History of FORTRAN and FORTRAN II
Paul McJones, editor
The goal of this project is to preserve source code, design documents, and other materials concerning the original IBM 704 FORTRAN/FORTRAN II compiler. FORTRAN was the first high-level programming language and the first high-quality optimizing compiler. This is a pilot project of the Computer History Museum's Software Preservation Group to develop expertise in the collection, preservation, and presentation of historic software. Comments, suggestions, and donations of additional materials are greatly appreciated.
- Source code
- Correspondence and memoranda
- Papers and lecture notes
- Interviews and biographies of John Backus
- Memoirs and user stories
- Related resources
- Bob Abeles, Allison Akbay, Fran Allen, David K. Allison, Association for Computing Machinery (ACM), Bob Ayers, John Backus, John T. Bagwell Jr., Bob Bemer, Grady Booch, Nance L. Briscoe, Leonard Bruno, Sharon Brunzel, Peter Capek, Alicia Cutler, Frank da Cruz, John Van Gardner, Mark Halpern, Dennis E. Hamilton, Leif Harcke, Norm Hardy, Bob Hughes, Peter Zilahy Ingerman, Paula Jabloner, Jim King, Al Kossow, Paul Lasewicz, J.A.N. Lee, Daniel N. Leeson, Doug McIlroy, George A. Michael, Anel Rodriguez Muller, David Padua, Paul Pierce, Dave Pitts, Micah Nutt, Bernard L. Peuto, Roger Roach, Jean Sammet, Len Shustek, Dick Sites, Dag Spicer, Rob Storey, Kirsten Tashev, Tom Van Vleck, Michael R. Williams, Irving Ziller.
- FORTRAN II compiler source listing. Smithsonian Institution -
National Museum of American History, Catalog number 304,349.
Originally donated by Peter Zilahy Ingerman. Assembly language (SAP) listing of 4K and
8K drum versions of the final IBM 704 FORTRAN II compiler. Three volumes. Pages I-III of Volume
I are a table of contents. Digital scan is Computer History Museum Lot
- Cover letter from A.L. Harmon to Peter Zilahy Ingerman, May 13, 1959. PDF
- Volume I. PDF (28.5 MB, 300dpi)
- Volume II. PDF (38.8 MB, 400dpi)
- Volume III. PDF (21.4 MB, 400dpi)
- For details about how this listing was discovered, see these Dusty Decks articles: The Smithsonian, The Smithsonian redux, As you sow so shall you reap, and 704 FORTRAN II listing available.
- Microfiche with "specifications, flowcharts, mathematical analysis and source code for FORTRAN". Two sets, each consisting of 23 microfiche of size 5.8"x4.1" (14.7cm x 10.5cm), each microfiche containing 50 images of size .51"x.58" (1.3cm x 1.5cm). Property of the family of Roy Nutt.
- 32K 709/7090 FORTRAN II in executable and source form,
in 7-track IBSYS distribution. Digitized by Paul Pierce.
- For an image of the original BCD-encoded 7-track magnetic tape digitized by Pierce, see: pr130-3.bcd
- For an ASCII transliteration, see the FORTRAN subdirectory of the archive
prepared by Dave Pitts:
ibsys.tar.gz at www.cozx.com
ibsys.tar.gz at www.bitsavers.org
Here are the individual components; for the compiler proper, see 9F13 through 9F30:
- FORTRAN COMMON I/O PACKAGE - IOEX VERSION. 9F00
- FORTRAN II MONITOR - TAPE POSITIONING RECORD. 9F01
- FORTRAN II MONITOR - DUMP RECORD. 9F02
- 32K 709/7090 FORTRAN MONITOR - SIGN-ON RECORD. 9F03
- 32K 709/7090 FORTRAN ASSEMBLY PROGRAM - MACRO-FAP. 9F04
- 32K 709/7090 FORTRAN MONITOR - SCAN. 9F06
- 32K 709/7090 FORTRAN MONITOR - DEBUG, BSS CONTROL AND LIBRARY SEARCH. 9F07
- 32K 709/7090 FORTRAN MONITOR - MACHINE ERROR RECORD. 9F10
- 32K 709/7090 FORTRAN MONITOR - SOURCE ERROR RECORD. 9F11
- 32K 709/7090 FORTRAN MONITOR - DUMMY RECORD (RECORD 12). 9F12
- 32K 709/7090 FORTRAN - SECTION ONE, ONE PRIME, ONE DOUBLE PRIME (RECORDS 13-17). 9F13
- 32K 709/7090 FORTRAN - SECTION TWO. 9F18
- 32K 709/7090 FORTRAN - SECTION THREE. 9F22
- 32K 709/7090 FORTRAN - SECTIONS FOUR AND FIVE. 9F23
- 32K 709/7090 FORTRAN - SECTION SIX. 9F30
- 32K 709/7090 FORTRAN MONITOR - DEBUG, BSS CONTROL AND LIBRARY SEARCH. 9F32
- IBSFAP VERSION 3/FORTRAN IBSFAP MODE LOADER. IBSFAP
- For details about how these tape images were discovered and progress executing them on a simulator, see these Dusty Decks articles: Fortran II source in Paul Pierce's collection and Dave Pitts is making progress running Fortran II.
- FORTRAN II compiler source listing belonging to John T. Bagwell Jr. This version was modified to use 7 index registers and ran under the 7090/7094 Porthos operating system at the University of Illinois 7090/94. Porthos was derived from the University of Michigan operating system and supported a hard disk.
- John Van Gardner, who was an IBM Customer Engineer at Lockheed Aircraft in Marietta, Georgia, when FORTRAN was shipped in April 1957 notes that they were able to obtain a source listing of the compiler on 35mm microfilm in order to debug a hardware problem. Norm Hardy, who was at Livermore, has also mentioned the microfilm images of listings distributed by IBM. See Memoirs and user stories below. [Personal communication from John Van Gardner to Paul McJones, May 2005.]
- Matrix Inversion Order 5. FORTRAN source program, generated assembly program, output from program execution, compiler listing summary page. Computer History Museum Lot X3853.2007, Box 15, Programming Presentation Papers folder, McPherson/Polivka donation. Approx. 1958? PDF
Author names in [brackets] are not listed in the document itself, but are "as remembered" according to Lee 1984.
- [J.W. Backus, H. Herrick and I. Ziller.] Preliminary Report : Specifications
for the IBM Mathematical FORmula TRANSlating System, FORTRAN. Programming
Research Group, Applied Science Division, International Business Machines
Corporation, November 10, 1954, 29 pages.
