Floating Point Numbers B-5
SIMATIC TIWAY I Series 500 NIM User Manual
B.3 IEEE FormatThe exponent portion of the IEEE format is similar to the IBM format
except that it is 8 bits in length and is biased by 7F. It is also different in
that it represents a power of 2 instead of 16. The exponent for 2 is
represented in memory by 7F. Negative exponents are represented by
numbers less than 7F. For example, a 2– is represented in the
exponent field by by a value of 7E. The exponents may be any value from
–7E to +7F (2– to 2). The eight exponent bits are stored in
bits 1 – 8 of the first memory word. See Figure B-2.
The fraction portion of the IEEE format is similar to the IBM format. It is a
hexadecimal fraction which is interpreted in one of many ways, depending
on the value of the exponent. Table B-1 describes the different types of
conversions for the IEEE format.
Table B-1 IEEE Conversions
-
"
"F
''
''
::HH''
::
::
61
61
61
61
61 61
'
*G
:
!
*G
:
!8"""9=!
89
Q,*
8*69J?J86+9
8*69J?J8:+9
Q,*:89
8*6?C9
*6?1
<=N=N=F
1
Case A is an illegal value. A Not-a-Number (NaN) will never be returned
from the Series 500 NIM. If this example is written to the NIM, an
exception will be returned.
Case B, +/– infinity, is used to represent numbers too large in magnitude to
be represented with the IEEE format.
Case C represents a normalized IEEE floating point value. (There is a one,
not included in f, to the left of the radix point.)
Case D represents a denormalized IEEE floating point (contains a zero to
the left of the radix point).
Case E represents a value of zero. Numbers too small to be represented in
the IEEE format will be reported as a positive or a negative 0.