An Efficient VLSI Architecture of Fixed and Reconfigurable FIR based on Booth Multiplier
The possibility of realization of block FIR filter in transpose form configuration for area-delay efficient realization of large order FIR filters for both fixed and reconfigurable applications. Based on a detailed computational analysis of transpose form configuration of FIR filter, a flow graph for transpose form block FIR filter with optimized register complexity is derived. A generalized block formulation is presented for transpose form FIR filter. A low-complexity design using the MCM
... e is also presented for the block implementation of fixed FIR filters. The proposed structure involves significantly less area delay product (ADP) than the existing block implementation of direct-form structure for medium or large filter lengths, while for the short-length filters, the block implementation of direct-form FIR structure has less ADP than the proposed structure by using Booth Multipliers. Application specific integrated circuit synthesis result shows that the proposed structure for block size 4 and filter length 64 involves less ADP and less EPS than the best available FIR filter structure proposed for reconfigurable applications. For the same filter length and the same block size, the proposed structure involves less ADP than that of the existing direct-form blocks FIR structure. This Proposed System Implemented using Verilog HDL and Simulated by Modelsim 6.4 c and Synthesized by Xilinx tool. The proposed system implemented in FPGA Spartan 3 XC3S 200 TQ-144. In this paper, we have explored the possibility of realization of block FIR filters in transpose form configuration for area delay efficient realization of both fixed and reconfigurable applications. A generalized block formulation is presented for transpose form block FIR filter, and based on that we have derived transpose form block filter for reconfigurable applications. We have presented a scheme to identify the MCM blocks for horizontal and vertical sub-expression elimination in the proposed block FIR filter for fixed coefficients to reduce the computational complexity. Performance comparison shows that the proposed structure involves significantly less ADP than the existing block direct-form structure for medium or large filter lengths while for the short-length filters, the existing block direct-form structure has less ADP than the proposed structure.