Add to ORKGIn this report, we apply constraint least squares solution (CLS) to the problem of reducing the number of operations in FIR digital filters with a motivation of reducing its power consumption. The constraints are defined by the maximum allowable add/subtract operations in forming the products which are used in computing the output. We show that truncation and rounding 0.f coefficients can be viewed as power constrained least squares (PCLS) solutions. Further, we show that in dedicated DSP processor based architectures it is possible to reduce power by using PCLS coefficients along with appropriately modified multipliers. It is also shown that Booth multiplier effectively reduces the complexity of such filters, thereby increasing power savin...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
In this paper, we consider the design of finite-impulse response (FIR) filters, where the coefficien...
Low Multipliers and Adders are used to reduce dynamic power consumption of a Digital Finite Impulse ...
In this report, we apply constraint least squares solution (CLS) to the problem of reducing the numb...
Approximate Computing has emerged as a new low-power design approach for application domains charact...
We present new approaches which can be used to reduce power consumption and/or increase speed of DSP...
We present computation reduction t,echniques which can be used to obtain multiplierless implementati...
With the advent of information era, the use of digital devices such as hand phones, digital cameras ...
A method for the design of Peak Constrained Least Squares (PCLS) Finite duration Impulse Response (F...
Digital finite impulse response filters (FIR) are commonly used in various applications of signal pr...
Approximate Computing has emerged as a new low-power design approach for application domains charact...
Multiplication and addition are the most basic operations in all DSP applications. We are going for...
Due to the explosive growth of digital signal processing applications, the demand for high performan...
In this paper, we introduce a design method for a low power digital baseband processing circuit. In ...
Abstract:- In digital systems, the filters occupy a major role. This paper reviews several technique...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
In this paper, we consider the design of finite-impulse response (FIR) filters, where the coefficien...
Low Multipliers and Adders are used to reduce dynamic power consumption of a Digital Finite Impulse ...
In this report, we apply constraint least squares solution (CLS) to the problem of reducing the numb...
Approximate Computing has emerged as a new low-power design approach for application domains charact...
We present new approaches which can be used to reduce power consumption and/or increase speed of DSP...
We present computation reduction t,echniques which can be used to obtain multiplierless implementati...
With the advent of information era, the use of digital devices such as hand phones, digital cameras ...
A method for the design of Peak Constrained Least Squares (PCLS) Finite duration Impulse Response (F...
Digital finite impulse response filters (FIR) are commonly used in various applications of signal pr...
Approximate Computing has emerged as a new low-power design approach for application domains charact...
Multiplication and addition are the most basic operations in all DSP applications. We are going for...
Due to the explosive growth of digital signal processing applications, the demand for high performan...
In this paper, we introduce a design method for a low power digital baseband processing circuit. In ...
Abstract:- In digital systems, the filters occupy a major role. This paper reviews several technique...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
In this paper, we consider the design of finite-impulse response (FIR) filters, where the coefficien...
Low Multipliers and Adders are used to reduce dynamic power consumption of a Digital Finite Impulse ...