41. INFORMS Von Neumann Theory Prize Winners About 1978 john von neumann Theory Prize winners Nash and Lemke for theiroutstanding contributions to the theory of games. http://www.informs.org/Prizes/vonNeumannDetails.html

Go to INFORMS Page ... INFORMS Home What's New Info for Members Info for Nonmembers Conferences Continuing Education Education/Students Employment Prizes Publications Subdivisions Searchable Databases Links About this Web Site INFORMS Online Bookstore Discussion Search John von Neumann Theory Prize Winners This page contains details about each years winning submission(s). More general information about the award is also available. J. Michael Harrison The 2004 John von Neumann Theory Prize is awarded to J. Michael Harrison for his profound contributions to two major areas of operations research and management science: stochastic networks and mathematical finance. Over the past 30 years, Harrison has spearheaded the formulation, development and application of the theory of Brownian networks for performance analysis and control of stochastic processing networks. He has defined a framework with elegance and depth, communicating clearly its purpose and outstanding issues, and with Stanford students and co-authors has repeatedly demonstrated its success in structuring and addressing a range of important questions that arise in application areas as diverse as manufacturing and telecommunications. Under his intellectual leadership, heavy traffic theory has gone from being an esoteric pursuit practiced by a small band of devotees to being a powerful and widely accepted technique, used by many researchers in the applied probability/queueing community. In a pair of papers co-authored respectively with David Kreps and Stanley Pliska, Harrison showed that a price process is arbitrage free if and only if it is, when appropriately renormalized, a martingale for some equivalent probability measure. The careful definition and structuring of the general framework has stood the test of time: most of the theory of financial asset pricing in a dynamic setting is based squarely on the machinery laid down by Harrison and his collaborators. This literature numbers literally in the thousands of research papers. The equivalent martingale measure is also now a standard starting point for the analysis of optimal portfolio choice, a subject almost as large. It is difficult to overstate the impact that this work has had, ranging from the most abstract theory of stochastic processes to the day-to-day functioning of the financial industry.

42. John Von Neumann, 1903-1957 Translate this page john von neumann (su nombre en húngaro es Margittai neumann János Lajos) es unmatemático Obras de john von neumann de especial interés en la economía http://www.eumed.net/cursecon/economistas/neumann.htm

Web www.eumed.net John von Neumann, 1903-1957 John von Neumann (su nombre en húngaro es Margittai Neumann János Lajos) es un matemático húngaro considerado por muchos como la mente más genial del siglo XX, comparable solo a la de Albert Einstein. A pesar de ser completamente desconocido para el "hombre de la calle", la trascendencia práctica de su actividad científica puede vislumbrarse al considerar que participó activamente en el Proyecto Manhattan, el grupo de científicos que creó la primera bomba atómica, que participó y dirigió la producción y puesta a punto de los primeros ordenadores o que, como científico asesor del Consejo de Seguridad de los Estados Unidos en los años cincuenta, tuvo un papel muy destacado (aunque secreto y no muy bien conocido) en el diseño de la estrategia de la guerra fría. Nicholas Kaldor dijo de él "Es sin duda alguna lo más parecido a un genio que me haya encontrado jamás". Nació en Budapest, Hungría, hijo de un rico banquero judío. Tuvo una educación esmerada. Se doctoró en matemáticas por la Universidad de Budapest y en químicas por la Universidad de Zurich. En 1927 empezó a trabajar en la Universidad de Berlín. En 1932 se traslada a los Estados Unidos donde trabajará en el Instituto de Estudios Avanzados de Princeton. Sus aportaciones a la ciencia económica se centran en dos campos: Es el creador del campo de la Teoría de Juegos . En 1928 publica el primer artículo sobre este tema. En 1944, en colaboración con

43. A Neumann János Számítógép-tudományi Társaság Honlapja neumann János Számítógéptudományi Társaság. john von neumann Computer Society.J., neumann (1903-1957) neumann János (1903-1957) http://www.njszt.iif.hu/

