Kais Jallouli scite author profile

Kais Jallouli

4Publications

4Citation Statements Received

22Citation Statements Given

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Affiliations

Tunis El Manar University, National Engineering School of Tunis, Tunis University

Publications

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MIMO-OFDM LTE system based on a parallel IFFT/FFT on NoC-based FPGA

Jallouli

Mazouzi

Diguet³

et al. 2022

Ann. Telecommun.

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The growing demand for wireless devices capable of performing complex communication processes has imposed an urgent need for high-speed communication systems and advanced network processors. This paper proposes a hardware workflow developed for the Long Term Evolution (LTE) communication system. It studies the Multiple-input, multiple-output orthogonal frequency-division multiplexing (MIMO-OFDM) LTE system. Specifically, this work focuses on the implementation of the OFDM block that dominates the execution time in high-speed communication systems. To achieve this goal, we have proposed an NoC-based low-latency OFDM LTE multicore system that leverages Inverse Fast Fourier Transform (IFFT) parallel computation on a variable number of processing cores. The proposed multicore system is implemented on an FPGA platform using the ProNoC tool, an automated rapid prototyping platform. Our obtained results show that LTE OFDM execution time is drastically reduced by increasing the number of processing cores. Nevertheless, the NoC's parameters, such as routing algorithm and topology, have a negligible influence on the overall execution time. The implementation results show up to 24% and 76% execution time reduction for a system having 2 and 16 processing cores compared to conventional LTE OFDM implemented in a single-core, respectively. We have found that a 4×4 Mesh NoC with XY deterministic routing connected to 16 processing tiles computing IFFT task is the most efficient configuration for computing LTE OFDM. This configuration is 4.12 times faster than a conventional system running on a single-core processor.

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Multicore MIMO-OFDM LTE Optimizing

Jallouli

Mazouzi

Ahmed³

et al. 2018

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MIMO-OFDM LTE System based on a parallel IFFT/FFT on a multiprocessor platform

Jallouli

Hasnaoui

Diguet

et al. 2022

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Parallel IFFT/FFT for MIMO-OFDM LTE on NoC-Based FPGA

Jallouli

Hasnaoui

Diguet³

et al. 2022

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Kais Jallouli

MIMO-OFDM LTE system based on a parallel IFFT/FFT on NoC-based FPGA

Multicore MIMO-OFDM LTE Optimizing

MIMO-OFDM LTE System based on a parallel IFFT/FFT on a multiprocessor platform

Parallel IFFT/FFT for MIMO-OFDM LTE on NoC-Based FPGA

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