In this paper, a low-power Viterbi decoder design based on scarce state transition (SST) is presented. A low complexity algorithm based on a limited search algorithm, which reduces the average number of the add-compare-select computation of the Viterbi algorithm, is proposed and seamlessly integrated with the SST-based decoder. The new decoding scheme has low overhead and facilitates low-power implementation for high throughput applications. We also propose an uneven-partitioned memory architecture for the trace-back survivor memory unit to reduce the overall memory access power. The new Viterbi decoder is designed and implemented in TSMC 0.18-mu m CMOS process. Simulation results show that power consumption is reduced by up to 80\% for hig...
Abstract—Viterbi Decoders are employed in digital wireless communication systems to decode the convo...
Abstract — A very low power consumption viterbi decoder has been developed by low supply voltage and...
Abstract—By optimizing the number of look-ahead steps of the first layer of the previous low-latency...
This work proposes the low power implementation of Viterbi Decoder. Majority of viterbi decoder desi...
High - speed, low - power design of Viterbi decoders for trellis coded modulation (TCM) systems is p...
This paper presents a high-speed, low-power trace-back memory structure for a Viterbi decoder. The n...
Power consumption and high throughput are the most important criteria of the VLSI implementation of ...
Abstract — Viterbi decoder is a common module in communication system in which power and decoding la...
Space Time Trellis Code (STTC) and Viterbi algorithm combinations are known to offer a robust forw...
This paper presents a new trace-back memory structure for Viterbi decoders that reduces power consum...
Noise immunity and speed are two vital issues for designing encoding-decoding system for wireless co...
AbstractThis paper describes the design of Viterbi decoding algorithm and presents an implementation...
A high-throughput low-power Soft-Output Viterbi decoder designed for the convolutional codes used in...
[[abstract]]In a consumer electronic device, the embedded memories often consume a major portion of ...
To achieve unlimited concurrency and hence throughput in an area-efficient manner, a sliding block V...
Abstract—Viterbi Decoders are employed in digital wireless communication systems to decode the convo...
Abstract — A very low power consumption viterbi decoder has been developed by low supply voltage and...
Abstract—By optimizing the number of look-ahead steps of the first layer of the previous low-latency...
This work proposes the low power implementation of Viterbi Decoder. Majority of viterbi decoder desi...
High - speed, low - power design of Viterbi decoders for trellis coded modulation (TCM) systems is p...
This paper presents a high-speed, low-power trace-back memory structure for a Viterbi decoder. The n...
Power consumption and high throughput are the most important criteria of the VLSI implementation of ...
Abstract — Viterbi decoder is a common module in communication system in which power and decoding la...
Space Time Trellis Code (STTC) and Viterbi algorithm combinations are known to offer a robust forw...
This paper presents a new trace-back memory structure for Viterbi decoders that reduces power consum...
Noise immunity and speed are two vital issues for designing encoding-decoding system for wireless co...
AbstractThis paper describes the design of Viterbi decoding algorithm and presents an implementation...
A high-throughput low-power Soft-Output Viterbi decoder designed for the convolutional codes used in...
[[abstract]]In a consumer electronic device, the embedded memories often consume a major portion of ...
To achieve unlimited concurrency and hence throughput in an area-efficient manner, a sliding block V...
Abstract—Viterbi Decoders are employed in digital wireless communication systems to decode the convo...
Abstract — A very low power consumption viterbi decoder has been developed by low supply voltage and...
Abstract—By optimizing the number of look-ahead steps of the first layer of the previous low-latency...