AbstractIn parallel/distributed computing systems, the all-to-all personalized communication (or complete exchange) is required in numerous applications of parallel processing. In this paper, we consider this problem for logN stage Multistage Interconnection Networks (MINs). It is proved that the set of admissible permutations for a MIN can be partitioned in Latin Squares. Since routing permutations belonging to a Latin Square provides the all-to-all personalized communication, a method to realize the complete exchange with time complexity O(N), that is optimal, can be derived. This method, compared with other ones in literature, does not necessitate of neither pre-computation nor memory allocation to record the Latin Square, because an exp...
AbstractWe consider the problem of complete information dissemination among n autonomous processors ...
In this paper we present several algorithms for performing all-to-many personalized communication on...
On a distributed memory parallel computer, the complete exchange (all-to-all personalized) communica...
In parallel/distributed computing systems, the all-to-all personalized communication (or complete e...
AbstractÐAll-to-all personalized exchange is one of the most dense collective communication patterns...
AbstractAn all-to-all communication algorithm is said to be optimal if it has the smallest communica...
All-to-all personalized communication is a class of permutations in which each processor sends a uni...
With the advent of new routing methods, the distance to which a message is sent is becoming relative...
In this paper we present several algorithms for all-too-many personalized communications which avoid...
All-to-all personalized communication, also known as complete exchange, is one of the most dense com...
AbstractWe present optimal schedules for permutations in which each node sends one or several unique...
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...
This paper presents solutions for the problem of many-to-many personalized communication, with bound...
Complete Exchange requires each of N processors to send a unique message to each of the remaining N-...
AbstractWe consider the problem of complete information dissemination among n autonomous processors ...
In this paper we present several algorithms for performing all-to-many personalized communication on...
On a distributed memory parallel computer, the complete exchange (all-to-all personalized) communica...
In parallel/distributed computing systems, the all-to-all personalized communication (or complete e...
AbstractÐAll-to-all personalized exchange is one of the most dense collective communication patterns...
AbstractAn all-to-all communication algorithm is said to be optimal if it has the smallest communica...
All-to-all personalized communication is a class of permutations in which each processor sends a uni...
With the advent of new routing methods, the distance to which a message is sent is becoming relative...
In this paper we present several algorithms for all-too-many personalized communications which avoid...
All-to-all personalized communication, also known as complete exchange, is one of the most dense com...
AbstractWe present optimal schedules for permutations in which each node sends one or several unique...
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...
This paper presents solutions for the problem of many-to-many personalized communication, with bound...
Complete Exchange requires each of N processors to send a unique message to each of the remaining N-...
AbstractWe consider the problem of complete information dissemination among n autonomous processors ...
In this paper we present several algorithms for performing all-to-many personalized communication on...
On a distributed memory parallel computer, the complete exchange (all-to-all personalized) communica...