A mathematical characterization of serially-pruned permutations (SPPs) employed in variable-length permuters and their associated fast pruning algorithms and architectures are proposed. Permuters are used in many signal processing systems for shuffling data and in communication systems as an adjunct to coding for error correction. Typically only a small set of discrete permuter lengths are supported. Serial pruning is a simple technique to alter the length of a permutation to support a wider range of lengths, but results in a serial processing bottleneck. In this paper, parallelizing SPPs is formulated in terms of recursively computing sums involving integer floor and related functions using integer operations, in a fashion analogous to eva...
In this paper, we propose equivalent radix-22 algorithms and evaluate them based on twiddle factor s...
Our research is focused on mapping binary sequences to permutation sequences. It is established that...
We describe a mechanically checked correctness proof for the compara-tor sort algorithm underlying a...
In this paper we address the issue of pruning (i.e., shortening) a given interleaver via truncation ...
International audienceWe tackle the feasibility and efficiency of two new parallel algorithms that s...
In this paper, we present a systematic approach to design hardware circuits for bit-dimension permut...
With the increasing demand for online/inline data processing efficient Fourier analysis becomes more...
This paper discusses a bit-vector implementation of an algorithm that computes an optimal sequence ...
Abstract: The Fast Fourier Transform is incomplete without bitreversal. Novel parallel circuits for ...
This Thesis considers systematic methods for designing stride permutation interconnections, which ar...
A wide variety of Fast Fourier Transform (FFT) algorithms employ a bit reversal method for the reord...
The article introduces the program application for seeking binary signals of specified bit length th...
AbstractThe problem of sorting signed permutations by reversals (SBR) is a fundamental problem in co...
A parallel algorithm for generating all the k! permutations of kPk for every (1 ^ k § n) is presente...
Abstract- Several bit permutation instructions, including GRP, OMFLIP, CROSS, and BFLY, have been pr...
In this paper, we propose equivalent radix-22 algorithms and evaluate them based on twiddle factor s...
Our research is focused on mapping binary sequences to permutation sequences. It is established that...
We describe a mechanically checked correctness proof for the compara-tor sort algorithm underlying a...
In this paper we address the issue of pruning (i.e., shortening) a given interleaver via truncation ...
International audienceWe tackle the feasibility and efficiency of two new parallel algorithms that s...
In this paper, we present a systematic approach to design hardware circuits for bit-dimension permut...
With the increasing demand for online/inline data processing efficient Fourier analysis becomes more...
This paper discusses a bit-vector implementation of an algorithm that computes an optimal sequence ...
Abstract: The Fast Fourier Transform is incomplete without bitreversal. Novel parallel circuits for ...
This Thesis considers systematic methods for designing stride permutation interconnections, which ar...
A wide variety of Fast Fourier Transform (FFT) algorithms employ a bit reversal method for the reord...
The article introduces the program application for seeking binary signals of specified bit length th...
AbstractThe problem of sorting signed permutations by reversals (SBR) is a fundamental problem in co...
A parallel algorithm for generating all the k! permutations of kPk for every (1 ^ k § n) is presente...
Abstract- Several bit permutation instructions, including GRP, OMFLIP, CROSS, and BFLY, have been pr...
In this paper, we propose equivalent radix-22 algorithms and evaluate them based on twiddle factor s...
Our research is focused on mapping binary sequences to permutation sequences. It is established that...
We describe a mechanically checked correctness proof for the compara-tor sort algorithm underlying a...