This paper presents a paradigm of real-time processing on the lowest level of computing systems: the arithmetic unit. The arithmetic unit based on this principle containing addition, subtraction, multiplication and division operations is described. The development of the computation model is based on the Soft Computing and the Imprecise Computation paradigms, combined with the MSB-First and the Interval Arithmetic techniques. Those paradigms and techniques give the arithmetic unit design the ability to compute with precisions as a function of time available or accuracy needed. The predictability of processing time and result’s accuracy are obtained by means of processing granularity of k-bits and by using look-up tables. We present an evalu...
This research is purposed to increase computer function into a time driven to support real time syst...
We propose the first hardware implementation of standard arithmetic operators – addition, multiplica...
In many practical situations, we know only the intervals which contain the actual (unknown) values o...
<p>This paper presents a paradigm of real-time processing on the lowest level of computing systems: ...
This paper presents the architecture of the MFIBVP real-time multiplier which is The MFIBVP techniqu...
Paper submitted to the XVIII Conference on Design of Circuits and Integrated Systems (DCIS), Ciudad ...
Floating point arithmetic has become prevalent in virtually every scientific computation, yet suffer...
A new operation model of flexible calculation that allows us to adjust the operation delay depending...
AbstractAdvances in computer technology are now so profound that the arithmetic capability and reper...
Abstract—This research is purposed to increase computer function into a time driven to support real ...
Abstract—For many scientific calculations, particularly those involving empirical data, IEEE 32-bit ...
Arithmetic approximation is used to decrease the latency of an arithmetic circuit by shortening the ...
Precision in computations is a considerable challenge to adequately addressing many current scientif...
AN ABSTRACT OF THE THESIS OF Zeeshan Ahmed Bashir, for the Masters of Science degree in Electrical a...
Parallel computing systems, getting over rounding-off errors by means of the use of the multiply pre...
This research is purposed to increase computer function into a time driven to support real time syst...
We propose the first hardware implementation of standard arithmetic operators – addition, multiplica...
In many practical situations, we know only the intervals which contain the actual (unknown) values o...
<p>This paper presents a paradigm of real-time processing on the lowest level of computing systems: ...
This paper presents the architecture of the MFIBVP real-time multiplier which is The MFIBVP techniqu...
Paper submitted to the XVIII Conference on Design of Circuits and Integrated Systems (DCIS), Ciudad ...
Floating point arithmetic has become prevalent in virtually every scientific computation, yet suffer...
A new operation model of flexible calculation that allows us to adjust the operation delay depending...
AbstractAdvances in computer technology are now so profound that the arithmetic capability and reper...
Abstract—This research is purposed to increase computer function into a time driven to support real ...
Abstract—For many scientific calculations, particularly those involving empirical data, IEEE 32-bit ...
Arithmetic approximation is used to decrease the latency of an arithmetic circuit by shortening the ...
Precision in computations is a considerable challenge to adequately addressing many current scientif...
AN ABSTRACT OF THE THESIS OF Zeeshan Ahmed Bashir, for the Masters of Science degree in Electrical a...
Parallel computing systems, getting over rounding-off errors by means of the use of the multiply pre...
This research is purposed to increase computer function into a time driven to support real time syst...
We propose the first hardware implementation of standard arithmetic operators – addition, multiplica...
In many practical situations, we know only the intervals which contain the actual (unknown) values o...