Jürg Nievergelt scite author profile

Traditional file structures that provide multikey access to records, for example, inverted files, are extensions of file structures originally designed for single-key access. They manifest various deficiencies in particular for multikey access to highly dynamic files. We study the dynamic aspects of tile structures that treat all keys symmetrically, that is, file structures which avoid the distinction between primary and secondary keys. We start from a bitmap approach and treat the problem of file design as one of data compression of a large sparse matrix. This leads to the notions of a grid partition of the search space and of a grid directory, which are the keys to a dynamic file structure called the grid file. This tile system adapts gracefully to its contents under insertions and deletions, and thus achieves an upper hound of two disk accesses for single record retrieval; it also handles range queries and partially specified queries efficiently. We discuss in detail the design decisions that led to the grid file, present simulation results of its behavior, and compare it to other multikey access file structures.

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The grid file: An adaptable, symmetric multi-key file structure

Nievergelt

Hinterberger

Sevcik

1981

118

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Parallel methods for integrating ordinary differential equations

1964

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This paper is dedicated to the proposition that, in order to take full advantage for real-time computations of highly parallel computers as can be expected to be available in the near future, much of numerical analysis will have to be recast in a more “parallel” form. By this is meant that serial algorithms ought to be replaced by algorithms which consist of several subtasks which can be computed without knowledge of the results of the other subtasks. As an example, a method is proposed for “parallelizing” the numerical integration of an ordinary differential equation, which process, by all standard methods, is entirely serial.

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Binary search trees of bounded balance

Nievergelt¹,

Reingold²

1972

107

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Plane-sweep algorithms for intersecting geometric figures

1982

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