In this paper we propose a Modified rounding based accurate multiplier (MROBA) which is more accurate than the conventional multiplier (ROBA). The main concept of multiplier depends on rounding of numbers. This multiplier can be applied for both signed and unsigned numbers. Three hardware implementations are proposed in which one implementation for unsigned and two for signed operations. The accuracy of the multiplier is compared with the conventional rounding based accurate multiplier (which are in 2n ) where the modified rounding based accurate multiplier gives an exact output for the given inputs (irrespective of 2n ) and various parameters like area, power delay, error significance, pass rates are been calculated and compared with conve...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematic<br ...
Modern floating-point multipliers perform rounding in compliance with the IEEE 754 standard. Since r...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
The fundamental idea of adjusting put together estimated multiplier depends with respect to adjustin...
International audienceMost current square root implementations for FPGAs use a digit recurrence algo...
MEC bajo TIN2013-42253-PThis paper analyzes the benefits of using HUB formats to implement floating...
23 pagesWe introduce several algorithms for accurately evaluating powers to a positive integer in fl...
In this paper, propose an approximate multiplier that is high speed yet energy efficient. The approa...
We propose a high-speed, energy-efficient approximation multiplier. The method is to round the coeff...
Laboratoire LIP : CNRS/ENS Lyon/INRIA/Université Lyon 1We introduce two algorithms for accurately ev...
AbstractIn this paper, using Radix-4 Modified Booth Encoding (MBE) algorithm high accuracy fixed wid...
International audienceRounding to odd is a non-standard rounding on floating-point numbers. By using...
The master's thesis discusses binary multipliers. Reported in detail are multipliers suitable for di...
Approximate computing is a popular field where accuracy is traded with energy. It can benefit applic...
Abstract — This paper focuses on the design of high accuracy fixed width booth multiplier using line...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematic<br ...
Modern floating-point multipliers perform rounding in compliance with the IEEE 754 standard. Since r...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
The fundamental idea of adjusting put together estimated multiplier depends with respect to adjustin...
International audienceMost current square root implementations for FPGAs use a digit recurrence algo...
MEC bajo TIN2013-42253-PThis paper analyzes the benefits of using HUB formats to implement floating...
23 pagesWe introduce several algorithms for accurately evaluating powers to a positive integer in fl...
In this paper, propose an approximate multiplier that is high speed yet energy efficient. The approa...
We propose a high-speed, energy-efficient approximation multiplier. The method is to round the coeff...
Laboratoire LIP : CNRS/ENS Lyon/INRIA/Université Lyon 1We introduce two algorithms for accurately ev...
AbstractIn this paper, using Radix-4 Modified Booth Encoding (MBE) algorithm high accuracy fixed wid...
International audienceRounding to odd is a non-standard rounding on floating-point numbers. By using...
The master's thesis discusses binary multipliers. Reported in detail are multipliers suitable for di...
Approximate computing is a popular field where accuracy is traded with energy. It can benefit applic...
Abstract — This paper focuses on the design of high accuracy fixed width booth multiplier using line...
This paper proposes design and implementation of a 16-bit multiplier based upon Vedic mathematic<br ...
Modern floating-point multipliers perform rounding in compliance with the IEEE 754 standard. Since r...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...