonomy of Hybrid Metaheuristics

The effect of faults on electronic systems has been studied since the 1970s when it was noticed that radioactive particles caused errors in chips. This led to further research on the effect of charged particles on silicon, motivated by the aerospace industry who was becoming concerned about the effect of faults in airborn electronic systems. Since then various mechanisms for fault creation and propagation have been discovered and researched. This paper covers the various methods that can be used to induce faults in semiconductors and exploit such errors maliciously. Several examples of attacks stemming from the exploiting of faults are explained. Finally a series of countermeasures to thwart these attacks are described.

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The Sorcerer's Apprentice Guide to Fault Attacks.

Over the last few years, an increasing number of safety-critical tasks have been demanded of computer systems. In this paper, a software-based approach for developing safety-critical applications is analyzed. The technique is based on the introduction of additional executable assertions to check the correct execution of the program control flow. By applying the proposed technique, several benchmark applications have been hardened against transient errors. Fault injection campaigns have been performed to evaluate the fault detection capability of the proposed technique in comparison with state-of-the-art alternative assertion-based methods. Experimental results show that the proposed approach is far more effective than the other considered techniques in terms of fault detection capability, at the cost of a limited increase in memory requirements and in performance overhead.

Soft-error detection using control flow assertions

The paper describes a systematic approach for automatically introducing data and code redundancy into an existing program written using a high-level language. The transformations aim at making the program able to detect most of the soft-errors affecting data and code, independently of the Error Detection Mechanisms (EDMs) possibly implemented by the hardware. Since the transformations can be automatically applied as a pre-compilation phase, the programmer is freed from the cost and responsibility of introducing suitable EDMs in its code. Preliminary experimental results are reported, showing the fault coverage obtained by the method, as well as some figures concerning the slow-down and code size increase it causes.

/pdf/soft-error-detection-through-software-fault-tolerance-3qj99thudj.pdf

Soft-error detection through software fault-tolerance techniques

This book presents the theory behind software-implemented hardware fault tolerance, as well as the practical aspects needed to put it to work on real examples. By evaluating accurately the advantages and disadvantages of the already available approaches, the book provides a guide to developers willing to adopt software-implemented hardware fault tolerance in their applications. Moreover, the book identifies open issues for researchers willing to improve the already available techniques.

Software-Implemented Hardware Fault Tolerance

This paper deals with automated test pattern generation for large synchronous sequential circuits and describes an approach based on genetic algorithms. A prototype system named GATTO is used to assess the effectiveness of the approach in terms of result quality and CPU time requirements. An account is also given of a distributed version of the same algorithm, named GATTO*. Being based on the PVM library, it runs on any network of workstations and is able to either reduce the required time, or improve the result quality with respect to the monoprocessor version. In the latter case, in terms of Fault Coverage, the results are the best ones reported in the literature for most of the largest standard benchmark circuits. The flexibility of GATTO enables users to easily tradeoff fault coverage and CPU time to suit their needs.

GATTO: a genetic algorithm for automatic test pattern generation for large synchronous sequential circuits

This paper deals with a software modification strategy allowing on-line detection of transient errors. Being based on a set of rules for introducing redundancy in the high-level code, the method can be completely automated, and is therefore particularly suited for low-cost safety-critical microprocessor-based applications. Experimental results are presented and discussed, demonstrating the effectiveness of the approach in terms of fault detection capabilities.

Maurizio Rebaudengo

Papers

Soft-error detection using control flow assertions

Soft-error detection through software fault-tolerance techniques

Software-Implemented Hardware Fault Tolerance

GATTO: a genetic algorithm for automatic test pattern generation for large synchronous sequential circuits

Experimentally evaluating an automatic approach for generating safety-critical software with respect to transient errors