Scalable Fixed Point QRD Core Using Dynamic Partial Reconfiguration

الملخص EN

A Givens rotation based scalable QRD core which utilizes an efficient pipelined and unfolded 2D multiply and accumulate (MAC) based systolic array architecture with dynamic partial reconfiguration (DPR) capability is proposed.

The square root and inverse square root operations in the Givens rotation algorithm are handled using a modified look-up table (LUT) based Newton-Raphson method, thereby reducing the area by 71% and latency by 50% while operating at a frequency 49% higher than the existing boundary cell architectures.

The proposed architecture is implemented on Xilinx Virtex-6 FPGA for any real matrices of size m × n , where 4 ≤ n ≤ 8 and m ≥ n by dynamically inserting or removing the partial modules.

The evaluation results demonstrate a significant reduction in latency, area, and power as compared to other existing architectures.

The functionality of the proposed core is evaluated for a variable length adaptive equalizer.