- Copy 1: Photocopy with "Property of Jean Sammet" and "Original Copy" on first page; missing page numbered 12. Given to Paul McJones by John Backus. PDF
- Copy 2: Computer History Museum Lot X2677.2004, Box 3 of 6, black 3-inch binder. Donated by J.A.N. Lee. PDF
"This is the first formal proposal for the language FORTRAN and lists the elements of the language which are proposed to be included in the eventual implementation together with some suggestions for future extensions. It is interesting to match this proposal with the Programmer's Reference Manual published in 1957 (below) and to note that many of the ideas of later FORTRANs as well as ALGOL appear to have been given birth in this document." [Lee 1984]
"The FORTRAN 0 document represents the first attempt to define the syntax of a programming language rigorously. Backus's important notation, which eventually became `BNF' can be seen in embryonic form here." [Knuth and Trabb Pardo 1977]
- Anonymous. IBM 704 Electronic Data Processing Machine Manual of Operation.
IBM Corporation, 1954-1955, Form 24-6661-2.
This manual describes the machine on which FORTRAN ran: a memory of 4096, 8192, or 32768 words of 36 bits each; a register complement including an accumulator, a multiplier-quotient, and 3 index registers; integer and floating-point arithmetic; and programmed I/O (no I/O channels or interrupts) with magnetic tape units, magnetic drums, punched card readers and punches, and line printers.
- J.W. Backus, R.J. Beeber, S. Best, R. Goldberg, H.L. Herrick, R.A. Hughes, L.B. Mitchell, R.A. Nelson, R. Nutt, D. Sayre, P.B. Sheridan, H. Stern, I. Ziller. The FORTRAN Automatic Coding System for the IBM 704 EDPM : Programmer's Reference Manual. Applied Science Division and Programming Research Department, International Business Machines Corporation, October 15, 1956, 51 pages. From bitsavers.org. PDF
Apparently assigned Form number 32-7026 after printing, as referred to on the last page of the Primer.
- Anonymous. Addenda to the FORTRAN Programmer's Reference Manual. Reproduced
typescript, undated, 7 pages. Computer History Museum, gift of Dick Sites, accession number 102655104. Part of Lot 58 of The Origins of Cyberspace auction,
Christie's, February 23, 2005. PDF
"For 'late 1956' read 'early 1957'." Describes FUNCTION statement.
- [Grace E. Mitchell?] FORTRAN Introductory Programmer's Manual. Programming Research Department, International Business Machines Corporation, 590 Madison Avenue, New York, New York. Reproduced typescript. Computer History Museum, gift of Dick Sites, accession number 102655104. Part of Lot 58 of The Origins of Cyberspace auction, Christie's, February 23, 2005.
- [Grace E. Mitchell.] The FORTRAN Automatic Coding System for the IBM 704 EDPM : Programmer's Primer. International Business Machines Corporation, 1957, Form 32-0306, 64 pages. PDF
- [Grace E. Mitchell.] General Information Manual : Programmer's Primer for
FORTRAN Automatic Coding System for the IBM 704. IBM Corporation, New York,
1957, Form F28-6019, 64 pages. From bitsavers.org.
"This edition is a reprint of Form Number 32-0306-1 and does not obsolete it or 32-0306. No changes have been made to 32-0306-1."
- Anonymous. The FORTRAN Automatic Coding System for the IBM 704 EDPM : Preliminary Operator's Manual.
Programming Research Department, International Business Machines Corporation,
April 8, 1957.
- Copy 1. 6+31 pages. Computer History Museum, gift of Dick Sites, accession number 102655104. Part of Lot 58 of The Origins of Cyberspace auction, Christie's, February 23, 2005. PDF
- Copy 2: 6+7 pages. Photocopy with "I. Ziller" written on first page. Computer History Museum Lot X2677.2004, Box 3 of 6, black 3-inch binder. Donated by J.A.N. Lee. PDF
"This manual describes the use of FORTRAN 4-1-4-1." The 704 did not have an operating system; FORTRAN ran on the bare machine. This manual has sections Preparing the System Tape, Using the System Tape, Error Detection, Running the Object Program, Error Stops in Object Programs, Maintaining the Library Functions, and then a 7-page list of compiler error stops.
- J. W. Backus. Letter to Greenstadt. [FORTRAN Letter #1?]. April 24, 1957. 4 pages. Computer History Museum, gift of Dick Sites, accession number 102655104. Part of Lot 58 of The
Origins of Cyberspace auction, Christie's, February 23, 2005. PDF
Describes materials sent to SHARE members owning IBM 704s with initial FORTRAN release.
- J. W. Backus. Letter to Ross: FORTRAN Letter #2. May 7, 1957. 3 pages. Computer History Museum, gift of Dick Sites, accession number 102655104. Part of Lot 58 of The Origins
of Cyberspace auction, Christie's, February 23, 2005. PDF
Describes upgrade for IBM 704s with 8192 words of memory; includes writeup of FNEDT 1 program for editing FORTRAN system tapes.
- International Business Machines Corporation and R.A. Hughes and R. Nutt.
FORTRAN Automatic Coding System for the IBM 704 Data Processing System :
Reference Manual. Form C28-6003, October 1958, 56 pages. From bitsavers.org.
This is very similar to the October 1956 manual, but includes the description of the FUNCTION statement (see page 17), which was initially documented in an addendum (see above).
- Anonymous. FORTRAN Programmation Automatique de L'Ordinateur IBM 704 : Manuel du Programmeur. IBM France, Institut de Calcul Scientifique, Paris. No date, 51 pages. Given to Paul McJones by John Backus. PDF
- Anonymous. FORTRAN II for the IBM 704 Data Processing System : Reference
Manual. Form C28-6000-2, 1958, 63 pages.
This manual is a supplement to the original FORTRAN Reference Manual and Primer, describing the new features, including the CALL, SUBROUTINE, FUNCTION, COMMON, and END statements and the new Binary Symbolic Subroutine Loader.
- Anonymous. The FORTRAN II Automatic Coding System for the IBM 704 : Operations Manual. No date, 62 pages. Scanned from photocopy loaned by Roger Roach. PDF
- Various authors. Miscellaneous FORTRAN memos, 1958-1959. From bitsavers.org.
- Anonymous. 704 FORTRAN II : Error Halt List for BSS Loader. November 28, 1958, 1 page.
- Anonymous. FORTRAN Subprogram Types [with calling sequences]. 2 pages.
- Anonymous. Memorandum for All 704 Users : FORTRAN Library and END Cards. Poughkeepsie South Road Laboratory, Department 535, November 26, 1958.
