% CV.tex -- William's CV latex file. \documentclass[10pt]{article} %\usepackage{times} %\usepackage{mathptm} %\usepackage{revnum} \newcommand{\comment}[1]{} \newcommand{\myname}{William A.\ Stein} \newcommand{\phone}{{\tt (206) 419-0925}} \newcommand{\email}{{\tt wstein@gmail.com}} \newcommand{\www}{{\tt \url{http://wstein.org}}} \newcommand{\address}{1212 East Barclay Court\\ Seattle, WA 98122} \newcommand{\ptitle}{\em} \usepackage{hyperref} %\usepackage[hyperindex,pdfmark]{hyperref} \hoffset=-.15\textwidth% \textwidth=1.30\textwidth% \voffset=-.05\textheight% %\voffset=-.09\textheight% \textheight=1.1\textheight% \usepackage{fancyhdr,ifthen} \pagestyle{fancy} \cfoot{\thepage} % no footers (in pagestyle fancy) % running left heading \lhead{\bfseries\LARGE\em \noindent{}\hspace{-.2em}\myname{} \hfill Curriculum Vitae -- April 2013\vspace{-.2ex}\\} % running right heading \newcommand{\spc}{3.0em} \rhead{\small \phone \hspace{\spc}$\cdot$\hspace{\spc} \email \hspace{\spc}$\cdot$\hspace{\spc} \www} % adjust, because the header is now taller than usual. \setlength{\headheight}{7ex} % bulleted list environment \newenvironment{bulletlist} { \begin{list} % {$\bullet$} {$\cdot$} { \setlength{\itemsep}{.5ex} \setlength{\parsep}{0ex} \setlength{\leftmargin}{2.2em} \setlength{\parskip}{0ex} \setlength{\topsep}{0ex} } } { \end{list} } %end newenvironment \usepackage{revnum} \newcounter{totalnumworkshops} \setcounter{totalnumworkshops}{43} \newcounter{totalnumworkshopsf} \setcounter{totalnumworkshopsf}{8} \newcounter{totalnumpapers} \setcounter{totalnumpapers}{43} \newcounter{totalnumbooks} \setcounter{totalnumbooks}{4} \newenvironment{papers} { \begin{revnumerate}[\value{totalnumpapers}] {} { \setlength{\itemsep}{.5ex} \setlength{\parsep}{0ex} \setlength{\leftmargin}{0em} \setlength{\parskip}{0ex} \setlength{\topsep}{0ex} } } { \end{revnumerate} } %end newenvironment \newenvironment{books} { \begin{revnumerate}[\value{totalnumbooks}] {} { \setlength{\itemsep}{.5ex} \setlength{\parsep}{0ex} \setlength{\leftmargin}{0em} \setlength{\parskip}{0ex} \setlength{\topsep}{0ex} } } { \end{revnumerate} } \newenvironment{workshops} { \begin{revnumerate}[\value{totalnumworkshops}] {} { \setlength{\itemsep}{.5ex} \setlength{\parsep}{0ex} \setlength{\leftmargin}{0em} \setlength{\parskip}{0ex} \setlength{\topsep}{0ex} } } { \end{revnumerate} } %end newenvironment \newenvironment{workshopsf} { \begin{revnumerate}[\value{totalnumworkshopsf}] {} { \setlength{\itemsep}{.5ex} \setlength{\parsep}{0ex} \setlength{\leftmargin}{0em} \setlength{\parskip}{0ex} \setlength{\topsep}{0ex} } } { \end{revnumerate} } %end newenvironment \newenvironment{enumlist} { \begin{enumerate} {} { \setlength{\itemsep}{.5ex} \setlength{\parsep}{0ex} \setlength{\leftmargin}{0em} \setlength{\parskip}{0ex} \setlength{\topsep}{0ex} } } { \end{enumerate} } %end newenvironment \newenvironment{dashlist} { \begin{list} {\hspace{2em}--} { \setlength{\itemsep}{.5ex} \setlength{\parsep}{0ex} \setlength{\leftmargin}{1em} \setlength{\parskip}{0ex} \setlength{\topsep}{0ex} } } { \end{list} } % bold sans-serif label for margin labels. %\newcommand{\marginlabel}[1]{{\large \textsf{\textbf{#1}}}} \newcommand{\marginlabel}[1]{ \begin{minipage}[b]{0.8\labelwidth}{\large \textsf{\textbf{#1}}}\end{minipage}} %\newcommand{\marginlabel}[1]{\textsf{\textbf{#1}}} %\newcommand{\marginlabel}[1]{\textsf{\textbf{#1}}} %\newcommand{\marginlabel}[1]{\textsc{\textsc{#1}}} \newcommand{\entrylabel}[1]{\mbox{\marginlabel{#1}}\hfill} \newcommand{\MainListlabel}[1] { \parbox[t]{\labelwidth}{\hspace{.8em}\marginlabel{#1}} } % a list