FPGA implementation of fast digital FIR and IIR filters

Abstract

SummaryThe demand for digital signal processing optimized solutions grows drastically in the modern years, especially in the field of communication and modern signal processing circuits. The finite impulse response (FIR) and an infinite impulse response (IIR) filters play a crucial role in the design of any complex signal processing system. This paper exemplifies the conventional moving average (MA) FIR filters, fast MA FIR filters using look‐ahead arithmetic, the conventional IIR filters using combination of integrator and comb sections (CIC) method, and the fast IIR filters using look‐ahead arithmetic in detail. Altera EP4CE115F29C7 field‐programmable gate array (FPGA) device using Quartus II 13.1 synthesis tool has been used to implement these filters. The performance metrics like the number of Logic Elements (LEs), the performance, and the power immoderation simulation results are compared with the normal and fast MA FIR and IIR filters, respectively. The first‐order IIR conventional filter has 153.4 MHz performance shown in simulation result, the same filter with look‐ahead level 1 has 189.79 MHz performance, and the fast filter with level 2 has 199.96 MHz performance. In addition, with the MA FIR filters, an 8‐tap MA FIR filter using CIC method has 166.09 MHz performance, the same filter using look‐ahead with level 1 has 167.22 MHz performance, and the same filter using look‐ahead with level 2 has 168.56 MHz performance. The proposed FIR and IIR filter is designed efficiently in terms of speed for the application of VLSI signal processing environment.