2008 |
69 | EE | Tzvetan Ostromsky,
Ivan Dimov,
Zahari Zlatev:
Parallel Performance and Scalability Experiments with the Danish Eulerian Model on the EPCC Supercomputers.
NAA 2008: 447-453 |
68 | EE | Zahari Zlatev:
Environmental Science Computing.
Wiley Encyclopedia of Computer Science and Engineering 2008 |
67 | EE | Ivan Dimov,
Jack Dongarra,
Kaj Madsen,
Jerzy Wasniewski,
Zahari Zlatev:
Special section: Applications of distributed and grid computing.
Future Generation Comp. Syst. 24(6): 582-584 (2008) |
2007 |
66 | EE | Jerzy Wasniewski,
Jack 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) |
65 | EE | Jerzy Wasniewski,
Jack 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) |
2006 |
64 | EE | Zahari Zlatev:
On Some Computational Aspects of the Variational Data Assimilation Techniques.
Numerical Methods and Applications 2006: 28-39 |
63 | EE | Tzvetan Ostromsky,
Zahari Zlatev:
Parallel and GRID Implementation of a Large Scale Air Pollution Model.
Numerical Methods and Applications 2006: 475-482 |
62 | EE | 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 |
61 | EE | Zahari Zlatev,
Jørgen Brandt:
Testing Variational Data Assimilation Modules.
LSSC 2005: 395-402 |
60 | EE | Zahari Zlatev:
Parallel Treatment of General Sparse Matrices.
LSSC 2005: 53-64 |
2004 |
59 | EE | Vassil N. Alexandrov,
Zahari Zlatev:
Using Parallel Monte Carlo Methods in Large-Scale Air Pollution Modelling.
International Conference on Computational Science 2004: 491-498 |
58 | EE | Tzvetan Ostromsky,
Ivan Dimov,
Zahari Zlatev:
Parallel Implementation and One Year Experiments with the Danish Eulerian Model.
NAA 2004: 440-447 |
57 | EE | Zahari Zlatev:
Large-Scale Computations with the Unified Danish Eulerian Model.
PARA 2004: 43-52 |
56 | EE | Zahari Zlatev,
Krassimir Georgiev:
Treatment of Large Scientific Problems: An Introduction.
PARA 2004: 828-830 |
55 | EE | Vassil N. Alexandrov,
Wojciech Owczarz,
P. G. Thomson,
Zahari Zlatev:
Parallel runs of a large air pollution model on a grid of Sun computers.
Mathematics and Computers in Simulation 65(6): 557-577 (2004) |
54 | EE | Ivan Todor Dimov,
István Faragó,
Ágnes Havasi,
Zahari Zlatev:
Operator splitting and commutativity analysis in the Danish Eulerian Model.
Mathematics and Computers in Simulation 67(3): 217-233 (2004) |
2003 |
53 | | 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
Springer 2003 |
52 | EE | Anton Antonov,
Krassimir Georgiev,
Emilia Komsalova,
Zahari Zlatev:
Comparison of Two Local Refinement Methods for Large Scale Air Pollution Simulations.
LSSC 2003: 287-294 |
51 | EE | Zahari Zlatev,
Dimiter Syrakov:
Studying High Ozine Levels in Bulgaria and Europe.
LSSC 2003: 337-344 |
50 | EE | Zahari Zlatev:
Parallel Solution of Very Large Sparse Systems of Linear Algebraic Equations.
LSSC 2003: 53-64 |
49 | EE | Zahari Zlatev:
Comprehensive Air Pollution Studies with the Unified Danish Eulerian Model.
PPAM 2003: 1125-1137 |
2002 |
48 | EE | Kyle 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 |
47 | EE | 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 |
46 | EE | Tzvetan Ostromsky,
Zahari Zlatev:
Flexible Two-Level Parallel Implementations of a Large Air Pollution Model.
Numerical Methods and Application 2002: 545-554 |
45 | | Wojciech Owczarz,
Zahari Zlatev:
Parallel matrix computations in air pollution modelling.