John von Neumann Computer Society http://www.njszt.hu/ http://www.njszt.hu/old.html

44. VonNeumann_Note john von neumann. He was born in Hungary, studied in Germany, and after 1930,mainly worked in the United States. In every branch of science he stepped in, http://www.bun.kyoto-u.ac.jp/phisci/Gallery/vonNeumann_note.html

John von Neumann He was born in Hungary, studied in Germany, and after 1930, mainly worked in the United States. In every branch of science he stepped in, he left outstanding results: mathematics, mathematical logic, quantum mechanics, design of computer, the theory of automata, and the theory of games. He was also deeply involved in US military policy as an advisor. The swiftness of his mind (or the CPU of his brain) is legendary. Whether true or not, it is said that his calculation was faster than any computer of his day. During and after the war, he was involved both in the development of nuclear weapons and of computers. He annoyed Oppenheimer (then the Director of Institute for Advanced Study, Princeton) by bringing in the project of manufacturing IAS computer, against the policy of the Institute. He was also known as a reckless driver. Despite some (moral, say) misgivings, his contributions to science and technology are immense; and it seems quite silly ("legitimate" in some sense, though) to denouce this type of scientist on moral, social, or political (or whatever) grounds; everything considered, the balance is undeniably on the positive (good) side. BACK TO VON NEUMANN PICTURE Last modified May 13, 2003. (c) Soshichi Uchii

45. The Work Of John Von Neumann (1903-1957) In His All-too-brief William Aspray (1990) john von neumann and the Origins of Modern Computing. Steve J. Heims (1980) john von neumann and Norbert Wiener. http://mayet.som.yale.edu/coopetition/vN.html

The Work of John von Neumann (1903-1957) In his all-too-brief career, mathematician John von Neumann, one of the greatest polymaths of all time, managed to have profound impact on mathematics, quantum theory, economics, computer science, neurology, and other fields. Over time, as he moved through different disciplines, his work "moved in the general direction of the post-war scientific disciplines, which had a decreased emphasis on motion, force, energy, and power and an increased emphasis on communication, organization, programming and control." The theme of self-reference in systems runs through much of von Neumann's work; early on, von Neumann and other mathematicians tried to eliminate self-reference and the contradictions it seemed to cause in set theory. Self-reference was a key element in many of von Neumann's later contributions as well, from his treatment of the apparent regresses of game theory to the self-reproduction of organisms. Born in Budapest in 1903, von Neumann was the oldest son of a successful Jewish banker. He received an exceptional formal and informal education; family connections exposed him to many of Hungary's intellectual luminaries of the period, and the Lutheran Gymnasium (one of Hungary's best secondary schools) provided him with a university tutor to nurture his mathematical gifts. He enrolled at both the University of Budapest and the University of Berlin in 1921. From 1923 to 1925 von Neumann studied chemical engineering at the Swiss Federal Institute of Technology, earning a degree in 1925, and the following year he earned his Ph.D. in mathematics from the University of Budapest. He became the youngest

46. John Von Neumann Translate this page Difusión científica. Biografías de astrónomos, físicos y matemáticos destacados. http://www.astrocosmo.cl/biografi/b-j-v_neumann.htm

