Affiliation:
1. Samsonite Corp., Denver, CO
Abstract
The techniques for minimizing logic circuits are applied to the simplification of decision tables by the combining of decision rules. This method is logically equivalent to the Quine-McCluskey method for finding prime implicants. If some of the decision rules implied in the
ELSE
Rule occur with low frequency, then the
ELSE
Rule can be used to further simplify the decision table.
Several objectives merit consideration in optimizing a decision table:
reducing machine execution time;
reducing preprocessing time;
reducing required machine memory;
reducing the number of decision rules. (This often improves the clarity of the decision table to a human reader.)
It will be shown that objectives (3) and (4) can be furthered with the above methods. Objective (1) is also attained if overspecified decision rules are not combined. Objective (2) must be compared against the potential benefits of objectives (1), (3), and (4) in deciding whether to use the above methods.
Publisher
Association for Computing Machinery (ACM)
Reference22 articles.
1. Armerding G.W. FORTAB: A decision table language for scientific computing applications. Rand Corp. RM-3306-PR Sept. 1962. Armerding G.W. FORTAB: A decision table language for scientific computing applications. Rand Corp. RM-3306-PR Sept. 1962.
2. Parsing of decision tables
3. Data, documentation, and decision tables
4. Conversion of decision tables to computer programs by rule mask techniques
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