Efficient Implementations of the Chinese Remainder Theorem for Sign Detection and Residue Decoding
IEEE Transactions on Computers
Residue number system arithmetic: modern applications in digital signal processing
Residue number system arithmetic: modern applications in digital signal processing
Fast Base Extension Using a Redundant Modulus in RNS
IEEE Transactions on Computers
Discrete-time signal processing
Discrete-time signal processing
Fast Algorithms for Digital Signal Processing
Fast Algorithms for Digital Signal Processing
New Fault Tolerant Techniques for Residue Number Systems
IEEE Transactions on Computers
Single Residue Error Correction Based on K-Term mj-Projection
IEEE Transactions on Computers
A Look-Up Scheme for Scaling in the RNS
IEEE Transactions on Computers
On Theory and Fast Algorithms for Error Correction in Residue Number System Product Codes
IEEE Transactions on Computers
A fault-tolerant permutation network modulo arithmetic processor
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
| Hi-index | 14.99 |
An algorithm for scaling and single residue digit error correction is proposed. This algorithm is fully based on mixed radix conversion (MRC). The redundant digits of MRC can be used to establish a lookup table to correct single residue digit errors. By using this algorithm the error correction and scaling operation can be unified in one hardware, thereby reducing the complexity of these implementations. The scaling error e/sub s/ is analyzed and found to be limited to the interval of -1e/sub s/1. Since scaling is often required in the computations of digital signal processing (DSP), which is the main application of RNS, and error-correction circuit with scaling (ECCS) will by very efficient in the fault-tolerant systems for the DSP applications. Two examples for the application of the proposed ECCS are given.