with fixed width marginlabels. \newenvironment{MainList}[1] { \renewcommand{\entrylabel}{\MainListlabel} \begin{list}{} { \renewcommand{\makelabel}{\entrylabel} \setlength {\itemindent}{-.65em} \setlength {\labelwidth}{#1} \setlength {\leftmargin}{\labelwidth} \setlength {\itemsep}{3ex} } } { \end{list} } %end newenvironment \begin{document} \begin{MainList}{88pt} \item [Employment] \begin{bulletlist} \item {\bf University of Washington}: Prof. of Math. (tenured), 2010--present. \item {\bf University of Washington}: Assoc. Prof. of Math. (tenured), 2006--2010. \item {\bf UC San Diego}: Assoc. Prof. of Math. (tenured), 2005--2006. \item {\bf Harvard University}: Benjamin Peirce Asst. Prof. of Math., 2001--2005. \item {\bf Harvard University}: NSF Postdoctoral Fellow, 2000--2004. %\item Consultant for the Institute for Defense Analysis, 2002--present. \end{bulletlist} \item [Education] \begin{bulletlist} \item {\bf University of California at Berkeley}, Ph.D. in Mathematics, 2000, {\ptitle Explicit Approaches to Modular Abelian Varieties}, under H.~W.~Lenstra. \item {\bf Northern Arizona University}, B.S. in Mathematics, 1994. \end{bulletlist} \item [Grants] \begin{bulletlist} %\item {\bf National Geospatial Agency}, grant to fund the workshop %{\em Interactive Parallel Computation in Support of Research in Algebra, Geometry and Number Theory}, which I ran at MSRI Jan 29--Feb 2, 2007. \item co-PI on {\bf NSF Grant}, DMS-7098841, {\em Sage-combinat: Developing and sharing open source software for algebraic combinatorics}, 2012--2015. \item PI on {\bf NSF Grant}, DMS-7180474, {\em Explicit Approaches to Elliptic Curves and Modular Abelian Varieties}, 2012--2015. \item co-PI on {\bf NSF Grant}, DMS-1062253, {\em REU: Inverse Problems for Electrical Networks}, 2011--2014. \item co-PI on {\bf NSF Grant}, DMS-1020378, {\em Collaborative Research: UTMOST: Undergraduate Teaching in Mathematics with Open Software and Textbooks}, undergraduate curriculum development, 2011--2014. \item PI on {\bf DOD Grant}, four Sage Bug-fixing workshops per year and other development support, 2011--2016 (pending yearly renewal). \item PI on {\bf NSF Grant} DMS-1015114, {\em Sage: Unifying Mathematical Software for Scientists, Engineers, and Mathematicians}, four Sage Days workshops per year, 2011--2014. \item UW Royalty Research Fellow (1-quarter teaching buyout), 2009--2010. \item PI on {\bf NSF Grant} DMS-0821725, SCREMS grant for number theory, geometry, and software research (\$100K, purchased high end computers for UW). \item PI on {\bf Google Grant}, for Sage development, Summer 2008 (amount: \$18K). \item PI on {\bf Microsoft Grant}, port Sage to Windows, 2008--2009 (amount: \$32K). \item PI on {\bf NSF Grant} DMS-0757627, {\em FRG: Collaborative Research: L-functions and Modular Forms}, 2008--2012 (amount: \$1.2 million). \item co-PI on {\bf NSF Grant} DMS-0754486, {\em REU Site: Inverse Problems for Electrical Networks}, 2008--2011. \item PI on {\bf NSF Grant} DMS-0713225, {\em SAGE: Software for Algebra and Geometry Experimentation}, 2007--2010. \item PI on {\bf NSF Grant} DMS-0555776, {\em Explicit Approaches to the Birch and Swinnerton-Dyer Conjecture}, 2007--2010. \item co-PI on {\bf NSF Grant} DMS-0602287, {\em Southwest Center for Arithmetic Geometry}, 2006--2009. \item PI on {\bf NSF Grant,} DMS-0400386, {\em Explicit Approaches to Modular Forms and Modular Abelian Varieties},2004--2007. \item PI on {\bf Sun Academic Education Grant} (\$70K Sun Fire V480 server), 2003. \item From W.