Title :
Low-energy design of a 3G-compliant turbo decoder
Author :
Al-Mohandes, Ibrahim A. ; Elmasry, Mohamed I.
Author_Institution :
VLSI Res. Group, Waterloo Univ., Ont., Canada
Abstract :
In this work, a rate-1/3 8-state log-MAP turbo decoder for third-generation wireless terminals is designed. Several architectural and logic level techniques are applied to reduce area and power, and increase throughput of the turbo decoder. Furthermore, an efficient dynamic-iterative technique, reliable at both poor and good channel conditions, is applied for additional power reduction of the turbo decoder. After modeling the turbo decoder in VHDL, it is synthesized and optimized into 0.18 μ CMOS standard cells. The gate-level design has an estimated core area of about 0.58 mm2. The turbo decoder works at a maximum clock frequency of 100 MHz, and with an upper limit of 5 iterations, it achieves a 5 Mb/s data rate and consumes about 50 mW of power. Hence, the designed turbo decoder has an energy efficiency of 2 nJ/b/iteration.
Keywords :
3G mobile communication; CMOS logic circuits; cellular arrays; circuit optimisation; hardware description languages; iterative decoding; logic design; logic gates; turbo codes; 0.18 micron; 100 MHz; 3G-compliant turbo decoder; 5 Mbit/s; 50 mW; CMOS standard cells; VHDL; dynamic iterative technique; gate level design; log-MAP turbo decoder; logic level techniques; low energy design; maximum clock frequency; optimization; power consumption; power reduction; third generation wireless terminals; Algorithm design and analysis; Clocks; Energy consumption; Forward error correction; Frequency; Iterative decoding; Logic design; Semiconductor device modeling; Throughput; Turbo codes;
Conference_Titel :
Circuits and Systems, 2004. NEWCAS 2004. The 2nd Annual IEEE Northeast Workshop on
Print_ISBN :
0-7803-8322-2
DOI :
10.1109/NEWCAS.2004.1359045
