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Zahari Zlatev
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- affiliation: Aarhus University, National Environmental Research Institute, Roskilde, Denmark
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2020 – today
- 2023
- [c77]Krassimir Georgiev, Zahari Zlatev, Ivan Lirkov:
Development of New High Performance Computer Architectures and Improvements in Danish Eulerian Model for Long Range Transport of Air Pollutants. LSSC 2023: 325-334 - 2021
- [j44]Venelin Todorov, Ivan Dimov, Tzvetan Ostromsky, Stoyan Apostolov, Rayna Georgieva, Yuri Dimitrov, Zahari Zlatev:
Advanced stochastic approaches for Sobol' sensitivity indices evaluation. Neural Comput. Appl. 33(6): 1999-2014 (2021) - [c76]Tzvetan Ostromsky, Venelin Todorov, Ivan Dimov, Rayna Georgieva, Zahari Zlatev, Stoyan Poryazov:
Sensitivity Study of Large-Scale Air Pollution Model Based on Modifications of the Latin Hypercube Sampling Method. LSSC 2021: 156-163 - [c75]Venelin Todorov, Ivan Dimov, Rayna Georgieva, Tzvetan Ostromsky, Zahari Zlatev, Stoyan Poryazov:
Multidimensional Sensitivity Analysis of an Air Pollution Model Based on Modifications of the van der Corput Sequence. LSSC 2021: 180-187 - [c74]Zahari Zlatev, Ivan Dimov, István Faragó, Krassimir Georgiev, Ágnes Havasi:
Running an Atmospheric Chemistry Scheme from a Large Air Pollution Model by Using Advanced Versions of the Richardson Extrapolation. LSSC 2021: 188-197 - 2020
- [j43]Krassimir Georgiev, Zahari Zlatev, Ivan Georgiev:
Numerical Methods for Scientific Computations and Advanced Applications II: Preface. Comput. Math. Appl. 80(2): 285 (2020) - [j42]Zahari Zlatev, Ivan Dimov, István Faragó, Krassimir Georgiev, Ágnes Havasi:
Explicit Runge-Kutta Methods Combined with Advanced Versions of the Richardson Extrapolation. Comput. Methods Appl. Math. 20(4): 739-762 (2020) - [j41]Zahari Zlatev, Pasqua D'Ambra, István Faragó, Vladimir Shaydurov, Lubin G. Vulkov:
Advanced numerical methods for complex scientific and engineering problems: Editorial introduction. J. Comput. Appl. Math. 372: 112596 (2020) - [c73]Venelin Todorov, Ivan Dimov, Tzvetan Ostromsky, Zahari Zlatev, Rayna Georgieva, Stoyan Poryazov:
Sensitivity Study of a Large-Scale Air Pollution Model by Using Optimized Latin Hyprecube Sampling. WCO@FedCSIS 2020: 371-387 - [c72]Venelin Todorov, Ivan Dimov, Tzvetan Ostromsky, Zahari Zlatev, Rayna Georgieva, Stoyan Poryazov:
Optimized Quasi-Monte Carlo Methods Based on Van der Corput Sequence for Sensitivity Analysis in Air Pollution Modelling. WCO@FedCSIS 2020: 389-405
2010 – 2019
- 2019
- [c71]Venelin Todorov, Ivan Dimov, Tzvetan Ostromsky, Zahari Zlatev:
Advanced Quasi-Monte Carlo Algorithms for Multidimensional Integrals in Air Pollution Modelling. HPC 2019: 155-167 - [c70]Tzvetan Ostromsky, Venelin Todorov, Ivan Dimov, Zahari Zlatev:
Sensitivity Studies of an Air Pollution Model by Using Efficient Stochastic Algorithms for Multidimensional Numerical Integration. HPC 2019: 184-195 - [c69]Zahari Zlatev, Ivan Dimov, István Faragó, Krassimir Georgiev, Ágnes Havasi:
Studying the Influence of Climate Changes on European Ozone Levels. LSSC 2019: 391-399 - [c68]Tzvetan Ostromsky, Venelin Todorov, Ivan Dimov, Zahari Zlatev:
Efficient Stochastic Algorithms for the Sensitivity Analysis Problem in the Air Pollution Modelling. LSSC 2019: 420-428 - 2018
- [j40]Zahari Zlatev, Pasqua D'Ambra, István Faragó, Imre Fekete:
Numerical Methods for Advanced Scientific Models: Editorial Introduction. J. Comput. Appl. Math. 340: 421-423 (2018) - [c67]Zahari Zlatev, Ivan Dimov, István Faragó, Krassimir Georgiev, Ágnes Havasi:
Stability Properties of Repeated Richardson Extrapolation Applied Together with Some Implicit Runge-Kutta Methods. FDM 2018: 114-125 - [c66]Zahari Zlatev, Ivan Dimov, István Faragó, Krassimir Georgiev, Ágnes Havasi:
Absolute Stability and Implementation of the Two-Times Repeated Richardson Extrapolation Together with Explicit Runge-Kutta Methods. FDM 2018: 678-686 - [c65]Tzvetan Ostromsky, Ivan Dimov, Venelin Todorov, Zahari Zlatev:
Sensitivity Analysis of an Air Pollution Model by Using Quasi-Monte Carlo Algorithms for Multidimensional Numerical Integration. NMA 2018: 281-289 - 2017
- [j39]Zahari Zlatev, Ivan Dimov, Krassimir Georgiev, Svetozar Margenov:
Numerical algorithms for scientific and engineering applications. J. Comput. Appl. Math. 310: 1-4 (2017) - [j38]Zahari Zlatev, Ivan Dimov, István Faragó, Krassimir Georgiev, Ágnes Havasi:
Stability of the Richardson Extrapolation combined with some implicit Runge-Kutta methods. J. Comput. Appl. Math. 310: 224-240 (2017) - [c64]Zahari Zlatev, Ivan Dimov, Krassimir Georgiev, Radim Blaheta:
Using Advanced Mathematical Tools in Complex Studies Related to Climate Changes and High Pollution Levels. LSSC 2017: 552-559 - 2016
- [j37]Zahari Zlatev, Ivan Dimov, Ivan Lirkov:
Efficient numerical methods for large-scale scientific computations: Introduction. J. Comput. Appl. Math. 293: 1-6 (2016) - [c63]Tzvetan Ostromsky, Vassil Alexandrov, Ivan Dimov, Zahari Zlatev:
On the Performance, Scalability and Sensitivity Analysis of a Large Air Pollution Model. ICCS 2016: 2053-2061 - 2015
- [j36]Tzvetan Ostromsky, Ivan Dimov, Vassil Alexandrov, Zahari Zlatev:
Preparing input data for sensitivity analysis of an air pollution model by using high-performance supercomputers and algorithms. Comput. Math. Appl. 70(11): 2773-2782 (2015) - [c62]Zahari Zlatev, Krassimir Georgiev, Ivan Dimov:
Selecting Explicit Runge-Kutta Methods with Improved Stability Properties. LSSC 2015: 409-416 - 2014
- [j35]István Faragó, Krassimir Georgiev, Ágnes Havasi, Zahari Zlatev:
Efficient algorithms for large scale scientific computations: Introduction. Comput. Math. Appl. 67(12): 2085-2087 (2014) - [j34]Zahari Zlatev, Ivan Dimov, István Faragó, Krassimir Georgiev, Ágnes Havasi, Tzvetan Ostromsky:
Application of Richardson extrapolation for multi-dimensional advection equations. Comput. Math. Appl. 67(12): 2279-2293 (2014) - [j33]Zahari Zlatev, Krassimir Georgiev, Ivan Dimov:
Studying absolute stability properties of the Richardson Extrapolation combined with explicit Runge-Kutta methods. Comput. Math. Appl. 67(12): 2294-2307 (2014) - 2013
- [j32]István Faragó, Krassimir Georgiev, Ágnes Havasi, Zahari Zlatev:
Efficient numerical methods for scientific applications: Introduction. Comput. Math. Appl. 65(3): 297-300 (2013) - [j31]Ivan Dimov, Rayna Georgieva, Tzvetan Ostromsky, Zahari Zlatev:
