ParallelLow-DensityParity-Checkandturbocodedecodingconsistsofiter- ative processes that rely on the exchange of messages among multiple processing ele- ments (PEs). They are characterized by complex communication patterns that require area expensive interconnect and memory management. Channel decoders based on Networks-on-Chip (NoCs) have been proposed in the literature, showing unmatched degreesofflexibility,butyieldinghighareaoccupationandpowerconsumption.While general and application-specific power reduction techniques are available to save energy, the gap with respect to dedicated decoders is still large. This paper proposes techniques that reduce and optimize the traffic on the network for NoC-based chan- nel decoders, and can be appli...
Iterative decoding techniques for modern capacity-approaching codes are currently dominating the cho...
International audienceThis paper explores the possibility of building a flexible Low Density Parity ...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
ParallelLow-DensityParity-Checkandturbocodedecodingconsistsofiter- ative processes that rely on the ...
In this work novel results concerning Networkon- Chip-based turbo decoder architectures are presente...
The current convergence process in wireless technologies demands for strong efforts in the conceivin...
This paper proposes a general framework for the design and simulation of network-on-chip-based turbo...
Flexible and reconfigurable architectures have gained wide popularity in the communications field. I...
Wireless communication at near-capacity transmission throughputs is facilitated by employing sophist...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
Modern iterative channel code decoder architectures have tight constrains on the throughput but requ...
International audiencePresent and future digital communication standards in the field of wireless co...
Low-density parity-check (LDPC) codes and convolutional Turbo codes are two of the most powerful err...
This PhD dissertation proposes the ASIC design of a flexible Multi-Standard channel decoder for next...
From the methodological point of view, the design of efficient channel decoders for wireless applica...
Iterative decoding techniques for modern capacity-approaching codes are currently dominating the cho...
International audienceThis paper explores the possibility of building a flexible Low Density Parity ...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
ParallelLow-DensityParity-Checkandturbocodedecodingconsistsofiter- ative processes that rely on the ...
In this work novel results concerning Networkon- Chip-based turbo decoder architectures are presente...
The current convergence process in wireless technologies demands for strong efforts in the conceivin...
This paper proposes a general framework for the design and simulation of network-on-chip-based turbo...
Flexible and reconfigurable architectures have gained wide popularity in the communications field. I...
Wireless communication at near-capacity transmission throughputs is facilitated by employing sophist...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
Modern iterative channel code decoder architectures have tight constrains on the throughput but requ...
International audiencePresent and future digital communication standards in the field of wireless co...
Low-density parity-check (LDPC) codes and convolutional Turbo codes are two of the most powerful err...
This PhD dissertation proposes the ASIC design of a flexible Multi-Standard channel decoder for next...
From the methodological point of view, the design of efficient channel decoders for wireless applica...
Iterative decoding techniques for modern capacity-approaching codes are currently dominating the cho...
International audienceThis paper explores the possibility of building a flexible Low Density Parity ...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...