This paper presents the architecture of the MFIBVP real-time multiplier which is The MFIBVP technique is a combination of the MSB–First computation, the Interval-Bounded Arithmetic and the Variable-Precision computation techniques.The MFIBVP computation guarantees the computation carried out will produce high accuracy from the early computation time, self error estimation and time-optimal computation. This paper shows the performance of the MFIBVP real-time multiplier unit that can gives accuracy of it’s intermediate-result more than 99% since the second phase of its process
This paper justifies why an arbitrary precision interval arithmetic is needed: to provide accurate r...
International audienceFloating-Point (FP) computation using standard IEEE formats has a significant ...
International audienceWe give a survey on packages for multiple precision interval arithmetic, with ...
This paper presents a paradigm of real-time processing on the lowest level of computing systems: the...
This paper presents a paradigm of real-time processing on the lowest level of computing systems: the...
Floating point arithmetic has become prevalent in virtually every scientific computation, yet suffer...
Abstract—This research is purposed to increase computer function into a time driven to support real ...
Paper submitted to the XVIII Conference on Design of Circuits and Integrated Systems (DCIS), Ciudad ...
This research is purposed to increase computer function into a time driven to support real time syst...
This work presents a new fast and efficient algorithm for a floating point multiplier that adheres t...
Paper submitted to the IFIP International Conference on Very Large Scale Integration (VLSI-SOC), Dar...
Many DSP and Control applications that require the user to know how various numerical errors(uncerta...
This research is purposed to increase computer function into a time driven to support real time syst...
In this paper, we present a multiprecision (MP) reconfigurable multiplier that incorporates variable...
This paper justifies why an arbitrary precision interval arithmetic is needed: to provide accurate r...
International audienceFloating-Point (FP) computation using standard IEEE formats has a significant ...
International audienceWe give a survey on packages for multiple precision interval arithmetic, with ...
This paper presents a paradigm of real-time processing on the lowest level of computing systems: the...
This paper presents a paradigm of real-time processing on the lowest level of computing systems: the...
Floating point arithmetic has become prevalent in virtually every scientific computation, yet suffer...
Abstract—This research is purposed to increase computer function into a time driven to support real ...
Paper submitted to the XVIII Conference on Design of Circuits and Integrated Systems (DCIS), Ciudad ...
This research is purposed to increase computer function into a time driven to support real time syst...
This work presents a new fast and efficient algorithm for a floating point multiplier that adheres t...
Paper submitted to the IFIP International Conference on Very Large Scale Integration (VLSI-SOC), Dar...
Many DSP and Control applications that require the user to know how various numerical errors(uncerta...
This research is purposed to increase computer function into a time driven to support real time syst...
In this paper, we present a multiprecision (MP) reconfigurable multiplier that incorporates variable...
This paper justifies why an arbitrary precision interval arithmetic is needed: to provide accurate r...
International audienceFloating-Point (FP) computation using standard IEEE formats has a significant ...
International audienceWe give a survey on packages for multiple precision interval arithmetic, with ...