NON-VON is a very high performance experimental supercomputer, portions of which are now being implemented at Columbia University. If efforts are successful, it should be possible to construct NON-VON machines of various sizes that could ultimately support the extremely rapid execution of a wide range of information processing tasks relevant to the defense community in a highly cost-effective manner. This study briefly sketches the most important aspects of NON-VON architecture, identifies current architectural objectives, and describes the phased hardware implementation plan which has been adopted for the next three years
The article discusses the emerging non-von Neumann computer architectures and their integration in t...
The future of computing is at crossroads. The technological advances that have sustained the exponen...
HPC (High Performance Computing) represents, together with theory and experiments, the third pillar ...
NON-VON is a highly parallel, non-von Neumann supercomputer, portions of which are now being impleme...
While we have learned a great deal during the first two years of the NON-VON Supercomputer Project, ...
The NON-VON machine (portions of which are presently under construction in the Department of Compute...
support the efficient implementation of very large scale know ledge-based systems. The utility of su...
The NON·VON machine (portions of which are presently under construction in the Department of Comput...
NON-VON is a highly parallel machine designed to support the efficient implementation of very large ...
Each member of the HOH-VOH family of supercomputers employs massive parallelism to obtain substantia...
The central focus of this chapter is the highly efficient execution of relational database queries u...
ccause it retrieves all instructions and data from a single memory. the highly prevalent von Neumann...
Computing is seeing an unprecedented improvement in performance; over the last five years there has ...
Abstract While some proposals for supercomputers increase the powers of existing machines like the C...
Highly parallel computing architectures are the only means to achieve the computation rates demanded...
The article discusses the emerging non-von Neumann computer architectures and their integration in t...
The future of computing is at crossroads. The technological advances that have sustained the exponen...
HPC (High Performance Computing) represents, together with theory and experiments, the third pillar ...
NON-VON is a highly parallel, non-von Neumann supercomputer, portions of which are now being impleme...
While we have learned a great deal during the first two years of the NON-VON Supercomputer Project, ...
The NON-VON machine (portions of which are presently under construction in the Department of Compute...
support the efficient implementation of very large scale know ledge-based systems. The utility of su...
The NON·VON machine (portions of which are presently under construction in the Department of Comput...
NON-VON is a highly parallel machine designed to support the efficient implementation of very large ...
Each member of the HOH-VOH family of supercomputers employs massive parallelism to obtain substantia...
The central focus of this chapter is the highly efficient execution of relational database queries u...
ccause it retrieves all instructions and data from a single memory. the highly prevalent von Neumann...
Computing is seeing an unprecedented improvement in performance; over the last five years there has ...
Abstract While some proposals for supercomputers increase the powers of existing machines like the C...
Highly parallel computing architectures are the only means to achieve the computation rates demanded...
The article discusses the emerging non-von Neumann computer architectures and their integration in t...
The future of computing is at crossroads. The technological advances that have sustained the exponen...
HPC (High Performance Computing) represents, together with theory and experiments, the third pillar ...