Dear all,
I've been asked to provide a brief overview of the new interface to the CASINO quantum Monte Carlo program available in the new release of PWSCF. For those of you who don't know, QMC is a highly-accurate technique with similar or better accuracy than the best high-order quantum chemistry methods (such as CCSD(T) etc.). Its advantage lies in the fact that the required CPU time scales only quadratically with system size (rather than as N^7 or whatever) meaning that it is potentially applicable to large systems - periodic or otherwise - of up to several thousand electrons. It's the same technique that Ceperley and Alder used to do their essentially exact calculations of the homogeneous electron gas thirty years ago that led to the development of the LDA exchange-correlation functionals etc., but we use it to study real systems with atoms. It's significantly more expensive than DFT, of course, but unlike PW-DFT or standard quantum chemistry techniques the QMC algorithm can be made to have essentially perfect parallel efficiency and our CASINO code can easily exploit as many cores as you like on the biggest machines available. For example, it was recently tested on 120000 nodes of the ORNL Jaguar machine showing perfect parallel scaling. For more details, together with a recent accessible review of the technique, see last February's Psi-k highlight written by me, Dario Alfe and Mike Gillan - available here: http://www.tcm.phy.cam.ac.uk/~mdt26/papers/petascale_psik.pdf Why the interface with PWSCF? Because QMC requires a 'starting guess' for the many-body wave function - which can be, for example, a determinant of Kohn-Sham orbitals multiplied by a so-called 'Jastrow factor' (the latter introduces an explicit dependence on the distances between pairs of particles). The KS orbitals need to be obtained from a DFT calculation, for example, with PWSCF (though we also support CASTEP, ABINIT, GP etc.. as well as various programs using other basis sets such as Gaussians). Full instructions are provided in the 'Direct interface with CASINO' section of the latest Espresso user guide, and in the documentation provided with the 2.9 version of CASINO. But basically it involves little more than adding a '-pw2casino' flag when invoking pw.x, thus: pw.x -pw2casino < input_file > output_file will produce a wave function file readable by CASINO. For more information, the CASINO web site is here: http://www.tcm.phy.cam.ac.uk/~mdt26/casino2.html If anybody wants to try some QMC calculations, the code is given away for free to academics (to see how to get it, click the 'Introduction' link in the left-hand sidebar). Finally, PWSCF users wishing to learn how to use CASINO may like to attend one of our annual CASINO summer schools in my "Apuan Alps Centre for Physics" institute - a 15th century monastery in a beautiful mountain village in Tuscany, Italy. The sixth event in this series will be held this year from 30th July to 6th August - there are still some place available so if you wish to attend then let me know.. The official ad for this is below, and more details are available on the website: http://www.vallico.net/tti/tti.html (Click 'Public Events'). I hope that the Espresso community will find the new QMC interface useful (and thanks to Norbert Nemec, Layla Martin-Samos, and Simon Binnie for help with creating it). Have fun! Best wishes, Mike +------------------------------------------------------------------------+ |Dr. Mike Towler (mdt26 at cam.ac.uk) Theory of Condensed Matter (Rm 529)| | Cavendish Laboratory, University of Cambridge, Cambridge CB3 0HE, UK | |Tel. +44-(0)1223-337378 OR -334256 (College) Fax. +44-(0)1223-337356| +----------------------: www.tcm.phy.cam.ac.uk/~mdt26 :------------------+ SUMMER SCHOOL ANNOUNCEMENT "Quantum Monte Carlo and the CASINO program VI" =============================================== Sat 30th July - Sat 6th August 2011 Apuan Alps Centre for Physics @ TTI, Vallico Sotto, Tuscany, Italy http://www.vallico.net/tti/tti.html A4 POSTER FOR THE SCHOOL AVAILABLE HERE : http://www.tcm.phy.cam.ac.uk/~mdt26/poster.png The sixth international summer school in the series "Quantum Monte Carlo and the CASINO program" will take place during August 2011 at the TTI monastery in the Tuscan Apuan Alps in Italy, organized and hosted by members of Cambridge University physics department's Theory of Condensed Matter Group. The aim of the school is to give students a thorough introduction to quantum Monte Carlo as a method for performing high-quality calculations of the electronic structure of atoms, molecules, and materials. The course is designed for young quantum chemists or theoretical physicists who have no previous experience with this technique, though anyone interested is welcome to take part, including old people. The monastery is a unique venue where the community spirit and magnificent location have inspired memorable workshops in the past. It is a delightful 16th century building incorporating an ancient church, and is situated in the isolated but spectacular setting of the Tuscan mountain village of Vallico Sotto. The church is fully equipped with relevant presentation and computer technology, and all accommodation is on-site. As with all events at the Institute, formal lectures are restricted to the mornings, and participants are given the freedom and space to think and to contemplate and discuss the issues at hand. In addition to hands-on exercises, a programme of healthy recreational activities will be organized in the afternoons, and it is hoped that by following this strict regime, together with breathing clean mountain air and by preparing and sampling fine Tuscan cuisine, the participant will be able to return home mentally and physically refreshed as well as better informed. Describing the complex behaviour of materials at the atomic level requires a sophisticated description of the correlated motion of the electrons. Quantum Monte Carlo (QMC) is an increasingly popular and explicitly many-body method with the unusual capability of yielding highly accurate results whilst also exhibiting a very favourable scaling of computational cost with system size. Over the last eighteen years, the Cambridge group have been researching QMC methods and we have created a powerful, general computer program - CASINO - to carry out the calculations. The school will focus both on the basic theory of QMC and on more advanced practical techniques, and will include a thorough introduction to the CASINO program. A background in density functional theory or similar - though not essential - is normally thought to be useful. Instructors at the school will include the main authors of the CASINO program (Dr. Mike Towler, Dr. Neil Drummond and Dr. Pablo Lopez Rios) and possibly others. Participants would normally need to book a flight to Pisa airport from where onward transportation will be arranged (though other destinations are possible). Details of previous schools - including photographs - are available under the PUBLIC EVENTS link on the TTI web site. Interested students should email Mike Towler (mdt26 at cam.ac.uk) for registration and further details.
