I have been asked to improve the code for singular value decomposition we've been using for years (it's from Numerical Recipes' last edition that was available for Fortran), but someone adapted it for a different real `kind`

type. I have some questions, one concerning precision, and the others concerning floating-point comparison, but first here's some code (only relevant stuff shown):

```
implicit real(kind=selected_real_kind(12)) (a-h,o-z) ! not from Numerical Recipes
parameter R12 = selected_real_kind(12), eps=tiny(1.0_R12) ! not from Numerical Recipes
do i=1,n
scale=0.0
if (i.le.m) then
do k=i,m
scale=scale+abs(a(k,i))
end do
if (scale.ne.0.0) then
```

`scale=0.0`

should be`scale=0.0_R12`

, right?- Would it be fine to exchange
`scale.ne.0.0`

for`scale.gt.0.0`

(as it cannot be < 0) to avoid the explicit`.ne.`

-comparison, or ought I to compare it to some epsilon instead? - Regarding the last point, which of the intrinsic functions
`tiny`

and`epsilon`

is preferable for selecting the epsilon-value in the abovementioned comparison? - In case the value that is tested for not being equal to 0 may be both positive and negative, would
`(value.gt.eps .or. value.lt.-1.0_R12*eps)`

be a sensible condition?

Thanks for your help!

parameterR12real. – agentp Nov 22 '13 at 2:43