- L.O. Nippe. Memorandum for All 704 Users : FORTRAN Program Library Addition [PE RAND pseudo random number generator]. Poughkeepsie South Road Laboratory, Department 535, October 28, 1958, 2 pages.
- H.S. Long and L.O. Nippe. Memorandum for All 704 Users : FORTRAN Library Addition [PK CERF complementary error function]. Poughkeepsie South Road Laboratory, Department 535, November 14, 1958, 1 page.
- L.O. Nippe. Memorandum for All 704 Users : FORTRAN Program Library Addition [PK LGAM natural logarithm of the Gamma Function]. Poughkeepsie South Road Laboratory, Department 535, October 28, 1958, 1 page.
- L.O. Nippe. Memorandum for All 704 Users : FORTRAN Program Library Addition [PE OVFL reset or test overflow triggers]. Poughkeepsie South Road Laboratory, Department 535, November 25, 1958, 1 page.
- L.O. Nippe. Memorandum for All 704 Users : FORTRAN Program Library Addition [EL SAVE 1 and 2 save and restore cores and drums]. Poughkeepsie South Road Laboratory, Department 535, October 28, 1958, 1 page.
- L.O. Nippe. Memorandum for All 704 Users : FORTRAN Program Library Addition [LA S885 to solve the matrix equation AX = B for X and to evaluate the determinant A]. Poughkeepsie South Road Laboratory, Department 535, October 28, 1958, 1 page.
- L.O. Nippe. Memorandum for All 704 Users : FORTRAN Program Library Addition [NU BES1 Bessel functions for real argument and order]. Poughkeepsie South Road Laboratory, Department 535, October 28, 1958, 2 pages.
- Anonymous. Master IBM CARD Layouts : FORTRAN relocatable and absolute binary instruction or data cards. 2 pages.
- Anonymous. FORTRAN Modifications/Boolean Expressions, Function and Subroutine Names as Arguments, Additional Format Features. IBM Applied Programming, November 1959, 6 pages.
- Anonymous. FORTRAN Modifications/Machine Language Instructions in FORTRAN Programs, IBM Applied Programming, January 1960, 12 pages.
- L.O. Nippe. FORTRAN Program Cards [control card for SAP relocatable binary deck]. Department 535, October 19, 1959, 1 page.
- [I. Ziller]. Description of Source Language Additions to the FORTRAN II
System. Programming Research, International Business Machines Corporation,
1958?, 1+12 pages. Computer History Museum Lot X2677.2004, Box 3 of 6, black
3-inch binder. Donated by J.A.N. Lee.
"This is the document which proposes the extensions to FORTRAN II to create FORTRAN III which was a very short-lived system. The fundamental addition was the allowance of symbolic statements intermixed with FORTRAN statements." [Lee 1984]
- Grace E. Mitchell, "The 704 FORTRAN II Automatic Coding System. Research Report RC-136, IBM Research Center, Yorktown Heights, New York, September 4, 1959, 13 pages.
Computer History Museum Lot X2677.2004, Box 3 of 6, black 3-inch binder. Donated
by J.A.N. Lee. PDF
"Abstract: This paper discusses the addition made in the FORTRAN I translator to produce the FORTRAN II translator. The new source language statements, debugging facilities and loader are described."
- Anonymous. IBM 709 Data Processing System Reference Manual followed by 709
FORTRAN Automatic Coding System. cover+24-72+121-124+129-166+1-82 pages, no
date. From bitsavers.org. PDF
A combination of sections of a hardware reference manual and a FORTRAN II reference manual. Perhaps this was assembled from separate manuals for distribution to students learning FORTRAN?
- Anonymous. FORTRAN I, II, and 709 : Customer Engineering Manual of
Instruction. IBM Corporation, Form R23-9518-0, February 1959, 67 pages.
Museum Lot X3762.2007. Donated by Mark Halpern. PDF
Includes overview of the structure of the compiler, many details of the FORTRAN systems tape, and the record structure of the compiler intermediate tape. Section 3 is reprint of Backus et al. 1957.
- Anonymous. Systems Manual for 704 FORTRAN and 709 FORTRAN. Applied Programming
Department, International Business Machines Corporation, April 1960, 264 pages.
Copy belonging to Peter Capek. PDF
"Prefatory Note: This manual is an attempt to fulfill a long standing, much-pressed request. That is, a request for an over-all, comprehensive explanation of the workings of the entire Fortran System. This includes, in addition to the compiler proper, the monitor, the editor programs, and other corollary routines. ..."
- Anonymous. 709/7090 32K FORTRAN : Programming Systems Analysis Guide. IBM
Corporation, Form R23-9673, 1961, 134 pages. Computer History
Museum Lot X3762.2007. Donated by Mark Halpern.
This appears to be an evolution of the 1960 Systems Manual for 704 FORTRAN and 709 FORTRAN.
- Anonymous. FORTRAN II General Information Manual. IBM Systems Reference Library. Form F28-8074-3, December 1963, viii+103 pages. From bitsavers.org. PDF
- Anonymous. FORTRAN II reference manual.
- IBM 709/7090 FORTRAN Programming System : Reference Manual. Form C28-6054-2, January 1961, 105 pages. Original belonging to Bob Ayers. PDF
- IBM 7090/7094 Programming Systems : FORTRAN II Programming. IBM Systems Reference Library. Form C28-6054-4, August 1963, 51 pages. From bitsavers.org. PDF
- IBM 7090/7094 Programming Systems : FORTRAN II Programming. IBM Systems Reference Library. Form C28-6054-5, April 1964, 51 pages. From bitsavers.org. PDF
- Donald P. Moore. FORTRAN ASSEMBLY PROGRAM (FAP) for the IBM 709/7090. IBM 709/7090 Data Processing System Bulletin. Form J28-6098-1, 1961, 90 pages including addenda. Original belongs to Bob Ayers. PDF
- [Donald P. Moore?] FORTRAN ASSEMBLY PROGRAM (FAP) for the IBM 709/7090 : Supplementary Information for the 32K Version : Preliminary Bulletin. IBM 709/7090 Data Processing System Bulletin. Form J28-6186, circa 1961, 50 pages. Computer History Museum Lot X3762.2007. Donated by Mark Halpern. PDF
- Anonymous. IBM 7090/7094 Programming Systems : FORTRAN II Assembly Program (FAP). IBM Systems Reference Library.
- Anonymous. IBM 7090/7094 Programming Systems : FORTRAN II Operations. IBM
Systems Reference Library. Form C28-6066-6, 1963. From bitsavers.org.
