This paper compares two implementations of reconfigurable and high-throughput turbo decoders. The first implementation is optimized for an NVIDIA Kepler graphics processing unit (GPU), whereas the second implementation is for an Intel Ivy Bridge processor. Both implementations support max-log-MAP and log-MAP turbo decoding algorithms, various code rates, different interleaver types, and all block-lengths, as specified by HSPA; and LTE-Advanced. In order to ensure a fair comparison between both implementations, we perform device-specific optimizations to improve the decoding throughput and error-rate performance. Our results show that the Intel Ivy Bridge processor implementation achieves up to 2× higher decoding throughput than our GPU impl...
Abstract For high-mobility 4G applications of LTE-A and WiMAX-2 systems, this paper presents a dual-...
Turbo decoding offers outstanding error correcting capabilities, that will be used in wireless appli...
To meet the high throughput requirement of communication systems, the design of high-throughput low-...
Abstract—This paper compares two implementations of re-configurable and high-throughput turbo decode...
International audienceThis paper presents a high-throughput implementation of a portable software tu...
This paper presents a 3GPP LTE compliant turbo decoder accelerator on GPU. The challenge of implemen...
Decoding latency of the turbo decoder has been a serious problem in real-time processing of communic...
Abstract—To meet the evolving data rate requirements of emerging wireless communication technologies...
© 2017 IEEE. Implementation of an efficient turbo decoder with low complexity, short delay and insig...
Parallel implementations of Turbo decoding has been studied extensively. Traditionally, the number o...
The wide range of code rates and code block sizes supported by todays wireless communication standa...
International audienceArchitecture efficiency, in terms of performance/area, of application-specific...
In this paper, we demonstrate how the development of parallel hardware architectures for turbo decod...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
In the advent of very high data rates of the upcoming 3G long-term evolution telecommunication syste...
Abstract For high-mobility 4G applications of LTE-A and WiMAX-2 systems, this paper presents a dual-...
Turbo decoding offers outstanding error correcting capabilities, that will be used in wireless appli...
To meet the high throughput requirement of communication systems, the design of high-throughput low-...
Abstract—This paper compares two implementations of re-configurable and high-throughput turbo decode...
International audienceThis paper presents a high-throughput implementation of a portable software tu...
This paper presents a 3GPP LTE compliant turbo decoder accelerator on GPU. The challenge of implemen...
Decoding latency of the turbo decoder has been a serious problem in real-time processing of communic...
Abstract—To meet the evolving data rate requirements of emerging wireless communication technologies...
© 2017 IEEE. Implementation of an efficient turbo decoder with low complexity, short delay and insig...
Parallel implementations of Turbo decoding has been studied extensively. Traditionally, the number o...
The wide range of code rates and code block sizes supported by todays wireless communication standa...
International audienceArchitecture efficiency, in terms of performance/area, of application-specific...
In this paper, we demonstrate how the development of parallel hardware architectures for turbo decod...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
In the advent of very high data rates of the upcoming 3G long-term evolution telecommunication syste...
Abstract For high-mobility 4G applications of LTE-A and WiMAX-2 systems, this paper presents a dual-...
Turbo decoding offers outstanding error correcting capabilities, that will be used in wireless appli...
To meet the high throughput requirement of communication systems, the design of high-throughput low-...