Relaxing the universal quantifier of the division in fuzzy relational databases

As one of the most important operations in relational databases, the join is data-intensive and time-consuming. Thus, offloading this operation using field-programmable gate arrays (FPGAs) has attracted much interest and has been broadly researched in recent years. However, the available SRAM-based join architectures are often resource-intensive, power-consuming, or low-throughput. Besides, a lower match rate does not lead to a shorter operation time. To address these issues, a Bloom filter (BF)-based parallel join architecture is presented in this paper. This architecture first leverages the BF to discard the tuples that are not in the join result and classifies the remaining tuples into different channels. Second, a binary search tree is used to reduce the number of comparisons. The proposed method was implemented on a Xilinx FPGA, and the experimental results show that under a match rate of 50%, our architecture achieved a high join throughput of 145.8 million tuples per second and a maximum acceleration factor of 2.3 compared to the existing SRAM-based join architectures.

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Effect of Introducing the Universal Quantifier ‘All’ into the Class Inclusion Question

Psychological Reports ◽

10.1177/0033294187060003-250.1 ◽

1987 ◽

Vol 60 (3_part_2) ◽

pp. 1255-1258

Author(s):

Ron Gold

Keyword(s):

Universal Quantifier ◽

Class Inclusion ◽

Standard Version ◽

The Third

The effect of introducing the universal quantifier ‘all’ into the class inclusion question was investigated using 104 children aged 59 to 90 mo. One group of children was asked the standard version of the question, another an ‘all-subset’ version in which ‘all’ preceded the subclass, the third an ‘all-superset’ version with ‘all’ before the superordinate class, and the fourth a ‘double-all’ version with ‘all’ in both locations. When the superordinate class was mentioned last in the question, performance was better on the all-superset and double-all versions than on the standard version. When the subclass was mentioned last, performance was better on the all-superset version only. Performance on the all-subset version did not differ from that on the standard version. The results were explained in terms of the attention-directing role of ‘all’, together with the proposal that performance improves if attention is drawn towards the superordinate class and/or away from the contrast between the subclasses.

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Comprehensible Models for Reconfiguring Enterprise Relational Databases to Avoid Incidents

Proceedings of the 24th ACM International on Conference on Information and Knowledge Management - CIKM '15 ◽

10.1145/2806416.2806448 ◽

2015 ◽

Cited By ~ 4

Author(s):

Ioana Giurgiu ◽

Mirela Botezatu ◽

Dorothea Wiesmann

Keyword(s):

Relational Databases

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Closed Sets of Boolean Terms in Relational Databases

Fundamenta Informaticae ◽

10.3233/fi-1991-14310 ◽

1991 ◽

Vol 14 (3) ◽

pp. 367-385

Author(s):

Andrzej Jankowski ◽

Zbigniew Michalewicz

Keyword(s):

Computational Complexity ◽

Incomplete Information ◽

Relational Databases ◽

The Other ◽

New Approach ◽

Closed Sets ◽

Null Value ◽

Algebraic Operations

A number of approaches have been taken to represent compound, structured values in relational databases. We review a few such approaches and discuss a new approach, in which every set is represented as a Boolean term. We show that this approach generalizes the other approaches, leading to more flexible representation. Boolean term representation seems to be appropriate in handling incomplete information: this approach generalizes some other approaches (e.g. null value mark, null variables, etc). We consider definitions of algebraic operations on such sets, like join, union, selection, etc. Moreover, we introduce a measure of computational complexity of these operations.

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