This file is part of GRG 3.2 Copyright (C) 1997 Vadim V. Zhytnikov Disclaimer: The opinion expressed here is the opinion of V.Zhytnikov and nobody else. GRG 3.2 versus EXCALC The GRG 3.2 and EXCALC are two rather similar programs. Both are based on the computer algebra system REDUCE and designed for the problems in differential geometry. They work with the differential forms, vectors, tensors and use convenient notation very similar to the traditional mathematical one. Both programs work with spaces of any dimensionality and can represent tensors with respect to arbitrary frame. On the other hand there are also a number of important differences between EXCALC and GRG 3.2. In particular: 1. EXCALC works with tensors whose components are presented with respect to certain frame. GRG 3.2 understands more complicate quantities having coordinate, frame, spinorial and enumerating indices. GRG 3.2 understands also pseudo-tensors and tensor densities. I'd like to emphasize also GRG's ability to work with spinors. 2. Working with tensors EXCALC actually knows very little about the "covariant" properties of these quantities. On the other hand GRG knows all standard covariant operations and operators. In particular GRG 3.2 performs frame, spinor and coordinate transformations. It automatically computes Lie derivatives, covariant derivatives and differentials of any tensor or spinor quantity. GRG can easily transform the frame indices to coordinate ones and vice versa. 3. GRG 3.2 allows one to save the result of computations in the form which can be later used in other computer algebra programs: Mathematica, Maple and Macsyma. 4. Unlike EXCALC the GRG 3.2 knows almost 150 built-in quantities and numerous built-in formulas for their calculation. So, in GRG you have already solutions for many standard problems. On the contrary to obtain any result with EXCALC it is necessary to write your own program. 5. GRG requires all variables and functions to be declared which makes it more reliable than EXCALC. 6. The input languages of GRG and EXCALC are very different. EXCALC in fact has no any special language and uses the REDUCE programming language with all control instructions: loops, if-then-else, procedures etc. GRG uses the completely different approach. It has its own quite simple language which lacks the aforementioned programming facilities. Commands of GRG input language resemble simple English phrases. This is especially convenient for people who are not interested (or skillful) in programming. 7. The performance of both programs (say the run time for analogous problems) is approximately equal. 8. The advantage of EXCALC is that it can operate with abstract p-forms while in GRG any p-form is always represented as the exterior product of p frame 1-forms (frame may be arbitrary). 9. Another potential advantage of EXCALC is the ability to compute the variational derivatives. Unfortunately in practice this facility is rather limited and buggy. ----------------------------------------------------------------------