IEEE 802.11ac MIMO receiver baseband processing on customized VLIW processor

Author

Aghababaee Tafreshi, Mona ; Lehtonen, Lasse ; Levanen, Toni ; Valkama, Mikko ; Takala, Jarmo

Author_Institution

Tampere Univ. of Technol., Tampere, Finland

fYear

2014

fDate

20-22 Oct. 2014

Firstpage

1

Lastpage

6

Abstract

In this paper, a software-based implementation for the Multiple Input and Multiple Output (MIMO) receiver baseband processing conforming to the IEEE 802.11ac standard on a DSP core with vector extensions is presented. The implementation is carried out for different operation points including 2×2 and 4×4 MIMO configurations, yielding beyond 1Gbps transmission bit rate. This implementation mainly focuses on the frequency domain processing of the receiver. The presented solution is evaluated in terms of number of clock cycles and power consumption, and the feasibility of a real-time operation is then addressed and analyzed. If found feasible, such Software Defined Radio based solutions offer more flexibility and reduced time-to-market-cycles compared to the conventional solutions using fixed-function hardware platforms.

Keywords

MIMO communication; digital signal processing chips; multiprocessing systems; radio receivers; software radio; wireless LAN; DSP core; IEEE 802.11ac MIMO receiver baseband processing; MIMO configurations; VLIW processor; clock cycles; frequency domain processing; multiple-input-and-multiple output receiver; operation points; power consumption; real-time operation; software defined radio based solutions; software-based implementation; time-to-market-cycles; transmission bit rate; vector extensions; Channel estimation; Indexes; OFDM; Parity check codes; Receivers; VLIW; Vectors; MIMO; OFDM; Software Defined Radio; WLAN; parallel processing;

fLanguage

English

Publisher

ieee

Conference_Titel

Signal Processing Systems (SiPS), 2014 IEEE Workshop on

Conference_Location

Belfast

Type

conf

DOI

10.1109/SiPS.2014.6986092

Filename

6986092