John von Neumann Nacido el 28 de diciembre de 1903 , en Budapest, Hungría Fallecido el 8 de febrero de 1957, en Washington D.C., USA. John von Neumann matemático Húngaro-Americano que demostró en 1944 que las mecánicas de la onda de Schrödinger y las mecánicas de la matriz de Heisenberg eran matemáticamente equivalente. Él también desarrolló la teoría de los juegos (1944). Su padre, Max Neumann, era un banquero judío y su madre la hija de un rico comerciante. Max Neumann compró un título nobiliario (por aquella época, la nobleza estaba mejor considerada que la riqueza), aunque él nunca lo utilizó, pero sí su hijo John. Esta es la razón del «von» que acompaña al nombre. John, era el mayor de tres hermanos. De pequeño ya asombraba a todos por su memoria; dicen que leía una columna de la guía telefónica varias veces y era capaz de responder a las preguntas que le hiciesen de nombres, domicilios o teléfono. Cuando ingresó al colegio su primer profesor se dio cuenta que era un genio (por cierto en el mismo colegio también estaba Eugene Wigner, que fue intimo amigo de Neumann el resto de su vida. Wigner se dedicó a la física, porque, según dijo, “después de conocer a Neumann me di cuenta de la diferencia que había entre un matemático de primera y yo”. Neumann, ingresó como docente a la universidad de Berlín en 1926, donde estuvo hasta 1929. Luego, en el año académico 1929-30, se desempeñó como profesor en la universidad de Hamburgo. Durante este tiempo él trabajó principalmente en física cuántica y teoría operativa. También, entre 1926 y 1927 estudió en Göttingen (Hilbert fue su profesor). Ya, en esa época, los brillantes dotes de Neumann habían empezado a reconocerse.

47. John Von Neumann Photographs of, and related to, john von neumann. http://www.physics.umd.edu/robot/neumann.html

Computer Chronology Everybody comes to this world with ten fingers. Those fingers are the most valuable computers. Can you operate your PC or laptop without your fingers? This lady knows how valuable they are. Some years ago, Chinese invented sophisticated fingers that can deal with numbers greater than ten. This is the Russian variation of the abacus. I obtained this computer while I was in Moscow in 1991. About 150 years ago, French artillery men invented this computer which can perform multiplication by addition. I still use the smaller (pocket sized) slide rule when I go to restaurants with my friends. I have to add 15-percent tip to the total bill (multiply by 1.15) and divide it by the number of people. This is a vacuum-tube circuit. I used to like vacuum tubes when I was a high-school student, and I was able to write an article about Marconi and Sarnoff three months ago. Indeed, in the 1940s, John von Neumann observed those tubes can perform "Yes or No" logic. We all know what happened since then. For the history of electronic computers, you may visit http://www.cs.iastate.edu.

48. John Von Neumann -- Facts, Info, And Encyclopedia Article john von neumann (neumann János) (December 28, 1903 – February 8, The (Clicklink for more info and facts about john von neumann Theory Prize) john von http://www.absoluteastronomy.com/encyclopedia/j/jo/john_von_neumann.htm

John von Neumann [Categories: 1957 deaths, 1903 births, Naturalized citizens of the United States, Manhattan Project, Hungarian mathematicians, Computer designers, Computer pioneers] A separate article covers Saint (Click link for more info and facts about John Neumann) John Neumann , the American priest. John von Neumann (Neumann János) (A person skilled in mathematics) mathematician who made important contributions in (The branch of physics based on quantum theory) quantum physics (Click link for more info and facts about functional analysis) functional analysis (The branch of pure mathematics that deals with the nature and relations of sets) set theory (The branch of engineering science that studies (with the aid of computers) computable processes and structures) computer science (The branch of social science that deals with the production and distribution and consumption of goods and services and their management) economics and many other mathematical fields. Biography The oldest of three children, von Neumann was born János Lajos Margittai Neumann (two given names, two surnames respectively) in

49. NIC Series Volume 2: Modern Methods And Algorithms Of Quantum Chemistry - Poster From a 2000 conference sponsored by the john von neumann Institute for Computing. http://www.fz-juelich.de/nic-series/Volume2/Volume2.html

