Group :: Sciences/Mathematics
RPM: ntl
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Current version: 11.5.1-alt1.1
Build date: 18 january 2022, 11:14 ( 114.3 weeks ago )
Size: 2.22 Mb
Home page: https://libntl.org/
License: LGPL-2.0+
Summary: High-performance algorithms for vectors, matrices, and polynomials
Description:
List of contributors List of rpms provided by this srpm:
ACL:
Build date: 18 january 2022, 11:14 ( 114.3 weeks ago )
Size: 2.22 Mb
Home page: https://libntl.org/
License: LGPL-2.0+
Summary: High-performance algorithms for vectors, matrices, and polynomials
Description:
NTL is a high-performance, portable C++ library providing data structures
and algorithms for arbitrary length integers; for vectors, matrices, and
polynomials over the integers and over finite fields; and for arbitrary
precision floating point arithmetic.
NTL provides high quality implementations of state-of-the-art algorithms for:
* arbitrary length integer arithmetic and arbitrary precision floating point
arithmetic;
* polynomial arithmetic over the integers and finite fields including basic
arithmetic, polynomial factorization, irreducibility testing, computation
of minimal polynomials, traces, norms, and more;
* lattice basis reduction, including very robust and fast implementations of
Schnorr-Euchner, block Korkin-Zolotarev reduction, and the new
Schnorr-Horner pruning heuristic for block Korkin-Zolotarev;
* basic linear algebra over the integers, finite fields, and arbitrary
precision floating point numbers.
Current maintainer: Ilya Kurdyukov and algorithms for arbitrary length integers; for vectors, matrices, and
polynomials over the integers and over finite fields; and for arbitrary
precision floating point arithmetic.
NTL provides high quality implementations of state-of-the-art algorithms for:
* arbitrary length integer arithmetic and arbitrary precision floating point
arithmetic;
* polynomial arithmetic over the integers and finite fields including basic
arithmetic, polynomial factorization, irreducibility testing, computation
of minimal polynomials, traces, norms, and more;
* lattice basis reduction, including very robust and fast implementations of
Schnorr-Euchner, block Korkin-Zolotarev reduction, and the new
Schnorr-Horner pruning heuristic for block Korkin-Zolotarev;
* basic linear algebra over the integers, finite fields, and arbitrary
precision floating point numbers.
List of contributors List of rpms provided by this srpm:
- libntl-devel
- libntl44
- libntl44-debuginfo