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See the recommended documentation of this function
number_properties
determine floating-point parameters
Calling Sequence
pr = number_properties(prop)
Arguments
- prop
string
- pr
real or boolean scalar
Description
This function may be used to get the characteristic
numbers/properties of the floating point set denoted here by
F(b,p,emin,emax)
(usually the 64 bits float numbers set
prescribe by IEEE 754). Numbers of F
are of the
form:
sign * m * b^e
e
is the exponent and m
the
mantissa:
m = d_1 b^(-1) + d_2 b^(-2) + .... + d_p b^(-p)
d_i
the digits are in [0, b-1]
and e
in [emin, emax]
, the number is
said "normalised" if d_1 ~= 0
. The following may be
gotten:
- prop = "radix"
then
pr
is the radixb
of the setF
- prop = "digits"
then
pr
is the number of digitsp
- prop = "huge"
then
pr
is the max positive float ofF
- prop = "tiny"
then
pr
is the min positive normalised float ofF
- prop = "denorm"
then
pr
is a boolean (%t if denormalised numbers are used)- prop = "tiniest"
then if denorm = %t,
pr
is the min positive denormalised number elsepr
= tiny- prop = "eps"
then
pr
is the epsilon machine ( generally (b^(1-p))/2
) which is the relative max error between a realx
(such than|x|
in[tiny, huge]
) andfl(x)
, its floating point approximation inF
- prop = "minexp"
then
pr
isemin
- prop = "maxexp"
then
pr
isemax
Remarks
This function uses the lapack routine dlamch to get the machine
parameters (the names (radix, digit, huge, etc...) are those recommended
by the LIA 1 standard and are different from the corresponding lapack's
ones) ; CAUTION: sometimes you can see the following definition for the
epsilon machine : eps = b^(1-p)
but in this function we
use the traditionnal one (see prop = "eps" before) and so eps =
(b^(1-p))/2
if normal rounding occurs and eps =
b^(1-p)
if not.
Examples
b = number_properties("radix") eps = number_properties("eps")
See Also
Authors
Bruno Pincon
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