Samy Meftali scite author profile

As technology scales for increased circuit density and performance, the management of power consumption in system-on-chip (SoC) is becoming critical. Today, having the appropriate electronic system level (ESL) tools for power estimation in the design flow is mandatory. The main challenge for the design of such dedicated tools is to achieve a better tradeoff between accuracy and speed. This paper presents a consumption estimation approach allowing taking the consumption criterion into account early in the design flow during the system cosimulation. The originality of this approach is that it allows the power estimation for both white-box intellectual properties (IPs) using annotated power models and black-box IPs using standalone power estimators. In order to obtain accurate power estimates, our simulations were performed at the cycle-accurate bit-accurate (CABA) level, using SystemC. To make our approach fast and not tedious for users, the simulated architectures, including standalone power estimators, were generated automatically using a model driven engineering (MDE) approach. Both annotated power models and standalone power estimators can be used together to estimate the consumption of the same architecture, which makes them complementary. The simulation results showed that the power estimates given by both estimation techniques for a hardware component are very close, with a difference that does not exceed 0.3%. This proves that, even when the IP code is not accessible or not modifiable, our approach allows obtaining quite accurate power estimates that early in the design flow thanks to the automation offered by the MDE approach.

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An optimal memory allocation for application-specific multiprocessor system-on-chip

Meftali¹,

Gharsalli²,

Rousseau³

et al. 2001

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We present a novel and systematic approach for the design of shared memory architectures in the case of application-specific multiprocessor system-on-chip. This paper focuses on a memory allocation step which is based on an integer linear programming model. It permits one to obtain an optimal distributed shared memory architecture minimizing the global cost to access the shared data in the application, and the memory cost. Our approach allows automatic generation of an architecture-level specification of the application. The effectiveness of this approach is illustrated by a packet routing switch example

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Hybridization of Moth flame optimization algorithm and quantum computing for gene selection in microarray data

Dabba

Tari

Meftali

2020

J Ambient Intell Human Comput

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Gene selection and classification of microarray data method based on mutual information and moth flame algorithm.

Dabba

Tari

Meftali

et al. 2021

Expert Systems with Applications

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Estimating Energy Consumption for an MPSoC Architectural Exploration

Atitallah

Niar

Greiner

et al. 2006

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Samy Meftali

A Model-Driven Approach for Hybrid Power Estimation in Embedded Systems Design

An optimal memory allocation for application-specific multiprocessor system-on-chip

Hybridization of Moth flame optimization algorithm and quantum computing for gene selection in microarray data

Gene selection and classification of microarray data method based on mutual information and moth flame algorithm.

Estimating Energy Consumption for an MPSoC Architectural Exploration

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