In arithmetic circuits for digital signal processing, radixes other than two are often used to make circuits faster. In such cases, radix converters are necessary. However, in general, radix converters tend to be complex. This paper considers design methods for p-nary to binary converters. It introduces a new design technique called arithmetic decomposition. It also compares the amount of hardware and performance of radix converters implemented on FPGAs.
International audienceConversion between binary and decimal floating-point representations is ubiqui...
AbstractComplex radix (−1+j) allows the arithmetic operations of complex numbers to be done without ...
textAs technology keeps changing, there is a need to explore different design tradeoffs and alterna...
In digital signal processing, radixes other than two are often used for high-speed computation. In t...
In digital signal processing, we often use higher radix system to achieve high-speed computation. In...
Due to the character of the original source materials and the nature of batch digitization, quality ...
email bitterliertrwthaachende Abstract All the commercially available logicsynthesis tools cur ren...
A radix-10 multiplication is the foremost frequent operations employed by several monetary business ...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...
This paper presents the sequential and pipelined designs of a double precision floating point divide...
This paper describes a hardware implementation of a two-way converter logic by which conversion betw...
This assignment has been given by Defence Communication (DC) which is a division of Kongsberg Defenc...
This paper describes the hardware implementation methodologies of fixed point binary division algori...
This article proposes a family of high-radix floating-point representation to efficiently deal with ...
Abstract—A conversion driven design approach is described. It takes the outputs of mature and time-p...
International audienceConversion between binary and decimal floating-point representations is ubiqui...
AbstractComplex radix (−1+j) allows the arithmetic operations of complex numbers to be done without ...
textAs technology keeps changing, there is a need to explore different design tradeoffs and alterna...
In digital signal processing, radixes other than two are often used for high-speed computation. In t...
In digital signal processing, we often use higher radix system to achieve high-speed computation. In...
Due to the character of the original source materials and the nature of batch digitization, quality ...
email bitterliertrwthaachende Abstract All the commercially available logicsynthesis tools cur ren...
A radix-10 multiplication is the foremost frequent operations employed by several monetary business ...
: The digit-recurrence division relies on a sequence of addition/subtraction and shift operations i...
This paper presents the sequential and pipelined designs of a double precision floating point divide...
This paper describes a hardware implementation of a two-way converter logic by which conversion betw...
This assignment has been given by Defence Communication (DC) which is a division of Kongsberg Defenc...
This paper describes the hardware implementation methodologies of fixed point binary division algori...
This article proposes a family of high-radix floating-point representation to efficiently deal with ...
Abstract—A conversion driven design approach is described. It takes the outputs of mature and time-p...
International audienceConversion between binary and decimal floating-point representations is ubiqui...
AbstractComplex radix (−1+j) allows the arithmetic operations of complex numbers to be done without ...
textAs technology keeps changing, there is a need to explore different design tradeoffs and alterna...