Refereed Journal Publications

  1. M. D. Ruiz-Cabello, M. Abaļenkovs, L. D. Angulo, C. C. Sanchez, F. Moglie, and S. D. G. Garcia, “Performance of Parallel FDTD Method for Shared- and Distributed-Memory Architectures: Application to Bioelectromagnetics,” PLOS ONE, accepted, 2020.
  2. M. Abaļenkovs, D. Stevens, A. Sunderland, J. Clark, X. Guo, G. Georgakoudis, and S. Scott, “Advancements on parallel 2DRMP: two-dimensional R-matrix propagation codes for multicore architectures,” Comput. Phys. Commun., in preparation, 2020.
  3. M. Abaļenkovs, “Note on the Detection of Optimal Computation Parameters in PLASMA,” SIAM J. on Comput., in preparation, 2020.
  4. M. Abaļenkovs, “Derivation and Efficient Computation of nth Order Finite-Difference Approximations Using Taylor’s Series Expansion,” J. of Comput. and Appl. Math., in preparation, 2020.
  5. M. Abaļenkovs, “Performance Optimisation of Stencil-Based Methods via Matrix Casting Approach,” J. of Comput. and Appl. Math., in preparation, 2020.
  6. J. Dongarra, M. Gates, A. Haidar, J. Kurzak, P. Luszczek, P. Wu, I. Yamazaki, A. Yarkhan, M. Abaļenkovs, N. Bagherpour, J. Šístek, D. Stevens, M. Zounon, and S. D. Relton, “PLASMA: Parallel Linear Algebra Software for Multicore Using OpenMP,” ACM Trans. Math. Softw., vol. 45, no. 2, pp. 16–35, 2019.
  7. J. Dongarra, M. Abaļenkovs, A. Abdelfattah, M. Gates, A. Haidar, J. Kurzak, P. Luszczek, S. Tomov, I. Yamazaki, and A. YarKhan, “Parallel Programming Models for Dense Linear Algebra on Heterogeneous Systems,” Supercomputing Frontiers And Innovations, vol. 2, no. 4, pp. 67–86, 2016 [Online]. Available at: http://superfri.org/superfri/article/view/90
  8. M. Abaļenkovs, F. Costen, J.-P. Bérenger, R. Himeno, H. Yokota, and M. Fujii, “Huygens Subgridding for 3-D Frequency-Dependent Finite-Difference Time-Domain Method,” IEEE Trans. Antennas Propag., vol. 60, no. 9, pp. 4336–4344, Sep. 2012.

Refereed Conference Proceedings1

  1. M. Abaļenkovs*, “Towards Performance Optimisation of the Finite-Difference Time-Domain Method via Matrix Casting,” in Proc. 12th European Conference on Antennas and Propagation EuCAP’18, in preparation, London, UK, 2018.
  2. M. Abaļenkovs*, “Performance Optimisation of Stencil-Based Codes for Shared Memory Architectures,” in Proc. 11th European Conference on Antennas and Propagation EuCAP’17, Paris, France, 2017.  (pdf)
  3. M. Abaļenkovs, F. Costen*, J.-P. Bérenger, R. Himeno, and M. Fujii, “Defibrillation Optimisation via Huygens Subgridding for Finite-Difference Time-Domain Method,” in Proc. IEEE Antennas Propag. Soc. Intern. Symp., Spokane, WA, USA, 2011.  (pdf)
  4. M. Abaļenkovs*, F. Costen, and J.-P. Bérenger, “Huygens Subgridding for Auxiliary Differential Equation–Finite Difference Time Domain,” in Proc. IEEE Antennas Propag. Soc. Intern. Symp., Charleston, SC, USA, 2009.  (pdf)
  5. M. Abaļenkovs, F. Costen*, J.-P. Bérenger, and A. K. Brown, “Application of Huygens Subgridding Technique to Human Body Modelling,” in Proc. IEEE Antennas Propag. Soc. Intern. Symp., San Diego, CA, USA, 2008.  (pdf)
  6. M. Abaļenkovs, F. Costen*, C. Lucas, and A. K. Brown, “Data Format Selection for an I/O-Intensive Large-Scale FDTD,” in Proc. IEEE Antennas Propag. Soc. Intern. Symp., San Diego, CA, USA, 2008.  (pdf)
  7. M. Abaļenkovs*, F. Costen, and A. K. Brown, “Adaptation of HDF5 for FD–FDTD Data Manipulation Tasks,” in Proc. IX International PhD Workshop, OWD’2007, 2007.  (pdf)

Technical Reports

  1. M. Abaļenkovs, “Implementation of LU-factorisation in PLASMA StarPU,” Science and Technology Facilities Council (STFC), 2020.
  2. M. Abaļenkovs, N. Bagherpour, J. Dongarra, M. Gates, A. Haidar, J. Kurzak, P. Luszczek, S. Relton, J. Šístek, D. Stevens, P. Wu, I. Yamazaki, A. YarKhan, and and Mawussi Zounon, “PLASMA 17.1 Functionality Report,” The University of Manchester, UK and The University of Tennessee, US, 2017 [Online]. Available at: http://www.netlib.org/lapack/lawnspdf/lawn293.pdf
  3. M. Abaļenkovs, N. Bagherpour, J. Dongarra, M. Gates, A. Haidar, J. Kurzak, P. Luszczek, S. Relton, J. Šístek, D. Stevens, P. Wu, I. Yamazaki, A. YarKhan, and M. Zounon, “PLASMA 17 Performance Report,” The University of Tennessee, US and The University of Manchester, UK, 2017 [Online]. Available at: http://www.netlib.org/lapack/lawnspdf/lawn292.pdf
  4. M. Abaļenkovs, “Note on Toeplitz Tensor–Random Tensor Convolutions by Means of Fast Fourier Transform (FFT),” Microwave Department, Télécom Bretagne, Institut Mines-Telecom, Technopôle Brest-Iroise, CS 83818, 29238 Brest, CEDEX 3, France, Jul. 2014.
  5. M. Abaļenkovs, A. Peden, and P. Pajusco, “Plate-forme de simulation d’un système radar ACC embarqué sur véhicule : IHM de la plate-forme de simulation Radar,” Microwave Department, Télécom Bretagne, Institut Mines-Telecom, Technopôle Brest-Iroise, CS 83818, 29238 Brest, CEDEX 3, France, Sep. 2014.
  6. M. Abaļenkovs, A. Peden, and P. Pajusco, “Plate-forme de simulation d’un système radar ACC embarqué sur véhicule : IHM de la plate-forme de simulation Radar,” Microwave Department, Télécom Bretagne, Institut Mines-Telecom, Technopôle Brest-Iroise, CS 83818, 29238 Brest, CEDEX 3, France, Apr. 2014.
  7. A. Peden, P. Pajusco, and M. Abaļenkovs, “Plate-forme de simulation d’un système radar ACC embarqué sur véhicule : IHM de la plate-forme de simulation Radar,” Microwave Department, Télécom Bretagne, Institut Mines-Telecom, Technopôle Brest-Iroise, CS 83818, 29238 Brest, CEDEX 3, France, Jan. 2014.
  8. Y. D. Zhang, M. Abaļenkovs, C. Argyropoulos, F. Costen, and A. K. Brown, “Design Study Annual Report,” Microwave and Communication Systems Group, The University of Manchester, UK, EU DS4-T6, Sep. 2007.  (pdf)

Seminar Presentations1

  1. M. Abaļenkovs*, F. Costen, and J.-P. Bérenger, “Subgridding for Finite-Difference Time-Domain Methods,” in Departmental Seminar, Télécom-Bretagne, Brest, France, 2013.
  2. M. Abaļenkovs*, F. Costen, and J.-P. Bérenger, “Huygens Subgridding for Frequency-Dependent Finite-Difference Time-Domain Method,” in Numerical Analysis Seminar, The University of Manchester, UK, 2011.  (pdf)
  3. M. Abaļenkovs*, F. Costen, and J.-P. Bérenger, “Huygens Subgridding for Frequency-Dependent Finite-Difference Time-Domain Method,” in Computational Electromagnetics Meeting, The University of Manchester, UK, 2010.  (pdf)
  4. M. Abaļenkovs*, L. Cebamanos, and F. Costen, “Simulation of Electromagnetic Wave Propagation from an Antenna Element,” in Manchester SKADS Meeting, 2008.  (pdf)

Poster Presentations1

  1. M. Abaļenkovs, D. Stevens, A. Sunderland, and S. Scott, “Towards Parallel 2D R-Matrix Propagation Codes for Multicore Architectures,” Advances in Numerical Linear Algebra: Celebrating the Centenary of the Birth of James H. Wilkinson. The University of Manchester, UK, May-2019.
  2. M. Abaļenkovs*, F. Costen, J.-P. Bérenger, R. Himeno, and M. Fujii, “Application of Huygens Subgridding to Study Defibrillation in Human Body,” 3rd Postgraduate Conference of Engineering and Physical Sciences Faculty. The University of Manchester, UK, Nov-2010.  (pdf)
  3. M. Abaļenkovs*, F. Costen, and J.-P. Bérenger, “Huygens Subgridding with Filtering for Finite-Difference Time-Domain Method,” 2nd Postgraduate Conference of Engineering and Physical Sciences Faculty. The University of Manchester, UK, Nov-2009.  (pdf)

Theses

  1. M. Abaļenkovs, “Huygens Subgridding for the Frequency-Dependent–Finite-Difference Time-Domain Method,” PhD thesis, School of Electrical and Electronic Engineering, The University of Manchester, Sackville Street Building, Manchester, M13 9PL, UK, 2011.  (pdf)
  2. M. Abaļenkovs, “Large-Scale Finite-Difference Time-Domain Data Processing Using High Performance Systems,” MSc thesis, School of Computer Science, The University of Manchester, Kilburn Building, Manchester M13 9PL, UK, 2007.  (pdf)
  3. M. Abaļenkovs, “Extraction and Storage of Web Structures,” BSc thesis, Institute of Computer Science, Databases and Information Systems, Universitätsstr. 1, D–40225 Düsseldorf, 2006.  (pdf)
  1. Symbol “*” indicates the presenter.  2 3