NIC Series Volume 2 NIC Series Volume 2: Modern Methods and Algorithms of Quantum Chemistry Poster Presentations Johannes Grotendorst (Editor) Winterschool, 21 - 25 February 2000, ISBN 3-00-005746-3 Februar 2000, 77 pages out of print Preface J. Grotendorst HTML Efficient Real-Space Approach to TDDFT for the Dielectric Response of Periodic Systems F. Kootstra, P.L. de Boeij, J.G. Snijders PDF Theoretical Computations of Transition Metal NMR Chemical Shifts PDF Theoretical Studies on the Higher Oxidation States of Iron M. Atanasov PDF Oxydation of Methanol to Formaldehyde on V O Investigated by Density Functional Theory P. Boulet, F. Gilardoni, J. Weber, H. Chermette, A. Baiker, J.-C. Volta PDF Reactivity of NO and (NO) on Cu(110) D. Voukelatos, P.J. Knowles PDF Gas-Phase Reactions of X M-NCR and X M-CNR Donor-Acceptor Complexes (M=Al,Ga;X=H,Cl,CH ;R=H,CH A.Y. Timoshkin, H.F. Schaefer III PDF DFT Calculations for Planning the Synthesis of More Efficient Devices Performing Artificial Photosynthesis G. Albano, P. Belser, C. Daul PDF The fitting of Auxiliary Basis Sets to Electron Densities A. Lloyd

50. John Von Neumann von neumann, john, noi män Pronunciation Key. von neumann, john , 1903–57,American mathematician, b. Hungary, Ph.D. Univ. of Budapest, 1926. http://www.factmonster.com/ce6/people/A0851154.html

Home U.S. People Word Wise ... Homework Center Fact Monster Favorites 2006 TFK Almanac Quiz: Charlie and the Chocolate Factory SpongeBob Lemony Snicket ... Fantasy Books Reference Desk Atlas Almanacs Dictionary Encyclopedia ... Encyclopedia Von Neumann, John Pronunciation Key Von Neumann, John games, theory of ), he also made fundamental contributions to quantum theory and to the development of the atomic bomb. He was a leader in the design and development of high-speed electronic computers; his development of an acronym for m athematical a nalyzer, n umerical i ntegrator, a nd c Theory of Games and Economic Behavior (1944, rev. ed. 1953). Von Neumann's other writings include Mathematical Foundations of Quantum Mechanics (1926, tr. 1955), Computer and the Brain (1958), and Theory of Self-reproducing Automata (ed. by A. W. Burks, pub. posthumously, 1966). The Columbia Electronic Encyclopedia, Page Tools: Cite Print More on John Von Neumann from Fact Monster: games, theory of - games, theory of, group of mathematical theories first developed by John Von Neumann and Oskar ... meteorology: Modern Meteorological Science and Technology - Modern Meteorological Science and Technology In 1917 the Norwegian physicist Vilhelm Bjerknes ...

51. MSN Encarta - John Von Neumann more Further Reading. Search for books and more related to neumann, john von.Encarta Search. Search Encarta about neumann, john von http://encarta.msn.com/encyclopedia_761579159/John_Von_Neumann.html

MSN Home My MSN Hotmail Shopping ... Sign In Web Search: Encarta Subscriber Sign In Help Home ... Upgrade your Encarta Experience Search Encarta Upgrade your Encarta Experience Spend less time searching and more time learning. Learn more Tasks Find in this article Print Preview Related Items game theory Quantum Theory more... Further Reading Search for books and more related to Neumann, John von Encarta Search Search Encarta about Neumann, John von Advertisement document.write(' Neumann, John von Encyclopedia Article Multimedia 2 items Neumann, John von (1903-57), Hungarian-American mathematician, who developed the branch of mathematics known as the game theory . He was born in Budapest, Hungary, and educated at Z¼rich, Switzerland, and at the universities of Berlin and Budapest. He went to the United States in 1930 to join the faculty of Princeton University. After 1933 he was associated with the Institute for Advanced Study in Princeton, New Jersey. He became a U.S. citizen in 1937 and during World War II served as a consultant on the Los Alamos atomic-bomb project. In March 1955 he became a member of the U.S. Atomic Energy Commission. Von Neumann was one of the world's outstanding mathematicians. He is noted for his fundamental contributions to the theory of quantum mechanics, particularly the concept of “rings of operators” (now known as Neumann algebras), and also for his pioneering work in applied mathematics, mainly in statistics and numerical analysis. He is also known for the design of high-speed electronic

