Next: About this document Up: No Title Previous: Conclusions

References

  1. ADLER, C., D. D'HUMIÈRES, and D. ROTHMAN, ``Surface tension and interface fluctuations in immiscible lattice gases,'' Journal de Physique I (France), 4, 29-46, January, 1994.
  2. AHARONOV, E., and D. ROTHMAN, ``Non-Newtonian flow (through porous media): a Lattice Boltzmann method,'' Geophysical Research Letters, 20, 679-682, April, 1993.
  3. BIAFORE, Michael, ``Cellular automata for nanometer-scale computation,''Physica D 70 (1994), 415-434.
  4. BIAFORE, Michael, ``Universal computation in few-body automata,'' Complex Systems 7 (1993), 221-239. biafore-thesis
  5. BIAFORE, Michael, ``Few-body cellular automata: a methodology for extracting useful computation from physical interactions,'' MIT/LCS/TR-597 (Ph.D. Thesis, December 1993).
  6. BOGHOSIAN, B. M., and W. TAYLOR, ``Correlations and Renormalization in Lattice Gases,'' (submitted to ).
  7. BOGHOSIAN, B. M., and and W. TAYLOR, ``Renormalization of Lattice Gas Transport Coefficients,'' in Pattern Formation and Lattice-Gas Automata, A. LAWNICZAK and R. Kapral, (eds.), American Mathematical Society (1994).
  8. CLEMENTI, Andrea, Russell IMPAGLIAZZO, Pierluigi PIERINI, ``On the average-case complexity of the reversibilty problem for finite cellular automata,'' submitted to PhCo '94, Dallas, Texas.
  9. CLEMENTI, Andrea, Patrizia MENTRASTI, Pierluigi PIERINI, ``Some Results on Invertible Cellular Automata,'' submitted to Complex Systems and PhCo '94, Dallas, Texas.
  10. D'SOUZA, Raissa, David MILLER, Brad SAFFORD and Yaneer BAR-YAM, ``Dynamical scaling in a multiple regrowth model for diamond films,'' submitted for publication.
  11. GILLIAM, Harris L., BISHOP: A framework for economic simulation using cellular automata, MIT Bachelor of Science Thesis in Computer Science and Engineering, Aug 24, 1993.
  12. MARGOLUS, Norman, ``CAM-8: a computer architecture based on cellular automata,'' in Pattern Formation and Lattice-Gas Automata, A. LAWNICZAK and R. Kapral, (eds.), American Mathematical Society (1994).
  13. MARGOLUS, Norman, ``Cellular Automata Machines: a new kind of computer,'' to appear in the proceedings of the Second International Conference on Computational Physics (Beijing, September 1993).
  14. MARGOLUS, Norman, ``Virtual Processor Emulation of Large Cellular Logic Systems,'' submitted for publication.
  15. MARGOLUS, Norman, ``Spacetime circuitry on CAM-8,'' submitted for publication.
  16. MARGOLUS, N., T. TOFFOLI, ``STEP: a Space Time Event Processor,'' Tech. Rep. MIT/LCS/TR-592, MIT Lab. for Computer Science (1993).
  17. PIERINI, Pierluigi, ``Real-time image equalizer with CAM8,'' MIT Information Mechanics Group Memo (1994).
  18. PIERINI, Pierluigi, ``Simulating long-range forces with cellular automata,'' submitted to Transactions of the Society for Computer Simulation.
  19. PIERINI, Pierluigi, ``Space-time structures for cellular automata,'' to appear in the proceedings of ACRI '94, Rende (CS) Italy Sept 29-30, 1994.
  20. ROTHMAN, D., ``From ordered bubbles to random stripes: pattern formation in a hydrodynamic lattice gas,'' Journal of Statistical Physics 71 (1993), 641-652
  21. ROTHMAN, D., J. GROTZINGER, and P. FLEMINGS, ``Scaling in turbidite deposition,'' Journal of Sedimentary Research A64 (1994), 59-67.
  22. ROTHMAN, D. and L. P. KADANOFF, ``Bubble, bubble, boil and trouble,'' Computers in Physics 8 (1994), 199-204.
  23. ROTHMAN, D. and S. ZALESKI, ``Lattice-gas models of phase separation: interfaces, phase transitions, and multiphase flow,'' Reviews of Modern Physics (in press).
  24. SMITH, Mark Andrew, Cellular Automata Methods in Mathematical Physics, Ph.D. Thesis, MIT Department of Physics (May 1994).
  25. TOFFOLI, Tommaso, ``Neural Networks,'' Ecyclopedia of Applied Physics, American Institute of Physics (to appear).
  26. TOFFOLI, Tommaso, ``Cellular Automata,'' in The Handbook of Brain Theory and Neural Networks, MIT Press, 1994.
  27. TOFFOLI, Tommaso, ``Occam, Turing, von Neumann, Jaynes: How much can you get for how little? (A conceptual introduction to cellular automata),'' to appear in the proceedings of ACRI '94, Rende (CS) Italy Sept 29-30, 1994.
  28. TOFFOLI, Tommaso, ``Quantum information, communication, and computation'' MIT Information Mechanics Group Memo (1994).
  29. TOFFOLI, T., ``3-D rotations by composition of special shears,'' MIT Information Mechanics Group Memo (1993).
  30. YEPEZ, Jeffrey, ``A reversible lattice-gas with long-range interactions coupled to a heat bath,'' in Pattern Formation and Lattice-Gas Automata, A. LAWNICZAK and R. Kapral, (eds.), American Mathematical Society (1994).
  31. YEPEZ, Jeffrey, ``Lattice-gas theory and computation,'' to appear in the proceedings of the AFOSR Mathematical and Physical Computation Conference, (Kirtland AFB, New Mexico, June 5 1994).
  32. YEPEZ, Jeff, Guy SEELEY, and Norman MARGOLUS, ``Lattice-gas automata fluids on parallel supercomputers,'' to appear in Computers In Physics. Information Mechanics

    Progress Report, 1993-94

    Research Staff
    Norman Margolus, Tommaso Toffoli (Group Leader)
    Graduate Students
    Mark Smith, Raissa D'Souza
    Post Doctoral Fellow
    Michael Biafore
    Visiting Scientists
    Bruce Boghosian, Jeffrey Yepez, Pierluigi Pierini
    Research Affiliate
    Dan Rothman
    Research Programmer
    Harris Gilliam
    Undergraduate Students
    Chris Adler, Ruben Agin, Rebecca Frankel, Surya Ganguli, Jason Quick, Daniel Risacher
    Support Staff
    Joanne Talbot

    ruben@im.lcs.mit.edu
    Wed Jul 27 11:18:54 EDT 1994