\thinspace{}R. Hearst III and Harvard (\$20K for 12 Processor Cluster), 2002. \item Clay Mathematics Institute Liftoff Fellowship, Summer 2000. \item Berkeley Vice Chancellor Research Grant (6 Processor Cluster), 1999. \end{bulletlist} \item [Prizes] \begin{bulletlist} \item {\bf Trophe\'es du Libre}, 2007. The Sage project won first prize in the Scientific Software category (3000 euros, a laptop, books, server space, etc.). Sage is a software project I started and direct. \end{bulletlist} \item[Publications] All papers are available at \url{http://wstein.org/papers/}. \begin{papers} \item {\em p-adic Heights of Heegner Points and Anticyclotomic Lambda-Adic Regulators} (34 pages), with Jennifer S. Balakrishnan and Mirela Ciperiani, 2012, submitted. \item {\ptitle A p-adic analogue of the conjecture of Birch and Swinnerton-Dyer for modular abelian varieties} (33 pages), with Jennifer S. Balakrishnan and J. Steffen M\"uller, 2012, submitted. \item {\ptitle A Database of Elliptic Curves over $\mathbf{Q}(\sqrt{5})$ -- First Report} (16 pages), with Jonathan Bober, Alyson Deines, Ariah Klages-Mundt, Benjamin LeVeque, R.~Andrew Ohana, Ashwath Rabindranath, Paul Sharaba, 2012, appeared in ANTS proceedings. \item {\ptitle Numerical computation of Chow-Heegner points associated to pairs of elliptic curves} (12 pages), 2012, submitted (as an appendix). \item {\ptitle Sage: Creating a Viable Free Open Source Alternative to Magma, Maple, Mathematica, and MATLAB} (9 pages), in the FoCM 2011 proceedings. \item {\ptitle Non-commutative Iwasawa theory for modular forms} (40 pages), with John Coates, Tim Dokchitser, Zhibin Liang, Ramdorai Sujatha, 2013, in Proceedings of the London Math Society. \item {\ptitle Heegner Points and the Arithmetic of Elliptic Curves over Ring Class Extensions} (20 pages), with Robert Bradshaw, April 2012, J. Number Theory. \item {\ptitle Kolyvagin's Conjecture for Some Specific Higher Rank Elliptic Curves} (40 pages), 2011, submitted. \item {\ptitle Computations About Tate-Shafarevich Groups Using Iwasawa Theory} (46 pages), with Christian Wuthrich, 2012, to apear in Mathematics of Computation. \item {\ptitle The Sage Project: Unifying Free Mathematical Software to Create a Viable Alternative to Magma, Maple, Mathematica and MATLAB} (16 pages), 2010, in the Proceedings of the International Congress of Mathematical Software, Kobe, Japan. \item {\ptitle Toward a Generalization of the Gross-Zagier Conjecture} (17 pages), 2010, Int.\ Math.\ Res.\ Notices. \item {\ptitle Fast Computation of Hermite Normal Forms of Random Integer Matrices} (16 pages), with Clement Pernet, Volume 130, Issue 7, July 2010, Pages 1675-1683, Journal of Number Theory. \item {\ptitle Verification of the Birch and Swinnerton-Dyer Conjecture for Specific Elliptic Curves}, with G. Grigorov, A. Jorza, S. Patrikis, and C. Patrascu (26 pages), 2009, to appear in Mathematics of Computation. \item {\em The Modular Degree, Congruence Primes and Multiplicity One} (16 pages), with Amod Agashe and Ken Ribet, 2012, in a volume in honor of Serge Lang. \item {\ptitle Explicit Heegner points: Kolyvagin's conjecture and non-trivial elements in the Shafarevich-Tate group}, with Dimitar Jetchev and Kristin Lauter (18 pages), 2008, Journal of Number Theory. \item {\ptitle On the generation of the coefficient field of a newform by a single Hecke eigenvalue, with Koopa Koo and Gabor Wiese} (11 pages), 2008, J. Th\'eor. Nombres Bordeaux. \item {\ptitle Open Source Mathematical Software (opinion piece)} (1 page), with David Joyner, Notices of the AMS, November 2007. \item {\ptitle Average Ranks of Elliptic Curve}, with Baur Bektemirov, Barry Mazur