National audienceThe increasing demand of high data rate and reliability in modern communication systems is pushing next-generation standards toward error correction schemes allowing high throughput decoding with near Shannon limit performance. Thus, data rates above 1Gb/s and 10Gb/s will be required for the next generation standards of wireless technologies (WIFI, WIMAX, DVB-H ) and data transmission over Passive Optical Networks (PON), respectively. In order to achieve high throughput and to reduce latency, parallel implementations become mandatory. A full-parallel architecture for the turbo decoding of product codes was previously proposed. The major advantage of this full-parallel architecture is that it enables the memory block between...
This paper presents the electronic synthesis, VHDL design and implementation on FPGA of turbo decode...
This paper presents a design on Reed Solomon Code for Wi-Max Network. The implementation, written in...
Abstract. One of the most important error correction codes in digital signal processing is the Reed ...
National audienceThe increasing demand of high data rate and reliability in modern communication sys...
International audienceIn this paper, the use of single-error-correcting Reed-Solomon (RS) product co...
International audienceIn this paper, we demonstrate the higher hardware efficiency of Reed-Solomon (...
International audienceA full-parallel architecture for turbo decoding, which achieves ultra high dat...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
Turbo product codes (TPCs) are an attractive solution to improve link budgets and reduce systems cos...
Turbo product codes (TPCs) are an attractive solution to improve link budgets and reduce systems cos...
One of the most important error correction codes in digital signal processing is the Reed Solomon co...
International audienceTurbo product codes (TPCs) are an attractive solution to improve link budgets ...
Abstract: As a class of high-performance forward error correction codes, turbo codes, which can appr...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
This paper presents the electronic synthesis, VHDL design and implementation on FPGA of turbo decode...
This paper presents a design on Reed Solomon Code for Wi-Max Network. The implementation, written in...
Abstract. One of the most important error correction codes in digital signal processing is the Reed ...
National audienceThe increasing demand of high data rate and reliability in modern communication sys...
International audienceIn this paper, the use of single-error-correcting Reed-Solomon (RS) product co...
International audienceIn this paper, we demonstrate the higher hardware efficiency of Reed-Solomon (...
International audienceA full-parallel architecture for turbo decoding, which achieves ultra high dat...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
Turbo product codes (TPCs) are an attractive solution to improve link budgets and reduce systems cos...
Turbo product codes (TPCs) are an attractive solution to improve link budgets and reduce systems cos...
One of the most important error correction codes in digital signal processing is the Reed Solomon co...
International audienceTurbo product codes (TPCs) are an attractive solution to improve link budgets ...
Abstract: As a class of high-performance forward error correction codes, turbo codes, which can appr...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
This paper presents the electronic synthesis, VHDL design and implementation on FPGA of turbo decode...
This paper presents a design on Reed Solomon Code for Wi-Max Network. The implementation, written in...
Abstract. One of the most important error correction codes in digital signal processing is the Reed ...