Advanced algorithms for multidimensional sensitivity studies of large-scale air pollution models based on Sobol sequences. Comput. Math. Appl. 65(3): 338-351 (2013) - [j30]István Faragó, Ágnes Havasi, Zahari Zlatev:
The convergence of diagonally implicit Runge-Kutta methods combined with Richardson extrapolation. Comput. Math. Appl. 65(3): 395-401 (2013) - [j29]Zahari Zlatev, Krassimir Georgiev, Ivan Dimov:
Influence of climatic changes on pollution levels in the Balkan Peninsula. Comput. Math. Appl. 65(3): 544-562 (2013) - [c61]Zahari Zlatev, Krassimir Georgiev, Ivan Dimov:
Stability Properties of Explicit Runge-Kutta Methods Combined with Richardson Extrapolation. LSSC 2013: 428-435 - 2012
- [c60]Ivan Dimov, Rayna Georgieva, Tzvetan Ostromsky, Zahari Zlatev:
Variance-Based Sensitivity Analysis of the Unified Danish Eulerian Model According to Variations of Chemical Rates. NAA 2012: 247-254 - [c59]Tzvetan Ostromsky, Ivan Dimov, Rayna Georgieva, Pencho Marinov, Zahari Zlatev:
High Performance Computing of Data for a New Sensitivity Analysis Algorithm, Applied in an Air Pollution Model. NAA 2012: 428-436 - 2011
- [j28]Krassimir Georgiev, Zahari Zlatev:
Implementation of sparse matrix algorithms in an advection-diffusion-chemistry module. J. Comput. Appl. Math. 236(3): 342-353 (2011) - [c58]Krassimir Georgiev, Tzvetan Ostromsky, Zahari Zlatev:
New Parallel Implementation of an Air Pollution Computer Model - Performance Study on an IBM Blue Gene/P Computer. LSSC 2011: 283-290 - [c57]Tzvetan Ostromsky, Ivan Dimov, Rayna Georgieva, Zahari Zlatev:
Parallel Computation of Sensitivity Analysis Data for the Danish Eulerian Model. LSSC 2011: 307-315 - 2010
- [j27]István Faragó, Ágnes Havasi, Zahari Zlatev:
Efficient implementation of stable Richardson Extrapolation algorithms. Comput. Math. Appl. 60(8): 2309-2325 (2010) - [j26]István Faragó, Ágnes Havasi, Svetozar Margenov, Zahari Zlatev:
Special Issue on Advanced Computational Algorithms: Introduction. J. Comput. Appl. Math. 235(2): 345-347 (2010) - [j25]Ivan Dimov, Rayna Georgieva, Sofiya Ivanovska, Tzvetan Ostromsky, Zahari Zlatev:
Studying the sensitivity of pollutants' concentrations caused by variations of chemical rates. J. Comput. Appl. Math. 235(2): 391-402 (2010) - [j24]Zahari Zlatev, István Faragó, Ágnes Havasi:
Stability of the Richardson Extrapolation applied together with the θ-method. J. Comput. Appl. Math. 235(2): 507-517 (2010) - [c56]Krassimir Georgiev, Zahari Zlatev:
Specialized Sparse Matrices Solver in the Chemical Part of an Environmental Model. NMA 2010: 158-166 - [c55]Zahari Zlatev, Ivan Dimov, István Faragó, Krassimir Georgiev, Ágnes Havasi, Tzvetan Ostromsky:
Richardson Extrapolated Numerical Methods for Treatment of One-Dimensional Advection Equations. NMA 2010: 198-206
2000 – 2009
- 2009
- [c54]Zahari Zlatev, István Faragó, Ágnes Havasi:
On Some Stability Properties of the Richardson Extrapolation Applied Together with the theta-Method. LSSC 2009: 54-66 - [c53]Krassimir Georgiev, Zahari Zlatev:
Runs of UNI-DEM Model on IBM Blue Gene/P Computer and Analysis of the Model Performance. LSSC 2009: 188-196 - [c52]Tzvetan Ostromsky, Ivan Dimov, Rayna Georgieva, Zahari Zlatev:
Sensitivity Analysis of a Large-Scale Air Pollution Model: Numerical Aspects and a Highly Parallel Implementation. LSSC 2009: 197-205 - 2008
- [j23]István Faragó, Ágnes Havasi, Zahari Zlatev:
Special issue on advanced numerical algorithms for large-scale computations: Introduction. Comput. Math. Appl. 55(10): 2183-2184 (2008) - [j22]Per Grove Thomsen, Zahari Zlatev:
Development of a data assimilation algorithm. Comput. Math. Appl. 55(10): 2381-2393 (2008) - [j21]Ivan Dimov, Jack J. Dongarra, Kaj Madsen, Jerzy Wasniewski, Zahari Zlatev:
Special section: Applications of distributed and grid computing. Future Gener. Comput. Syst. 24(6): 582-584 (2008) - [c51]Tzvetan Ostromsky, Ivan Dimov, Zahari Zlatev:
Parallel Performance and Scalability Experiments with the Danish Eulerian Model on the EPCC Supercomputers. NAA 2008: 447-453 - [p1]Zahari Zlatev:
Environmental Science Computing. Wiley Encyclopedia of Computer Science and Engineering 2008 - 2007
- [j20]Jerzy Wasniewski, Jack J. Dongarra, Kaj Madsen, Sivan Toledo, Zahari Zlatev:
Editorial introduction to the special issue on computational linear algebra and sparse matrix computations. Appl. Algebra Eng. Commun. Comput. 18(3): 205-207 (2007) - [j19]Zahari Zlatev, Jørgen Brandt:
Testing the accuracy of a data assimilation algorithm. Int. J. Comput. Sci. Eng. 3(4): 305-313 (2007) - [c50]István Faragó, Krassimir Georgiev, Zahari Zlatev:
Parallelization of Advection-Diffusion-Chemistry Modules. LSSC 2007: 28-39 - [c49]Kostadin Ganev, Dimiter Syrakov, Zahari Zlatev:
Effective Indices for Emissions from Road Transport. LSSC 2007: 401-409 - 2006
- [c48]Philcho Philipov, Vladimir Lazarov, Zahari Zlatev, M. Ivanova:
A Parallel Architecture for Radix-2 Fast Fourier Transform. John Vincent Atanasoff Symposium 2006: 229-234 - [c47]Zahari Zlatev:
On Some Computational Aspects of the Variational Data Assimilation Techniques. Numerical Methods and Applications 2006: 28-39 - [c46]Tzvetan Ostromsky, Zahari Zlatev:
Parallel and GRID Implementation of a Large Scale Air Pollution Model. Numerical Methods and Applications 2006: 475-482 - [c45]Per Grove Thomsen, Zahari Zlatev:
Studying the Properties of Variational Data Assimilation Methods by Applying a Set of Test-Examples. Numerical Methods and Applications 2006: 492-499 - 2005
- [c44]Zahari Zlatev:
Parallel Treatment of General Sparse Matrices. LSSC 2005: 53-64 - [c43]Zahari Zlatev, Jørgen Brandt:
Testing Variational Data Assimilation Modules. LSSC 2005: 395-402 - 2004
- [j18]Vassil N. Alexandrov, Wojciech Owczarz, Per Grove Thomsen, Zahari Zlatev:
Parallel runs of a large air pollution model on a grid of Sun computers. Math. Comput. Simul. 65(6): 557-577 (2004) - [j17]Ivan T. Dimov, István Faragó, Ágnes Havasi, Zahari Zlatev:
Operator splitting and commutativity analysis in the Danish Eulerian Model. Math. Comput. Simul. 67(3): 217-233 (2004) - [c42]Vassil N. Alexandrov, Zahari Zlatev:
Using Parallel Monte Carlo Methods in Large-Scale Air Pollution Modelling. International Conference on Computational Science 2004: 491-498 - [c41]Tzvetan Ostromsky, Ivan Dimov, Zahari Zlatev:
Parallel Implementation and One Year Experiments with the Danish Eulerian Model. NAA 2004: 440-447 - [c40]Zahari Zlatev:
Large-Scale Computations with the Unified Danish Eulerian Model. PARA 2004: 43-52 - [c39]Zahari Zlatev, Krassimir Georgiev:
Treatment of Large Scientific Problems: An Introduction. PARA 2004: 828-830 - 2003
- [c38]Zahari Zlatev:
Parallel Solution of Very Large Sparse Systems of Linear Algebraic Equations. LSSC 2003: 53-64 - [c37]Anton Antonov, Krassimir Georgiev, Emilia Komsalova, Zahari Zlatev:
Comparison of Two Local Refinement Methods for Large Scale Air Pollution Simulations. LSSC 2003: 287-294 - [c36]Zahari Zlatev, Dimiter Syrakov:
Studying High Ozine Levels in Bulgaria and Europe. LSSC 2003: 337-344 - [c35]Zahari Zlatev:
Comprehensive Air Pollution Studies with the Unified Danish Eulerian Model. PPAM 2003: 1125-1137 - [e1]Ivan Dimov, Ivan Lirkov, Svetozar Margenov, Zahari Zlatev:
Numerical Methods and Applications, 5th International Conference, NMA 2002, Borovets, Bulgaria, August 20-24, 2002, Revised Papers. Lecture Notes in Computer Science 2542, Springer 2003, ISBN 3-540-00608-7 [contents] - 2002
- [j16]Wojciech Owczarz, Zahari Zlatev:
Parallel matrix computations in air pollution modelling. Parallel Comput. 28(2): 355-368 (2002) - [c34]Kyle A. Gallivan, Ahmed H. Sameh, Zahari Zlatev:
Comparison of Ten Methods for the Solution of Large and Sparse Linear Algebraic Systems. Numerical Methods and Application 2002: 24-35 - [c33]Anton Antonov, Krassimir Georgiev, Emilia Komsalova, Zahari Zlatev:
Implementation of Bilinear Nonconforming Finite Elements in an Eulerian Air Pollution Model: Results Obtained by Using the Rotational Test. Numerical Methods and Application 2002: 379-386 - [c32]Tzvetan Ostromsky, Zahari Zlatev:
Flexible Two-Level Parallel Implementations of a Large Air Pollution Model. Numerical Methods and Application 2002: 545-554 - 2001
- [c31]Zahari Zlatev:
Efficient Treatment of Large-Scale Air Pollution Models on Supercomputers. International Conference on Computational Science (2) 2001: 82-94 - [c30]Tzvetan Ostromsky, Wojciech Owczarz, Zahari Zlatev:
Computational challenges in large-scale air pollution modelling. ICS 2001: 407-418 - [c29]Zahari Zlatev:
Time-Integration Algorithms for the Computer Treatment of the Horizontal Advection in Air Pollution Models. LSSC 2001: 81-94 - [c28]Krassimir Georgiev, Zahari Zlatev:
Fine-Grid Resolution in Danish Eulerian Model and an Implementation on SGI Origin 2000 Computer. LSSC 2001: 272-280 - [c27]Tzvetan Ostromsky, Zahari Zlatev:
Parallel Implementation of a Large-Scale 3-D Air Pollution Model. LSSC 2001: 309-316 - 2000
- [j15]Jørgen Brandt, Jesper H. Christensen, Lise M. Frohn, Zahari Zlatev:
Numerical modelling of transport, dispersion, and deposition - validation against ETEX-1, ETEX-2 and Chernobyl. Environ. Model. Softw. 15(6-7): 521-531 (2000) - [c26]Tzvetan Ostromsky, Ivan Dimov, Ilia Tzvetanov, Zahari Zlatev:
Estimation of the Wheat Losses Caused by the Tropospheric Ozone in Bulgaria and Denmark. NAA 2000: 636-643
1990 – 1999
- 1999
- [j14]Krassimir Georgiev, Zahari Zlatev:
Parallel Sparse Matrix Algorithms for Air Pollution Models. Parallel Distributed Comput. Pract. 2(4) (1999) - [c25]Zahari Zlatev:
Application of Special Sparse Solvers in the Chemical Part of Air Pollution Models. LSSC 1999: 42-54 - [c24]Ivan Dimov, Tzvetan Ostromsky, Ilia Tzvetanov, Zahari Zlatev:
Economical Estimation of the Losses of Crops Due to High Ozone Levels. LSSC 1999: 275-282 - [c23]Krassimir Georgiev, Zahari Zlatev:
Some Numerical Experiments with the Parallel Version of the Two-Dimensional Danish Eulerian Model. LSSC 1999: 283-291 - 1998
- [j13]Tzvetan Ostromsky, Per Christian Hansen, Zahari Zlatev:
A Coarse-Grained Parallel QR-Factorization Algorithm for Sparse Least Squares Problems. Parallel Comput. 24(5-6): 937-964 (1998) - [c22]Krassimir Georgiev, Zahari Zlatev:
Running an Advection-Chemistry Code on Message Passing Computers. PVM/MPI 1998: 354-363 - 1997
- [c21]Jørgen Brandt, Zahari Zlatev:
Studying Long-Range Transport from Accidental Nuclear Releases by Mathematical Models. LSSC 1997: 136-144 - [c20]Jørgen Brandt, Zahari Zlatev:
Efficient Algorithms for the Chemical Part of Large Air Pollution Models. LSSC 1997: 145-154 - [c19]Ivan Dimov, Krassimir Georgiev, Zahari Zlatev:
Long-Range Transport of Air Pollutants and Source-Receptor Relation. LSSC 1997: 155-166 - [c18]Ivan Dimov, Zahari Zlatev:
Testing the Sensitivity of Air Pollution Levels to Variations of Some Chemical Rate Constants. LSSC 1997: 167-175 - [c17]Tzvetan Ostromsky, Zahari Zlatev:
Application of Sparse Matrix Techniques in the Chemical Part of a Large Air Pollution Model. LSSC 1997: 189-200 - [c16]M. Georgieva, Vladimir Lazarov, D. Petrov, Philcho Philipov, M. Ivanova, Zahari Zlatev:
Generalized Model of a Massively Parallel Computer. LSSC 1997: 301-309 - [c15]Claus Bendtsen, Zahari Zlatev:
Running Large-Scale Air Pollution Models on Message Passing Machines. PVM/MPI 1997: 417-426 - 1996
- [c14]Jørgen Brandt, Jesper H. Christensen, Ivan Dimov, Krassimir Georgiev, I. Uria, Zahari Zlatev:
Treatment of Large Air Pollution Models. WNAA 1996: 66-77 - [c13]Tzvetan Ostromsky, Zahari Zlatev:
Using Dense Matrix Computations in the Solution of Sparse Problems. WNAA 1996: 357-364 - [c12]Stig Skelboe, Zahari Zlatev:
Exploiting the Natural Partitioning in the Numerical Solution of ODE Systems Arising in Atmospheric Chemistry. WNAA 1996: 458-465 - [c11]Jørgen Brandt, Ivan Dimov, Krassimir Georgiev, Jerzy Wasniewski, Zahari Zlatev:
Coupling the Advection and the Chemical Parts of Large Air Pollution Models. PARA 1996: 65-76 - [c10]Tzvetan Ostromsky, Stefano Salvini, Jerzy Wasniewski, Zahari Zlatev:
Parallel Solution of Sparse Problems by Using a Sequence of Large Dense Blocks. PARA 1996: 555-564 - 1995
- [j12]Kyle A. Gallivan, Per Christian Hansen, Tzvetan Ostromsky, Zahari Zlatev:
Locally Optimized Reordering Algorithm and its Application to a Parallel Sparse Linear System Solver. Computing 54(1): 39-68 (1995) - [j11]John Brown, Jerzy Wasniewski, Zahari Zlatev:
Running Air Pollution Models on Massively Parallel Machines. Parallel Comput. 21(6): 971-991 (1995) - [c9]Ivan Dimov, Krassimir Georgiev, Jerzy Wasniewski, Zahari Zlatev:
Three-Dimensional Version of the Danish Eulerian Model. PARA 1995: 151-157 - [c8]Tzvetan Ostromsky, Per Christian Hansen, Zahari Zlatev:
A Parallel Sparse QR-Factorization Algorithm. PARA 1995: 462-472 - [c7]Zahari Zlatev, Ivan Dimov, Krassimir Georgiev, Jerzy Wasniewski:
Parallel Computations with Large Atmospheric Models. PARA 1995: 550-560 - [c6]John Brown, Per Christian Hansen, P. Kaae, C. Keable, Wojciech Owczarz, Jerzy Wasniewski, Zahari Zlatev:
Comparison of Parallel Computers Using Air Pollution Models. PP 1995: 113-118 - 1994
