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From: Eric Grosse 908-582-5828 <ehg@research.att.com>
Date: Sun Aug 9 22:52:50 EDT 1992
Subject: Encrypted SIAM Membership List Available
The SIAM membership list, a useful source of up-to-date addresses and
phone numbers, has long been searchable via netlib. Now you can also
download it to your own machine for faster searching.
To preserve privacy, i.e. to keep the list from being used by mass mailers
and telemarketers, the database is encrypted. Given a person's last name
or phone number, you can decrypt that one database entry. But there is
no feasible way to crack the entire list. To learn how we do this, read
J. Feigenbaum, E. Grosse and J. Reeds (1992) "Cryptographic Protection of
Membership Lists", Newsletter of the International Association for
Cryptologic Research, 9:1,16-20. (This paper is available from netlib by
"send 91-12 from research/nam".)
You can use the system without understanding the mechanism. First, get
the decryption program and (1.2 megabyte) database by
ftp research.att.com
login: netlib
password: <your email address>
binary
cd research
get decryptdb.c
get siamdb
quit
then follow the instructions at the start of decryptdb.c to install.
For now, you must have ftp access and a C compiler; if demand
warrants, SIAM headquarters may make the system available on other
media at a later time.
The database, which is updated quarterly, will continue to be
searchable via netlib's "whois" command. But fast local access allows
new uses; for example, my computer is connected to my phone and, when
caller-ID is functioning, automatically translates the calling number
into a name.
------------------------------
From: Steve Stevenson <steve@hubcap.clemson.edu>
Date: Mon, 10 Aug 92 08:44:59 -0400
Subject: Looking for Tricks of the Trade
In the past several months, I have read a couple of texts which have made
a big deal about Horner's rule, like it was a new can for beer.
Other texts seem to be totally oblivious to certain computational facts of
life, like using extrapolation. Yet another trick is converting
Taylor series from interative (natural) to recursive. Most of this
stuff goes back to the pre-computer days when things had to be
done by hand.
I would like to compile a list of all the old and new computational techniques
which people use to accelerate computations. If you would please send me
just the name and a reference, I'll summerize.
Thanks.
Steve
Steve (really "D. E.") Stevenson steve@hubcap.clemson.edu
Department of Computer Science, (803)656-5880.mabell
Clemson University, Clemson, SC 29634-1906
------------------------------
From: Ching-ju Ashraf Lee <leec2@rpi.edu>
Date: Thu, 13 Aug 92 12:26:24 -0400
Subject: Huge Sparse Eigenvalue Problem
Dear Sir/Madame:
I have a huge sparse eigensystem Ax=lambda*Bx to solve. A and
B are real, symmetric and even positive definite. I only need
the smallest eigenvalue of this system and such eigenvalue in my
system is always simple and believed to be well-isolated. An
immediate numerical method for such problem is the inverse iteration
method: (A-mu*B)x(k+1) = Bx(k). Unfortunately, the best method I
come up with in solving the above system is the Cholesky decompo-
sition(I am able to get a lower bound of lambda, hence mu may be
taken to be the lower bound). But since A and B are 70,000 by
70,000, the half bandwidth of A and B is usually around 30,000.
Even though I only have at most 24 nonzero entries per row in the
matrices, Cholesky decomposition will fill nonzero entries inside
the band. So the virtual memory required by the method is way
beyond the limit on my local machine(700 megabytes). Note also
that if mu is close to lambda, therefore a good initial approxi-
mation of the system, A-mu*B is quite singular. So the ordinary
iterative methods will not work well in solving the system
(A-mu*B)x(k+1)=Bx(k) for x(k+1) (correct me if my impression is
false). I would like to utilize the special sparseness I have in
this system, if possible, before jump on a larger machine. So any
thoughtful suggestions or reference of the related literature will
be greatly appreciated.
Ching-ju Ashraf
leec2@rpi.edu
------------------------------
From: Luciano Molinari <molinari@cumuli.ethz.ch>
Date: Fri, 14 Aug 1992 11:33:23 +0200
Subject: Unix "tar" on DOS.
