Residue Number System (RNS) is often adopted to implement long and repetitive multiplications of cryptographic and signal processing algorithms. To sustain the competitive advantages of RNS over two's complement system in pervasive computing platforms, the hardware cost of parallel modulo arithmetic operations must be lowered. In this paper, new low power and low area modulo multipliers for the well-established {2n - 1, 2n, 2n + 1} based RNS are proposed. The proposed modulo 2n-1 and modulo 2n + 1 multipliers are based on the radix-8 Booth encoding technique. The requisite hard multiples in the critical path are generated by fast customized parallel-prefix adders. In the proposed modulo 2n - 1 multiplier, the number of partial products is l...
Residue Number System (RNS), being a non-positional number system, is emerging as a promising data r...
Modulo 2n + 1 multipliers are the primitive computational logic components widely used in residue ar...
As embedded and portable systems were emerged power consumption of circuits had been major challenge...
Residue Number System (RNS) is often adopted to implement long and repetitive multiplications of cry...
Long word-length integer multiplication is widely acknowledged as the bottleneck operation in public...
up the execution of very-large word-length repetitive multiplications found in applications like pub...
Abstract The moduli 2n multiplier plays a vital role in the design of a residue number system proces...
The method 2n + 1 multiplier is the congestion of a wide drift of applications from silt collection ...
Modulo 2n + 1 arithmetic has a variety of applications in several fields like cryptography, pseudora...
Abstract—Multi-moduli architectures are very useful for reconfigurable digital processors and fault-...
High-speed modulo multipliers are essential elements in RNS datapath. Booth recoding algorithm can b...
Abstract—Multi-moduli architectures, that is, architectures that can deal with more than one modulo ...
Abstract—Multi-moduli architectures are very useful for reconfigurable digital processors and fault-...
Efficient modulo 2n+1 adders are important for several applications including residue number system,...
A θ(log n) algorithm for large moduli multiplication for Residue Number System (RNS) based architect...
Residue Number System (RNS), being a non-positional number system, is emerging as a promising data r...
Modulo 2n + 1 multipliers are the primitive computational logic components widely used in residue ar...
As embedded and portable systems were emerged power consumption of circuits had been major challenge...
Residue Number System (RNS) is often adopted to implement long and repetitive multiplications of cry...
Long word-length integer multiplication is widely acknowledged as the bottleneck operation in public...
up the execution of very-large word-length repetitive multiplications found in applications like pub...
Abstract The moduli 2n multiplier plays a vital role in the design of a residue number system proces...
The method 2n + 1 multiplier is the congestion of a wide drift of applications from silt collection ...
Modulo 2n + 1 arithmetic has a variety of applications in several fields like cryptography, pseudora...
Abstract—Multi-moduli architectures are very useful for reconfigurable digital processors and fault-...
High-speed modulo multipliers are essential elements in RNS datapath. Booth recoding algorithm can b...
Abstract—Multi-moduli architectures, that is, architectures that can deal with more than one modulo ...
Abstract—Multi-moduli architectures are very useful for reconfigurable digital processors and fault-...
Efficient modulo 2n+1 adders are important for several applications including residue number system,...
A θ(log n) algorithm for large moduli multiplication for Residue Number System (RNS) based architect...
Residue Number System (RNS), being a non-positional number system, is emerging as a promising data r...
Modulo 2n + 1 multipliers are the primitive computational logic components widely used in residue ar...
As embedded and portable systems were emerged power consumption of circuits had been major challenge...