Rapid advances in semiconductor technology have made it possible to build massively parallel processors. In addition, optical 3D storage and optical interconnections open a new opportunity due to inherent massive parallelism and non-interference of light beams. The approaches used in current parallel database research cannot take advantage of massive parallelism which can be provided by the emerging technologies, due to speedup and scaleup limitations. In this paper, we present a computational paradigm for database machines which takes advantage of the opening opportunity for massive parallelism and discuss the validity and feasibility of the paradigm. The approach we take is based on associative computing and fine grained data parallelism ...
We study algorithms for computing the equijoin of two relations in B system with a standard architec...
So far only few performance studies on parallel object-relational database systems are available. In...
In this paper we present a new framework for studying parallel query optimization. We first note tha...
Join is the most important and expensive operation in relational databases. The parallel join operat...
: In parallelizing the join operation of database systems, a primary objective is to partition the w...
Two emerging hardware trends will dominate the database system technology in the near future: increa...
AbstractJoin is the most important and expensive operation in relational databases. The parallel joi...
Abstract. Actual trend set by CPU manufacturers and recent develope-ment in the field of graphical p...
We analyze the costs, and describe the implementation, of three hashed-based join algorithms for a g...
In this paper, we propose a new multi-comparand associative machine (MCA-machine) and its applicatio...
In the PRISMA-project, a large multi-processor system has been built, is be used to study the per-fo...
Abstract: In this paper, we show that spatial joins are very suitable to be processed on a parallel ...
Relational join processing is one of the core functionalities in database management systems. Implem...
A consensus on parallel architecture for very large database management has emerged. This architectu...
Big data analytics often requires processing complex queries us-ing massive parallelism, where the m...
We study algorithms for computing the equijoin of two relations in B system with a standard architec...
So far only few performance studies on parallel object-relational database systems are available. In...
In this paper we present a new framework for studying parallel query optimization. We first note tha...
Join is the most important and expensive operation in relational databases. The parallel join operat...
: In parallelizing the join operation of database systems, a primary objective is to partition the w...
Two emerging hardware trends will dominate the database system technology in the near future: increa...
AbstractJoin is the most important and expensive operation in relational databases. The parallel joi...
Abstract. Actual trend set by CPU manufacturers and recent develope-ment in the field of graphical p...
We analyze the costs, and describe the implementation, of three hashed-based join algorithms for a g...
In this paper, we propose a new multi-comparand associative machine (MCA-machine) and its applicatio...
In the PRISMA-project, a large multi-processor system has been built, is be used to study the per-fo...
Abstract: In this paper, we show that spatial joins are very suitable to be processed on a parallel ...
Relational join processing is one of the core functionalities in database management systems. Implem...
A consensus on parallel architecture for very large database management has emerged. This architectu...
Big data analytics often requires processing complex queries us-ing massive parallelism, where the m...
We study algorithms for computing the equijoin of two relations in B system with a standard architec...
So far only few performance studies on parallel object-relational database systems are available. In...
In this paper we present a new framework for studying parallel query optimization. We first note tha...