A new math library
Identifieur interne : 003A19 ( Main/Exploration ); précédent : 003A18; suivant : 003A20A new math library
Auteurs : Nelson H. F. Beebe [États-Unis]Source :
- International Journal of Quantum Chemistry [ 0020-7608 ] ; 2009-11-05.
English descriptors
- Teeft :
- Academic press, Algorithm, American institute, Argument reduction, Arithmetic, Arithmetic errors, Arithmetic part, Arithmetic unit, Assembly code, Base language, Basic operations, Berkeley, Bibnet project archives, Binary, Binary arithmetic, Birthday salute, Chebyshev approximations, Cody, Common language infrastructure, Commun assoc comput mach, Compiler, Compiler collection, Compiler writers, Complete reference, Complex arguments, Complex arithmetic, Comput, Comput surveys, Computation, Computational methods, Computer, Computer arithmetic, Computer programming, Computer science, Computer software, Conference proceedings, Cowlishaw, Data types, Decimal, Decimal arithmetic, Decimal digits, Design goals, Digit, Early draft, Electrical engineering, Elementary functions, Exact argument reduction, Exact product, Exponent range, Extensive experience, Extra digits, Format, Fortran, Function repertoire, Fundamental algorithms, Future evolution, Hardware designs, Hardware support, Header, Hexadecimal arithmetic, High precision, Higher precision, Historical architectures, Ieee, Ieee computer society press, Ieee posix standards, Ieee symposium, Ieee trans comput, Information technology, Information technology language, Information technology programming languages, Integer, Integer arithmetic, Intel, Intel researchers, International conference, International journal, International language standards, International organization, Java, Java class libraries, June, Kahan, Knuth, Language infrastructure, Large arguments, Library source code, Literate programming, Major programming languages, Many architectures, Many papers, Maple code, Math, Math functions, Math libraries, Math library, Mathcw, Mathcw library, Mathematical functions, Mathematical libraries, Mathematical library, Modern science, Modest size, More digits, Morgan kaufmann publishers, Multiple programming languages, Nancial computations, Next section, Nonstop model, Number bases, Numeric computation, Numerous references, Oating point, Oatingpoint arithmetic, Other languages, Other vendors, Output conversions, Point arithmetic, Polynomial approximations, Power function, Practical approach, Programming, Programming language, Programming languages, Quantum, Quantum chemistry, Rational polynomial, Rational polynomials, Rexx language, Santa clara, Scripting languages, Second kinds, Seminumerical algorithms, Signum newslett, Sigplan notices, Silver spring, Simple extensions, Site http, Small number, Software, Software project archive, Software tools, Source code, Source form, Special functions, Special values, Square root, Standard header, Standardization, Such digit grouping, Technical report, Test suite, Trans, Trans math software, Trigonometric functions, Typesetting system, Upper saddle river, User, Vendor, Virtual machines, Wide implementation, Wiley periodicals, Worst cases.
Abstract
The design and development of a new mathematical function library is described. The library extends programming support to decimal, as well as binary, arithmetic, and aims to influence the future evolution of floating‐point support in programming languages, libraries, and hardware. It encourages and facilitates research in new computer‐arithmetic designs, and the analysis and comparison of historical ones. © 2009 Wiley Periodicals, Inc. Int J Quantum Chem, 2009
Url:
DOI: 10.1002/qua.22266
Affiliations:
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