Parallel Computing 28(2): 355-368 (2002) |
2001 |
44 | EE | Tzvetan Ostromsky,
Wojciech Owczarz,
Zahari Zlatev:
Computational challenges in large-scale air pollution modelling.
ICS 2001: 407-418 |
43 | EE | Zahari Zlatev:
Efficient Treatment of Large-Scale Air Pollution Models on Supercomputers.
International Conference on Computational Science (2) 2001: 82-94 |
42 | EE | Krassimir Georgiev,
Zahari Zlatev:
Fine-Grid Resolution in Danish Eulerian Model and an Implementation on SGI Origin 2000 Computer.
LSSC 2001: 272-280 |
41 | EE | Tzvetan Ostromsky,
Zahari Zlatev:
Parallel Implementation of a Large-Scale 3-D Air Pollution Model.
LSSC 2001: 309-316 |
40 | EE | Zahari Zlatev:
Time-Integration Algorithms for the Computer Treatment of the Horizontal Advection in Air Pollution Models.
LSSC 2001: 81-94 |
2000 |
39 | EE | 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 |
38 | | 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.
Environmental Modelling and Software 15(6-7): 521-531 (2000) |
1999 |
37 | | Ivan Dimov,
Tzvetan Ostromsky,
Ilia Tzvetanov,
Zahari Zlatev:
Economical Estimation of the Losses of Crops Due to High Ozone Levels.
LSSC 1999: 275-282 |
36 | | Krassimir Georgiev,
Zahari Zlatev:
Some Numerical Experiments with the Parallel Version of the Two-Dimensional Danish Eulerian Model.
LSSC 1999: 283-291 |
1998 |
35 | EE | Krassimir Georgiev,
Zahari Zlatev:
Running an Advection-Chemistry Code on Message Passing Computers.
PVM/MPI 1998: 354-363 |
34 | | Tzvetan Ostromsky,
Per Christian Hansen,
Zahari Zlatev:
A Coarse-Grained Parallel QR-Factorization Algorithm for Sparse Least Squares Problems.
Parallel Computing 24(5-6): 937-964 (1998) |
1997 |
33 | | Jørgen Brandt,
Zahari Zlatev:
Studying Long-Range Transport from Accidental Nuclear Releases by Mathematical Models.
LSSC 1997: 136-144 |
32 | | Jørgen Brandt,
Zahari Zlatev:
Efficient Algorithms for the Chemical Part of Large Air Pollution Models.
LSSC 1997: 145-154 |
31 | | Ivan Dimov,
Krassimir Georgiev,
Zahari Zlatev:
Long-Range Transport of Air Pollutants and Source-Receptor Relation.
LSSC 1997: 155-166 |
30 | | Ivan Dimov,
Zahari Zlatev:
Testing the Sensitivity of Air Pollution Levels to Variations of Some Chemical Rate Constants.
LSSC 1997: 167-175 |
29 | | Tzvetan Ostromsky,
Zahari Zlatev:
Application of Sparse Matrix Techniques in the Chemical Part of a Large Air Pollution Model.
LSSC 1997: 189-200 |
28 | | Claus Bendtsen,
Zahari Zlatev:
Running Large-Scale Air Pollution Models on Message Passing Machines.
PVM/MPI 1997: 417-426 |
1996 |
27 | | 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 |
26 | | 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 |
25 | | Tzvetan Ostromsky,
Zahari Zlatev:
Using Dense Matrix Computations in the Solution of Sparse Problems.
WNAA 1996: 357-364 |
24 | | Stig Skelboe,
Zahari Zlatev:
Exploiting the Natural Partitioning in the Numerical Solution of ODE Systems Arising in Atmospheric Chemistry.
WNAA 1996: 458-465 |
23 | | Jørgen Brandt,
Jesper H. Christensen,
Ivan Dimov,
Krassimir Georgiev,
I. Uria,
Zahari Zlatev:
Treatment of Large Air Pollution Models.