52. John Von Neumann (1903--1957) Brief biography along with details of a number of areas he worked in. http://www.santafe.edu/~shalizi/notebooks/von-neumann.html

Notebooks John von Neumann (19031957) 06 May 1997 14:36 Johnny, as it seems everyone called him, was one of those people who are so bright it's hard to believe they were human. (Maybe he wasn't. There's an old joke about the Fermi Paradox, a problem which occured to Enrico Fermi one day at Los Alamos: where are They? If there are intelligent aliens out there in the universe, why aren't they here yet? A million years is nothing, as the universe reckons things, but, judging from our own track-record, a species only that much older than us would have technology which would blow our minds, pretty close to limits set by physical laws. Leo Szilard is supposed to have answered Fermi: ``Maybe they're already here, and you just call them Hungarians.'') About the only large current of the natural sciences in this century which von Neumann's work has not added to is molecular biology. Almost everything else of any signficance he touched: mathematical logic ; pure math ; quantum physics computing (which, as we know it, is largely his invention), cybernetics and automata theory; the

53. NIC Series Volume 10: Quantum Simulations Of Complex Many-Body Systems: From The From a 2002 conference sponsored by the john von neumann Institute for Computing. http://www.fz-juelich.de/nic-series/volume10/volume10.html

NIC Series Volume 10 NIC Series Volume 10: Quantum Simulations of Complex Many-Body Systems: From Theory to Algorithms Lecture Notes edited by Johannes Grotendorst Dominik Marx Alejandro Muramatsu Winter School, 25 February - 01 March 2002, Rolduc Conference Centre, Kerkrade The Netherlands ISBN 3-00-009057-6 February 2002, 548 pages Preface HTML Time-Independent Quantum Simulation Methods Monte Carlo Methods: Overview and Basics PostScript PDF Diffusion and Green's Function Quantum Monte Carlo Methods James B. Anderson, The Pennsylvania State University, USA PostScript PDF Path Integral Monte Carlo David M. Ceperley, University of Illinois, USA PostScript PDF Exchange Frequencies in 2D Solids: Example of Helium 3 Adsorbed on Graphite and the Wigner Crystal David M. Ceperley, University of Illinois, USA PostScript PDF Reptation Quantum Monte Carlo Stefano Baroni, Scuola Internazionale Superiore di Studi Avanzati (SISSA), Italy Saverio Moroni, Instituto Nazionale per la Fisica della Materia (INFM), Italy PostScript PDF Quantum Monte Carlo Methods on Lattices: The Determinantal Approach PostScript PDF Effective Hamiltonian Approach for Strongly Correlated Lattice Models Sandro Sorella, Scuola Internazionale Superiore di Studi Avanzati (SISSA), Italy

54. Reader's Companion To American History - -VON NEUMANN, JOHN Steve J. Heims, john von neumann and Norbert Wiener From Mathematics to theTechnologies of Life and Death (1980); Stanislaw Ulam, Adventures of a http://college.hmco.com/history/readerscomp/rcah/html/ah_089700_vonneumannjo.htm

Entries Publication Data Advisory Board Contributors ... World Civilizations The Reader's Companion to American History VON NEUMANN, JOHN , mathematician and technologist. Von Neumann is one of those individuals whose historical significance can be assessed adequately only by considering simultaneously several fields—in his case, pure mathematics, computer science, logical analysis, and the cold war. To many of his contemporaries von Neumann represented the paradigm of "the logical thinker"; one colleague wrote that his mind was "a perfect instrument whose gears were machined to mesh accurately to a thousandth of an inch." His logical powers were supplemented by unusual rapidity of thought, an extraordinary memory, and mathematical brilliance. Von Neumann left a rich legacy of work in mathematics proper. Pure mathematics spans a number of subspecialties, and von Neumann, in work of a highly technical nature, made substantial contributions to several of them. He also applied mathematics to physics (formulation of quantum mechanics), economics (game theory, which provides criteria for choosing moves in a game, such as checkers or poker, against an intelligent opponent), and computers (automaton theory). He was a major figure in modern computer development, and his study of automata led him to explore analogies between computers and the human brain. Steve J. Heims

