FrameSoC Workbench: Facilitating Trace Analysis through a Consistent User Interface

Execution traces are a precious instrument for debugging or performance evaluation of complex applications. They are used in multiple domains, including high performance systems and embedded systems. Given the constantly increasing trace size, powerful tools for trace analysis become essential. FrameSoC, the SoC-Trace project trace management infrastructure, provides generic solutions to facilitate trace analysis. This document describes the graphical environment provided by FrameSoC for execution trace analysis. We detail the functionalities provided to the user, as well as the mechanisms employed for the design of an intuitive, flexible and configurable environment.Les traces d'exécution sont un instrument précieux pour le débogage et l'évaluation de performances. Elles sont utilisées dans les cas d'applications complexes dans différents domaines, comme le calcul haute performance ou les systèmes embarques. Etant donné le volume croissant des traces, des outils puissants pour l'analyse de traces deviennent essentiels. FrameSoC, l'infrastructure de gestion de traces du projet SoC-Trace, fournit des solutions génériques pour simplifier l'analyse de traces. Ce document décrit en détail l'environnement graphique fourni à l'utilisateur par FrameSoC. Nous décrivons les fonctionnalités utilisateur, ainsi que les mécanismes utilisés afin d'obtenir un environnement intuitif, extensible et configurable

TOWARDS GENERIC SYSTEM OBSERVATION MANAGEMENT

Едно от най-големите предизвикателства на информатиката е да създава правилно работещи компютърни системи. За да се гарантира коректността на една система, по време на дизайн могат де се прилагат формални методи за моделиране и валидация. Този подход е за съжаление труден и скъп за приложение при мнозинството компютърни системи. Алтернативният подход е да се наблюдава и анализира поведението на системата по време на изпълнение след нейното създаване. В този доклад представям научната си работа по въпроса за наблюдение на копютърните системи. Предлагам един общ поглед на три основни страни на проблема: как трябва да се наблюдават компютърните системи, как се използват наблюденията при недетерминистични системи и как се работи по отворен, гъвкав и възпроизводим начин с наблюдения.One of the biggest challenges in computer science is to produce correct computer systems. One way of ensuring system correction is to use formal techniques to validate the system during its design. This approach is compulsory for critical systems but difficult and expensive for most computer systems. The alternative consists in observing and analyzing systems' behavior during execution. In this thesis, I present my research on system observation. I describe my contributions on generic observation mechanisms, on the use of observations for debugging nondeterministic systems and on the definition of an open, flexible and reproducible management of observations.Un des plus grands défis de l'informatique est de produire des systèmes corrects. Une manière d'assurer la correction des systèmes est d'utiliser des méthodes formelles de modélisation et de validation.Obligatoire dans le domaine des systèmes critiques, cette approche est difficile et coûteuse à mettre en place dans la plupart des systèmes informatiques.L'alternative est de vérifier le comportement des systèmes déjà développés en observant et analysant leur comportement à l'exécution.Ce mémoire présente mes contributions autour de l'observation des systèmes. Il discute de la définition de mécanismes génériques d'observation, de l'exploitation des observations pour le débogage de systèmes non déterministes et de la gestion ouverte, flexible et reproductible d'observations

Actes du 10ème Atelier en Évaluation de Performances

National audienceL'Atelier en Évaluation de Performances est une réunion destinée à faire s'exprimer et se rencontrer les jeunes chercheurs (doctorants et nouveaux docteurs) dans le domaine de la Modélisation et de l'Évaluation de Performances, une discipline consacrée à l'étude et l'optimisation de systèmes dynamiques stochastiques et/ou temporisés apparaissant en Informatique, Télécommunications, Productique et Robotique entre autres. La présentation informelle de travaux, même en cours, y est encouragée afin de renforcer les interactions entre jeunes chercheurs et préparer des soumissions de nouveaux projets scientifiques. Des exposés de synthèse sur des domaines de recherche d'actualité, donnés par des chercheurs confirmés du domaine renforcent la partie formation de l'atelier

Scheduling for Large Scale Distributed Computing Systems: Approaches and Performance Evaluation Issues

Although our everyday life and society now depends heavily oncommunication infrastructures and computation infrastructures,scientists and engineers have always been among the main consumers ofcomputing power. This document provides a coherent overview of theresearch I have conducted in the last 15 years and which targets themanagement and performance evaluation of large scale distributedcomputing infrastructures such as clusters, grids, desktop grids,volunteer computing platforms, ... when used for scientific computing.In the first part of this document, I present how I have addressedscheduling problems arising on distributed platforms (like computinggrids) with a particular emphasis on heterogeneity and multi-userissues, hence in connection with game theory. Most of these problemsare relaxed from a classical combinatorial optimization formulationinto a continuous form, which allows to easily account for keyplatform characteristics such as heterogeneity or complex topologywhile providing efficient practical and distributed solutions.The second part presents my main contributions to the SimGrid project,which is a simulation toolkit for building simulators of distributedapplications (originally designed for scheduling algorithm evaluationpurposes). It comprises a unified presentation of how the questions ofvalidation and scalability have been addressed in SimGrid as well asthoughts on specific challenges related to methodological aspects andto the application of SimGrid to the HPC context

The FrameSoC Software Architecture for Multiple-View Trace Data Analysis

International audienceTrace analysis graphical user environments have to provide different views on trace data, in order to be effective in helping the comprehension of the traced application behavior. In this article we propose an open and modular software architecture, the FrameSoC workbench, which defines clear principles for view engineering and for view consistency management. The FrameSoC workbench has been successfully applied in real trace analysis use cases