Your search keyword '"Ding, D.Z."' showing total 7 results

1. FSAI preconditioned CG algorithm combined with GPU technique for the finite element analysis of electromagnetic scattering problems

Author

Xu, K., Ding, D.Z., Fan, Z.H., and Chen, R.S.

Subjects

*SPARSE matrices, *GRAPHICS processing units, *CONJUGATE gradient methods, *ALGORITHMS, *FINITE element method, *ELECTROMAGNETISM, *PARALLEL processing

Abstract

Abstract: In order to efficiently solve the large sparse complex linear system arising from the vector finite element method (vector FEM) in electromagnetic scattering problems, the factorized sparse approximate inverse (FSAI) algorithm and the programmable graphics processing unit (GPU) are employed in the context of the conjugate gradient (CG) iterative method. The combination of the FSAI with the GPU technique has two advantages. Firstly, the convergence rate of the CG algorithm is significantly accelerated. Secondly, the calculation of the sparse matrix vector product (SMVP) in the FSAI preconditioned CG algorithm is accelerated by harnessing the tremendous parallel processing capacity of the GPU. Numerical experiments indicate that the FSAI preconditioned CG algorithm enhanced by the GPU technique is very effective and can reduce both the number of iterations and the computational time significantly. [Copyright &y& Elsevier]

Published

2011

2. Accelerated multi-physics analysis of electromagnetic energy selective surfaces with a space mapping algorithm.

Author

Li, C.Y., Zhang, T.C., Bao, H.G., Xiao, Z.L., Zhou, Y.H., Sun, Z., and Ding, D.Z.

Subjects

*ELECTROMAGNETIC waves, *NONLINEAR equations, *HEAT equation, *ALGORITHMS, *MICROWAVES, *CONJUGATE gradient methods

Abstract

In this paper, the multi-physical field-circuit co-simulation method coupling the Maxwell's and drift diffusion equations is proposed for the analysis of electromagnetic energy selective surface (ESS). To alleviate the universal feature that multi-physics simulation is extremely time-consuming, the space mapping algorithm is consulted and introduced into the transient calculation process. Thus, the searches for a convergent solution in nonlinear equations are regarded as an optimization procedure, which employs the mapped equivalent model to replace the high-cost multi-physics equations calculation. This operation can considerably minimize the number of multi-physics equations that must be computed, improving analysis efficiency. The great accuracy and efficiency of the proposed method are demonstrated by numerical results. As a result, this approach is an alternative tool to examine electromagnetic-circuit systems, particularly in high-power microwave scenarios. [ABSTRACT FROM AUTHOR]

Published

2023

3. Effects of ouabain on hypoxia-induced ANP release in beating rabbit atria

Author

HONG, L., DING, D.Z., LAN, Y., and CUI, X.

Published

2009

4. An efficient high order plane wave time domain algorithm for transient electromagnetic scattering analysis.

Author

Cheng, G.S., Fan, Z.H., Ding, D.Z., and Chen, R.S.

Subjects

*ELECTROMAGNETIC wave scattering, *PLANE wavefronts, *TIME-domain analysis, *ELECTRIC conductivity, *INTEGRAL equations

Abstract

An efficient high order plane wave time domain algorithm is presented for analyzing the transient scattering from three dimensional electrically large conducting objects. This method uses a set of hierarchical divergence-conforming vector basis functions to accurately represent the current distribution on the perfect electrically conducting (PEC) surface. The higher order functions can significantly reduce the number of unknowns without compromise on the accuracy. The time domain combined field integral equation (TD-CFIE) is then discretized using the hierarchical divergence-conforming vector basis functions and shifted Lagrange polynomial functions in spatial and time domain, respectively. The final matrix equation can be accelerated using the plane wave time domain (PWTD) algorithm. Finally, a parallel algorithm that can execute on a distributed-memory parallel cluster is developed, which provides an appealing avenue for analyzing the transient scattering from three-dimensional electrically large complex PEC objects. Numerical examples are given to demonstrate the accuracy and efficiency of the method. [ABSTRACT FROM AUTHOR]

Published

2017

5. Analysis of EM scattering from composite conducting-dielectric objects by time domain non-conformal VSIE.

Author

Cheng, G.S., Hu, Y.L., Ding, D.Z., and Chen, R.S.

Subjects

*ELECTROMAGNETIC wave scattering, *DIELECTRIC materials, *INTEGRAL equations, *COMPOSITE structures, *ELECTRIC conductivity

Abstract

To analyze the transient electromagnetic (EM) scattering from the composite structure containing inhomogeneous dielectric volumes and perfect electrically conducting (PEC) bodies efficiently and flexibly, a marching-on-in-time (MOT) based time domain non-conformal volume surface integral equations (TD-VSIE) method is proposed. The non-conformal volume integral equation scheme and surface integral equation discontinuous Galerkin (IEDG) method are combined to realize the non-conformal meshes discretization for composite objects. For some composite objects containing fine structure or inhomogeneous dielectric materials, notable reduction in the number of the unknowns can be obtained without sacrificing accuracy. Moreover, a hybrid mesh scheme is introduced to further improve the efficiency. Several numerical results are proposed to demonstrate the validity and flexibility of the proposed scheme. [ABSTRACT FROM AUTHOR]

Published

2017

6. Crystal growth and luminescent properties of the Ce-doped Li6Lu(BO3)3

Author

Yang, F., Pan, S.K., Ding, D.Z., Chen, X.F., Feng, H., and Ren, G.H.

Subjects

*CRYSTAL growth, *BORATES, *LITHIUM compounds, *LUMINESCENCE, *X-ray diffraction, *SOLIDIFICATION, *FLUORESCENCE spectroscopy, *MOLECULAR structure

Abstract

Abstract: A new double borate Li6Lu(BO3)3:Ce crystal with dimensions up to Φ35×21mm3 was prepared by the Czochralski method. The X-ray diffraction pattern of the crystal was measured. The melting point and solidifying point of the Li6Lu(BO3)3:Ce crystal were measured by DSC. Its luminescence properties at room temperature were investigated by ultraviolet fluorescence spectrometer and X-ray stimulated luminescence (XSL) spectrometer. According to these dates, we consider that the Li6Lu(BO3)3:Ce crystal is a promising scintillator. [Copyright &y& Elsevier]

Published

2010

7. Growth and optical properties of the Ce-doped Li6Gd (BO3)3 crystal grown by the modified Bridgman method

Author

Yang, F., Pan, S.K., Ding, D.Z., Chen, X.F., Lu, S., Zhang, W.D., and Ren, G.H.

Subjects

*METAL crystal growth, *CRYSTAL optics, *CERIUM, *POINT defects, *TEMPERATURE effect, *LUMINESCENCE spectroscopy, *OXIDES

Abstract

Abstract: The ternary oxide Li6Gd(BO3)3:Ce crystals with dimensions up to Ø14×100mm3 were prepared by the modified Bridgman method. The crystallinity of crystal was measured using X-ray rocking curve analysis. The composition of the inclusions existing in the crystal was measured by electronic microprobe. The optical properties at room temperature were investigated by transmittance spectra and X-ray stimulated luminescence spectra (XSL). [Copyright &y& Elsevier]

Published

2009