"This publication contains a description of the FORTRAN II Processor operating under the FORTRAN II Monitor (Part 1 of this publication) and of the FORTRAN II Processor operating under IBSYS (Part 2 of this publication.)"
- Anonymous. IBM 7090/7094 Programming System : FORTRAN II Input/Output Package. IBM Systems Reference Library. Form J28-6190-3, October 16, 1964, 24 pages. PDF
- Anonymous. IBM 7090/7094 IBSYS Operating System : System Monitor (IBSYS). IBM Systems Reference Library.
- John W. Backus Papers, Manuscript Division, Library of Congress,
Washington, D.C. LC Control Number mm2003084968.
- Finding aid available in the Library of Congress Manuscript Reading Room. DRAFT version. PDF
- John Backus. Items for the Library of Congress. 13 pages, 2003. PDF
"Summary: Correspondence, memoranda, speeches, writings, reports, notes, slides, photographs, and other papers relating to Backus's work as a computer scientist at IBM on programming languages, particularly FORTRAN. Includes material relating to Backus's early work on the IBM Selective Sequence Electronic Calculator and Backus-Naur Form (BNF). Documents Backus's pursuit as IBM Fellow, 1963-1991, of his own research projects relating to mathematical theories of programming and the development of functional programming languages. Also includes files pertaining to Backus's political activism as a member of Computer Professionals Against ABM in the early 1970s and as an opponent of the strategic defense initiative in the 1980s."
- "TWENTY-FIVE YEARS OF FORTRAN" (EXHIBIT, 1957-82). INTERNATIONAL
BUSINESS MACHINES CORPORATION. Manuscript number Ms83-003, Special
Collections Department, University Libraries, Virginia Polytechnic Institute
and State University.
"5.0 cu. ft., 10 - 3'x8' panels and 1 videotape. Pioneer Day was celebrated on June 9, 1982, at the National Computer Conference in honor of the 25th anniversary of the delivery of the first FORTRAN compiler. As part of the celebration IBM created and displayed this exhibit. Contains photographs of FORTRAN pioneers, facsimiles of documents, textual analysis, flow charts, memorabilia, FORTRAN manuals and other publications, and a twelve-minute videotape on the history of FORTRAN starring the members of the original FORTRAN development team: John Backus, Sheldon Best, Richard Goldberg, Lois Mitchell Haibt, Harlan Herrick, Grace Mitchell, Robert Nelson, Roy Nutt, David Sayre, Peter Sheridan, and Irving Ziller."
- Harwood G. Kolsky. Notes from "Inside Fortran" presentation by Bill Heising. July 7, 1958. Handwritten notes, 5 pages. Computer History Museum accession number 102635018. Donated by Harwood G. Kolsky. PDF
- B.G. Oldfield. FORTRAN Experience at the New York Data Processing Center. Presented to SHARE meeting, Dallas, Texas, July 1957. Includes cover letter from Oldfield to John Backus, July 30, 1957. 1+3 pages. Computer History Museum Lot X3853.2007, Box 15, Programming Presentation Papers folder, McPherson/Polivka donation. PDF
- [Irv Ziller?] Preliminary Report : Proposed Specifications for FORTRAN
II for the 704. August 28, 1957, 3 pages. Computer History Museum Lot X3853.2007, Box 15, Programming Presentation Papers folder, McPherson/Polivka donation.
In this version a subroutine call begins with the name of the procedure followed by the parenthesized argument list -- there is no reserved word CALL. A subroutine begins with a SUB DEF statement. There is a RETURN statement but no END statement.
- [Irv Ziller.] Proposed Specifications for FORTRAN II for the 704.
Programming Research Department, International Business Machines Corporation,
September 25, 1957, 1+7 pages. Ditto (spirit duplicator). Given to Paul McJones by John Backus.
In this version a subroutine begins with a SUBROUTINE DEFINITION statement, and there is still no reserved word CALL. An UPPER statement is described, with the same semantics as the COMMON statement introduced in the November 18 version. The END statement appears.
- [Irv Ziller.] Proposed Specifications for FORTRAN II for the 704.
Programming Research Department, International Business Machines Corporation,
November 18, 1957, 1+7 pages. Ditto (spirit duplicator) with pen and ink
corrections. Given to Paul McJones by John Backus.
In this version a subroutine begins with a SUBROUTINE statement and a subroutine call begins with the reserved word CALL. The UPPER statement becomes the COMMON statement.
- J.W. Backus. Present Status of FORTRAN : Memorandum to Mr. J.C. McPherson. Programming Research, September 1, 1957, 1 page. Computer History Museum Lot X3853.2007, Box 15, Programming Presentation Papers folder, McPherson/Polivka donation. PDF
- John C. McPherson. Memorandum to Mr. J.W. Backus. WHQ, September 23, 1957, 1 page. Computer History Museum Lot X3853.2007, Box 15, Programming Presentation Papers folder, McPherson/Polivka donation. PDF
- John C. McPherson. Memorandum : FORTRAN II. November 1, 1957, 1 page. Computer History Museum Lot X3853.2007, Box 15, Programming Presentation Papers folder, McPherson/Polivka donation. PDF
- J.W. Backus. Memorandum to Mr. J.C. McPherson : FORTRAN II. Programming Research, November 5, 1957, 1 page. Computer History Museum Lot X3853.2007, Box 15, Programming Presentation Papers folder, McPherson/Polivka donation. PDF
- A.C. Glennie. Automatic Coding of an electronic computer. Photocopy of typewritten manuscript with handwritten corrections, 15 pages. First page has date "14/12/52" and handwritten annotation "Lecture was delivered at University of Cambridge mid-February 1953". Computer History Museum Lot X2677.2004, Box 3 of 6, blue 3-inch binder. Donated by J.A.N. Lee. PDF
- J.H. Laning and N. Zierler. A Program For Translation of Mathematical
Equations for Whirlwind I. Engineering Memorandum E-364, Instrumentation
Laboratory, Massachusetts Institute of Technology.
- Copy 1: Computer History Museum Lot X2677.2004, Box 3 of 6, black 3-inch binder. Donated by J.A.N. Lee. PDF
- Copy 2: Alternative version in Rich Katz's NASA Goddard Site. PDF
"The Laning and Zierler system was quite a different story: it was the world's first operating algebraic compiler, a rather elegant but simple one. Knuth and Trabb Pardo (1977) assign this honor to Alick Glennie's AUTOCODE, but I, for one, am unable to recognize the sample AUTOCODE program they give as "algebraic", especially when it is compared to the corresponding Laning and Zierler program." [Backus, The history of FORTRAN I, II and III]
- John W. Backus. The IBM 701 Speedcoding System. Journal of the ACM,
Volume 1, Number 1 (January 1954), pages 4-6.
