Title :
VLSI implementation of a high-speed and low-power punctured Viterbi decoder
Author :
Qiao, LI ; Yuxin, YOU ; Jinxiang, Wang ; Yizheng, Ye
Author_Institution :
Microelectron. Center, Harbin Inst. of Technol., China
Abstract :
This paper presents a new architecture of punctured Viterbi decoder with high-speed and low-power based on the modified T-algorithm and trace-back method. To gain high throughput and short decoding latency, parallel computations in ACSU and SMU are adopted. Furthermore, to save the power consumption, the unnecessary computations of path metric are omitted in the add-compare-select-unit (ACSU) and the already generated back-tracing routes are reused to reduce the times of trace-back operations in the survivor-memory-unit (SMU). The decoding latency of the (2,1,7) Viterbi decoder is only 34 clock cycles, the total average power is 185 mW with 200 Mb/s throughput using 0.25 μm CMOS technology.
Keywords :
CMOS digital integrated circuits; VLSI; Viterbi decoding; convolutional codes; delays; 0.25 micron; 185 mW; ACSU; CMOS technology; SMU; VLSI implementation; add-compare-select-unit; average power; decoding latency; high-speed punctured Viterbi decoder; low-power punctured Viterbi decoder; modified T-algorithm; parallel computations; power consumption reduction; punctured convolutional encoder; survivor-memory-unit; throughput; trace-back method; CMOS technology; Computer architecture; Concurrent computing; Decoding; Delay; Energy consumption; Power generation; Throughput; Very large scale integration; Viterbi algorithm;
Conference_Titel :
TENCON '02. Proceedings. 2002 IEEE Region 10 Conference on Computers, Communications, Control and Power Engineering
Print_ISBN :
0-7803-7490-8
DOI :
10.1109/TENCON.2002.1180342
