A quick google search will turn up that calculations are done in double precision whenever possible, however, there's a little sublety going on here. The range of an IEEE double precision number should go up to more than
1.797e308, however, if you try to give gnuplot a number that big, it chokes:
gnuplot> plot '-' u 0:($1/2.)
input data ('e' ends) > 1.7976931348623157e+308
input data ('e' ends) > 30
input data ('e' ends) > e
Warning: empty x range [1:1], adjusting to [0.99:1.01]
Warning: empty y range [15:15], adjusting to [14.85:15.15]
Now if you show gnuplot's range variables:
gnuplot> show variables all
You'll see some things that are a little strange:
GPVAL_DATA_X2_MIN = 8.98846567431158e+307
GPVAL_DATA_X2_MAX = -8.98846567431158e+307
With this number repeated a few times. (Note that this number is roughly correct):
gnuplot> !python -c 'import sys; print sys.float_info.max/2.'
**(python's float is the system's double precision).
Now a little playing around:
gnuplot> a = 8.98846567431e+307
gnuplot> a = 8.98846567432e+307
So presumably gnuplot's floating point numbers go up to the system's maximum for double precision (where possible) divided by 2.