[Posted here by permission of ACM] PDF
ACM Digital Library
"Speedcoding is a floating point three-address system which greatly simplifies programming, and checking out a program. Speedcoding provides convenient input-output operations, built-in checking, easy loading and printing. Therefore, Speedcoding reduces programming and testing expenses considerably. These expenses are often a large part of the cost of operating a computing installation. Thus Speedcoding is economical as well as convenient to use."
- J.W. Backus and H. Herrick. IBM 701 Speedcoding and other automatic programming systems. In Proc. Symp. on Automatic Programming for Digital Computer, Washington DC, The Office of Naval Research, May 1954, pp. 106-113. Computer History Museum Lot X2677.2004, Box 3 of 6, black 3-inch binder. Donated by J.A.N. Lee. PDF
- J.W. Backus, R.J. Beeber, S. Best, R. Goldberg, L.M. Haibt, H.L. Herrick,
R.A. Nelson, D. Sayre, P.B. Sheridan, H.J. Stern, I. Ziller, R.A. Hughes, and R.
Nutt, The FORTRAN automatic coding system. Pages 188-198. In Proceedings Western Joint
Computer Conference, Los Angeles, California, February 1957.
- Copy 1: Preprint, 50 pages. Acquired by Al Kossow on eBay. PDF preprint at bitsavers.org
- Copy 2: Identical to Copy 1? Computer History Museum Lot X3143.2005. Donated by Dick Sites. Part of Lot 58 of The Origins of Cyberspace auction, Christie's, February 23, 2005.
- Copy 3: Typeset reprint in original blue cover. Given to Paul McJones by John Backus. [Posted here by permission of ACM] PDF
"This is the first formal paper on the completed FORTRAN implementation reporting both on the language and on the design of the compiler. It includes an overview of the language, a description of each stage of the processor (with attributions of responsibilities amongst the authors), and conclusions regarding the success of the project. The final statement is worthy of repeating: "... the intellectual satisfaction of having formulated and solved some difficult problems of translation and the knowledge and experience acquired in the process are themselves almost a sufficient reward for the long effort expended . . . " [Lee 1984]
- J.W. Backus. Automatic programming: properties and performance of FORTRAN
systems I and II. Session 2, Paper 3, Proceedings Symposium on the Mechanisation of
Thought Processes, Teddington, Middlesex, England, The National Physical
Laboratory, Nov. 1958, Her Majesty's Stationary Office (HMSO), pp. 232-255.
"Written at a distance of one year after the delivery of the first FORTRAN processor for the 704, this paper is significant in its presentation of FORTRAN as an 'automatic programming system' in the environment of a symposium of the mechanisation of thought processes. Other attendees at the meeting included Jan Garwick (Norway), John McCarthy (USA), Grace Murray Hopper (USA) and Christopher Strachey (GB), each of whom commented on the presentation by Backus. Obviously Garwick was much more interested in telling the audience of developments by Ole-Johan Dahl while McCarthy (the author of LISP) praised FORTRAN for its ability to express '... quite lengthy algebraic expressions ...' and the implementation of separate compilation of subroutines (presumably in FORTRAN II). Hopper states that '... there is a lack of understanding of the systemizsation [sic] of FORTRAN' and asks Backus to emphasize that Fortran does more than just the 'housekeeping' for the programmer." [Lee 1984]
- P.B. Sheridan. The arithmetic translator-compiler of the IBM FORTRAN
automatic coding system. Comm. ACM, Volume 2, Number 2, February 1959,
pages 9-21. [Posted here by permission of ACM]
PDF ACM Digital Library
[From the introduction:] The present paper describes, in formal terms, the steps in translation employed by the FORTRAN arithmetic translator in converting FORTRAN formulas into 704 assembly code. The steps are described in about the order in which they are actually taken during translation."
- J.W. Backus and W.P. Heising. FORTRAN. IEEE Transactions on Electronic
Computers, EC-13, Number 4, August 1964, pages 382-385.
[From the summary: ] The fundamental concepts of FORTRAN, the most widely used high-level, scientific programming language, are set forth and the significant characteristics are described in historical order from inception ... in 1954 to  ... The basic problem of how to get high quality programming from an-easy-to-write high-level language is emphasized. "Looking back after 10 years, Backus recalls the objectives of the FORTRAN effort and many of the frustrations which accompanied the development of the first processor. Of particular note is the commentary on the time taken during compilation to ensure the production of optimum code, time which is often fruitlessly wasted on simple programs. Mention is made of the technique of flow analysis used in the first compiler which was based on a Monte Carlo analysis of the frequency of execution of sections of the program. Regrettably (then and ever since) no documentation of this technique is provided." [Lee 1984]
- J. W. Backus, The history of FORTRAN I, II and III. Proceedings First ACM SIGPLAN conference on History of programming languages,
Los Angles, 1978. [Posted here by permission of ACM]
- Preprint. PDF ACM Digital Library
- Final version, in: R. Wexelblat, editor. History of Programming Languages, ACM Monograph Series, Academic Press, 1981.
- Paper. Pages 25-45. PDF ACM Digital Library
- Transcript of presentation. Pages 45-66. PDF ACM Digital Library
- Transcript of discussant's remarks. Pages 66-68. PDF ACM Digital Library
- Transcript of question and answer session. Pages 68-71. PDF ACM Digital Library
- Full text of all questions submitted. Pages 71-73. PDF ACM Digital Library
- Biography of John Backus. Page 74. PDF ACM Digital Library
- Reprinted in Annals History of Computing, Volume 1, Number 1, July 1979, pages 21-37 and in Volume 20, Number 4, October-December 1998 IEEE CS Digital Library
"This article summarizes the history of the development of FORTRAN I, II and III. The author, who was the leader of the groups which developed the first two compilers, explains the economic factors leading to the establishment of the FORTRAN project, its goals, and the mode of working of its implementations. The article makes it clear that the early FORTRAN efforts were efforts of compiler development rather than language design. The language was designed as the compiler was written and the compiler design was considered [to be] the hard job. This lucidly written article is interesting not only for the facts presented about the history of FORTRAN (e.g., that efficiency of object code was more important in getting FORTRAN accepted than the design of the language) and the insight given into design of the language (e.g., that subscripts in a subscript variable were limited to three to increase compiler efficiency rather than because the IBM 704 has only three index registers), but also for its revelation of the mixture of clairvoyance, inventiveness, and naivete possessed by the implementation team (e.g., common expression elimination, the actual degree of optimization exhibited in the object code, and the feeling that debugging would all but [be] eliminated by the use of FORTRAN). The article is must reading for anyone considering language design today; it raises serious questions as to whether there is anything new under the sun. The kinds of things being said today are hauntingly reminiscent of the kinds of things quoted in the article as being said in 'those' days." [D. Berry, Los Angeles CA, Computing Review 35,907]
- J. W. Backus. Programming in the 1950's - some personal impressions. In A
History of Computing in the Twentieth Century, N. Metropolis et al, Eds.,
Academic Press, New York, 1980, pages 125-135. Preprint.
