Overview of an arithmetic design system

D. E. Atkins; W. Liu; S. Ong

doi:10.1109/dac.1981.1585369

Overview of an arithmetic design system

D. E. Atkins, W. Liu, S. Ong

Department of Biomedical Engineering

Research output: Contribution to journal › Conference article › peer-review

1 Citation (Scopus)

Abstract

This paper describes an evolving Arithmetic Design System (ADS) to support the quantitative evaluation of alternate number systems with respect to a given application and realization technology. A finite number system is a tuple consisting of a symbol set (elements are called "digit-vectors"), an interpretation set, a mapping between these two sets, and a set of operators ("digit-vector algorithms") defined on the symbol set. A set of these digit vector algorithms are proposed for conducting arithmetic design and for computing time and space complexity of compositions of these algorithms. Once a transition has been made from arithmetic design to logic design, a sub-system of the ADS provides a estimate of time and space complexity with respect to a PLA-base of implementation.

Original language	English
Article number	p314
Pages (from-to)	314-321
Number of pages	8
Journal	Proceedings - Design Automation Conference
DOIs	https://doi.org/10.1109/dac.1981.1585369
Publication status	Published - 1981 Jun 29
Event	DAC 1981 - the 18th Design Automation Conference - Nashville, United States Duration: 1981 Jun 29 → 1981 Jul 1

All Science Journal Classification (ASJC) codes

Computer Science Applications
Control and Systems Engineering
Electrical and Electronic Engineering
Modelling and Simulation
Hardware and Architecture

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10.1109/dac.1981.1585369

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title = "Overview of an arithmetic design system",

abstract = "This paper describes an evolving Arithmetic Design System (ADS) to support the quantitative evaluation of alternate number systems with respect to a given application and realization technology. A finite number system is a tuple consisting of a symbol set (elements are called {"}digit-vectors{"}), an interpretation set, a mapping between these two sets, and a set of operators ({"}digit-vector algorithms{"}) defined on the symbol set. A set of these digit vector algorithms are proposed for conducting arithmetic design and for computing time and space complexity of compositions of these algorithms. Once a transition has been made from arithmetic design to logic design, a sub-system of the ADS provides a estimate of time and space complexity with respect to a PLA-base of implementation.",

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AU - Ong, S.

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N2 - This paper describes an evolving Arithmetic Design System (ADS) to support the quantitative evaluation of alternate number systems with respect to a given application and realization technology. A finite number system is a tuple consisting of a symbol set (elements are called "digit-vectors"), an interpretation set, a mapping between these two sets, and a set of operators ("digit-vector algorithms") defined on the symbol set. A set of these digit vector algorithms are proposed for conducting arithmetic design and for computing time and space complexity of compositions of these algorithms. Once a transition has been made from arithmetic design to logic design, a sub-system of the ADS provides a estimate of time and space complexity with respect to a PLA-base of implementation.

AB - This paper describes an evolving Arithmetic Design System (ADS) to support the quantitative evaluation of alternate number systems with respect to a given application and realization technology. A finite number system is a tuple consisting of a symbol set (elements are called "digit-vectors"), an interpretation set, a mapping between these two sets, and a set of operators ("digit-vector algorithms") defined on the symbol set. A set of these digit vector algorithms are proposed for conducting arithmetic design and for computing time and space complexity of compositions of these algorithms. Once a transition has been made from arithmetic design to logic design, a sub-system of the ADS provides a estimate of time and space complexity with respect to a PLA-base of implementation.

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ER -

Overview of an arithmetic design system

Abstract

All Science Journal Classification (ASJC) codes

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