Title :
Efficient VLSI architectures for recursive Vandermonde QR decomposition in broadband OFDM pre-distortion
Author_Institution :
Nokia Res. Center, Irving, TX, USA
Abstract :
The Vandermonde system is used in OFDM pre-distortion to enhance the power efficiency dramatically. We study efficient FPGA architectures of a recursive algorithm for the Cholesky and QR factorization of the Vandermonde system. We identify the key bottlenecks of the algorithm for the real-time constraints and resource consumption. Several architecture/resource tradeoffs are studied to find the commonalities in the architectures for a best partitioning. Hardware resources are reused according to the algorithmic parallelism and data dependency to achieve the best timing/area performance in hardware. The architectures are implemented in Xilinx FPGA and tested in an Aptix real-time hardware platform with 11348 cycles in 25 ns clock rate.
Keywords :
OFDM modulation; VLSI; field programmable gate arrays; integrated circuit design; logic design; matrix decomposition; mobile radio; parallel algorithms; resource allocation; Cholesky factorization; FPGA architectures; QR factorization; VLSI architectures; Vandermonde QR decomposition; algorithmic parallelism; broadband OFDM predistortion; clock rate; data dependency; mobile stations; parallel algorithms; power efficiency; real-time constraints; real-time hardware platform; recursive QR decomposition; recursive algorithm; resource consumption; Baseband; Computer architecture; Field programmable gate arrays; Hardware; Nonlinear distortion; OFDM; Partitioning algorithms; Peak to average power ratio; Predistortion; Very large scale integration;
Conference_Titel :
Wireless Communications and Networking Conference, 2005 IEEE
Print_ISBN :
0-7803-8966-2
DOI :
10.1109/WCNC.2005.1424567