55. Philosophers : John Von Neumann The Window Philsophy on the WWW. Philosophers Section. http://www.trincoll.edu/depts/phil/philo/phils/neumann.html

John Von Neumann German Physicist Mathematician, born in Budapest. He escaped from Hungary during the communist regime (1919), studied at Berlin and Zürich, and emigrated to the USA in 1933, to join the Institute for Advanced Study, Princeton. Equally at home in pure and applied mathematics, he wrote a major work on quantum mechanics (1932), which led him to a new axiomatic foundation for set theory, and participated in the atomic bomb project at Los Alamos during World War II, providing a mathematical treatment of shock waves. His mathematical work on high-speed calculations for H-bomb development contributed to the development of computers, and he also introduced game theory (1944), which was a major influence on economics. Index Interactive Search Links ... Feedback

56. John Von Neumann von neumann, john (The Reader s Companion to American History) Database PioneerMichael Stonebraker Receives 2005 IEEE john von neumann Medal. http://www.infoplease.com/ce6/people/A0851154.html

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57. Howard Rheingold's | Tools For Thought By Howard Rheingold. Online copy of well known 1985 book on the invention of modern computing; this chapter on john von neumann, nuclear bombs, early computers. Newer (c)2000 edition of the book is out, with followup interviews. http://www.rheingold.com/texts/tft/4.html

Tools for Thought by Howard Rheingold April, 2000: a revised edition of Tools for Thought is available from MIT Press , including a revised chapter with 1999 interviews of Doug Engelbart, Bob Taylor, Alan Kay, Brenda Laurel, and Avron Barr. The idea that people could use computers to amplify thought and communication, as tools for intellectual work and social activity, was not an invention of the mainstream computer industry or orthodox computer science, nor even homebrew computerists; their work was rooted in older, equally eccentric, equally visionary, work. You can't really guess where mind-amplifying technology is going unless you understand where it came from. - HLR Chapter One : The Computer Revolution Hasn't Happened Yet Chapter Two : The First Programmer Was a Lady Chapter Three : The First Hacker and his Imaginary Machine Chapter Four : Johnny Builds Bombs and Johnny Builds Brains Chapter Five : Ex-Prodigies and Antiaircraft Guns Chapter Six : Inside Information Chapter Seven : Machines to Think With Chapter Eight : Witness to History: The Mascot of Project Mac Chapter Nine : The Loneliness of a Long-Distance Thinker Chapter Ten : The New Old Boys from the ARPAnet Chapter Eleven : The Birth of the Fantasy Amplifier Chapter Twelve : Brenda and the Future Squad Chapter Thirteen : Knowledge Engineers and Epistemological Entrepreneurs Chapter Fourteen : Xanadu, Network Culture, and Beyond

58. Read About John Von Neumann At WorldVillage Encyclopedia. Research John Von Neum john von neumann. Everything you wanted to know about john von neumann but hadno clue how to find it.. Learn about john von neumann here! http://encyclopedia.worldvillage.com/s/b/John_von_Neumann