"Backus has been known to suggest that as much as anything else he would like to forget FORTRAN, and in this paper he almost does just that. The paper represents a personal view of the world as it existed prior to the FORTRAN development. Following a short presentation on the actual production of the first FORTRAN compiler (including the admission that he had been wrong in ascribing the early notions of algebraic input to Laning and Zierler in previous presentations) Backus shows how the concepts introduced by FORTRAN fulfilled the goals of the period." [J.A.N. Lee, Annals of the History of Computing, 1981.]
- John Cocke and J.T. Schwartz, Programming Languages and their Compilers,
Preliminary Notes. 2nd revised edition, Courant Institute, New York, April 1970,
pages 510-515. PDF
"These five pages in the otherwise unpublished manuscript contain a review of the techniques of optimization that were used in the original FORTRAN compiler, and based on assistance from Sheldon Best, are a more detailed account of the processes used than were published previously." [Lee 1984]
- H.S. Bright. FORTRAN comes to Westinghouse-Bettis. Computers and
Automation, Volume 20, Number 11, 1971, pages 17-18. PDF
"This is an anecdote regarding a strange and wonderful package that arrived unannounced at Westinghouse-Bettis and which turned out to be a binary deck of the original FORTRAN processor for the IBM 704. Included is a copy of the first program run and the output (including the first error message.) There may be one erroneous report in this anecdote, that is that April 20, 1957 is said to be a Friday (in the first sentence); the 20th was in fact a Saturday." [Lee 1984]
The PDF includes a letter from Bright to J.A.N. Lee dated February 8, 1978 and a letter from Bright to John Backus dated February 2, 1978. Scanned from original in Computer History Museum Lot X2677.2004, Box 3 of 6. Donated by J.A.N. Lee.
- Donald Ervin Knuth and Luis Trabb Pardo. The early development of programming languages. Pages 419-493 in J. Belzer, A. G. Holzman, A. Kent, editors. Encyclopedia of Computer Science and Technology, Marcel Dekker, Inc., New York. 1977. Republished in: Donald Knuth. Selected Papers on Computer Languages, CSLI, Stanford, 2003.
- F.E. Allen. The History of Language Processor Technology in IBM. IBM
Journal of Research & Development, Volume 25, Number 5 (September 1981), pages 535-548.
PDF at IBM
The section "Early history" describes pre-FORTRAN programming: machine language, subroutine libraries, symbolic operation codes, relative addressing for instructions and data, labels, macros, and interpreters for virtual machines with floating-point and index registers such as Backus's Speedcode. The section "FORTRAN I" describes the compiler structure in some detail and concludes: "The real results of the project are the influences it had on future compilers and theory. Some of these effects have already been mentioned; more will be discussed later. Suffice it to say that the technological fallout from this project has been extensive."
- F.E. Allen. A Technological Review of the FORTRAN I Compiler.
Proceedings National Computer Conference,
1982, AFIPS Press, pages 805-809. [Posted here by permission of ACM]
"In some cases, it produced code which was so good that users thought it was wrong, since it bore no obvious relationship to the source. It set a standard for object program efficiency that has rarely been equalled. The FORTRAN I compiler, completed in 1957, established modern compiler tasks, structure, and techniques."
- J.A.N. Lee and Henry Tropp. FORTRAN and its Progeny (unpublished book). Computer History Museum Lot X2677.2004, Box 3 of 6. Donated by J.A.N. Lee.
- J.A.N. Lee and H.S. Tropp, editors. FORTRAN's Twenty-Fifth Anniversary. Special issue of the
Annals of the History of Computing, Volume 6, Number 1 (January
1984). IEEE Digital Library
- John Backus, session chair. Early Days of FORTRAN.
- J.A.N. Lee. Pioneer Day, 1982. Pages 7-14.
- John C. McPherson. Early Computers and Computing Institutions. Pages 15-16.
- Robert W. Bemer. Computing Prior to FORTRAN. Pages 16-18.
- Richard Goldberg. Register Allocation in FORTRAN I. Pages 19-20.
- Roy Nutt. Compiler Techniques Available in 1954. Pages 20-22.
- Frances E. Allen. A Technological Review of the Early FORTRAN Compilers. Pages 22-26.
- John Backus. Afterward. Pages 26-27.
- Jeanne Adams, session chair. Institutionalization of FORTRAN.
- Herbert S. Bright. Early FORTRAN User Experience. Pages 28-30.
- Robert A. Hughes. Early FORTRAN at Livermore. Pages 30-31.
- William P. Heising. The Emergence of FORTRAN IV from FORTRAN II. Pages 31-32.
- Martin N. Greenfield. The Impact of FORTRAN Standardization. Page 33.
- Daniel D. McCracken. The Early History of FORTRAN Publications. Pages 33-34.
- Charles Davidson. The Emergence of Load-and-Go Systems for FORTRAN. Pages 35-37.
- James M. Sakoda. A Dynamic Storage Allocation Language--DYSTAL. Pages 37-38.
- Bruce Rosenblatt. The Successors to FORTRAN--Why Does FORTRAN Survive? Pages 39-40.
- Daniel N. Leeson. IBM FORTRAN Exhibit and Film. Pages 41-48.
- J.A.N. Lee. An Annotated Bibliography of FORTRAN. Pages 49-58.
- Henry S. Tropp, editor. FORTRAN Anecodotes. Pages 59-64.
- Anonymous. Meetings in Retrospect. Pages 65-69
- FORTRAN Celebration at IBM Santa Theresa Laboratory.
- FORTRAN Activities at SHARE Meeting.
- John Backus, session chair. Early Days of FORTRAN.
- David Padua. The FORTRAN I Compiler. Computing in Science and Engineering,
Volume 2, Number 1, January/February 2000, pages 70-75.
