Title :
VLSI implementation of pipelined sphere decoding with early termination
Author :
Burg, A. ; Wenk, M. ; Fichtner, W.
Author_Institution :
Integrated Syst. Lab., ETH Zurich, Zurich, Switzerland
Abstract :
The sphere decoding algorithm allows to implement the detection stage in multiple-input multiple-output communication systems with maximum likelihood error rate performance, while the average computational complexity of the algorithms remains far below an exhaustive search. This paper addresses two important problems associated with the practical implementation of sphere decoding: the mitigation of the error rate performance caused by constraining the maximum instantaneous decoding effort and the introduction of pipelining into recursive one-node-per-cycle VLSI architectures for depth-first sphere decoding. The result of this work is a sphere decoder implementation for a 4×4 system with 16-QAM modulation in a 0.13 μm technology that achieves a guaranteed minimum throughput of 761 Mbps.
Keywords :
MIMO communication; VLSI; computational complexity; decoding; maximum likelihood detection; pipeline arithmetic; quadrature amplitude modulation; 16-QAM modulation; VLSI implementation; computational complexity; depth-first sphere decoding; maximum likelihood error rate performance; multiple-input multiple-output communication systems; pipelined sphere decoding; recursive one-node-per-cycle VLSI architectures; size 0.13 mum; sphere decoding algorithm; Bit error rate; Maximum likelihood decoding; Pipeline processing; Signal to noise ratio; Throughput; Very large scale integration;
Conference_Titel :
Signal Processing Conference, 2006 14th European
Conference_Location :
Florence
