Majdi Elhaji scite author profile

Majdi Elhaji

5Publications

20Citation Statements Received

33Citation Statements Given

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Affiliations

Shaqra University, University of Monastir, Imam Abdulrahman Bin Faisal University

Publications

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Adaptive motion estimator for the H264 coder

Dhahri

Zitouni

Elhaji

et al. 2008

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In this paper we propose an adaptive motion estimation circuit that can be dynamically reconfigured by the best algorithm based on the video nature of the application under running. This configuration is based on a recognition step that collects the motion information's of each block from its same block in the previous images and their neighbour's blocs in the current image. The proposed circuit has been designed at Register Transfer Level (RTL) level by using the VHDL language and can be configured by three algorithms (Full search, Spiral search with threshold and Spiral search without threshold). After being integrated into a H264 Codec, experimental results show that the adaptive motion estimator allows better results in term of Peak Signal to Noise Ratio (PSNR) and compression ratio relatively to the static based estimators.

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System level modeling methodology of NoC design from UML-MARTE to VHDL

Elhaji

Boulet²,

Zitouni³

et al. 2012

Des Autom Embed Syst

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The evolution of the semiconductor technology caters for the increase in the System-on-Chip (SoC) complexity. In particular, this complexity appears in the communication infrastructures like the Network-on-Chips (NoCs). However many complex SoCs are becoming increasingly hard to manage. In fact, the design space, which represents all the concepts that need to be explored during the SoC design, is becoming dramatically large and difficult to explore. In addition, the manipulation of SoCs at low levels, like the Register Transfer Level (RTL), is based on manual approaches. This has resulted in the increase of both time-to-market and the development costs. Thus, there is a need for developing some automated high level modeling environments for computer aided design in order to handle the design complexity and meet tight time-to-market requirements. The extension of the UML language called UML profile for MARTE (Modeling and Analysis of Real-Time and Embedded systems) allows the modeling of repetitive structures such as the NoC topologies which are based on specific concepts. This paper presents a new methodology for modeling concepts of NoC-based architectures, especially the modeling of topology of the interconnections with the help of the repetitive structure modeling (RSM) package of MARTE profile. This work deals with the ways of improving the effectiveness of the MARTE standard by clarifying and extending some notations in order to model complex NoC topologies. Our contribution includes a description of how these concepts may be mapped into VHDL. The generated code has been successfully evaluated and validated for several NoC topologies.

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Software/Hardware implementations of a video watermarking scheme based on motion vectors

Dalbouchi

Dhahri

Elhaji

et al. 2017

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From MARTE to Reconfigurable NoCs

Quadri

Elhaji

Meftali

et al. 2010

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Due to the continuous exponential rise in SoC’s design complexity, there is a critical need to find new seamless methodologies and tools to handle the SoC co-design aspects. We address this issue and propose a novel SoC co-design methodology based on Model Driven Engineering and the MARTE (Modeling and Analysis of Real-Time and Embedded Systems) standard proposed by Object Management Group, to raise the design abstraction levels. Extensions of this standard have enabled us to move from high level specifications to execution platforms such as reconfigurable FPGAs. In this chapter, we present a high level modeling approach that targets modern Network on Chips systems. The overall objective: to perform system modeling at a high abstraction level expressed in Unified Modeling Language (UML); and afterwards, transform these high level models into detailed enriched lower level models in order to automatically generate the necessary code for final FPGA synthesis.

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Low complexity and efficient architecture of 1D-DCT based Cordic-Loeffler for wireless endoscopy capsule

Jarray

Elhaji

Zitouni

2015

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Majdi Elhaji

Adaptive motion estimator for the H264 coder

System level modeling methodology of NoC design from UML-MARTE to VHDL

Software/Hardware implementations of a video watermarking scheme based on motion vectors

From MARTE to Reconfigurable NoCs

Low complexity and efficient architecture of 1D-DCT based Cordic-Loeffler for wireless endoscopy capsule

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