WNAA 1996: 66-77 |
1995 |
22 | | Ivan Dimov,
Krassimir Georgiev,
Jerzy Wasniewski,
Zahari Zlatev:
Three-Dimensional Version of the Danish Eulerian Model.
PARA 1995: 151-157 |
21 | | Tzvetan Ostromsky,
Per Christian Hansen,
Zahari Zlatev:
A Parallel Sparse QR-Factorization Algorithm.
PARA 1995: 462-472 |
20 | | Zahari Zlatev,
Ivan Dimov,
Krassimir Georgiev,
Jerzy Wasniewski:
Parallel Computations with Large Atmospheric Models.
PARA 1995: 550-560 |
19 | | John Brown,
Per Christian Hansen,
P. Kaae,
C. Keable,
Wojciech Owczarz,
Jerzy Wasniewski,
Zahari Zlatev:
Comparison of Parallel Computers Using Air Pollution Models.
PPSC 1995: 113-118 |
18 | EE | Kyle 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) |
17 | | John Brown,
Jerzy Wasniewski,
Zahari Zlatev:
Running Air Pollution Models on Massively Parallel Machines.
Parallel Computing 21(6): 971-991 (1995) |
1994 |
16 | | 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 |
15 | | John Brown,
Per Christian Hansen,
Jerzy Wasniewski,
Zahari Zlatev:
Comparison of Massively Parallel SIMD Computers Using Air Pollution Models.
PARA 1994: 110-126 |
14 | | Per Christian Hansen,
Tzvetan Ostromsky,
Zahari Zlatev:
Two Enhancements in a Partitioned Sparse Code.
PARA 1994: 296-303 |
13 | | Zahari Zlatev,
Jerzy Wasniewski:
PARASPAR: Parallel Solvers for Sparse Linear Algebraic Systems.
PARA 1994: 547-556 |
1990 |
12 | EE | Kyle Gallivan,
Ahmed H. Sameh,
Zahari Zlatev:
Solving general sparse linear systems using conjugate gradient-type methods.
ICS 1990: 132-139 |
1988 |
11 | EE | Zahari Zlatev:
Treatment of some mathematical models describing long-range transport of air pollutants on vector processors.
Parallel Computing 6(1): 87-98 (1988) |
10 | | Zahari Zlatev,
Phuong Vu,
Jerzy Wasniewski,
Kjeld Schaumburg:
Computations with symmetric, positive definite and band matrices on a parallel vector processor.
Parallel Computing 8(1-3): 301-312 (1988) |
1983 |
9 | | Ole Østerby,
Zahari Zlatev:
Direct Methods for Sparse Matrices
Springer 1983 |
1982 |
8 | EE | 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.
Computers & Chemistry 6(4): 181-192 (1982) |
1981 |
7 | | Zahari Zlatev,
Jerzy Wasniewski,
Kjeld Schaumburg:
Y12M - Solution of Large and Sparse Systems of Linear Algebraic Equations
Springer 1981 |
6 | EE | Zahari Zlatev,
Kjeld Schaumburg,
Jerzy Wasniewski:
A testing scheme for subroutines solving large linear problems.
Computers & Chemistry 5(2-3): 91-100 (1981) |
1980 |
5 | EE | Kjeld Schaumburg,
Jerzy Wasniewski,
Zahari Zlatev:
The use of sparse matrix technique in the numerical integration of stiff systems of linear ordinary differential equations.
Computers & Chemistry 4(1): 1-12 (1980) |
4 | EE | Kjeld Schaumburg,
Jerzy Wasniewski,
Zahari Zlatev:
Classification of the systems of ordinary differential equations and practical aspects in the numerical integration of large systems.
Computers & Chemistry 4(1): 13-18 (1980) |
3 | EE | Zahari Zlatev,
Kjeld Schaumburg,
Jerzy Wasniewski:
Implementation of an iterative refinement option in a code for large and sparse systems.
Computers & Chemistry 4(2): 87-100 (1980) |
1979 |
2 | EE | 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) |
1 | EE | 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.
Computers & Chemistry 3(2-4): 57-64 (1979) |