Karol Desnos scite author profile

Karol Desnos

3Publications

168Citation Statements Received

25Citation Statements Given

How they've been cited

158

168

How they cite others

Affiliations

Institut National des Sciences Appliquées de Rennes, French National Centre for Scientific Research

Publications

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Preesm: A dataflow-based rapid prototyping framework for simplifying multicore DSP programming

Pelcat

Desnos

Heulot

et al. 2014

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The high performance Digital Signal Processors (DSPs) currently manufactured by Texas Instruments are heterogeneous multiprocessor architectures. Programming these architectures is a complex task often reserved to specialized engineers because the bottlenecks of both the algorithm and the architecture need to be deeply understood in order to obtain a fairly parallel execution. The PREESM framework objective is to simplify the programming of multicore DSP systems by building on dataflow programming methods. The current functionalities of this scalable framework cover memory and time analysis, as well as automatic deadlock-free code generation. Several tutorials are provided with the tool for fast initiation of C programmers to multicore DSP programming. This paper demonstrates PREESM capabilities by comparing simulation and execution performances on a stereo matching algorithm prototyped on the TMS320C6678 8-core DSP device.

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PiMM: Parameterized and Interfaced dataflow Meta-Model for MPSoCs runtime reconfiguration

Desnos

Pelcat

Nezan

et al. 2013

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International audience—Dataflow models of computation are widely used for the specification, analysis, and optimization of Digital Signal Processing (DSP) applications. In this paper a new meta-model called PiMM is introduced to address the important challenge of managing dynamics in DSP-oriented representations. PiMM extends a dataflow model by introducing an explicit parameter dependency tree and an interface-based hierarchical compositionality mechanism. PiMM favors the design of highly-efficient heterogeneous multicore systems, specifying algorithms with customizable trade-offs among predictability and exploita-tion of both static and adaptive task, data and pipeline paral-lelism. PiMM fosters design space exploration and reconfigurable resource allocation in a flexible dynamic dataflow context

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Spider: A Synchronous Parameterized and Interfaced Dataflow-based RTOS for multicore DSPS

Heulot

Pelcat

Desnos

et al. 2014

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This paper introduces a novel Real-Time Operating System (RTOS) based on a parameterized dataflow Model of Computation (MoC). This RTOS, called Synchronous Parameterized and Interfaced Dataflow Embedded Runtime (SPiDER), aims at efficiently scheduling Parameterized and Interfaced Synchronous Dataflow (PiSDF) graphs on multicore architectures. It exploits features of PiSDF to locate locally static regions that exhibit predictable application behavior. This paper uses a multicore signal processing benchmark to demonstrate that the SPiDER runtime can exploit more parallelism than a conventional multicore task scheduler. By comparing experimental results of the SPiDER runtime on an 8-core Texas Instruments Keystone I Digital Signal Processor (DSP) with those obtained from the OpenMP framework, latency improvements of up to 26% are demonstrated.

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Karol Desnos

Preesm: A dataflow-based rapid prototyping framework for simplifying multicore DSP programming

PiMM: Parameterized and Interfaced dataflow Meta-Model for MPSoCs runtime reconfiguration

Spider: A Synchronous Parameterized and Interfaced Dataflow-based RTOS for multicore DSPS

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