Page 70

Contents | 70 of 71

Download PDF | | Reference URL | Gallery View | Parent Record

Publication Type	technical report
School or College	College of Engineering
Department	Computing, School of
Creator	Ahmed, Ahmed Z.
Title	Parallel Distributed Simulation of Elastic Waves
Date	1994-07
Description	A parallel distributed algorithm to simulate the propagation of waves through elastic media is presented and tested. The algorithm is based on a fourth-order finite difference solution of the elastic wave equation in three dimensions and incorporates a staggered grid formulation to solve for the displacements.
Type	Text
Subject	computers; computer programming; algorithm; elastic media; parallel distributed algorithm; fourth-order finite difference solution
Language	eng
Bibliographic Citation	Ahmed, A. Z. (1994). Parallel distributed simulation of elastic waves.
Series	University of Utah Computer Science Technical Report
Relation is Part of	ARPANET
Format Medium	application/pdf
Format Extent	251,852 bytes
File Name	Ahmed-Parallel_Distributed.pdf
Conversion Specifications	Original scanned with Kirtas 2400 and saved as 400 ppi uncompressed TIFF. PDF generated by Adobe Acrobat Pro X for CONTENTdm display
ARK	ark:/87278/s61g2njf
Setname	ir_computersa
ID	96285
Reference URL	https://collections.lib.utah.edu/ark:/87278/s61g2njf

Page Metadata

Title	Page 70
Setname	ir_computersa
ID	96283
OCR Text	Show REFERENCES [ 1] K. Aki and P. G. Richards, Quantitative Seismology Theory and Methods. New York, NY: W. H. Freeman and Company, 1980. [2] Z. Alterman and F. C. Karal, "Propagation of elastic waves in layered media by finite difference methods," Bul. Seis. Soc. Am., vol. 58, pp. 367-398, 1968. [3] M. A. Dablain, "The application of higher order differencing to the scalar wave equation," Geophysics, vol. 51, pp. 54-66, 1986. [ 4] Express C User's Guide, Parasoft Corporation, 2500 E. Foothill Blvd., Pasadena, CA 91107, 1990. [5] A. Gupta and V. Kumar, "On the scalability ofFFT on parallel computers," in Proceedings of the Frontiers 90 Conference on Massively Parallel Computation, 1990. [6] J. L. Hennessy and D. A. Patterson, ComputerArchitecturea Quantitative Approach. San Mateo, CA: Morgan Kaufmann Publishers, Inc., 1990. [7] The Transputer Databook, Second Edition, Inmos. Berkeley, CA: Consolidated Printers, 1989. [ 8] C. J as tram and A. Behle, "Elastic modeling by finite-difference and the rapid expansion method (REM)," in Expanded Abstracts With Biographies, 61st Annual International SEG Meeting And Exposition, Houston, TX, pp. 1573-1576, 1991. [9] A. R. Levander, "Fourth-order finite-difference P-SV seismograms," Geophysics, vol. 53, 1425-1436, 1988. [10] E. L. Lindman, 1975, ""Free-space" boundary conditions for the time dependent wave equation," Journal of Computational Physics, vol. 18, pp. 66-78, 1975. [ 11] R. Madariaga, "Dynamics of an expanding circular fault," Bull. Seis. Soc. Am., vol. 66, 639-666, 1976. [12] PVM 3.0 User's Guide And Reference Manual, Oak Ridge National Laboratory, Oak Ridge, TN 37831, 1993. [ 1:3] C. J. Randall, "Absorbing boundary condition for the elastic wave equation," Geophysics, vol. 53, 611-624, 1988. [ 14] N. Ricker, "The form and nature of seismic waves and the structure of seismograms," Geophysics, vol. 5, 348-366, 1940. [ 15] Ricker, N ., "A note on the determination of the viscosity of shale from the measurement
Reference URL	https://collections.lib.utah.edu/ark:/87278/s61g2njf/96283