PDF at uiuc.edu
Part of a special issue with the theme of "the 10 algorithms with the greatest influence on the development and practice of science and engineering in the 20th century." [Editors, page 22. PDF at stanford.edu IEEE Digital Library]
- Transcript of Larry Saphire Interview of John Backus, San Francisco, California, December 15, 1967. Number TC-46 of a series in the IBM Oral History of Computer Technology. Topical Outline, Track 1, Track 2, 1+32+22 pages. Handwritten annotation "COPY orig to LOC". Given to Paul McJones by John Backus.
- Henry Tropp, editor. Transcript of discussion, SHARE meeting, Hilton Hotel,
San Francisco, March 1972. Computer History Museum Lot X2677.2004, Box 3 of 6,
blue 3-inch binder. Donated by J.A.N. Lee.
"The complete transcript of this discussion covers much more than FORTRAN, but there are several pages of very frank and open comments about the development of FORTRAN and some of the vexations of getting the system into the hands of users. Participants in the discussion include John Backus, Tom Steel, Jr., Frank Engel, Jr., Betty Ryckman, George Ryckman, Frank Wagner, William Gautney, John Greenstadt, Harry Cantrell, Ted Dollata, Arnold Smith, and Mort Bernstein. The original tapes of the discussion are in the Smithsonian's National Museum of American History." [Lee 1984]
- Claire Stegmann. Pathfinder. THINK, IBM Corporation, July/August
1979, pages 18-27. PDF
"An interview with John Backus on the 25th anniversary of the beginning of the FORTRAN project." [Lee 1984]
- ACM Turing Award citation
- Charles E. Larson, interviewer. Pioneers of Science and Technology Video Tape Project, San Francisco, CA, Oral History 262, Charles Babbage Institute, University of Minnesota, January 3, 1984.
- Robert Slater. The Man Who Invented Fortran. In Portraits in Silicon, The MIT Press, 1987.
- Dennis Shasha and Cathy Lazere. John Backus. In Out of Their Minds: The Lives and Discoveries of 15 Great Computer Scientists, Copernicus/Springer-Verlag, 1995.
- Steve Lohr. FORTRAN: the "Early Turning Point". In Go To, Basic Books, 2001. Online at inventors.about.com
- Steve Lohr. Pioneers of the 'Fortran' Programming Language. New York Times, June 13, 2001. Online at fortran.bcs.org
- Grady Booch, interviewer. Oral History of John Backus, Ashland, Oregon, September 5, 2006. Computer History Museum reference number: X3715.2007 (accession number 102657970), 42 pages. Online
- "Abstract: In this interview, John Backus reflects on his life and career from his earliest days in the U.S. Army during World War II through his career at IBM. He discusses IBM culture and the environment that led to the creation of Fortran, analyzes the development and influence of Fortran, and reviews his work in functional programming."
- The History of Computing Project
- The MacTutor History of Mathematics archive
- University of Pittsburgh Information Science Hall of Fame
- René Gabriëls, Dirk Gerrits, and Peter Kooijmans. John W. Backus : 3 December 1924 – 17 March 2007. Report for class 2R930 Geschiedenis van Informatica (History of Computing), Faculteit Wiskunde & Informatica, Technische Universiteit Eindhoven, May 29, 2007. PDF at tue.nl
- Bob Bemer. Web site: Computer History Vignettes.
Online at bobbemer.com
Bemer joined IBM in 1955 and worked for Backus in the Programming Research Department. FORTRANSIT translated FORTRAN to IT, then used a modified version of Alan Perlis's IT compiler to generate IBM 605 SOAP assembly language. The main memory of the IBM 650 was a drum, so the instruction placement optimization performed by SOAP was crucial to getting reasonable performance.
- Robert Hughes. An Interview with Bob Hughes. May 9, 1997. Part of: George A. Michael. Web site: Stories of the Development of Large Scale Scientific Computing at Lawrence Livermore National Laboratory. Online at computer-history.info
- John Van Gardner. Fortran And The Genesis Of Project Intercept, May
2005, 2 pages.
Gardner was one of the IBM Customer Engineers who installed 704 serial number 13 at Lockheed Aircraft in Marietta, Georgia in May 1956. This memoir describes how in 1957 he debugged a hardware problem that had resulted in the Fortran compiler behaving in a nondeterministic manner.
- Mark Halpern. On the Heels of the Pioneers - A Memoir of the
Not-quite-earliest Days of Programming. Annals of the History of
Computing, Volume 13, Number 1, 1991, pages 101-111.
His first assignment after joining the IBM Programming Research Department in 1957 was to study and document (via flow-charts) the FORTRAN compiler.
- Dennis E. Hamilton. Impact of FORTRAN II language changes. Personal
communication to Paul McJones, April 2005:
"However, the impact of small changes and improvements can be immense. The ability to build Fortran programs out of independently-compilable modules and to have the ability to decompose into functions and subroutines using Fortran or any other tool that produced compatible code (usually the assembler, in those days) had an immense impact. In Fortran I programs were one giant file and there was no modularization structure. That small change in Fortran II was earthshaking in terms of software development and, I think, the endurance of Fortran as a technical-software programming tool.
It also changed the way that computers had to operate to make software building and use work more smoothly. I think it is no coincidence that this paralleled increased interest in operating systems (called things like tape monitors, at the time) and the use of the computer for organizing the data processing workflows. (There was also a lot of resistance to operating systems in those days.)"
- Norm Hardy. Fortran at Livermore. Web page, undated.
"Here are a few recollections on Fortran when it appeared at Livermore.
Fortran's optimization was far ahead of its time. Indeed other much smaller and faster fortrans were soon written for other machines, but I recall observing that it was about 10 years before any compiler optimized as well as the original.
Some months after the compiler was shipped, IBM released the 'source' for the compiler in the form of micro-film images of assembler listings of the compiler, carefully hand annotated with the patches. A year or so later IBM shipped a clean assembly of the compiler with some of the less significant optimizations absent. The newer compiler was yet faster and more reliable and we were able finally to compile our large production code. The newer compiler still led the pack regarding optimization."
- Peter Crouch, editor. Fifty Years of Fortran. British Computer Society Fortran Specialist Group and Computer Preservation Society, January 25, 2007. Online at bcs.org
- Gareth Mitchell, presenter. Fortran is 50. Digital Planet programme, BBC Radio World Service, December 18, 2007, 6':40". MP3 (7.6 megabytes)
Proceedings of a meeting held at the BCS London Office, January 25, 2007.
