Binary multiplication continues to be one of the essential arithmetic operations in digital circuits. Even though field-programmable gate arrays (FPGAs) are becoming more and more powerful these days, the vendors cannot avoid implementing multiplications with high word-lengths using embedded blocks instead of configurable logic. But on the other hand, the circuit's efficiency decreases if the provided word-length of the hard-wired multipliers exceeds the precision requirements of the algorithm mapped into the FPGA. Thus it is beneficial to use multiplier blocks with configurable word-length, optimized for area, speed and power dissipation, e.g. regarding digital signal processing (DSP) applications. <br><br> In this contrib...
International audienceMost current square root implementations for FPGAs use a digit recurrence algo...
To bridge the gap between FPGAs and ASICs for arithmetic dominated circuits, one key step is to impr...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematicappr...
Binary multiplication continues to be one of the essential arithmetic operations in digital circuits...
Implementing arithmetic-heavy applications such as filters or neural networks in FPGAs relies to a g...
International audienceThis paper presents a comparison of possible approaches for an efficient imple...
A unique design for an optimized N-bit multiplier is proposed and implemented which utilizes a modif...
High speed multiplication in Field Programmable Gate Arrays is often performed either using logic ce...
The recent growth in microprocessor performance has been a direct result of designers exploiting dec...
Arithmetic operations are among the most frequently-used operations in contemporary digital integrat...
This study presents the form and performance of restricted configurable Booth encoding multiplier fo...
International audienceIn this paper, a new recursive multibit recoding multiplication algorithm is i...
A serial-data pipeline multiplier was designed and implemented in p-channel silicon-gate MOS. It use...
During the last decade of integrated electronic design ever more functionality has been integrated o...
Multiplication is one of the fundamental operations used in most arithmetic computing systems. Multi...
International audienceMost current square root implementations for FPGAs use a digit recurrence algo...
To bridge the gap between FPGAs and ASICs for arithmetic dominated circuits, one key step is to impr...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematicappr...
Binary multiplication continues to be one of the essential arithmetic operations in digital circuits...
Implementing arithmetic-heavy applications such as filters or neural networks in FPGAs relies to a g...
International audienceThis paper presents a comparison of possible approaches for an efficient imple...
A unique design for an optimized N-bit multiplier is proposed and implemented which utilizes a modif...
High speed multiplication in Field Programmable Gate Arrays is often performed either using logic ce...
The recent growth in microprocessor performance has been a direct result of designers exploiting dec...
Arithmetic operations are among the most frequently-used operations in contemporary digital integrat...
This study presents the form and performance of restricted configurable Booth encoding multiplier fo...
International audienceIn this paper, a new recursive multibit recoding multiplication algorithm is i...
A serial-data pipeline multiplier was designed and implemented in p-channel silicon-gate MOS. It use...
During the last decade of integrated electronic design ever more functionality has been integrated o...
Multiplication is one of the fundamental operations used in most arithmetic computing systems. Multi...
International audienceMost current square root implementations for FPGAs use a digit recurrence algo...
To bridge the gap between FPGAs and ASICs for arithmetic dominated circuits, one key step is to impr...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematicappr...