\TN{05--6--1048--2003/2013}{1}{\tscom}
{Information, Computer and Network Support of JINR's Activity }
{V.V. Ivanov\\V.V. Korenkov\\P.V. Zrelov}

\TC{Armenia, Azerbaijan, Belarus, Bulgaria, CERN, Czech Republic, Democratic People's Republic
    of Korea, Egypt, Georgia, Germany, Moldova, Mongolia, Poland, Romania, Russia, Slovak Republic, 
    South Africa, Sweden, Ukraine, USA, Uzbekistan.}


\TA Provision of theoretical and experimental studies conducted by the JINR Member State 
    institutions at  JINR  and other scientific centres with 
    modern telecommunication, network and information resources. In order to fulfill the task,
    there are foreseen: the development of telecommunication channels of  JINR 
    with the JINR Member States on the basis of national and regional telecommunication 
    networks; fault-tolerant operation and further development of the high-speed and protected
    local area network of  JINR development and maintenance of the 
    distributed high-performance computing infrastructure and mass storage resources; 
    information, algorithmic and software support of the research-and-production activity 
    of JINR; reliable operation and development of the JINR Grid-segment as part of the 
    global Grid-infrastructure.
%%\vspace*{4mm}

{\bf Expected main results in 2013:}
\begin {itemize}
%1
\item  Development of the basic and backup fiber optics  communication links JINR-Moscow. Connection of the prototype of the 
       JINR  Tier1 centre to the LHCOPN network. 
%2
\item  Comprehensive modernization of the central telecommunication node of the Institute's IT-infrastructure.
%3
\item  Central Information  and Computing Complex (CICC) performance and data storage system increase in accordance with the 
       7-year plan for the JINR development.
 <br><br>
       The CICC modernization aimed at carrying out the broad spectrum of user requested  computational tasks (parallel, distributed, etc.). 
%4
\item  Support and modernization of the hard- and software environment for information, algorithmic and software support of the research 
       activity underway at JINR.
        <br><br>
       Development and support of the library JINRLIB, parallel computing technologies included.  
        <br><br>
       
       Further development and support of the central information servers, participation in the development, design and maintenance of 
       various information sites of workshops and conferences in a hosting mode. 
        <br><br>
 
       Maintenance and modernization of information systems and databases of scientific and managing structures.
 
  <br><br>
       Promotion and maintenance of the unified information 1C 8.2 framework  for administrative activities at JINR. 
       
        <br><br>
       Development of the paperless documentation system DoctorDoc.
       
        <br><br>
       Creation of a hard- and software platform of the Russian version of the DBpedia project (a system of semantic information search 
       on the basis of the Wikipedia databases). 
        
%5
\item  Maintenance of the reliable  operation of the JINR Grid-segment within the regional, national and problem-oriented 
       Grid-infrastructures. 
  <br><br>
       Contribution to the development of wider cooperation with the JINR Member States in frames of the currently active 
       Grid projects (RDIG, WLCG, EGI, GridNNN, Russian Grid Network).
  <br><br>
 
        Development of soft- and hardware tools for the global monitoring of task performance and accounting of the resources 
        within the grid-environment. Test exploitation of the monitoring system for the grid-sites of Tier3 level involved 
        in the LHC data processing. 
  <br><br>
        Creation at JINR of a Tier1 center prototype  for the CMS experiment at LHC. Modernization and extension of 
        the long-term data storage system. Testing the equipment, the required services and the system functioning as a whole. 
  <br><br>
        Further extension of the distributed educational and research grid-environment and provision on its basis of specialists 
        training in the field of Grid-technologies. 
\end {itemize}

\begin{stage-tu}
% 1
\item \PS{JINR telecommunication \\data links}{V.V. Korenkov \\A.G. Dolbilov}{\null}
      \PL{LIT}{}{K.N. Angelov, N.M. Egoshina, A.Yu. Zakomoldin}
%2
\item \PS{JINR local area network}{V.V. Ivanov \\ N.N. Karpenko}{\null}
      \PL{LIT}{}{K.N. Angelov, B.A. Bezrukov, D.V. Belyakov, E.Yu. Bulaeva, A.G. Dolbilov, S.V. Gavrilov, 
          L.I. Gorodnicheva, M.F. Ermakova, V.A. Kapitonov, G.A. Korobova, 
          V.I. Krasnoslobotsev, N.N. Mischenko, 
          L.A. Popov, Ya.I. Rozenberg, E.V. Toneeva, A.I. Churin, V.P. Sheyko}
      \PL{DLNP}{V.A. Bednyakov}{A.G. Dolbilov, Yu.P. Ivanov}
      \PL{LRB}{V.A. Krylov}{}
      \PL{BLTP}{A.P. Isaev}{A.A. Sazonov}
      \PL{FLNP}{V.N. Shvetsov}{V.I. Prikhodko, G.A. Sukhomlinov}
      \PL{VBLHEP}{Yu.K. Potrebenikov}{B.G. Shchinov, Yu.P. Minaev}
      \PL{FLNR}{V.I. Zagrebaev}{S.V. Pashchenko, G.G. Gulbekyan}
      \PL{UC}{S.Z. Pakuliak}{I.N. Semeniushkin}
      \PL{SCAR}{V.N. Samoilov}{}
%3
\item \PS{JINR Central Information \\and Computing Complex}{V.V. Ivanov\\
          V.V. Korenkov\\ V.V. Mitsyn}{\null}
      \PL{LIT}{}{N.S. Astakhov, S.A. Baginyan, S.D. Belov, A.G. Dolbilov, A.S. Vorontsov, A.P. Gavrish, 
          N.I. Gromova, P.V. Dmitrienko, N.N. Karpenko, P.I. Kisel, I.A. Kudasova, 
          O.N. Kudryashova, E.Yu. Kulpin, N.A. Kutovskiy, A.A. Lavrentiev, S.B. Marchenko, Yu.A. Nazarov, 
          A.I. Radov, V.T. Razuvakina, T.F. Sapozhnikova, E.A. Tikhonenko, 
          V.V. Trofimov, N.I. Chuadze, N.V. Chuenkova}
%4
\item \PS{Development of programming \\environment for information,
    algorithmic, and \\software support of the JINR\\ research-and-production activity}
         {P.V. Zrelov \\ V.V. Korenkov\\M.V. Bashashin}{\null}
      \PL{LIT}{}{T.O. Ablyazimov, D.V. Belyakov, A.A. Bogolubskaya, N.N. Vorobieva, V.P. Gerdt, 
          T.M. Goloskokova, D.S. Golub, N.A. Davyudova, A.G. Zaikina, T.N. Zaikina,  
          L.A. Kalmykova, A.A. Karlov, S.A. Kretova, G.G. Musulmanbekov, 
          E.A. Paschenko, V.V. Pervushov, L.V. Popkova, A.V. Prikhodko, 
          V.M. Pushkina, A.M. Raportirenko, A.P. Sapozhnikov, T.F. Sapozhnikova, 
          S.V. Semashko, R.N. Semenov, A.V. Sheyko, V.A. Stepanenko, 
          T.A. Strizh, T.S. Syresina, I.A. Filozova, G.V. Shestakova, V.P. Shirikov, 
          V.M. Yagafarova}
       \PL{SOICO}{N.A. Russakovich}{V.F. Borisovskiy}
       \PL{UC}{S.Z. Pakuliak}{}
%5
\item \PS{Development of the JINR grid-segment}{V.V. Ivanov\\V.V. Korenkov \\
         T.A. Strizh}{\null}
      \PL{LIT}{}{S.D. Belov, V.A. Vasiliev, L. Valova, V.V. Galaktionov, N.I. Gromova, 
          P.V. Dmitrienko, V.E. Zhiltsov, I.S. Kadochnikov, D.V. Kekelidze, I.A. Krokhotina, N.A. Kutovskiy,
          V.V. Mitsyn, S.V. Mitsyn, I.K. Nekrasova, D.A. Oleynik, A.Sh. Petrosyan, 
          E.A. Tikhonenko, V.V. Trofimov, A.V. Uzhinskiy}
\end{stage-tu}

\begin{intcoop}
\mtab{Armenia}{Yerevan}{ANL}
\mtab{}{}{IIAP NAS RA}
\mtab{}{}{YSU}
\mtab{Azerbaijan}{Baku}{IP ANAS}
\mtab{Belarus}{Minsk}{NC PHEP BSU}
\mtab{}{}{JIPNR-Sosny NASB}
\mtab{}{}{BNTU}
%\mtab{}{}{UIIP NASB}
\mtab{}{Gomel}{GSTU}
\mtab{Bulgaria}{Sofia}{INRNE BAS}
\mtab{}{}{SU}
\mtab{}{Blagoevgrad}{SWU}
\mtab{CERN}{Geneva}{CERN}
\mtab{Czech Republic}{Prague}{IP ASCR}
\mtab{Democratic People's \\Republic of Korea}{Pyongyang}{IFR SCNR}
\mtab{Egypt}{Giza}{CU}
\mtab{Georgia}{Tbilisi}{GRENA}
\mtab{}{}{TSU}
\mtab{}{}{UG}
\mtab{Germany}{Darmstadt}{GSI}
\mtab{}{Frankfurt/Main}{Univ.}
\mtab{}{Hamburg}{DESY}
\mtab{}{Karlsruhe}{KIT}
%\mtab{}{Heidelberg}{Univ.}
\mtab{}{Munich}{LMU}
\mtab{}{Zeuthen}{DESY}
\mtab{Moldova}{Chisinau}{ASM}
\mtab{}{}{IMCS ASM}
\mtab{}{}{IAP ASM}
\mtab{}{}{RENAM}
\mtab{Mongolia}{Ulaanbaatar}{II MAS}
\mtab{}{}{MUST}
\mtab{}{}{NUM}
\mtab{Poland}{Krakow}{CYFRONET}
\mtab{}{Poznan}{AMU}
\mtab{}{Wroclaw}{WUT}
\mtab{Romania}{Bucharest}{IFA}
\mtab{}{}{IFIN-HH}
\mtab{}{}{ISS}
\mtab{}{Cluj-Napoca}{INCDTIM}
\mtab{Russia}{Moscow}{CIT\&S}
\mtab{}{}{e-ARENA}
\mtab{}{}{IOC RAS}
\mtab{}{}{IPI RAN}
\mtab{}{}{ISA RAS}
\mtab{}{}{ISP RAS}
\mtab{}{}{ITEP}
\mtab{}{}{JSCC RAS}
\mtab{}{}{KIAM RAS}
\mtab{}{}{MPEI}
\mtab{}{}{MSU}
\mtab{}{}{RCC MSU}
\mtab{}{}{RIPN}
\mtab{}{}{NRC KI}
\mtab{}{}{RSCC}
\mtab{}{}{SINP MSU}
\mtab{}{}{SRI "Voskhod"} 
\mtab{}{Moscow, Troitsk}{INR RAS}
\mtab{}{Cherkessk}{NCSHTA}
\mtab{}{Chernogolovka}{SCC IPCP RAS}
\mtab{}{}{LITP RAS}
\mtab{}{Dubna}{Adm. of Dubna}
\mtab{}{}{BSINP MSU}
\mtab{}{}{"Dubna" Univ.}
\mtab{}{}{Raduga}
\mtab{}{}{SEZ "Dubna"}
\mtab{}{}{SCC "Dubna"}
\mtab{}{Gatchina}{PNPI}
\mtab{}{Novosibirsk}{BINP SB RAS}    
\mtab{}{Pereslavl-Zalesskiy}{PSI RAS}
\mtab{}{Protvino}{IHEP}  
\mtab{}{Puschino}{IMPB RAS}
\mtab{}{St. Petersburg}{FIP}
\mtab{}{}{IHPCIS}
\mtab{}{}{SPbSPU}
\mtab{Slovak Republic}{Ko\v sice}{IEP SAS}
\mtab{South Africa}{Cape Town}{UCT}
\mtab{Sweden}{Lund}{LU}
\mtab{USA}{Arlington, TX}{UTA}
\mtab{}{Chicago, IL}{UChicago}
\mtab{}{Pasadena, CA}{Caltech}
\mtab{}{Upton, NY}{BNL}
\mtab{Ukraine}{Kiev}{BITP NASU}
\mtab{}{}{NTUU KPI}
\mtab{}{Kharkov}{KFTI NASU}
\mtab{Uzbekistan}{Tashkent}{IMIT UAS}
\end{intcoop}

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

\TN{05--6--1060--2005/2013}{1}{\tscom}
{Mathematical Support of Experimental and Theoretical Studies Conducted by JINR}
{V.V. Ivanov\\Gh. Adam\\P.V. Zrelov}

\TC{Armenia, Australia, Belarus, Belgium, Brazil, Bulgaria, Canada, CERN, 
    Chile, Czech Republic, Egypt, France, Georgia, Germany, Greece, Italy, 
    Japan, Kazakhstan, Moldova, Mongolia, Poland, Portugal, Romania, Russia, 
    Slovak Republic, South Africa, Sweden, Switzerland, Taiwan, Tajikistan,  
    Ukraine, USA, Vietnam.}

\TA Performance of top research in the field of computational mathematics and 
    computational physics aimed at solving specific problems arising in experimental 
    and theoretical studies conducted with the participation of JINR. Simulations of 
    physical processes within experimental installations. Algorithm implementation 
    into efficient and reliable hardware adapted programs. The successful realization 
    of such research efforts assumes: development of new mathematical 
    methods and tools for modeling physical processes and experimental data analysis; 
    creation of methods and numerical algorithms for modeling magnetic systems; 
    elaboration of software and computer complexes for experimental data processing; 
    elaboration of numerical algorithms and software for the simulation of complex 
    physical systems; development of methods, algorithms and software of computer algebra; 
    contribution to the development of the new generation computing tools. Application of 
    the developed methods and algorithms to other topics in science and technology 
    (nanotechnology, biology, medicine, economy, industry, etc.)

%%\vspace*{4mm}

{\bf Expected main results in 2013:}
\begin {itemize}
%1
\item  Mathematical modeling and development of algorithms and software for the investigation of transmutation and 
       fragmentation processes of atomic nuclei.
<br><br>

       Database development for the "Cascade" package.
<br><br>

      Increasing the predictive quality of the basic program for the simulation of the LHC setups in the Geant4 
      toolkit by implementing quark-gluon string model and by fine tuning  model parameters. 
<br><br>
      Simulations of the scattering of radioactive isotopes of light nuclei by protons and nuclei within a hybrid microscopic model. 
      Microscopic modeling of pion-nuclear elastic scattering.
<br><br>
      Extension of the SAS program to cope with the modernization of the electron accumulation channel of the YUMO spectrometer.
<br><br>
      New software development to manage the planned new type position-sensitive detector.
<br><br>
      Development of a dynamically adapted neural network architecture for changing environments.


%2
\item  Elaboration of algorithms and software modules for highly precise solution of nonlinear 3D magnetostatic problems based on the use of  
       nested meshes. 
<br><br>
       Computer simulations of the superconducting dipole magnet CBM (FAIR, GSI), optimization of parameters of the 
       superconducting dipole and quadrupole magnets of accelerators SIS100 (FAIR, GSI) and NICA (JINR).
<br><br>
       Computer modeling of the modernization of the spectrometric magnet for nuclear physics experiments.
<br><br>
       Optimization of the methods of modeling the beam dynamics for the multipurpose isochronous cyclotron.

     
%3
\item  Development of fast algorithms for event reconstruction exploiting the today computer environments (experiments CBM and BM@N).
       Development of new methods for rare process identification in the CBM experiment.

       <br><br>
       Modernization of the remote access to the Control Room ATLAS.
<br><br>

       Theoretical and numerical study of effects enabling derivation of improved accuracy on 
       the $\pi\pi$-scattering lengths from the raw DIRAC experiment data. 
<br><br>
       Development of methods and programs for the analysis of neutron-diffraction spectra obtained in IBR-2 experiments.

<br><br>
      Development of methods and programs for the analysis of rare events recorded during super-heavy 
      element synthesis at the U400 accelerator.

<br><br>
      Further development of methods and programs for the analysis of the coincidence spectra recorded in experiments 
      on isomeric stage search.

%4
\item  Study of hadron properties within QCD motivated strong interaction models for the description of 
       the hot and dense nuclear matter. Development of mathematical methods for the analysis of the quark-hadron phase 
       diagram (NICA experiment). 
<br><br>
       Development of computer programs to calculate products of the reactions under chiral phase transitions in 
       few-nucleon  systems (for the NICA installation).
<br><br>
       Study of spin scissors mode and the fine structure of M1 states in deformed nuclei.
<br><br>
       
       Development of a new method, similar to the scalar-tensor theory, over a spinor field. 

       <br><br>
       Mathematical modeling of the modifications of the superficial layers of materials exposed to pulsed ion beams and high-energy heavy ions.

       <br><br>
       Estimation of the accuracy of the truncation of the intermediate particle spectra via the different three-body  
       field-theoretical Faddeev-type equations.

       <br><br>
       Investigation of double photoionization processes of $N^2$, $H^2$ and calculation of the associated observables.
<br><br>
       
       Development of parallel algorithms and software for numerical solution of the nonlinear heat conduction equation taking into account 
       the axial symmetry.

       <br><br>
       Application of the Newton method for mathematical modeling of irregular integro-optical waveguides.

       <br><br>
       Numerical study of progressive waves in systems described by nonlinear Schroedinger equations.
<br><br>
       
       Numerical simulations of long Josephson junctions using the double sine-Gordon equation.

<br><br>

       Derivation of quantitative consistency criteria in Bayesian quadrature.

%5       
\item  Development of symbolic algorithms and programs for investigation and calculation of: 
      <br>(a) quantum interferences in models based on finite symmetry groups;
        <br>(b) multiloop Feynman integrals with application to 4-loop massless integrals; 
        <br>(c) constraints in singular field theoretic models; 
        <br>(d) involutive polynomial bases by parallel methods based on the MPI technology. 
 
      <br> <br>
       Computer algebra modeling of the hadron therapy facility. 
%6
\item  Extension of the built-in algorithmic tools for the Mathematica based QuantumCircuit emulator of quantum computations.

 <br> <br>
       Development of symbolic-numerical algorithms for the analysis of spectral and optical characteristics of 
       spheroidal quantum dots in homogeneous electric field.

 <br> <br>
       
       Analytical and numerical studies of qubit entanglement and its topological stability in a laser field.
 <br> <br>
        
       Construction of local invariants for the system qubit-qutrit.
 <br> <br>
       
       Investigation of coherent spin dynamics in magnetic nanomolecules and nanoclusters.
 <br> <br>

       Development of methods for describing order and quasi-order in finite quantum systems.

      <br> <br>  
       Development of theory of granulated and clustering matter.
 <br> <br>
     
       Development of a computer program for the DNA-protein complexes mapping and its application to problems concerning the  
       formation of such complexes.
\end {itemize}