and Mark Watkins (19 pages), May 2007, Bulletins of the AMS. \item {\ptitle Visibility of Mordell-Weil Groups} (20 pages), 2008, Documenta Mathematica. \item {\ptitle Visualizing Elements of Shafarevich-Tate Groups at Higher Level}, with D. Jetchev (28 pages), 2008, Documenta Mathematica. \item {\ptitle The Manin Constant}, with A. Agashe and K. Ribet (22 pages), 2006, in the World Scientific Coates Memorial Volume. \item {\ptitle Computation of $p$-Adic Heights and Log Convergence}, with B. Mazur and J. Tate (36 pages), 2006, in the Documenta Mathematica Coates Memorial Volume. \item {\ptitle SAGE: System for Algebra and Geometry Experimentation} with D. Joyner, (3 pages), in the SIGSAM Bulletin, 2005. \item {\ptitle Modular Parametrizations of Neumann-Setzer Elliptic Curves}, with M. Watkins, in IMRN 2004, no. 27, 1395--1405. \item {\ptitle Studying the Birch and Swinnerton-Dyer Conjecture for Modular Abelian Varieties Using} MAGMA (23 pages), 2006, chapter in Springer-Verlag book edited by J.~Cannon and W.~Bosma. \item {\ptitle Conjectures about Discriminants of Hecke Algebras of Prime Level} (16 pages), with F.~Calegari, in ANTS VI, Vermont, 2004. \item {\ptitle Constructing Elements in Shafarevich-Tate Groups of Modular Motives}, with N.~Dummigan and M.~Watkins, in ``Number theory and algebraic geometry---to Peter Swinnerton-Dyer on his 75th birthday'', Ed. M. Reid and A. Skorobogatov, pages 91--118. \item \emph{Approximation of eigenforms of infinite slope by eigenforms of finite slope}, with R.~Coleman, Geometric aspects of {D}work theory. {V}ol. {I}, {II}, Walter de Gruyter GmbH \& Co. KG, Berlin, 2004, pp.~437--449. \item {\ptitle $J_1(p)$ has connected fibers}, with B.~Conrad and B.~Edixhoven, Documenta Mathematica, {\bf 8} (2003), 331--408. \item {\ptitle Shafarevich-Tate Groups of Nonsquare Order}, in Progress in Math., {\bf 224} (2004), 277--289, Birkhauser. \item {\ptitle Visible Evidence for the Birch and Swinnerton-Dyer Conjecture for Rank $0$ Modular Abelian Varieties} (30 pages), with A.~Agashe, appeared in Mathematics of Computation. \item {\ptitle A Database of Elliptic Curves--First Report} (10 pages) with M.~Watkins, in ANTS V proceedings, Sydney, Australia, 2002. \item {\ptitle Visibility of Shafarevich-Tate Groups of Abelian Varieties}, with A.~Agashe, J. Number Theory, {\bf 97} (2002), no. 1, 171--185. \item {\ptitle Cuspidal Modular Symbols are Transportable}, with H.~Verrill, LMS J.\ Comput.\ Math., {\bf 4} (2001), 170--181. \item Appendix to Lario and Schoof's {\ptitle Some computations with Hecke rings and deformation rings}, with A.~Agashe, Experiment. Math. {\bf 11} (2002), no.~2, 303--311. \item {\ptitle There are genus one curves over $\mathbf{Q}$ of every odd index}, J. Reine Angew. Math. {\bf 547} (2002), 139--147. \item {\ptitle Component groups of purely toric quotients of semistable Jacobians}, with B.~Conrad, Math. Res. Lett., {\bf 8} (2001), no. 5--6, 745--766. \item {\ptitle The field generated by the points of small prime order on an elliptic curve}, with L.~Merel, Int.\ Math.\ Res.\ Notices, 2001, no.~20, 1075--1082. \item {\ptitle An introduction to computing modular forms using modular symbols} (12 pages), in MSRI Publications (Volume 44), Algorithmic Number Theory: Lattices, Number Fields, Curves and Cryptography, Cambridge University Press, 2008. \item {\ptitle A mod five approach to modularity of icosahedral Galois representations}, with K.~Buzzard, Pac. J. Math., {\bf 203} (2002), no. 2, 265--282.% \item {\ptitle Lectures on Serre's conjectures}, with K.\thinspace{}A.