- [c5]Bjarne Stig Andersen, P. Kaae, C. Keable, Wojciech Owczarz, Jerzy Wasniewski, Zahari Zlatev:
PVM Implementations of Advection-Chemistry Modules of Air Pollution Models. PARA 1994: 11-16 - [c4]John Brown, Per Christian Hansen, Jerzy Wasniewski, Zahari Zlatev:
Comparison of Massively Parallel SIMD Computers Using Air Pollution Models. PARA 1994: 110-126 - [c3]Per Christian Hansen, Tzvetan Ostromsky, Zahari Zlatev:
Two Enhancements in a Partitioned Sparse Code. PARA 1994: 296-303 - [c2]Zahari Zlatev, Jerzy Wasniewski:
PARASPAR: Parallel Solvers for Sparse Linear Algebraic Systems. PARA 1994: 547-556 - 1990
- [c1]Kyle A. Gallivan, Ahmed H. Sameh, Zahari Zlatev:
Solving general sparse linear systems using conjugate gradient-type methods. ICS 1990: 132-139
1980 – 1989
- 1988
- [j10]Zahari Zlatev:
Treatment of some mathematical models describing long-range transport of air pollutants on vector processors. Parallel Comput. 6(1): 87-98 (1988) - [j9]Zahari Zlatev, Phuong Vu, Jerzy Wasniewski, Kjeld Schaumburg:
Computations with symmetric, positive definite and band matrices on a parallel vector processor. Parallel Comput. 8(1-3): 301-312 (1988) - 1983
- [b2]Ole Østerby, Zahari Zlatev:
Direct Methods for Sparse Matrices. Lecture Notes in Computer Science 157, Springer 1983, ISBN 3-540-12676-7 - [j8]Zahari Zlatev:
Consistency and convergence of general linear multistep variable stepsize variable formula methods. Computing 31(1): 47-67 (1983) - 1982
- [j7]Jerzy Wasniewski, Zahari Zlatev, Kjeld Schaumburg:
A method for reduction of the storage requirement by the use of some special computer facilities; application to linear systems of algebraic equations. Comput. Chem. 6(4): 181-192 (1982) - 1981
- [b1]Zahari Zlatev, Jerzy Wasniewski, Kjeld Schaumburg:
Y12M - Solution of Large and Sparse Systems of Linear Algebraic Equations. Lecture Notes in Computer Science 121, Springer 1981, ISBN 3-540-10874-2 - [j6]Zahari Zlatev, Kjeld Schaumburg, Jerzy Wasniewski:
A testing scheme for subroutines solving large linear problems. Comput. Chem. 5(2-3): 91-100 (1981) - 1980
- [j5]Kjeld Schaumburg, Jerzy Wasniewski, Zahari Zlatev:
The use of sparse matrix technique in the numerical integration of stiff systems of linear ordinary differential equations. Comput. Chem. 4(1): 1-12 (1980) - [j4]Kjeld Schaumburg, Jerzy Wasniewski, Zahari Zlatev:
Classification of the systems of ordinary differential equations and practical aspects in the numerical integration of large systems. Comput. Chem. 4(1): 13-18 (1980) - [j3]Zahari Zlatev, Kjeld Schaumburg, Jerzy Wasniewski:
Implementation of an iterative refinement option in a code for large and sparse systems. Comput. Chem. 4(2): 87-100 (1980)
1970 – 1979
- 1979
- [j2]Kjeld Schaumburg, Jerzy Wasniewski, Zahari Zlatev:
Solution of ordinary differential equations with time dependent coefficients. Development of a semiexplicit Runge-Kutta algorithm and application to a spectroscopic problem. Comput. Chem. 3(2-4): 57-64 (1979) - [j1]Zahari Zlatev, Per Grove Thomsen:
Automatic Solution of Differential Equations Based on the User of Linear Multistep Methods. ACM Trans. Math. Softw. 5(4): 401-414 (1979)
Coauthor Index
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