AbstractThis paper presents two efficient concurrent-read concurrent-write parallel algorithms that find all palindromes in a given string: 1.1. An O(log n) time, n-processor algorithm over general alphabets. In the case of constant size alphabets the algorithm requires only nlog n processors, and thus achieves an optimalspeedup.2.2. An O(log log n) time, n log nloglog n-processor algorithm over general alphabets. This is the fastest possible time with the number of processors used.These new results improve on the known parallel palindrome detection algorithms by using smaller auxiliary space and either by making fewer operations or by achieving a faster running time
Parallel parenthesis-matching algorithm has in the past been used to design parallel algorithms for ...
AbstractThe problem of palindrome recognition using a Turing machine with one multidimensional tape ...
A palindrome is defined as a string which reads forwards the same as backwards, like, for example, t...
This paper presents two efficient concurrent-read concurrent-write parallel algorithms that find all...
This paper presents two efficient concurrent-read concurrent-write parallel algorithms that find all...
AbstractThis paper presents two efficient concurrent-read concurrent-write parallel algorithms that ...
An optimal O(log log n) time CRCW-PRAM algorithm for computing all periods of a string is presented...
Let WRAM [PRAM]be a parallel computer with p processors (RAMs) which share a common memory and are a...
Given a text of length n and a pattern of length m, we present a parallel linear algorithm for findi...
Parenthesis matching is an important step in the construction of computation tree form and parsing. ...
[[abstract]]Palindromes are strings of symbols that read the same forward and backward. Palindromes ...
Let WRAM [PRAM] be a parallel computer with p processors (RAM's) which share a common memory and are...
A theory for the derivation of on-line algorithms is presented. The algorithms are derived in the B...
AbstractA real-time Turing machine algorithm that finds the smallest nontrivial initial palindrome i...
Genetic information of all living organisms is stored in DNA. Exploring of its structure and functio...
Parallel parenthesis-matching algorithm has in the past been used to design parallel algorithms for ...
AbstractThe problem of palindrome recognition using a Turing machine with one multidimensional tape ...
A palindrome is defined as a string which reads forwards the same as backwards, like, for example, t...
This paper presents two efficient concurrent-read concurrent-write parallel algorithms that find all...
This paper presents two efficient concurrent-read concurrent-write parallel algorithms that find all...
AbstractThis paper presents two efficient concurrent-read concurrent-write parallel algorithms that ...
An optimal O(log log n) time CRCW-PRAM algorithm for computing all periods of a string is presented...
Let WRAM [PRAM]be a parallel computer with p processors (RAMs) which share a common memory and are a...
Given a text of length n and a pattern of length m, we present a parallel linear algorithm for findi...
Parenthesis matching is an important step in the construction of computation tree form and parsing. ...
[[abstract]]Palindromes are strings of symbols that read the same forward and backward. Palindromes ...
Let WRAM [PRAM] be a parallel computer with p processors (RAM's) which share a common memory and are...
A theory for the derivation of on-line algorithms is presented. The algorithms are derived in the B...
AbstractA real-time Turing machine algorithm that finds the smallest nontrivial initial palindrome i...
Genetic information of all living organisms is stored in DNA. Exploring of its structure and functio...
Parallel parenthesis-matching algorithm has in the past been used to design parallel algorithms for ...
AbstractThe problem of palindrome recognition using a Turing machine with one multidimensional tape ...
A palindrome is defined as a string which reads forwards the same as backwards, like, for example, t...