AbstractThe traditional split into a low level language and a high level language in the design of computer algebra systems may become obsolete with the advent of more versatile computer languages. We describe GiNaC, a special-purpose system that deliberately denies the need for such a distinction. It is entirely written in C++and the user can interact with it directly in that language. It was designed to provide efficient handling of multivariate polynomials, algebras and special functions that are needed for loop calculations in theoretical quantum field theory. It also bears some potential to become a more general purpose symbolic package
This example of Clifford algebras calculations uses GiNaC (this http URL) library, which includes a ...
HepLib is a C++ Library for computations in High Energy Physics, it works on top of GiNaC, a well-es...
It is widely recognized that programming languages should offer features to help structure programs....
AbstractThe traditional split into a low level language and a high level language in the design of c...
Abstract. GiNaC is a free framework that embeds symbolic manipulation consistently into the C++ prog...
The traditional split into a low level language and a high level language in the desig
Abstract. We present the growing C++ library GiNaCRA, which provides efficient and easy-to-integrate...
This paper contains the brief information about symbolic computation techniques. The location of sym...
International audienceWe describe the environment for symbolic and numeric computations, called SYNA...
While the state of the art is relatively sophisticated in programming language support for computer ...
We describe the environment for symbolic and numeric computations, called SYNAPS (Symbolic and Nume...
functionalObjects.h allows the C++ programmer performing common calculations to use a more symbolic ...
An example of a problem in the physical sciences is discussed where application of various symbolic ...
The increasing precision of current and future experiments in high-energy physics requires a likewis...
. This paper describes the efficient integration of the functional, logic and constraint paradigms i...
This example of Clifford algebras calculations uses GiNaC (this http URL) library, which includes a ...
HepLib is a C++ Library for computations in High Energy Physics, it works on top of GiNaC, a well-es...
It is widely recognized that programming languages should offer features to help structure programs....
AbstractThe traditional split into a low level language and a high level language in the design of c...
Abstract. GiNaC is a free framework that embeds symbolic manipulation consistently into the C++ prog...
The traditional split into a low level language and a high level language in the desig
Abstract. We present the growing C++ library GiNaCRA, which provides efficient and easy-to-integrate...
This paper contains the brief information about symbolic computation techniques. The location of sym...
International audienceWe describe the environment for symbolic and numeric computations, called SYNA...
While the state of the art is relatively sophisticated in programming language support for computer ...
We describe the environment for symbolic and numeric computations, called SYNAPS (Symbolic and Nume...
functionalObjects.h allows the C++ programmer performing common calculations to use a more symbolic ...
An example of a problem in the physical sciences is discussed where application of various symbolic ...
The increasing precision of current and future experiments in high-energy physics requires a likewis...
. This paper describes the efficient integration of the functional, logic and constraint paradigms i...
This example of Clifford algebras calculations uses GiNaC (this http URL) library, which includes a ...
HepLib is a C++ Library for computations in High Energy Physics, it works on top of GiNaC, a well-es...
It is widely recognized that programming languages should offer features to help structure programs....