~Ribet, in Arithmetic Algebraic Geometry, IAS/Park City Math. Inst. Series, Vol.~9, 143--232. \item {\ptitle Component groups of quotients of $J_0(N)$}, with D.~Kohel, Proceedings of the 4th International Symposium (ANTS-IV), 2000, 405--412. \item {\ptitle Empirical evidence for the Birch and Swinnerton-Dyer conjectures for modular Jacobians of genus 2 curves}, with E.\thinspace{}V.~Flynn, F.~Lepr\'{e}vost, E.\thinspace{}F. Schaefer, M.~Stoll, J.\thinspace{}L.~Wetherell, Math.\ of Comp. {\bf 70} (2001), no. 236, 1675--1697. % \item {\ptitle Fallacies, Flaws, and % Flimflam \#92: An Inductive Fallacy} (1 page), % with A.~Riskin, College Math.\ J.\ 26:5 (1995), 382. %\newcounter{local}\setcounter{local}{\value{enumi}} \end{papers} \item [Books] \begin{books} %\setcounter{enumi}{\value{local}} \item {\ptitle What is Riemann's Hypothesis} (100 pages), with B. Mazur (see \url{http://wstein.org/rh/}); to be published by Princeton University Press. \item {\ptitle Modular Forms, a Computational Approach}, (268 pages), published as AMS Graduate Studies in Mathematics, Volume {\bf 79}, 2007, and freely available at \url{http://wstein.org/books/modform/}. \item {\ptitle Elementary Number Theory} (185 pages), published in the Springer-Verlag UTM series, 2008, \url{http://wstein.org/ent/}. %\item {\ptitle A Brief Introduction to Classical and Adelic Algebraic % Number Theory} (190 pages), \url{http://wstein.org/papers/ant/}. \item {\ptitle Lectures on Modular Forms and Galois Representations} (200 pages), with K.\thinspace{}A. Ribet (in progress). \end{books} %\newpage \item [Computation] \begin{bulletlist} \item Founder and director of the Sage (\url{http://www.sagemath.org}) open source mathematical software project. \item Fluent in Python, Cython, Javascript, C/C++ and Magma. \item The modular forms, modular symbols, and modular abelian varieties parts of Magma (over 25,000 lines of code). \item The Modular Forms Database: \url{http://wstein.org/tables/}. \end{bulletlist} \item [Teaching] %{\bf Professional Conference Organization} %\begin{bulletlist} %\item %\end{bulletlist} % {\bf Student Conference Organization} % \begin{bulletlist} % \item {\em Arizona Winter School}, 2007--2009, co-organizer (over 100 % attendees each year). % \item {\em Computing with Modular Forms}, MSRI Summer Workshop, % July 31--August 11, 2006. Graduate student % workshop (about 35 attendees). % \end{bulletlist} {\bf University of Washington} \begin{bulletlist} \item {\em Math 480a/582: Sage -- Free Open Source Math. Software}, Winter 2012. \item {\em Math 581g: Lectures on Modular Forms and Hecke Operators}, Fall 2011. \item {\em Math 480a: Sage -- Free Open Source Mathematical Software}, Spring 2011. \item {\em Math 581b: Algebraic number theory graduate course}, Fall 2010. \item {\em Math 581d: Computer Programming for Mathematicians}, Fall 2010. \item {\em Math 480: Computer Programming for Mathematicians}, Spring 2010. \item {\em Math 582e: Galois Cohomomogy}, Winter 2010. \item {\em Math 414: Elementary Number Theory}, Winter 2010. \item {\em Math 583e: Graduate Computational Number Theory, part 2}, Spring 2009. \item {\em Math 480: Open Source Mathematical Software}, Spring 2009. \item {\em Math 582e: Graduate Computational Number Theory}, Winter 2009. \item {\em SIMUW: Mathematical Finance}, Summer 2008. \item {\em Math 480: Open Source Mathematical Software}, Spring 2008. \item {\em Math 581f: Graduate Algebraic Number Theory}, Fall 2007. \item {\em SIMUW: The Riemann Hypothesis}, Summer 2007. \item {\em Math 583: The Birch and Swinnerton-Dyer Conjecture}, Spring 2007. \item {\em Math 