For a simple multiplier block FIR filter design, we compare the effects on power consumption of using direct versus transposed direct forms, tree versus linear structures and carry-save (CS) versus carry-ripple (CR) adders (for which multiplier block algorithms have been designed). We find that tree structures offer power savings, as expected, as does transposition in general but not always. Selective use of CS adders is shown to offer power savings provided that care is taken with their deployment. Our best result is with a direct form CWCS hybrid. The need for new multiplier-block design algorithms is identified
Conventional array multiplier based on carry save adders is optimized in this letter. Some specific ...
The most area and power consuming arithmetic operation in high-performance circuits like Finite Impu...
Multimedia and image processing applications, may tolerate errors in calculations but still generate...
The depth of logic in an integrated circuit, particularly a CMOS circuit, is highly correlated both ...
Multiplier blocks have been used primarily for the reduction of circuit complexity. Using new algor...
Abstract:- In this paper trade-offs in digit-serial multiplier blocks are studied. Three different a...
Utilization of power is a major aspect in the design of integrated circuits. Since, adders are mostl...
The newly proposed reconfigurable multiplier blocks offer significant savings in area over the trad...
High Speed VLSI circuits have become a key criterion for developing energy-efficient electronics for...
In a conventional array multiplier many number of CMOS structures are used in designing. Here this p...
Multiplications occur frequently in digital signal processing systems, communication systems, and ot...
In this study, three multiplier-blocks generated by different algorithms are analyzed for their powe...
A multiplier is one of the key hardware blocks in most digital and high performance systems such as ...
Adders and multipliers are key operations in DSP systems. The power consumption of adders is well un...
Graduation date: 1998Minimizing the dynamic power consumption of a circuit is becoming a more and mo...
Conventional array multiplier based on carry save adders is optimized in this letter. Some specific ...
The most area and power consuming arithmetic operation in high-performance circuits like Finite Impu...
Multimedia and image processing applications, may tolerate errors in calculations but still generate...
The depth of logic in an integrated circuit, particularly a CMOS circuit, is highly correlated both ...
Multiplier blocks have been used primarily for the reduction of circuit complexity. Using new algor...
Abstract:- In this paper trade-offs in digit-serial multiplier blocks are studied. Three different a...
Utilization of power is a major aspect in the design of integrated circuits. Since, adders are mostl...
The newly proposed reconfigurable multiplier blocks offer significant savings in area over the trad...
High Speed VLSI circuits have become a key criterion for developing energy-efficient electronics for...
In a conventional array multiplier many number of CMOS structures are used in designing. Here this p...
Multiplications occur frequently in digital signal processing systems, communication systems, and ot...
In this study, three multiplier-blocks generated by different algorithms are analyzed for their powe...
A multiplier is one of the key hardware blocks in most digital and high performance systems such as ...
Adders and multipliers are key operations in DSP systems. The power consumption of adders is well un...
Graduation date: 1998Minimizing the dynamic power consumption of a circuit is becoming a more and mo...
Conventional array multiplier based on carry save adders is optimized in this letter. Some specific ...
The most area and power consuming arithmetic operation in high-performance circuits like Finite Impu...
Multimedia and image processing applications, may tolerate errors in calculations but still generate...