Implementing arithmetic-heavy applications such as filters or neural networks in FPGAs relies to a great extent on the realization of efficient multipliers. However, implementing high-precision multipliers only with configurable logic leads to a large lookup-table usage and considerable routing efforts. Thus, hard-wired multiplier blocks are embedded in modern FPGA devices in order to relieve the resources, but their word-length is still fixed to e.g. 18×18-bit in the Xilinx Virtex-IV DSP48 slices. In this paper, we describe our approach of creating configurable blocks suitable for multi-precision multiplication with a word-length that can be changed at runtime. We present a novel block-serial design that shows a 60% area advantage over a f...
Fully serial multipliers can play an important role in the implementation of DSP algorithms in resou...
Multiplication is considered one of the most time-consuming and a key operation in wide variety of e...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematic<br ...
Binary multiplication continues to be one of the essential arithmetic operations in digital circuits...
Bit-serial multipliers have a variety of applications, from the implementation of neural networks to...
FPGAs are increasingly being applied to DSP applications but are often inefficient in space and time...
The introduction of asymmetric embedded multiplier blocks in recent Xilinx FPGAs complicates the des...
A configurable serial-parallel multiplier based on Braun's and Baugh-Wooley's algorithms is presente...
We propose a new DSP block for use in modern high-performance FPGAs. Current DSP blocks contain fixe...
ASELSAN A.S.;Turkish Aerospace Industries, Inc. (TAI);The Scientific and Technological Research Coun...
During the last decade of integrated electronic design ever more functionality has been integrated o...
High speed multiplication in Field Programmable Gate Arrays is often performed either using logic ce...
To bridge the gap between FPGAs and ASICs for arithmetic dominated circuits, one key step is to impr...
The newly proposed reconfigurable multiplier blocks offer significant savings in area over the trad...
Multiplication is one of the fundamental operations used in most arithmetic computing systems. Multi...
Fully serial multipliers can play an important role in the implementation of DSP algorithms in resou...
Multiplication is considered one of the most time-consuming and a key operation in wide variety of e...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematic<br ...
Binary multiplication continues to be one of the essential arithmetic operations in digital circuits...
Bit-serial multipliers have a variety of applications, from the implementation of neural networks to...
FPGAs are increasingly being applied to DSP applications but are often inefficient in space and time...
The introduction of asymmetric embedded multiplier blocks in recent Xilinx FPGAs complicates the des...
A configurable serial-parallel multiplier based on Braun's and Baugh-Wooley's algorithms is presente...
We propose a new DSP block for use in modern high-performance FPGAs. Current DSP blocks contain fixe...
ASELSAN A.S.;Turkish Aerospace Industries, Inc. (TAI);The Scientific and Technological Research Coun...
During the last decade of integrated electronic design ever more functionality has been integrated o...
High speed multiplication in Field Programmable Gate Arrays is often performed either using logic ce...
To bridge the gap between FPGAs and ASICs for arithmetic dominated circuits, one key step is to impr...
The newly proposed reconfigurable multiplier blocks offer significant savings in area over the trad...
Multiplication is one of the fundamental operations used in most arithmetic computing systems. Multi...
Fully serial multipliers can play an important role in the implementation of DSP algorithms in resou...
Multiplication is considered one of the most time-consuming and a key operation in wide variety of e...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematic<br ...