VLSI architecture for low latency radix-4 CORDIC

The CORDIC algorithm, originally proposed using nonredundant radix-2 arithmetic, has been refined in terms of throughput and latency with the introduction of redundant arithmetic and higher radix techniques. In this paper, we propose a pipelined architecture using signed digit arithmetic for the VLSI efficient implementation of rotational radix-4 CORDIC algorithm, eliminating z path completely. A detailed comparison of the proposed architecture with the available radix-2 architectures shows the latency and hardware improvement. The proposed architecture achieves latency improvement over the previously proposed radix-4 architecture with a relatively small hardware overhead. The proposed architecture for 16-bit precision was implemented using VHDL and extensive simulations have been performed to validate the results. The functionally simulated net list has been synthesized for 16-bit precision with 90 nm CMOS technology library and the area-time measures are provided. This architecture was also implemented using Xilinx ISE9.1 software and a Virtex device.

Figure optionsDownload as PowerPoint slideHighlights
► Pipelined CORDIC architecture with redundant radix-4 arithmetic is studied.
► Directions of rotation are precomputed for each target angle.
► The precomputation will reduce iteration delay.
► Radix-4 reduces number of iterations.
► Improvement in latency and hardware are achieved.