Sep 302012

  CESyMPA — Persyval Lab, 2013-2014

Critical Embedded Systems on Multiprocessor Architectures:
Towards a Certifiable HW/SW Solution

The current hardware architectures are not suitable for critical embedded systems, because they are designed for average performance, offering transparent mechanisms at several levels (from the pre-fetching mechanisms in memory controllers to the routing algorithms in networks on a chip, including the very principle of a cache, load balancing techniques, etc.). All these mechanisms are a major obstacle to predictability and determinism, as required by certification authorities. The question of how to design an embedded system for the critical domains, using modern hardware architectures, therefore raises a huge interest, both in companies, and in academia. There is no satisfactory solution yet.

We think that these topics deserve a new and fresh look, “forgetting” about the constraints of existing components or software solutions. In this project, we aim at exploring ways to implement critical systems as software running on multiprocessor architectures, in such a way that the complete solution be simple and provably deterministic, therefore acceptable by certification authorities. We would like to come up with a clear idea of what could be an ideal hardware architecture and design flow for “predictable-by-construction” critical embedded systems. Even if it is not feasible for a number of reasons, ranging from hardware fabrication problems to economic viability, this is scientifically worth trying because it would give an estimation of the distance between such an ideal solution and what exists now, and help identifying the tricky problems with the current hardware.

ARESA2 — ANR 2009-2013

To connect to the IP world dynamic wireless sensor networks in a secure and energy efficient way.

HELP — ANR 2009-2013 (leader)

The HELP project focuses on functional and non-functional high-level models for the design of low-power embedded systems. The need for low-power systems is now well admitted, in the domain of embedded systems in general. This is particularly true for sensor networks or consumer electronics (mobile phones and all kinds of portable devices), because of lifetime constraints. But this is also true for other (non autonomous) embedded systems, in a world concerned with sustainable development.

openTLM — Minalogic 2006-2010

Tools for the virtual prototyping of systems-on-a-chip
openTLM is devoted to open tools for the virtual prototyping of systems-on-a-chip based on Transaction-Level-Modeling (TLM)

FoToVP — ANR 2006-2010 (leader)

Formal Tools for the Virtual Prototyping of Embedded Systems
In the context of past or current projects involving industrial partners from various application domains, the participants of FoToVP have observed several approaches for the design of complex and/or critical embedded systems, based on the notion of virtual prototyping. This allowed us to identify clearly where there is a need for formal tools. We started studying the benefits of formal methods and tools in the other projects, with the constraints of particular application domains, and with practical objectives in mind. Some recurring problems appeared, that need to be investigated further, independently of these application domains, and with less constraining short-term practical objectives. In this project called FoToVP, standing for “Formal Tools for Virtual Prototyping of Embedded Systems’’, we would like to study these recurring problems, in order to develop more fundamental and generic results. The motivations are clearly related to industrial applications, and the applicability of the project results will be evaluated with respect to these industrial practises and applications.

ARESA — ANR (RNRT) 2006-2009

Sensor networks have been researched and deployed for decades already; their wireless extension, however, has witnessed a tremendous upsurge in recent years. This is mainly attributed to the unprecedented operating conditions of wireless sensor networks (WSNs), i.e. (i) a potentially enormous amount of sensor nodes; (ii) reliably operating under stringent energy constraints.
WSNs allow for an untethered sensing of the environment. It is anticipated that within a few years, sensors will be deployed in a variety of scenarios, ranging from environmental monitoring to health care, from the public to the private sector, etc. They will be battery-driven and deployed in great numbers in an ad-hoc fashion, requiring communication protocols and embedded system components to run in an utmost energy efficient manner.
Prior to large-scale deployment, however, a gamut of problems has to be solved which relates to various issues, such as the extraction of application scenarios, design of suitable software and hardware architectures, development of communication and organization protocols, validation and first steps of prototyping, etc.

ALIDECS / ACI “Sécurité & Informatique” French Programme, 2004-2007

Languages and Tool-Chain for the Development of Safe Embedded Components.
This project addresses large size critical embedded systems, for which reuse is becoming crucial. The objective is to study an integrated development environment for the construction and use of safe embedded components. The use of an appropriate programming language being one of the key points contributing to safety in computer systems, we will favour a “language” approach for all aspects.

RISE / IST-2001-38117

CTRL-a ARC INRIA 2003-2004

Indo-French Collaboration 2000-2002 IFCPAR project nr. 2202-1, in cooperation with TIFR, Bombay

SYRF Esprit “Long Term Research” Project 22703 1996-1999