Culture Geography History Life ... WorldVillage John von Neumann From Wikipedia, the free encyclopedia. A separate article covers Saint John Neumann , the American priest. John von Neumann in the 1940s. John von Neumann (Neumann János) December 28 February 8 ) was a Hungarian-American-German-Jewish mathematician who made important contributions in quantum physics functional analysis set theory computer science ... economics and many other mathematical fields. Contents 1 Biography 2 Scientific contributions 3 Quotations from John von Neumann 4 References ... edit Biography The oldest of three children, von Neumann was born János Lajos Margittai Neumann (two given names, two surnames respectively) in Budapest to Neumann Miksa (Max Neumann), a lawyer who worked in a bank , and Kann Margit (Margaret Kann). Growing up in a non-practicing Jewish family, János, nicknamed "Jancsi", showed incredible memory at an early age, being able to divide eight-digit numbers in his head at the age of six. At the same age, when his mother once stared aimlessly in front of him, he asked, "What are you calculating?". János was already very interested in math, the nature of numbers and the logic of the world around him. He entered the Lutheran Gymnasium in . In , his father purchased a title, and Neumann János acquired the German mark of nobility von anglicised to John after he took up residence in the United States in the 1930s.

59. NIC Series Volume 11: Quantum Simulations Of Complex Many-Body Systems: From The From a 2002 conference sponsored by the john von neumann Institute of Computing. http://www.fz-juelich.de/nic-series/volume11/volume11.html

NIC Series Volume 11 NIC Series Volume 11: Quantum Simulations of Complex Many-Body Systems: From Theory to Algorithms Poster Presentations edited by Johannes Grotendorst Dominik Marx Alejandro Muramatsu Winter School, 25 February - 01 March 2002, Rolduc Conference Centre, Kerkrade The Netherlands ISBN 3-00-009058-4 February 2002, 194 pages PDF PS Diffusion and Green's function Monte Carlo Path integral Monte Carlo and Molecular Dynamics Car-Parrinello / ab initio Molecular Dynamics Real-time quantum dynamics for large systems Lattice and continuum algorithms Exchange statistics for bosons and fermions / sign problem Parallel numerical techniques and tools Numerical integration and random numbers This strongly interdisciplinary School aims at bridging three ``gaps'' in the vast field of large-scale quantum simulations. The first gap is between chemistry and physics, the second one between typical graduate courses in these fields and state-of-the-art research, and finally the one between the Monte Carlo and Molecular Dynamics communities. The participants will benefit from this School by learning about recent methodological advances within and outside their field of specialization. In addition, they get insight into recent software developments and implementation issues involved, in particular in the context of high-performance computing. The lecturers of this Winter School come from chemistry, physics, mathematics and computer science and this is true for the audience as well. Participants from thirty mainly European countries attend the NIC Winter School, and eighty contributions have been submitted for the poster sessions. This overwhelming international resonance clearly reflects the attractiveness of the programme and demonstrates the willingness of the participants to play an active role in this high-level scientific School.

60. A Guide To The John Von Neumann Collection, 1913-1992 A related collection of john von neumann materials can be found at the john von neumann as seen by his brother, by Nicholas A. vonneumann, 1991 http://www.lib.utexas.edu/taro/utcah/00204/cah-00204.html

TARO Repository Browse List Print Version Raw XML File (11k) ... Accessing Materials Described Here TABLE OF CONTENTS Descriptive Summary Biographical Note Scope and Contents Restrictions ... At SRH (onsite): A Guide to the John Von Neumann Collection, 1913-1992 Descriptive Summary Creator Von Neumann, John, 1903-1957 Title John Von Neumann Collection Dates: Abstract The John von Neumann Collection consists of photographs and photographic reproductions, creative works (article, book and speech), genealogy materials, and audio material (cassette tape). Accession No. Extent 5 inches Language English. Repository Archives of American Mathematics, Center for American History,The University of Texas at Austin Biographical Note Return to the Table of Contents Scope and Contents The John von Neumann Collection consists of photographs and photographic reproductions, creative works (article, book and speech), genealogy materials, and audio material (cassette tape). These materials were donated to the Center for American History by von Neumann's brother and consist of mostly family or genealogy materials, dedications, and ceremonial addresses. Forms part of the Archives of American Mathematics Return to the Table of Contents Restrictions Access Restrictions Portions of this collection are stored remotely. Please contact reference staff for retrieval from off-site storage.

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