An introduction to database systems: vol. I (4th ed.)
An introduction to database systems: vol. I (4th ed.)
The entity-relationship model—toward a unified view of data
ACM Transactions on Database Systems (TODS) - Special issue: papers from the international conference on very large data bases: September 22–24, 1975, Framingham, MA
The design of a rotating associative memory for relational database applications
ACM Transactions on Database Systems (TODS) - Special issue: papers from the international conference on very large data bases: September 22–24, 1975, Framingham, MA
A back-end computer for data base management
Communications of the ACM
LSL: a Link and Selector Language
SIGMOD '76 Proceedings of the 1976 ACM SIGMOD international conference on Management of data
FQL: a functional query language
SIGMOD '79 Proceedings of the 1979 ACM SIGMOD international conference on Management of data
A generalized DBMS implementation on a database machine
SIGMOD '80 Proceedings of the 1980 ACM SIGMOD international conference on Management of data
DIRECT - a multiprocessor organization for supporting relational data base management systems
ISCA '78 Proceedings of the 5th annual symposium on Computer architecture
The architecture of CASSM: A cellular system for non-numeric processing
ISCA '73 Proceedings of the 1st annual symposium on Computer architecture
SEQUEL: A structured English query language
SIGFIDET '74 Proceedings of the 1974 ACM SIGFIDET (now SIGMOD) workshop on Data description, access and control
Relacs, an associative computer architecture to support a relational data model
Relacs, an associative computer architecture to support a relational data model
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Several data base machine architectures have been proposed in the past few years. The next generation of these machines must simultaneously support different data models on the same physical data. One approach to this problem, GDBMS, has recently been described in the literature. This paper presents the architecture of another approach: the well-connected relation computer (WCRC). The architectures of these two computers are compared, and a preliminary performance evaluation showing that WCRC requires less storage and has faster query response time is presented.