Decimal arithmetic has recovered the attention in the field of computer arithmetic due to decimal precision requirements of application domains like financial, commercial and internet. In this paper, we propose a new decimal adder on FPGA based on a mixed BCD/excess-6 representation that improves the state-of-the-art decimal adders targeting high-end FPGAs. Using the proposed decimal adder, a multioperand adder and a mixed binary/decimal adder are also proposed. The results show that the new decimal adder is very efficient improving the area and delay of previous state of the art decimal adders, multioperand decimal addition and binary/decimal addition.info:eu-repo/semantics/publishedVersio
Recently, decimal arithmetic has become attractive in the financial and commercial world including b...
We present a new method and architecture to merge efficiently IEEE 754-2008 decimal rounding with si...
[[abstract]]This paper presents a logic design for a new decimal-digit parallel adder. The output de...
Decimal arithmetic has recovered the attention in the field of computer arithmetic due to decimal pr...
Financial and commercial data are mostly represented in decimal format. To avoid errors introduced w...
Financial and commercial applications depend on decimal arithmetic because they must produce results...
Decimal floating Point adder is one of the most frequent operations used by many financial, business...
The hardware support for the Decimal Multiplication is gaining importance in commercial applications...
Almost all applications work with decimal data and spend the majority of their time doing so. Softwa...
Shrinking feature sizes gives more headroom for designers to extend the functionality of microproces...
There are insignificant relevant research works available which are involved with the Field Progra...
This paper presents a novel architecture for hardware efficient binary represented decimal addition....
Abstract—Field Programmable Gate-Arrays (FPGAs) can efficiently implement application specific proce...
Abstract: Binary arithmetic is one of the most primitive and most commonly used applications in micr...
There are insignificant relevant research works available which are involved with the Field Programm...
Recently, decimal arithmetic has become attractive in the financial and commercial world including b...
We present a new method and architecture to merge efficiently IEEE 754-2008 decimal rounding with si...
[[abstract]]This paper presents a logic design for a new decimal-digit parallel adder. The output de...
Decimal arithmetic has recovered the attention in the field of computer arithmetic due to decimal pr...
Financial and commercial data are mostly represented in decimal format. To avoid errors introduced w...
Financial and commercial applications depend on decimal arithmetic because they must produce results...
Decimal floating Point adder is one of the most frequent operations used by many financial, business...
The hardware support for the Decimal Multiplication is gaining importance in commercial applications...
Almost all applications work with decimal data and spend the majority of their time doing so. Softwa...
Shrinking feature sizes gives more headroom for designers to extend the functionality of microproces...
There are insignificant relevant research works available which are involved with the Field Progra...
This paper presents a novel architecture for hardware efficient binary represented decimal addition....
Abstract—Field Programmable Gate-Arrays (FPGAs) can efficiently implement application specific proce...
Abstract: Binary arithmetic is one of the most primitive and most commonly used applications in micr...
There are insignificant relevant research works available which are involved with the Field Programm...
Recently, decimal arithmetic has become attractive in the financial and commercial world including b...
We present a new method and architecture to merge efficiently IEEE 754-2008 decimal rounding with si...
[[abstract]]This paper presents a logic design for a new decimal-digit parallel adder. The output de...