이전: Example Code, 상위 문서: Diagonal and Permutation Matrices [차례][찾아보기]
Making diagonal and permutation matrices special matrix objects in their own right and the consequent usage of smarter algorithms for certain operations implies, as a side effect, small differences in treating zeros. The contents of this section apply also to sparse matrices, discussed in the following chapter. (see Sparse Matrices)
The IEEE floating point standard defines the result of the expressions
0*Inf
and 0*NaN
as NaN
. This is widely agreed to be a
good compromise. Numerical software dealing with structured and sparse
matrices (including Octave) however, almost always makes a distinction between
a "numerical zero" and an "assumed zero". A
"numerical zero" is a zero value occurring in a place where any
floating-point value could occur. It is normally stored somewhere in memory
as an explicit value. An "assumed zero", on the contrary, is a zero
matrix element implied by the matrix structure (diagonal, triangular) or a
sparsity pattern; its value is usually not stored explicitly anywhere, but is
implied by the underlying data structure.
The primary distinction is that an assumed zero, when multiplied
by any number, or divided by any nonzero number,
yields always a zero, even when, e.g., multiplied by Inf
or divided by NaN
.
The reason for this behavior is that the numerical multiplication is not
actually performed anywhere by the underlying algorithm; the result is
just assumed to be zero. Equivalently, one can say that the part of the
computation involving assumed zeros is performed symbolically, not numerically.
This behavior not only facilitates the most straightforward and efficient implementation of algorithms, but also preserves certain useful invariants, like:
all of these natural mathematical truths would be invalidated by treating assumed zeros as numerical ones.
Note that 매트랩 does not strictly follow this principle and converts assumed zeros to numerical zeros in certain cases, while not doing so in other cases. As of today, there are no intentions to mimic such behavior in Octave.
Examples of effects of assumed zeros vs. numerical zeros:
Inf * eye (3) ⇒ Inf 0 0 0 Inf 0 0 0 Inf Inf * speye (3) ⇒ Compressed Column Sparse (rows = 3, cols = 3, nnz = 3 [33%]) (1, 1) -> Inf (2, 2) -> Inf (3, 3) -> Inf Inf * full (eye (3)) ⇒ Inf NaN NaN NaN Inf NaN NaN NaN Inf
diag (1:3) * [NaN; 1; 1] ⇒ NaN 2 3 sparse (1:3,1:3,1:3) * [NaN; 1; 1] ⇒ NaN 2 3 [1,0,0;0,2,0;0,0,3] * [NaN; 1; 1] ⇒ NaN NaN NaN
이전: Example Code, 상위 문서: Diagonal and Permutation Matrices [차례][찾아보기]