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C20-1641-1_Core_Requirements_for_1130_FORTRAN


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                                                                   C20-1641-1




IBM                       Data PrDcessing Techniques




Core Requirements for 1130 FORTRAN


This manual provides information and techniques necessary to
evaluate problems in terms of the approximate amount of 1130
object code required for legitimate FORTRAN source text.
Initial discussion views the punched card and paper tape IBM
1130 Computing Systems. Later discussion is directed to the
disk-oriented 1130.
                                                               Programming
CONTENTS
                    Punched Card and Paper Tape Systems                                  1
                       Object Time Core Analysis                                         4
                       Code Generated by Source Text                                     4
                       Data Storage Requirements                                         5
                       Subroutine Requirements                                           5
                       Overhead                                                          6
                       Example                                                           7
                    1130 Disk Systems                                                    8
                       Program Size Implications                                         8
                       Program Speed Implications                                       12




This publication is a minor revision of the earlier edition,
C20-1641-0, which is obsolete. Revisions to the text are
indicated with a vertical line to the left of the change.




Copies of this and other IBM publications can be obtained through IBM branch
offices. Address comments concerning the contents of this publication to
IBM, Technical Publications Department, 112 East Post Road, White Plains, N. Y. 10601
 PUNCHED CARD AND PAPER TAPE SYSTEMS

                  The accompanying chart contains information about each subroutine that
                  can be used in running 1130 FOR TRAN object programs. An 1130
                  FOR TRAN obj ect program subroutine is utilized if the nature of the
                  source text requires it.

                  Thus, for example, a program with the multiply symbol (*) surrounded
                  by two floating-point operands will have the floating-point multiply
                  subroutine in object core. In addition, this subroutine may require
                  others for proper operation. A full discu~sion of these requirements
                  is given here.

                  On the other hand, once the compiler determines that a requirement for
                  an object time subroutine exists, the subroutine is loaded only once and
                  may be used repeatedly from any point in the code generated from the
                  source text.

                  Note that in the discussion that follows, certain separate subroutines use
                  other subroutines in common. For instance both floating multiply and
                  floating divide use a multiply routine of 66 words. These secondary
                  routines should not be doubly counted. They appear only once in the
                  object program even if all the primary subroutines that use them are
                  employed.

Subroutine Name                                                     Size in Words    Notes

1.   Floating Add/Subtract - adds (subtracts) one
     floating-point number to (from) a second.                         110            a,l
       X=A+B
       X=A-B

2.   Floating Multiply - multiplies one floating-point
     number by a second.                                                 58           b,l
       X=A*B

3.   Floating Divide - divides one floating-point
     number by a second.                                                90            c,l
       X=A/B

4.   Floating Subtract Reverse - reverses order of
     operands in a floating subtract if required
     (determined by the sequence of evaluation).                        26            d
       X=A-B*C

5.   Floating Divide Reverse - reverses order of
     operands in a floating divide if required
     (determined by the sequence of evaluation).                        30            e,m
       X=(A+B) / ( C+ D)




                 1
Subroutine Name                                                 Size in Words   Notes
6.   Load/Store - moves data to and from an internal
     obj ect time accumulator. Most frequently used
     subroutine. Should be included in every estimate.              60
         X=A

7.   Float/Fix - converts data from integer to real and
     vice versa.                                                    50           a
        A=I
        I=A
        A=B + FLOAT (I)
        I=J + IFIX (B)

8.   Reverse Sign - changes sign of object accumulator.              8

9.   Subscription - calculates relative object time addresses
     of subscripted variables. Used only when one or more
     subscripts are variables. Not used, for example, in
     case of A (2, 5,9). Required in cases such as:                 34
        A(I,J)
        A(2, 3, K)
        A(I, 2)

10. Natural Logarithm                                              150           b,d,e,
      B=ALOG(C)                                                                  f,m,n

1I. Sine/Cosine                                                    130          d,f,m,n
       A=SIN(B)
       A=COS(B)

12. Arctangent                                                     150           b,d,e,
      B=ATAN(C)                                                                  f, n

13. Square Root                                                     80           d, e,f,
      A=SQRT(B)                                                                  m,n

14. Exponential (ex)                                               140           b, 1, n
      A=EXP(B)

15. Exponentiation (A ~                                             60           f, g
      A=B**C

16. Exponentiation (AI)                                             86           f,j
      A=B**I

17. Exponentiation (IJ)                                             76
      I=J**K

18. Absolute Value (Fl. Pt. )                                       10
      A=ABS(B)

19. Absolute Value (Fx. Pt. )                                       16
      I=IABS(J)

                2
Subroutine Name                                                         Size in Words   Notes

20. Card I/O - handles physical device.                                     56          h, k,o,
                                                                                        p

21. Keyboard/Typewriter I/O - handles physical device.                      80          h,k,o,
                                                                                        P

22. Typewriter I/O                                                          58          k,p

23. Paper Tape I/O - handles physical device.                              216          k

24. Printer I/O - handles physical device.                                 200

25. FORTRAN Format Interpreter - used to analyze format,
    convert decimal-binary-decimal, and control I/O sub-
    routines. Called only if I/O operations are performed.                 840          i

26. Subprogram Initializer - used to pass parameters to
    function subprograms, subroutine subprograms, and
    arithmetic statement functions.                                         32

27. Hyperbolic Tangent                                                      60          d,e,m,
      A = TANH(X)                                                                       n,q

28. SIGN
       A = SIGN(B,C)                                                        38

29. ISIGN
       IA = ISIGN(IB,IC)                                                    24
----
    NOTES

    a.   Requires normalizing routine of 42 words

    b.   Requires multiply routine of 66 words

    c.   Requires divide routine of 80 words

    d.   Requires subroutine 1

    e.   Requires subroutine 3

    f.   Requires subroutine 2

    g.   Requires subroutines 10, 14

    h.   Requires conversion routine of 60 words

    i.   Requires subroutines 6, 7

    j.   Requires subroutines S, 6

    k.   Requires get-address routine of 16 words

    1.   Requires floating arithmetic range check routine of 34 words
    m.   Requires subroutine 6

    n.   Requires floating get parameter routine of 22 words

    o.   Requires Hollerith table of S4 words

    p.   Requires printer/EBCDIC table of S4 words
    q.   Requires subroutine 14


                  3
Object Time Core Analysis

             The storage requirements for an object program involve four factors:

             1.   The code generated by the source text

             2.   The data storage required through the use of variable names,
                  constants, and data declarations

             3.   The subroutines required to allow proper interaction of items
                  1 and 2

             4.   Overhead

             Thus the FORTRAN statement
                                                X=A+B
             requires object code to add A to B and store the result in X (item 1),
             data cells for the variables X, A, and B (item 2), and the presence of
             subroutines 1 and 6 listed in the chart (item 3). In addition, certain
             overhead requirements (to be discussed) should be noted (item 4).

             These four factors determine whether an object program is capable of
             residing in core.

Code Generated by Source Text

             An accepted position regarding the average expansion factor from source
             text to 1130 object code is 14 words per FORTRAN source statement.
             While short statements (X=2., Y=A+ B, GO TO 7, etc.) generate much
             less than this average, longer statements can generate more. While no
             definitive proof of this supposition exists, analogous expansion factors.
             on a variety of other IBM equipment support this hypothesis. Thus a
             100-statement, non-trivial source program may be said to generate 1400
             words of 1130 object code.

             Considering this problem as a retrofit, if data, subroutine, and overhead
             storage of an 8192-word 1130 require 2004 words of object core, a
             FORTRAN program consisting of 442 source statements 



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