480: Elementary Number Theory}, Spring 2007. \item {\em SIMUW: The Congruent Number Problem}, Summer 2006. \item {\em Math 583: Computing with Modular Forms}, Spring 2006. \end{bulletlist} {\bf UC San Diego} \begin{bulletlist} \item {\em Elliptic Curves and Modular Forms}, Fall 2005. \item {\em Calculus For Scientists and Engineers}, Winter 2006. \end{bulletlist} {\bf Harvard University} \begin{bulletlist} \item {\em Freshman Seminar on Fermat's Last Theorem}, Fall 2004. \item {\em Computing With Modular Forms}, Fall 2004. \item {\em Algebraic Number Theory}, Spring 2004. \item {\em Modular Abelian Varieties}, Fall 2003. \item {\em Freshman Seminar on Elliptic Curves}, Spring 2003. \item {\em Elementary Number Theory}, Fall 2001 and Fall 2002. \item {\em Linear Algebra}, Fall 2001 and Spring 2002. \item Advised 6 senior honors theses. \item Directed 8 funded undergraduate research projects. \item Participated in first {\em Clay Mathematics Research Academy}, 2001. \item Seminar Organization: \begin{dashlist} \item {\em The Basic Notions Seminar}, 2003--present. \item {\em The Modular Curves Seminar}, 2000--present. \item {\em Harvard Colloquium}, 2001--2002. \end{dashlist} \end{bulletlist} %\vspace{1ex} {\bf IAS/Park City Mathematics Institute} \begin{bulletlist} \item {\em Teaching Assistant}, Summer 1999, K.~Ribet's course on Serre's conjectures. \end{bulletlist} %\vspace{1ex} {\bf University of California at Berkeley} \begin{bulletlist} \item {\em Curriculum Development}, 1997--1998, wrote instructional software. \item {\em Discrete Mathematics}, Summer 1997. \item {\em Calculus}, Fall 1995--Spring 1997, teaching assistant. \end{bulletlist} %\vspace{1ex} {\bf Northern Arizona University} \begin{bulletlist} \item {\em College Mathematics With Applications}, Spring 1995. \item {\em College Algebra}, Fall 1994. \end{bulletlist} %{\bf Referee} %\begin{bulletlist} %\item Refereed papers for {\sl Mathematics of Computation}, % {\sl Mathematische Annalen}, and {\sl The Journal of Symbolic Computation}. %\end{bulletlist} %\item [Memberships] %\begin{bulletlist} %\item American Mathematical Society, 1995--present. %\item Mathematical Association of America, 1998--present. %\end{bulletlist} \item [Students] \begin{bulletlist} \item {\bf Simon Spicer}, Ph.D. expected June 2014. \item {\bf Alyson Deines}, Ph.D. expected June 2013. \item {\bf Robert Bradshaw}, Ph.D. received June 2010 on {\em Provable Computation of Motivic $L$-function}. Bradshaw works now at Google Seattle as a Software Engineer, partly due to his extensive experience with the Sage project. \item {\bf Robert Miller}, Ph.D. received June 2010 on {\em Verification of the Birch and Swinnerton-Dyer conjecture for individual elliptic curves}. Currently a postdoc at MSRI (2011). \end{bulletlist} \item [Seminars] % During the last year I gave invited % talks at Caltech, ASU, The Lenstra Treurfeest at MSRI, University of % Georgia, University of Sydney, Microsoft Research, UC Berkeley, % Princeton University, CUNY, CCR Princeton, Penn State, Johns % Hopkins, UCONN, UIUC, and Brown University. For a list of invited talks, see \url{http://wiki.wstein.org/schedule}. \item [Other\\Activities] {\bf Workshop and Conference Organization:} I (co-)organized all of the following workshops and conferences. \begin{workshops} %\begin{bulletlist} \item {\em Sage Days 36: p-adics in Sage}, Feb 2012, San Diego, CA. \item {\em AMS Short Course: Computing with Elliptic Curves using Sage} at the Joint Math Meetings in 2012 in Boston. \item {\em Sage Days 32: Bug Days}, at UW. \item {\em REU: Elliptic Curves}, 