Add to ORKGAbstract—This paper presents efficient distributed arithmetic (DA)-based approaches for high-throughput reconfigurable im-plementation of finite impulse response (FIR) filters whose filter coefficients change during runtime. Conventionally, for reconfigurable DA-based implementation of FIR filter, the lookup tables (LUTs) are required to be implemented in RAM; and the RAM-based LUT is found to be costly for ASIC implementation. Therefore, a shared-LUT design is proposed to realize the DA computation. Instead of using separate registers to store the possible results of partial inner products for DA processing of different bit positions, registers are shared by the DA units for bit slices of different weightage. The proposed design has nearl
Distributed algorithm is suitable for FPGA to do multiply-accumulate operations, which use the abund...
Aerospace applications contain accelerometers that are realized with FIR filter using DA (distribute...
Abstract This paper proposes an efficient high‐order finite impulse response (FIR) filter structure ...
This paper elucidates the system construct of DA-FIR filter optimized for design of distributed arit...
AbstractA unique pipelined architecture for low-area, low-power, and high-throughput implementation ...
Abstract—Distributed arithmetic (DA)-based computation is popular for its potential for efficient me...
AbstractThis paper discusses FPGA implementation of Finite Impulse Response (FIR) filters using Dist...
Abstract- This paper describes the design and implementation of highly efficient LUT based circuit f...
NoFinite impulse response (FIR) digital filters are extensively used due to their key role in variou...
Finite Impulse Response (FIR) filters is very important in signal Processing Applications. This rese...
Abstract:The VLSI design industry has grown rapidly during the last few decades. The complexity of t...
Abstract – In this paper we present 1D and 2D systolic Distributed Arithmetic (DA) based structures ...
Dynamic partial reconfiguration (DPR) allows us to adapt hardware resources to meet time-varying req...
This paper explores the design and implementation of an adaptive Finite Impulse Response (FIR) Filte...
In this paper, a fixed-point finite impulse response adaptive filter is proposed using approximate d...
Distributed algorithm is suitable for FPGA to do multiply-accumulate operations, which use the abund...
Aerospace applications contain accelerometers that are realized with FIR filter using DA (distribute...
Abstract This paper proposes an efficient high‐order finite impulse response (FIR) filter structure ...
This paper elucidates the system construct of DA-FIR filter optimized for design of distributed arit...
AbstractA unique pipelined architecture for low-area, low-power, and high-throughput implementation ...
Abstract—Distributed arithmetic (DA)-based computation is popular for its potential for efficient me...
AbstractThis paper discusses FPGA implementation of Finite Impulse Response (FIR) filters using Dist...
Abstract- This paper describes the design and implementation of highly efficient LUT based circuit f...
NoFinite impulse response (FIR) digital filters are extensively used due to their key role in variou...
Finite Impulse Response (FIR) filters is very important in signal Processing Applications. This rese...
Abstract:The VLSI design industry has grown rapidly during the last few decades. The complexity of t...
Abstract – In this paper we present 1D and 2D systolic Distributed Arithmetic (DA) based structures ...
Dynamic partial reconfiguration (DPR) allows us to adapt hardware resources to meet time-varying req...
This paper explores the design and implementation of an adaptive Finite Impulse Response (FIR) Filte...
In this paper, a fixed-point finite impulse response adaptive filter is proposed using approximate d...
Distributed algorithm is suitable for FPGA to do multiply-accumulate operations, which use the abund...
Aerospace applications contain accelerometers that are realized with FIR filter using DA (distribute...
Abstract This paper proposes an efficient high‐order finite impulse response (FIR) filter structure ...