François Charot scite author profile

François Charot

4Publications

51Citation Statements Received

14Citation Statements Given

How they've been cited

How they cite others

Affiliations

Institut de Recherche en Informatique et Systèmes Aléatoires, French Institute for Research in Computer Science and Automation, University of Rennes

Publications

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GeCoS: A framework for prototyping custom hardware design flows

Floch¹,

Yuki

El-Moussawi

et al. 2013

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International audienceGeCoS is an open source framework that provide a highly productive environment for hardware design. GeCoS primarily targets custom hardware design using High Level Synthesis, distinguishing itself from classical compiler infrastructures. Compiling for custom hardware makes use of domain specific semantics that are not considered by general purpose compilers. Finding the right balance between various performance criteria, such as area, speed, and accuracy, is the goal, contrary to the typical goal in high performance context to maximize speed. The GeCoS infrastructure facilitates the prototyping of hardware design flows, going beyond compiler analyses and transformations. Hardware designers must interact with the compiler for design space exploration, and it is important to be able to give instant feedback to the users

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Automatic floating-point to fixed-point conversion for DSP code generation

Ménard¹,

Chillet²,

Charot³

et al. 2002

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The development of methodologies for the automatic implementation of floating-point algorithms in fixed-point architectures is required for the minimization of cost, power consumption and time to market of digital signal processing applications. In this paper, a new methodology of implementation in Digital Signal Processors (DSP) under accuracy constraint is presented. In comparison with the existing methodologies, the DSP architecture is completely taken into account for optimizing the execution time under accuracy constraint. The justification and the different stages of our methodology are presented.

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Automatic floating-point to fixed-point conversion for DSP code generation

Ménard

Chillet

Charot³

et al. 2002

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Constraint Programming Approach to Reconfigurable Processor Extension Generation and Application Compilation

Martin

Wolinski

Kuchcinski

et al. 2012

ACM Trans. Reconfigurable Technol. Syst.

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International audienceIn this paper, we present a constraint programming approach for solving hard design problems present when automatically designing specialized processor extensions. Specifically, we discuss our approach for automatic selection and synthesis of processor extensions as well as efficient application compilation for these newly generated extensions. The discussed approach is implemented in our integrated design framework, IFPEC, built using constraint programming (CP). In our framework, custom instructions, implemented as processor extensions, are defined as computational patterns and represented as graphs. This, along with the graph representation of an application, provides a way to use our CP framework equipped with subgraph isomorphism and connected component constraints for identification of processor extensions as well as their selection, application scheduling, binding and routing. All design steps assume architectures composed of run-time reconfigurable cells, implementing selected extensions, tightly connected to a processor. An advantage of our approach, is possibility of combining different heterogeneous constraints to represent and solve all our design problems. Moreover, the flexibility and expressiveness of the CP framework makes it possible to solve simultaneously extension selection, application scheduling and binding and improve the quality of the generated results. The paper is largely illustrated with experimental results

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