02-05-2002
Any Intel-compatible processor should do. Actually, you can find a Unix that will run on just about any widely-used chip there is...
Like I said, if you are into the bleeding edge, you may have problems utilizing all of their features, but there is a good chance you'll find what you're looking for with Linux. Now, if you're going to drop a few hundred bucks on a bleeding edge video / sound card, you might want to check compatibility first...
But you'll find just about anything you want - Music, still graphics, video / CGI... almost all of it free for download.
2 More Discussions You Might Find Interesting
1. What is on Your Mind?
First of all, this review (my observations) of a Koh Tao dive factory, or my experience there, is only based on one dive center. It certainly is not written to imply other, any or all dive centers on Koh Tao are like this. I cannot be the judge of that. Unfortunately, this experience has... (0 Replies)
Discussion started by: Neo
0 Replies
2. What is on Your Mind?
This was really, really fun! 51 very fun minutes in a large aquarium with sharks, eagle rays, tuna, sea turtles and friends.
5AOT59Bb_jg
Taking a break from wreck diving with my friends at Adventure Divers; we decided to try aquarium diving for a change! This was really fun! Just wish we... (0 Replies)
Discussion started by: Neo
0 Replies
J0(3) BSD Library Functions Manual J0(3)
NAME
j0, j1, jn, y0, y1, yn -- bessel functions of first and second kind
SYNOPSIS
#include <math.h>
double
j0(double x);
double
j1(double x);
double
jn(int n, double x);
double
y0(double x);
double
y1(double x);
double
yn(int n, double x);
DESCRIPTION
The functions j0(x) and j1(x) compute the Bessel function of the first kind of the order 0 and the order 1, respectively; the function jn(n,
x) computes the Bessel function of the first kind of the integer order n.
The functions y0(x) and y1(x) compute the linearly independent Bessel function of the second kind of the order 0 and the order 1, respec-
tively, for the positive integer value x (expressed as a double); the function yn(n, x) computes the Bessel function of the second kind for
the integer order n for the positive integer value x (expressed as a double).
SPECIAL VALUES
j0(0) returns 1.
j0(+-infinity) returns 0.
j0(NaN) returns a NaN.
j1(0) returns 0.
j1(+infinity) returns 0.
j1(NaN) returns a NaN.
y0(0) , y1(0) , and yn(n, 0) all return -infinity and raise the "division-by-zero" floating-point flag.
4th Berkeley Distribution December 11, 2006 4th Berkeley Distribution