[图书][B] Residue number systems: theory and implementation
AR Omondi, AB Premkumar - 2007 - books.google.com
Residue number systems (RNSs) and arithmetic are useful for several reasons. First, a great
deal of computing now takes place in embedded processors, such as those found in mobile …
deal of computing now takes place in embedded processors, such as those found in mobile …
Residue-to-binary converters based on new Chinese remainder theorems
Y Wang - IEEE Transactions on Circuits and Systems II: Analog …, 2000 - ieeexplore.ieee.org
The speed of arithmetic operations depends on the size of the numbers involved. Smaller
numbers have faster operations. That is exactly the reason why residue number systems are …
numbers have faster operations. That is exactly the reason why residue number systems are …
High-performance computing based on residue number system: a review
V Balajishanmugam - 2023 9th International Conference on …, 2023 - ieeexplore.ieee.org
The speed of arithmetic operation is associated with the quantity of the numbers involved.
Residue Number System (RNS) is used to characterize a more significant numeral using a …
Residue Number System (RNS) is used to characterize a more significant numeral using a …
[HTML][HTML] AC-RRNS: Anti-collusion secured data sharing scheme for cloud storage
Cloud security issues are important factors for data storage and processing. Apart from the
existing security and reliability problems of traditional distributed computing, there are new …
existing security and reliability problems of traditional distributed computing, there are new …
High-speed and reduced-area modular adder structures for RNS
AA Hiasat - IEEE Transactions on Computers, 2002 - ieeexplore.ieee.org
A modular adder is a very instrumental arithmetic component in implementing online residue-
based computations for many digital signal processing applications. It is also a basic …
based computations for many digital signal processing applications. It is also a basic …
Dnnara: A deep neural network accelerator using residue arithmetic and integrated photonics
Deep Neural Networks (DNNs) are currently used in many fields, including critical real-time
applications. Due to its compute-intensive nature, speeding up DNNs has become an …
applications. Due to its compute-intensive nature, speeding up DNNs has become an …
New Chinese remainder theorems
Y Wang - Conference Record of Thirty-Second Asilomar …, 1998 - ieeexplore.ieee.org
The residue-to-binary conversion is the crucial step for residue arithmetic. The traditional
methods are the Chinese remainder theorem (CRT) and the mixed radix conversion. This …
methods are the Chinese remainder theorem (CRT) and the mixed radix conversion. This …
CryptoDL: Predicting dyslexia biomarkers from encrypted neuroimaging dataset using energy-efficient residue number system and deep convolutional neural network
OL Usman, RC Muniyandi - Symmetry, 2020 - mdpi.com
The increasing availability of medical images generated via different imaging techniques
necessitates the need for their remote analysis and diagnosis, especially when such …
necessitates the need for their remote analysis and diagnosis, especially when such …
The mixed-radix Chinese remainder theorem and its applications to residue comparison
S Bi, WJ Gross - IEEE Transactions on Computers, 2008 - ieeexplore.ieee.org
The Chinese remainder theorem (CRT) and mixed-radix conversion (MRC) are two classic
theorems used to convert a residue number to its binary correspondence for a given moduli …
theorems used to convert a residue number to its binary correspondence for a given moduli …
Development of algorithm for control and correction of errors of digital signals, represented in system of residual classes
DI Popov, AV Gapochkin - 2018 International Russian …, 2018 - ieeexplore.ieee.org
The use of parallel computing in the field of digital signal processing (DSP) is associated
with the continuous growth of performance requirements of computing facilities [1]-[3]. But at …
with the continuous growth of performance requirements of computing facilities [1]-[3]. But at …