The NON-VON machine (portions of which are presently under construction in the Department of Computer Science at Columbia, in cooperation with the Knowledge Base Management Systems Project at Stanford) was designed to apply computational parallelism on a rather massive scale to a large share of the information processing functions now performed by digital computers. The NON-VON architecture comprises a tree-structured Primary Processing Subsystem (PPS), which we are implementing using custom nMOS VLSI chips, Secondary Processing Subsystem (SPS) incorporating modified, highly intelligent disk drives. NON-VON should permit particularly dramatic performance improvements in very large scale data manipulation tasks, including relational databas...
The future of computing is at crossroads. The technological advances that have sustained the exponen...
The NON-VON Supercomputer is a highly parallel tree-structured computer that is being Implemented a...
The article discusses the emerging non-von Neumann computer architectures and their integration in t...
The NON·VON machine (portions of which are presently under construction in the Department of Comput...
NON-VON is a highly parallel, non-von Neumann supercomputer, portions of which are now being impleme...
The central focus of this chapter is the highly efficient execution of relational database queries u...
NON-VON is a highly parallel machine designed to support the efficient implementation of very large ...
support the efficient implementation of very large scale know ledge-based systems. The utility of su...
In a paper by Hawthorn and DeWitt, the projected performance of several proposed database machines w...
NON-VON is a very high performance experimental supercomputer, portions of which are now being imple...
While we have learned a great deal during the first two years of the NON-VON Supercomputer Project, ...
Each member of the HOH-VOH family of supercomputers employs massive parallelism to obtain substantia...
The Primary Processing Subsystem of the NON-VON supercomputer potentially may comprise thousands of ...
Parallel database machine architectures have evolved from the use of exotic hardware to a software p...
Algorithms are described and analyzed for the efficient evaluation of the primitive operators of a r...
The future of computing is at crossroads. The technological advances that have sustained the exponen...
The NON-VON Supercomputer is a highly parallel tree-structured computer that is being Implemented a...
The article discusses the emerging non-von Neumann computer architectures and their integration in t...
The NON·VON machine (portions of which are presently under construction in the Department of Comput...
NON-VON is a highly parallel, non-von Neumann supercomputer, portions of which are now being impleme...
The central focus of this chapter is the highly efficient execution of relational database queries u...
NON-VON is a highly parallel machine designed to support the efficient implementation of very large ...
support the efficient implementation of very large scale know ledge-based systems. The utility of su...
In a paper by Hawthorn and DeWitt, the projected performance of several proposed database machines w...
NON-VON is a very high performance experimental supercomputer, portions of which are now being imple...
While we have learned a great deal during the first two years of the NON-VON Supercomputer Project, ...
Each member of the HOH-VOH family of supercomputers employs massive parallelism to obtain substantia...
The Primary Processing Subsystem of the NON-VON supercomputer potentially may comprise thousands of ...
Parallel database machine architectures have evolved from the use of exotic hardware to a software p...
Algorithms are described and analyzed for the efficient evaluation of the primitive operators of a r...
The future of computing is at crossroads. The technological advances that have sustained the exponen...
The NON-VON Supercomputer is a highly parallel tree-structured computer that is being Implemented a...
The article discusses the emerging non-von Neumann computer architectures and their integration in t...