Mitchell interviews Paul McJones on the occasion of the 50th birthday of Fortran; additional commentary by Bill Thompson; produced by Helena Selby.
- John Backus and John Cocke. Match book cover labeled "Capt. Starn's Restaurant and Bar, Atlantic City, New Jersey", undated. Given to Paul McJones by John Backus. JPEG
- Richard Goldberg, Robert Nelson, Lois Haibt, Roy Nutt, Irv Ziller, Sheldon Best, Harlan Herrick, John Backus, Peter Sheridan. Pioneer Day Banquet, National Computer Conference, Houston, Texas, June 9, 1982. Photographer unknown. Given to Paul McJones by John Backus. JPEG
- FORTRAN films. Computer History Museum Lot X2843.2005. Donated by
Daniel N. Leeson.
- FORTRAN. IBM Department of Education, Poughkeepsie, New York, 1958?, 16':27".
- FORTRAN 25th anniversary film, 1982, 12.5 minutes. Copy belonging to Micah Nutt. Windows Media Video (12.8 megabytes)
Daniel N. Leeson describes both these films in his article "IBM FORTRAN Exhibit and Film" in Annals of the History of Computing, Volume, 6, Number 1, January 1984, pages 41-48. He says the first FORTRAN film was made in Poughkeepsie about 1958, and that Harlan Herrick owned the only known copy. He describes the production of the 1982 film in some detail, and includes a complete transcript.
- Excerpts from FORTRAN session. History of Programming Languages Conference, 1-3 June 1978, Los Angeles, California. Audio plus still pictures in Real Media and QuickTime format. Online at Virginia Tech
- Nelson H. F. Beebe. Bibliography on Fortran. Department of Mathematics, University of Utah, version 1.44, April 12, 2005.
- J.A.N. Lee. An Annotated FORTRAN Bibliography. Annals of the History of Computing, Volume 6, Number 1, January 1984, pages 49-58. IEEE Digital Library
- Paul Pierce. 709/7090/7094 simulator and tools. http://www.piercefuller.com/oldibm-shadow/709x.html
- Dave Pitts. 7090 simulator and tools.
Dave notes that Paul Pierce's version won't run IBSYS at all, because it lacks channel changes and 7094 instructions that Dave added to his version. Rob Storey's is also not currently as far along as Dave's. [Personal communication, May 5, 2005]
Screenshot of Dave's emulator after FORTRAN II compilation. JPEG
- Rob Storey. 7094 emulator. http://members.optushome.com.au/intaemul/Emul7094.htm
- Al Kossow. Bitsavers' Software Archive and PDF Document Archive.
- Home: http://www.bitsavers.org/
- Mirrors: http://bitsavers.trailing-edge.com/ - http://www.classiccmp.org/bitsavers - http://bitsavers.vt100.net/ - http://computer-refuge.org/bitsavers - ftp://zerkalo.curie.fr./mirrors/www.bitsavers.org/pdf/
"As of Mar, 2008 there are over 13,300 documents containing over 1,228,400 pages in the archive."
- Fortran Archive Catalog. Computer History Museum. Online at CHM
- Paul Pierce. Computer Collection. http://www.piercefuller.com/collect/index.html
This is a predefined query on the Museum's in-house MIMSY collection database that produces catalog entries for some 71 items, mostly from this web site.
- Diarmuid Pigott. HOPL: an interactive Roster of Programming Languages. http://hopl.murdoch.edu.au/
"This site is concerned with the idea-historical treatment of the development of programming languages as a means of human expression and creation. In 1976, at the History of Computing Conference in Los Alamos, Richard Hamming described why we might be interested in the history of computing: "we would know what they thought when they did it".
This site is all about why they did it - why people designed and implemented languages and what influenced them when they did so (historically, philosophically, politically as well as theoretically).
This site lists 8238 languages, complete with 17444 bibliographic records featuring 10624 extracts from those references. It is in effect a family tree of languages with 5314 links, making it not only the biggest programming language family tree around, but also one of the largest idea-genealogical projects undertaken."
- Ed Thelen. On-Line Documents.
The web site includes scanned (and in many cases OCRed) copies of useful reference works for the computer historian includings books, reference manuals, directories, etc. Here is an example relevant to FORTRAN: a document that lists all the IBM 704s that were sold:
- Martin H. Weik. "A Third Survey of Domestic Electronic Digital Computing Systems" Report Number 1115, Ballistic Research Laboratories, Aberdeen Proving Ground, Maryland, March 1961. HTML
- Frank da Cruz. Columbia University Computing History.
This web site is a rich source of information about computing activities at Columbia, which hosted IBM's Watson Laboratory from 1945 to 1970. Examples of pages relevant to FORTRAN include John Backus and the IBM 704.
- Peter Crouch, Chairman. Fifty Years of Fortran. Meeting organised jointly by the British Computer Society Fortran Specialist Group and the Computer Conservation Society, January 25, 2007. http://www.fortran.bcs.org/2007/jubileeprog.php
The web site describes Pierce's collection of computer hardware, which includes an IBM 709 and an IBM 7094. The web site also includes a library with scanned copies of manuals as well as machine readable images of card decks and magnetic tapes including SHARE, IBSYS, and CTSS distributions.
- Simulators for other historic machines [these links belong somewhere on
the Software Collection Committee web site, but aren't specifically
- Martin Campbell-Kelly. The Edsac Simulator. http://www.dcs.warwick.ac.uk/~edsac/
David Richard Green. SILLIAC Emulator.
SILLIAC was Sydney University's almost-exact copy of the ILLIAC. Green's web site includes a 1958 SILLIAC Programming Manual and links to SILLIAC and ILLIAC software.
- Peter Zilahy Ingerman. UNIVAC I and II Simulator. http://www.ingerman.org/niche.htm#UNIVAC
- Leif Jon Harcke. Atlas - an 1103A emulator for UNIX systems. http://insar.stanford.edu/~lharcke/programming/
- Bob Supnik. Computer History Simulation
Various machines by Data General, DEC, GRI, IBM, Interdata, Hewlett-Packard, Honeywell, MITS, Royal-Mcbee, and Scientific Data Systems, plus software kits and some papers on simulation.
- Ron Burkey. Virtual AGC and AGS (Apollo Guidance Computer and Abort Guidance System). http://www.ibiblio.org/apollo/
- Jay Maynard. The Hercules System/370, ESA/390, and z/Architecture Emulator. http://www.hercules-390.org/
- Tom Hunter. Desktop CYBER Emulator (CDC CYBER 6600, 7x, 17x). http://members.iinet.net.au/~tom-hunter/