File allocations

File

Format

LRECL

Common

Routines

Use

no.

(Fix/Var)

(bytes)

suffix

1

V

SFRESCOX

FRESCOX input when searching

2

V

SFRESCO

Search specification file

3

V

FREADF, FR

Temporary namelist file

4

F

80

INTER

default for external KIND=1,9 couplings

POTENT

external potentials

5

F

80

in

standard input

6

V

133

out

standard output

7

F

80

smats

DISPX

elastic S-matrix elements

8 #

F

sector

(tmp)

FR,INTER

s/p wfs, channel wfs

9 #

F

NLL*NLO*16

(tmp)

Q/KERNEL

complex transfer multipoles

10 @

V

(tmp)

FR,CRISS

S-matrix elements (cfs)

11 #

F

NLL*NLO*8

(tmp)

Q/KERNEL

real transfer multipole

12 #

V

NLL*NLO*16

(tmp)

KERNEL/SOURCE

transfer kernels

13

F

80

xst

FR

total cross sections for each Elab

14 #

V

INTER/CPAIR

interaction potentials

15

V

(tmp)

FR

local equivalent potent

16

F

80

xsec

CRISS

tables of cross sections

17

F

80

swf

FR

output scattering waves

18 #

V

(tmp)

FR

wfns of 'best' iterate

19

F

N

FR

Local couplings

20–33

Available for users

(eg bound states, amplitudes, potentials)

34

F

80

POTENT

output potentials

35

F

80

sf

FR

Astrophysical S-factors for Ecm

36

CRISS

output scattering AMPL amplitudes

37

CRISS

output scattering FAM amplitudes

38

F

80

DISPX

cross sections for each J/pi

39

F

80

efus

FR

2 cross sections for each Elab

40

F

80

fus

FR

all cross sections for each Elab

41

F

80

SOURCE

source terms at each iteration

42

F

80

SOURCE

bin wavefunctions for each E

43

F

80

INFORM

bin phase shifts as k functions

44

F

80

phe

INFORM

bin phase shifts as E functions

45

F

80

ERWIN

scat phase shift as E functions

46

F

80

INFORM

bs wave functions & Whit ratios

47

F

80

mek

reduced matrix elements

48 #

V

133

FR

concurrency log file

49 #

V

FR,CRISS

S-matrix elements concurrent$\rightarrow$10

File

Format

LRECL

Access

Routines

Use

no.

(Fix/Var)

(bytes)

(Seq/Ran)

50 #

V

133

tmp standard output concurrent$\rightarrow$6

51,52 #

V

133

unwanted standard output for node N$>$0

53

V

mel

WRITEMEL

mel file for sturmx(x)

54

V

spec

WRITESPEC

spec file for sturmx(x)

55

F

INFORM

Single-particle wave functions

56

F

fusl

FR

Jtotal fusion & reaction cross

57

F

cdcc

FR

Output of CDCC amplitudes

58

F

wfs

INFORM

Bound state wave functions

59

F

vrt

INFORM

Bound state vertex functions

60-62

F

imp

RMATRIX

Trace of R-matrix calculations

63

F

WRITEMEL

Asymptotic coupling coefficients

64

F

RMATRIX

Coupled eigenstates

65 #

F

NLO*2*8

(tmp)

QNN

two-particle multipoles

66

V

NLL*NLO*16

INTER

KIND=1 nonlocal formfactor

70

F

RMATRIX

Basis state wfs

71

F

132

phs

FR

20 pw phase shifts as Elab functions

79+CP

V

{N,NLN*NLO}*16

(tmp)

INTER/KERNEL

(non)local partial-wave couplings

87

V

pnl

KERNEL

Non-local couplings

88

F

RMATRIX

Bound state wfs

89

F

MULTIP

Folded coupling potentials

90

V

veff

FR

average local equivalent potential

91

V

vpol

FR

average LEP for rereadingl

92

F

FR

Partial fusion cross sections

99

F

80

CRISS

input J/L rescaling factors

105

V

FCN

$\chi^2$ progress during fitting

200

F

80

xsel

CRISS

Elastic cross section if not fort.201

201-210

F

80

xs[1-9]

CRISS

Cross sections (cf 14) for states 1-10

301

V

CDCIN

New Fresco input

302

V

CDCIN

New Fresco input (temp)

303

V

SFRESCO

Input search file

304

V

SFRESCO

Output plot file

305

V

CDCIN

New Fresco input from cdcin, col format

306

V

SFRESCO/FRXX0

Input Fresco file

307

V

SFRESCO/FRXX0

Initial Output Fresco file

308

V

SFRESCO/FRXX0

Main Output Fresco file

470+$i$

V

erwinmpi

Log files from MPI process $i$

where for MACH=8 we have
# = distributed file: distinct file name on each node
@ = shared concurrent file: single file, with writes from each node

The use of files 19 and 35 have recently changed.