8 weeks of summer 2011, at UW. \item {\em Sage Days 31: The Sage Notebook}, June 2011, UW. \item {\em Sage Days 29}, March 2011, UW. \item {\em MSRI Program in Arithmetic Statistics}, Spring 2011, at MSRI in Berkeley. \item {\em Sage Days 27: Bug Days}, January 2011, UW. \item {\em Sage Days 26: Women in Sage}, December 2010, UW. \item {\em Workshop on Elliptic Curves and Computation}, October 2010, Microsoft Research. \item {\em Sage Days 25: Numerical computation}, August, 2010, in Mubmai, India. \item {\em Sage Days 24: Symbolic computation}, July, 2010 at RISC in Linz, Austria. \item {\em Sage Days 23: Number theory}, July, 2010 in Leiden, Netherlands. \item {\em Sage Days 22: MSRI Summer Graduate Student Workshop on Elliptic Curves}, June 2010 in MSRI (Berkeley, CA). \item {\em Sage Days 21: Function fields}, May 2010, UW. \item {\em Sage Days 19: Bug Smash}, January 2010, UW. \item {\em Sage Days 18: Computations related to the Birch and Swinnerton-Dyer Conjecture}, Dec 2009, at the Clay Mathematics Institute in Cambridge, MA. \item {\em Sage Days 17: Computing with Modular forms and L-functions}, Sep. 2009, on Lopez Island. \item {\em Sage Days 16: Computational Number Theory}, June 2009, in Barcelona, Spain. \item {\em Sage Days 15}, May 2009. \item {\em Arizona Winter School: Quadratic Forms}, March 2009. \item {\em Sage Days 14: Sage and Macaulay2 for Algebraic Geometry Experimentation}, March 2009, MSRI (Berkeley). \item {\em Sage Days 13: Quadratic Forms and Lattices}, March 2009, Athens, Georgia. \item {\em Sage Days 12: Bug Smash}, Jan. 2009, San Diego, CA. \item {\em Sage Days 11: Special functions and computational number theory meet scientific computing}, Nov. 2008, Austin, Texas. \item {\em Sage Days 9: Mathematical graphics and visualization}, Aug. 2009, Vancouver. \item {\em Workshop on $L$-functions and Modular Forms}, June 2008, UW. \item {\em $L$-functions Summer School and Coding Sprint}, June 2008, UW. \item {\em Sage Developer Coding Days}, June 2008, UW. \item {\em Arizona Winter School: Special Functions and Transcendence }, March 2008, Univ. of Arizona. \item {\em Sage Days 8: Number Theory and High Performance Numerical Computation}, March 2008, at UT Austin. \item {\em Sage Days 7,} Feb 2008, IPAM (UCLA). \item {\em SAGE Days 6,} Nov. 2007, Bristol, UK. \item {\em SAGE Days 5 -- Computational Arithmetic Geometry,} Oct 2007 at the Clay Math Institute in Cambridge, MA. \item {\em Workshop on Modular Forms and L-functions,} Aug. 2007 at AIM (Palo Alto). \item {\em Sage Days 4,} June 2007 at UW. \item {\em Modular Forms: Arithmetic and Computation,} June 2007 at Banff. \item {\em Arizona Winter School: $p$-adic Geometry,} March 2007 at Univ. of Arizona. \item {\em Sage Days 3,} Feb. 2007 at IPAM (UCLA). \item {\em Interactive Parallel Computation in Support of Research in Algebra, Geometry and Number Theory,} Feb 2007 at MSRI (Berkeley). \item {\em Sage Days 2,} Oct. 2006 at UW. \item {\em Summer Graduate Workshop on Computing with Modular Forms,} July 2006 at MSRI (Berkeley). \item {\em Sage Days 1,} Feb 2006 at UC San Diego. \end{workshops} %\end{bulletlist} % \begin{center} % ------------------------------------------------------------------------------------ % \end{center} \item [Personal] \address{}\\\newline Phone: \phone\\ Email: \email\\ Web: \www \\ Citizenship: USA\\ %\newpage % \item [References]\mbox{}\\ % \newcommand{\tw}{.4\textwidth} % \hspace{-2em}\begin{tabular}{ll} % \begin{minipage}[b]{\tw} % {\bf Professor Benedict H. Gross}\\ % Department of Mathematics\\ % Harvard University\\ % Cambridge, MA 02138\\ % (617) 495-2172\\ % {\tt gross@math.harvard.edu} % \end{minipage} % & % \begin{minipage}[b]{\tw} % {\bf Professor Joe Harris}\\ % Department of Mathematics\\ % Harvard University\\ % Cambridge, MA 02138\\ % (617) 495-2172 \\ % {\tt harris@math.harvard.edu} % \end{minipage} % \\&\\ % \begin{minipage}[b]{\tw} % {\bf Professor Hendrik W.