AbstractÐAll-to-all personalized exchange is one of the most dense collective communication patterns and occurs in many important applications in parallel computing. Previous all-to-all personalized exchange algorithms were mainly developed for hypercube and mesh/torus networks. Although the algorithms for a hypercube may achieve optimal time complexity, the network suffers from unbounded node degrees and thus has poor scalability in terms of I/O port limitation in a processor. On the other hand, a mesh/torus has a constant node degree and better scalability in this aspect, but the all-to-all personalized exchange algorithms have higher time complexity. In this paper, we propose an alternative approach to efficient all-to-all personalized e...
Hypercube algorithms may be developed for a variety of communication-intensive tasks such as sending...
We present an algorithm for all-to-all personalized communication, in which every processor has an i...
In this paper we present several algorithms for performing all-to-many personalized communication on...
AbstractAn all-to-all communication algorithm is said to be optimal if it has the smallest communica...
In parallel/distributed computing systems, the all-to-all personalized communication (or complete e...
AbstractIn parallel/distributed computing systems, the all-to-all personalized communication (or com...
All-to-all personalized communication, also known as complete exchange, is one of the most dense com...
In all-to-all personalized communication (AAPC), every node of a parallel system sends a potentially...
In all-to-all personalized communication (AAPC), every node of a parallel system sends a potentially...
All-to-all personalized communication is a class of permutations in which each processor sends a uni...
© 1992 IEEE. In this paper, we address two different communication problems in multiprocessor system...
A tabular method for verication of data exchange algorithms on networks which possess a certain symm...
Several recent papers have proposed or analyzed optimal algorithms to route all-to-all personalized ...
In this paper we present several algorithms for all-too-many personalized communications which avoid...
With the advent of new routing methods, the distance to which a message is sent is becoming relative...
Hypercube algorithms may be developed for a variety of communication-intensive tasks such as sending...
We present an algorithm for all-to-all personalized communication, in which every processor has an i...
In this paper we present several algorithms for performing all-to-many personalized communication on...
AbstractAn all-to-all communication algorithm is said to be optimal if it has the smallest communica...
In parallel/distributed computing systems, the all-to-all personalized communication (or complete e...
AbstractIn parallel/distributed computing systems, the all-to-all personalized communication (or com...
All-to-all personalized communication, also known as complete exchange, is one of the most dense com...
In all-to-all personalized communication (AAPC), every node of a parallel system sends a potentially...
In all-to-all personalized communication (AAPC), every node of a parallel system sends a potentially...
All-to-all personalized communication is a class of permutations in which each processor sends a uni...
© 1992 IEEE. In this paper, we address two different communication problems in multiprocessor system...
A tabular method for verication of data exchange algorithms on networks which possess a certain symm...
Several recent papers have proposed or analyzed optimal algorithms to route all-to-all personalized ...
In this paper we present several algorithms for all-too-many personalized communications which avoid...
With the advent of new routing methods, the distance to which a message is sent is becoming relative...
Hypercube algorithms may be developed for a variety of communication-intensive tasks such as sending...
We present an algorithm for all-to-all personalized communication, in which every processor has an i...
In this paper we present several algorithms for performing all-to-many personalized communication on...