Abstract Internet of Medical Things (IoMTs) is fast emerging, thereby fostering rapid
advances in the areas of sensing, actuation and connectivity to significantly improve the …

A novel technique for designing piecewise-polynomial interpolators for hardware
implementation of elementary functions is investigated in this paper. In the proposed …

Piecewise polynomial interpolation is a well-established technique for hardware function
evaluation. The paper describes a novel technique to minimize polynomial coefficients …

Function evaluation is an important arithmetic computation in many signal processing
applications, such as special function units in modern graphics processing units (GPUs) …

The tables-and-additions methods for accurate computation of elementary functions are fast
in computation speed but require large memory. A memory-efficient method named as the …

Complex reciprocal and square-root operations are used in many digital signal processing
(DSP) and numerical computations. In particular, high-throughput fixed-point …

A scheme is proposed for hardware estimation of the location of zero crossings of sampled
signals with subsample resolution for timing applications, which consists of interpolating the …

A massive core computing architecture is developed for accelerating arbitrary calculations in
fully parallel with high speed and low cost. The proposed architecture is reconfigurable in …

We are currently develo** a prototype monolithic scintillator PET detector module based
on neural network position estimators. The detector module comprises a 25.5 mm× 25.5 …

This paper presents a method for designing linear, quadratic and cubic interpolators that
compute elementary functions using truncated multipliers, squarers and cubers. Initial …