\begin{stage-t}
%1
\item \PS{Mathematical methods and tools for modeling physical
          processes \\and experimental data analysis}{V.V. Ivanov\\P.V. Zrelov}{\null}
      \PL{LIT}{}{E.V. Zemlyanaya, V.M. Karnaukhov, B.F. Kostenko, I.N. Kukhtina, V.Yu. Lavrentiev, 
          K.V. Lukyanov,  A. Machavariani, T.I. Mikhailova, V.I. Palichik, 
          A. Polanski, A.S. Rakityanskaya, L.A. Siurakshina, Yu.S. Smirnov, A.G. Soloviev, A.N. Sosnin, 
          V.V. Uzhinsky, V.P. Filinova, N.Yu. Shirikova}
%2
\item \PS{Methods and numerical algorithms for magnetic systems modeling}{P.G. Akishin}{\null}
      \PL{LIT}{}{I.V. Amirkhanov, R.V. Polyakova, O.I. Yuldashev, M.B. Yuldasheva}
%3
\item \PS{Software and computer complexes for experimental data 
processing}{V.V. Ivanov \\P.V. Zrelov}{\null}
      \PL{LIT}{}{T.O. Ablyazimov, V.P. Akishina, I.N. Aleksandrov, E.I. Aleksandrov, S.A. Baginyan, O.Yu. Derenovskaya, 
          N.D. Dikoussar, I.M. Ivanchenko, A.A. Kazakov, P.I. Kisel, 
          V.M. Kotov, L.Yu. Kruglova, A.A. Lebedev, S.A. Lebedev, M.A. Mineev, G.A. Ososkov, A.M. Raportirenko,  
          V.S. Shigaev, O.O. Voskresenskaya, A.V. Yakovlev, V.B. Zlokazov}
%4
\item \PS{Numerical algorithms and software for simulation of complex
          physical systems}{Gh. Adam \\I.V. Puzynin}{\null}
      \PL{LIT}{}{S. Adam, E.A. Ayrjan, A.S. Àyriyan, I.V. Amirkhanov, I.V. Barashenkov, 
          I.L. Bogolubsky, Vo Trong Thach, E.V. Zemlyanaya,  
          Yu.L. Kalinovsky, N.V. Makhaldiani, I.V. Molodtsova, D.I. Podgainy, T.P. Puzynina, 
          V.S. Rikhvitsky, V.N. Robuk, N.R. Sarkar, I. Sarkhadov, B. Saha, S.I. Serdyukova, 
          O.I. Streltsova, Z.K. Tukhliev, A.M. Chervyakov, O. Chuluunbaatar, Z.A. Sharipov, R.M. Yamaleev}
%5
\item \PS{Methods, algorithms and software of computer algebra}{V.P. Gerdt}{\null}
      \PL{LIT}{}{A.A. Bogolubskaya, A.A. Gusev, S.A. Evlakhov, V.V. Kornyak, Yu.G. Palii, 
          A.M. Raportirenko, V.A. Rostovtsev, O.V. Tarasov, A.M. Khvedelidze, D.A. Yanovich}
%6
\item \PS{Computing tools of a new generation}{V.V. Ivanov\\Gh. Adam}{\null}
      \PL{LIT}{}{E.A. Ayrjan, V.P. Gerdt, A.A. Gusev, O.A. Afanasiev, J. Deperas, P.V. Zrelov, 
          M.I. Zuev, Yu.G. Palii, V.A. Stepanenko, A.M. Khvedelidze, E.P. Yukalova}
\end{stage-t}