I am looking for an MS-DOS utility to dearchive and decompress Unix tar.Z
files. Can anybody help me?
Thanks,
L. Molinari
molinari@cumuli.ethz.ch
The Children's Hospital
Steinwiesstr.75
CH-8032 Zurich
------------------------------
From: Richard Brualdi <brualdi@math.wisc.edu>
Date: Wed, 12 Aug 92 07:28:17 CDT
Subject: Contents: Linear Algebra and its Applications
Contents of LAA Volume 174, September 1992
Joel V. Brawley (Clemson, South Carolina) and Gary L. Mullen
(University Park, Pennsylvania)
Scalar Polynomial Functions on the Nonsingular Matrices Over a Finite Field 1
Robert Brawer and Magnus Pirovino (Zurich, Switzerland)
The Linear Algebra of the Pascal Matrix 13
A. A. Chernyak and Z. A. Chernyak (Minsk, U.S.S.R.)
Joint Realization of (0, 1) Matrices Revisited 25
Lifeng Ding (Atlanta, Georgia)
Separating Vectors and Reflexivity 37
Massoud Malek (Hayward, California)
Notes on Permanental and Subpermanental Inequalities 53
Keith Bourque and Steve Ligh (Lafayette, Louisiana)
On GCD and LCM Matrices 65
K. H. Kim and F. W. Roush (Montgomery, Alabama)
Automorphisms of gl-Matrices 75
Charles Lanski (Los Angeles, California)
An Identity for Matrix Rings With Involution 91
P. J. Maher (London, England)
Some Norm Inequalities Concerning Generalized Inverses 99
Desmond J. Higham (Dundee, Scotland) and Nicholas J. Higham (Manchester,
England)
Componentwise Perturbation Theory for Linear Systems With Multiple Right-Hand
Sides 111
John A. Holbrook (Guelph, Canada)
Spectral Variation of Normal Matrices 131
Lei Wu (Dalian, People's Republic of China)
The Re-Positive Definite Solutions to the Matrix Inverse Problem AX=B 145
O. L. Mangasarian (Madison, Wisconsin)
Global Error Bounds for Monotone Affine Variational Inequality Problems 153
Barbu C. Kestenband (Old Westbury, New York)
Quadrics as Hyperplanes in Finite Affine Geometries 165
Max Bauer (Rennes, France)
Dilatations and Continued Fractions 183
Bernhard A. Schmitt (Marburg, Germany)
Perturbation Bounds for Matrix Square Roots and Pythagorean Sums 215
Vlad Ionescu and Martin Weiss (Bucharest, Romania)
On Computing the Stabilizing Solution of the Discrete-Time Riccati Equation
229
Daniel B. Szyld (Philadelphia, Pennsylvania)
A Sequence of Lower Bounds for the Spectral Radius of Nonnegative Matrices
239
BOOK REVIEW
Frank Uhlig (Auburn, Alabama)
Review of Topics in Matrix Analysis by Roger A. Horn and Charles R. Johnson
243
Author Index 247
------------------------------
From: Beth Gallagher <gallaghe@siam.org>
Date: Wed, 12 Aug 92 11:03:54 EST
Subject: Contents: SIAM Optimization
SIAM Journal on Optimization
November 1992 Volume 2, Number 4
CONTENTS
On the Behavior of Broyden's Class of Quasi-Newton Methods
Richard H. Byrd, Dong C. Liu, and Jorge Nocedal
New Results on a Continuously Differentiable Exact Penalty Function
Stefano Lucidi
On the Implementation of a Primal-Dual Interior Point Method
Sanjay Mehrotra
On Regularized Least Norm Problems
Achiya Dax
On the Continuity of the Solution Map in Linear Complementarity
Problems
M. Seetharma Gowda
Linear Inequality Scaling Problems
Uriel G. Rothblum
New Proximal Point Algorithms for Convex Minimization
Osman Guler
A Necessary and Sufficient Condition for a Constrained Minimum
J. Warga
Diagonal Matrix Scaling and Linear Programming
Leonid Khachiyan and Bahman Kalantari
Author Index
------------------------------
End of NA Digest
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