Title :
Research on the implementation of highly efficient MIMO equalizer for LTE-A systems based on the GPP architecture
Author :
Xinke Zhang ; ZhiQiang He ; Kai Niu ; Li Guo ; Shaohui Sun
Author_Institution :
Key Lab. of Universal Wireless Commun., Beijing, China
Abstract :
In order to further improve the spectrum efficiency and peak data rate, uplink MIMO (multiple - input and multiple-output) has been introduced into LTEA (Release 10 and beyond). As the large dimensional MIMO increases system complexity, it is a challenge for the implementation of real-time MIMO equalizer. The massive floating-point computing power and flexible multi-core parallelism of the GPP (general purpose processor) platform make it possible to implement highly efficient MIMO equalizer. In this paper, we present our initial view on the optimization of MIMO equalizer based on the GPP platform. Furthermore, we analyze the principle of the improved matrix inversion algorithm based on Cholesky decomposition, and explain the ways to reduce computational complexity using SIMD instructions and multi-thread technology.
Keywords :
Long Term Evolution; MIMO communication; equalisers; matrix algebra; Cholesky decomposition; GPP architecture; LTE-A system; SIMD instructions; computational complexity; flexible multicore parallelism; general purpose processor platform; massive floating-point computing power; matrix inversion algorithm; multithread technology; real-time MIMO equalizer; system complexity; uplink MIMO; Equalizers; Instruction sets; MIMO; Matrix decomposition; OFDM; Optimization; Uplink; Equalizer; GPP; LTE-A; MIMO;
Conference_Titel :
Microwave, Antenna, Propagation and EMC Technologies for Wireless Communications (MAPE), 2013 IEEE 5th International Symposium on
Conference_Location :
Chengdu
Print_ISBN :
978-1-4673-6077-7
DOI :
10.1109/MAPE.2013.6689963