\begin{intcoop}
\mtab{Armenia}{Yerevan}{YSU}
\mtab{}{}{IIAP NAS RA}
\mtab{}{}{RAU}
\mtab{}{Ashtarak}{IPR NAS RA}  
\mtab{Australia}{Sydney}{Univ.}
\mtab{Belarus}{Minsk}{IM NASB}
%\mtab{}{}{JIPNR-Sosny NASB}
%\mtab{}{Brest}{BrSTU}
\mtab{Belgium}{Brussels}{ULB}
\mtab{}{Liege}{ULg}
\mtab{Brazil}{Sao Carlos, SP}{IFSC USP}
\mtab{Bulgaria}{Sofia}{IMI BAS}
\mtab{}{}{INRNE BAS}
\mtab{}{}{SU}
\mtab{}{Plovdiv}{PU} 
\mtab{Canada}{Edmonton}{U of A}
\mtab{}{Toronto}{IBM Lab}
\mtab{CERN}{Geneva}{CERN}
\mtab{Chile}{Valparaiso}{USM}
\mtab{Czech Republic}{Rez}{NPI ASCR}
\mtab{Egypt}{Cairo}{TIMS}
\mtab{France}{Metz}{UPV-M}
\mtab{}{Nantes}{SUBATECH}
\mtab{Georgia}{Tbilisi}{UG}
%\mtab{}{}{IC GAS}
\mtab{}{}{RMI TSU}
\mtab{}{}{TSU}
\mtab{Germany}{Berlin}{HUB}
\mtab{}{}{FU Berlin}
\mtab{}{Aachen}{RWTH}
\mtab{}{Darmstadt}{GSI}
\mtab{}{Dresden}{IFW}
\mtab{}{Frankfurt/Main}{Univ.}
\mtab{}{Giessen}{JLU}
%\mtab{}{Heidelberg}{Univ.}
%\mtab{}{}{MPI K}
\mtab{}{Julich}{FZJ}
\mtab{}{Kassel}{Uni Kassel}
\mtab{}{Marburg}{Univ.}
%\mtab{}{Munich}{TUM}
\mtab{}{Potsdam}{IASS}
\mtab{}{Regensburg}{UR}
\mtab{}{Tubingen}{Univ.}
\mtab{Greece}{Thessaloniki}{AUTH}
%\mtab{}{Volos}{Univ.}
\mtab{Italy}{Turin}{INFN}
\mtab{Japan}{Osaka}{Kansai Univ.}
\mtab{Kazakhstan}{Almaty}{INP NNC RK}
\mtab{}{}{IPT}
\mtab{Moldova}{Chisinau}{IAP ASM}
\mtab{Mongolia}{Ulaanbaatar}{NUM}
%\mtab{}{}{SMCS NUM}
\mtab{Poland}{Krakow}{AGH} 
\mtab{}{Otwock-Swierk}{NCBJ}
%\mtab{}{}{SINS}
\mtab{}{Rzeszow}{UR}
\mtab{Portugal}{Coimbra}{UC}
\mtab{Romania}{Bucharest}{IFA}
\mtab{}{}{IFIN-HH}
\mtab{}{}{ISS}
\mtab{}{}{UB}
\mtab{}{Cluj-Napoca}{INCDTIM}
\mtab{Russia}{Moscow}{CC RAS}
\mtab{}{}{ITEP}
\mtab{}{}{NNRU "MEPhI"}
%\mtab{}{}{MIREA}
\mtab{}{}{MSU}
\mtab{}{}{PFUR}
\mtab{}{}{SINP MSU}
\mtab{}{}{VIGG RAS}
\mtab{}{Belgorod}{NRU BelSU}
\mtab{}{Chernogolovka}{LITP RAS}
%\mtab{}{Perm}{PSNRU}
\mtab{}{Protvino}{IHEP}
\mtab{}{Puschino}{IMPB RAS}
\mtab{}{}{ITEB RAS}
\mtab{}{}{IPR RAS}
\mtab{}{}{ICB RAS}
\mtab{}{Saratov}{SSU}
\mtab{}{St. Petersburg}{FIP}
\mtab{}{}{NIIEFA}
\mtab{}{Tomsk}{TSU} 
\mtab{}{Tver}{TvSU}
\mtab{Slovak Republic}{Ko\v sice}{IEP SAS}
\mtab{}{}{TUKE}
\mtab{}{}{PJSU}
\mtab{}{Pre\v sov}{PU}
\mtab{South Africa}{Cape Town}{UCT}
\mtab{}{Pretoria}{UP}
\mtab{Sweden}{Stockholm}{KTH}
\mtab{Switzerland}{Zurich}{ETH}
\mtab{Taiwan}{Taipei}{AS}
\mtab{Tajikistan}{Dushanbe}{TNU}
\mtab{}{}{PHTI ASRT}
\mtab{}{Khujent}{KSU}
\mtab{USA}{Argonne, IL}{ANL}
\mtab{Ukraine}{Kiev}{BITP NASU}
\mtab{}{}{IM NASU}
\mtab{}{Kharkov}{IERT NASU}
\mtab{}{}{KFTI NASU}
\mtab{Vietnam}{Hanoi}{VNU}
\end{intcoop}