Advertisement

Optimization

  • W. M. Waite
Chapter 5.: Engineering A Compilers
Part of the Lecture Notes in Computer Science book series (LNCS, volume 21)

Keywords

Directed Acyclic Graph Basic Block Strength Reduction Level Number Register Allocation 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. Aho, A.V., Sethi, R., Ullman, J.D.: A formal approach to code optimization. SIGPLAN Notices 5, 86–100 (July, 1970).Google Scholar
  2. Aho, A.V., Ullman, J.D.: The theory of parsing, translation, and compiling. Prentice-Hall 1973.Google Scholar
  3. Allen, F.E.: Control flow analysis. SIGPLAN Notices 5, 1–19 (July, 1970).Google Scholar
  4. Allen, F.E.: A basis for program optimization. Information Processing 71, 385–391, North-Holland 1972.Google Scholar
  5. Allen, F.E., Cocke, J.: A catalogue of optimizing transformations. In Rustin, R. (Ed.): Design and Optimization of Compilers. Prentice-Hall 1972.Google Scholar
  6. ANSI: FORTRAN. X3.9-1966, American National Standards Institute 1966.Google Scholar
  7. Backus, J.W., Heising, W.P.: FORTRAN. IEEE Transactions EC-13, 382–385 (1964).Google Scholar
  8. Bagwell, J.T.: Local optimizations. SIGPLAN Notices 5, 52–66 (July, 1970).Google Scholar
  9. Bauer, F.L., Samuelson, K.: Comment in ALGOL Bulletin 10 (1961).Google Scholar
  10. Beatty, J.C.: Register assignment algorithm for generation of highly optimized object code. IBM J. Res. Develop. 18, 20–39 (1974).Google Scholar
  11. Clark, B.L., Horning, J.J.: Reflections on a language designed to write an operating system. ACM SIGPLAN/SIGOPS Interface Meeting, Savannah, 9–12 April 1973.Google Scholar
  12. Cocke, J.: Global common subexpression elimination. SIGPLAN Notices 5, 20–24 (July, 1970).Google Scholar
  13. Cocke, J., Schwartz, J.T.: Programming languages and their compilers: preliminary notes. New York University 1970.Google Scholar
  14. Earnest, C.: Some topics in code optimization. JACM 21, 76–102 (1974).Google Scholar
  15. Forsythe, A.I., Keenan, T.A., Organick, E.I., Stenberg, W.: Computer science: a first course. John Wiley 1969.Google Scholar
  16. Frailey, D.J.: Expression optimization using unary complement operators. SIGPLAN Notices 5, 67–85 (July, 1970).Google Scholar
  17. GE: GE-400 Series Basic Language. CPB-1470 (1968).Google Scholar
  18. Gear, C.W.: High speed compilation of efficient object code. CACM 8, 483–488 (1965).Google Scholar
  19. Gries, D.: Compiler Construction for Digital Computers. John Wiley, 1967.Google Scholar
  20. Hall, A.D.: Private Communication 1974.Google Scholar
  21. Hext, J.B.: Programming Languages and Compiling Techniques. Ph.D. Dissertation, University of Cambridge 1965.Google Scholar
  22. Hopcroft, J., Tarjan, R.: Efficient algorithms for graph manipulation. CACM 16, 372–378 (1973).Google Scholar
  23. IBM Corp.: IBM system/360 operating system FORTRAN IV (H) compiler program logic manual. Y28-6642-3 (1968).Google Scholar
  24. Kildall, G.A.: Global expression optimization during compilation. Ph.D. Thesis, University of Washington 1972.Google Scholar
  25. Knuth, D.E.: The Art of Computer Programming, Vol. 2: Seminumerical Algorithms. Addison Wesley 1969.Google Scholar
  26. Knuth, D.E.: An empirical study of FORTRAN programs. Software — Practice and Experience 1, 105–133 (1971).Google Scholar
  27. Lee, J.A.N.: A formal definition of the BASIC language. Computer J. 15, 37–41 (1972).Google Scholar
  28. Lowry, E.S., Medlock, C.W.: Object code optimization. CACM 12, 13–22 (1969).Google Scholar
  29. McKeeman, W.M.: Peephole optimization. CACM 8, 443–444 (1965).Google Scholar
  30. Rohl, J.S., Linn, J.A.: A note on compiling arithmetic expressions. Computer J. 15, 13–14 (1972).Google Scholar
  31. Sethi, R., Ullman, J.D.: The generation of optimal code for arithmetic expressions. JACM 17, 715–728 (1970).Google Scholar
  32. Sheridan, P.B.: The FORTRAN arithmetic-compiler of the IBM FORTRAN automatic coding system. CACM 2, 9-(1959).Google Scholar
  33. Spillman, T.C.: Exposing side-effects in a PL/I optimizing compiler. Information Processing 71, 376–381, North-Holland 1972.Google Scholar
  34. Ullman, J.D.: Fast algorithms for the elimination of common subexpressions. Acta Informatica 2, 191–213 (1973).Google Scholar
  35. Wilcox, T.R.: Generating Machine Code for High-Level Programming Languages. Ph.D. Thesis, Cornell University 1971.Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1976

Authors and Affiliations

  • W. M. Waite
    • 1
  1. 1.University of ColoradoBoulderUSA

Personalised recommendations