A new pipeline array type parallel scheme for the implemen-tation of FIR digital filters of low-latency is presented in this paper. Each cell of the array of the proposed scheme imple-ments the computation of a one-bit FIR filter and is based on carry-save arithmetic. This structure leads to a low-latency implementation that is independent of the number of the filter taps. The proposed scheme is pipelined at the bit-level, requires less hardware and yields superior performance than other schemes that are based on discrete multipliers. Also, a merging technique is applied inside the one-bit FIR filter cell achieving systolicity at the bit-level. 1
A new algorithm is presented that synthesises multiplier blocks with the goal of minimising FPGA har...
A new algorithm that synthesises multiplier blocks with low hardware requirement suitable for implem...
Previous designs of programmable finite impulse response (FIR) digital filters have demonstrated tha...
This paper presents a novel architecture for the efficient implementation of parallel and serial pro...
This paper describes an efficient architecture for FIR filters. By exploiting the reduced complexity...
Based on fast finite-impulse response (FIR) algorithms (FFAs), this paper proposes new parallel FIR ...
Parallel (or block) FIR digital filters can be used either for high-speed or low-power (with reduced...
Parallel (or block) FIR digital filters can be used either for high-speed or low-power (with reduce...
Abstract — In today’s world there is a great need for the design of low power and area efficient hig...
In recent days filters with large lengths are started to use. So parallel processing is essential at...
Abstract- This paper introduces novel parallel FIR filter structures which are advantageous to symme...
Abstract:- In digital systems, the filters occupy a major role. This paper reviews several technique...
Along with the explosive growth of multimedia applications, the number of gates required and the are...
This paper proposes new parallel fir structures to diminish the equipment multifaceted nature of hig...
This paper presents the details of hardware implementation of linear phase FIR filter using merged M...
A new algorithm is presented that synthesises multiplier blocks with the goal of minimising FPGA har...
A new algorithm that synthesises multiplier blocks with low hardware requirement suitable for implem...
Previous designs of programmable finite impulse response (FIR) digital filters have demonstrated tha...
This paper presents a novel architecture for the efficient implementation of parallel and serial pro...
This paper describes an efficient architecture for FIR filters. By exploiting the reduced complexity...
Based on fast finite-impulse response (FIR) algorithms (FFAs), this paper proposes new parallel FIR ...
Parallel (or block) FIR digital filters can be used either for high-speed or low-power (with reduced...
Parallel (or block) FIR digital filters can be used either for high-speed or low-power (with reduce...
Abstract — In today’s world there is a great need for the design of low power and area efficient hig...
In recent days filters with large lengths are started to use. So parallel processing is essential at...
Abstract- This paper introduces novel parallel FIR filter structures which are advantageous to symme...
Abstract:- In digital systems, the filters occupy a major role. This paper reviews several technique...
Along with the explosive growth of multimedia applications, the number of gates required and the are...
This paper proposes new parallel fir structures to diminish the equipment multifaceted nature of hig...
This paper presents the details of hardware implementation of linear phase FIR filter using merged M...
A new algorithm is presented that synthesises multiplier blocks with the goal of minimising FPGA har...
A new algorithm that synthesises multiplier blocks with low hardware requirement suitable for implem...
Previous designs of programmable finite impulse response (FIR) digital filters have demonstrated tha...