Title :
FPGA design of fixed-complexity high-throughput MIMO detector based on QRDM algorithm
Author :
Wu, Xiang ; Thompson, John S.
Author_Institution :
Inst. for Digital Commun., Univ. of Edinburgh, Edinburgh, UK
Abstract :
This paper presents a field-programmable gate array (FPGA) implementation of an unbiased minimum mean square error (MMSE) metric based QR-decomposition M (QRDM) algorithm for the multiple-input multiple-output (MIMO) systems. Two advanced techniques, namely the merge-sort (MS) based and winner path expansion (WPE) based sorting schemes have been implemented and validated on an FPGA platform for a 4×4 16-QAM MIMO system. The results show that the MS-QRDM is advantageous in the simplified control circuits and leads to less logic resource use, whereas the WPE-QRDM is able to achieve the minimum use of the computational units and results in fewer multipliers. Furthermore, it also shows that both schemes can support up to 1.6 Gbps decoding throughput when they are implemented in a fully pipelined parallel architecture.
Keywords :
MIMO communication; decoding; field programmable gate arrays; least mean squares methods; logic design; quadrature amplitude modulation; sorting; FPGA design; MMSE; QAM MIMO system; QR-decomposition; QRDM algorithm; WPE sorting scheme; decoding throughput; fixed-complexity high-throughput MIMO detector; full pipelined parallel architecture; merge-sort based sorting schemes; multiple-input multiple-output systems; unbiased minimum mean square error metric; winner path expansion based sorting schemes; Algorithm design and analysis; Field programmable gate arrays; MIMO; Measurement; Sorting; Symmetric matrices; Throughput; FPGA; MMSE; QRDM; merge-sort; winner path expansion;
Conference_Titel :
Communications and Networking in China (CHINACOM), 2010 5th International ICST Conference on
Conference_Location :
Beijing
Print_ISBN :
973-963-9799-97-4