~Lenstra}\\ % Mathematisch Instituut\\ % Universiteit Leiden\\ % The Netherlands\\ % (31/0) 71 527-7127\\ % {\tt hwl@math.leidenuniv.nl} % \end{minipage} % & % \begin{minipage}[b]{\tw} % {\bf Professor Barry C.~Mazur}\\ % Department of Mathematics\\ % Harvard University\\ % Cambridge, MA 02138\\ % (617) 495-2171 ext.~512\\ % {\tt mazur@math.harvard.edu} % \end{minipage} % \\&\\ % \begin{minipage}[b]{\tw} % {\bf Professor Kenneth A.~Ribet}\\ % Department of Mathematics\\ % University of California\\ % Berkeley, CA 94720-3840\\ % (510) 642-0648\\ % {\tt ribet@math.berkeley.edu} % \end{minipage} % & % \begin{minipage}[b]{\tw} % {\bf Professor John Tate (Emeritus)}\\ % Department of Mathematics\\ % Harvard University\\ % Cambridge, MA 02138\\ % {\tt jtate@math.harvard.edu}\\ % \end{minipage} % \end{tabular} \end{MainList} \end{document} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5 \comment{ \begin{minipage}[b]{\tw} {\bf Professor Shing-Tung Yau}\\ Department of Mathematics\\ Harvard University\\ Cambridge, MA 02138\\ (617) 495-0836\\ {\tt yau@math.harvard.edu}\\ (teaching)\\ \end{minipage} %\begin{minipage}[b]{\tw} %{\bf Professor Hendrik W.~Lenstra}\\ %Department of Mathematics \#3840\\ %University of California\\ %Berkeley, CA 94720-3840\\ %(510) 643-7857\\ %{\tt hwl@math.berkeley.edu} %\mbox{}\\ %\end{minipage} \item [References]\mbox{}\vspace{2ex}\\ \newcommand{\tw}{.4\textwidth} \hspace{-4em}\begin{tabular}{ll} \begin{minipage}[b]{\tw} {\bf Professor Benedict Gross}\\ Department of Mathematics\\ Harvard University\\ One Oxford Street\\ Cambridge, MA 02138\\ (617) 495-2172\\ {\tt gross@math.harvard.edu} \end{minipage}\\ & \begin{minipage}[b]{\tw} {\bf Professor Barry C.~Mazur}\\ Department of Mathematics\\ Harvard University\\ One Oxford Street\\ Cambridge, MA 02138\\ (617) 495-2171 ext.~512\\ {\tt mazur@math.harvard.edu} \end{minipage} \\ \begin{minipage}[b]{\tw} {\bf Professor Kenneth A.~Ribet}\\ Department of Mathematics \#3840\\ University of California\\ Berkeley, CA 94720-3840\\ (510) 642-0648\\ {\tt ribet@math.berkeley.edu} \end{minipage} \end{tabular} } \end{MainList} \end{document} \begin{minipage}[b]{\tw} {\bf Professor Hendrik W.~Lenstra}\\ Mathematisch Instituut\\ Universiteit Leiden\\ The Netherlands\\ (31/0)71 527-7127\\ {\tt hwl@math.leidenuniv.nl}\\ (research)\\ \end{minipage} \comment{\begin{minipage}[b]{\tw} {\bf Professor Robert F.~Coleman}\\ Department of Mathematics\\ University of California\\ Berkeley, CA 94720-3840\\ (510) 642-5101\\ {\tt coleman@math.berkeley.edu}\\ (research)\\ \end{minipage} &\begin{minipage}[b]{\tw} {\bf Professor Benedict Gross}\\ Department of Mathematics\\ Harvard University\\ Cambridge, MA 02138\\ (617) 495-2172\\ {\tt gross@math.harvard.edu}\\ (research)\\ \end{minipage} \\&\\ } \begin{minipage}[b]{\tw} {\bf Doctor Kevin M.~Buzzard}\\ Department of Mathematics\\ Huxley Building\\ Imperial College\\ 180 Queen's Gate\\ London, SW7 2BZ\\ England\\ +44 207 594 8523\\ {\tt buzzard@ic.ac.uk} \end{minipage} & \begin{minipage}[b]{\tw} {\bf Professor Robert F.~Coleman}\\ Department of Mathematics \#3840\\ University of California\\ Berkeley, CA 94720-3840\\ (510) 642-5101\\ {\tt coleman@math.berkeley.edu}\\ \mbox{}\\ \mbox{}\\ \end{minipage} \\ &\\