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mod 1 arithmetic

asked 2013-08-05 16:08:03 +0100

pinwheel gravatar image

updated 2015-01-13 21:05:25 +0100

FrédéricC gravatar image

Hi all,

is it possible, to do simple mod 1 evaluations? For example, Mathematica outputs

N[1/2*(1 + Sqrt[5])^100 mod 1] ~ 0.9999999999999999999987374...

but

n(Mod(1/2*(1 + sqrt(5))^100,1))

(or similar attempts) in Sage result in

TypeError: unable to convert x (=1/2*(sqrt(5) + 1)^100) to an integer

Cheers, Markus

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answered 2013-08-05 20:12:27 +0100

vdelecroix gravatar image

The function Mod is intended to be used with integers. In order to use mod 1 operations you should use % (which stands for remainder of the euclidean division) as in

sage: sage: 5.3 % 1.0
0.300000000000000

The operation Mod is to be used when you want to work with integers mod N (ie the ring $\mathbb{Z} / N \mathbb{Z}$).

Note that the following works

sage: K.<sqrt5> = NumberField(x^2-5,'sqrt5',embedding=1)
sage: sqrt5 % 1.0
0.236067977499790

But not this one

sage: sqrt(5) % 1.0
Traceback (most recent call last):
...
TypeError: unsupported operand type(s) for %: 'sage.symbolic.expression.Expression' and 'sage.symbolic.expression.Expression'
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Comments

Note that % 1.0 gives results in [-0.5,0.5] rather than [0,1]. If you prefer values in [0,1], add 1 when you get a negative result.

sage: a = sqrt(3.); a
1.73205080756888
sage: b = a % 1.0; b
-0.267949192431123
sage: b + 1
0.732050807568877

Also, the precision of the real numbers that Sage will use to compute modulo 1 can be augmented by using more trailing zeros. Example:

sage: x = polygen(ZZ)
sage: K.<r5> = NumberField(x^2 - 5, embedding=2)
sage: c = (1 + r5)^100 / 2
sage: c % 1.0
0.000000000000000
sage: c % 1.000000000000000000000000000000000000000000000000000000000000
-0.396388003719039261341094970703125000000000000000000000000000
slelievre gravatar imageslelievre ( 2013-08-05 21:04:55 +0100 )edit
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answered 2013-08-05 17:58:47 +0100

slelievre gravatar image

In short

If you are interested in elements of a number field, like in your example with sqrt(5), you could do this:

sage: K.<a> = NumberField(x^2-5,'a',embedding=2.236)
sage: b = (1 + a)^100 / 2
sage: RR(b)
5.02034537778533e50

You see that b is roughly 5 * 10^50 so you want to compute with more than 50 decimal digits precision. In particular, 50 hexadecimal digits, ie 200 binary digits, would work.

sage: R = RealField(prec=200)
sage: R(b)
5.0203453777853342471068924069687121743561926939248060361200e50
sage: R(b).frac()
0.60361199639737606048583984375000000000000000000000000000000

This gives you an idea of the value modulo one. Exercise: how many digits are correct?

More details

We create the embedded number field K for sqrt(5).

sage: K.<a> = NumberField(x^2-5,'a',embedding=2.236)

Check that the generator squares to 5.

sage: a^2
5

Check that the embedding is the one with the positive square root of 5.

sage: a.is_real_positive()
True

Or:

sage: RR(a)
2.23606797749979

Compute b in K.

sage: b = (1+a)^100/2
sage: b
112258335352548699824296575003536617685648198860800*a +
251017268889266712355344620348435608717810034802688

Check how big it is.

sage: RR(b)
5.02034537778533e50

Work with the appropriate precision.

sage: R = RealField(prec=200)
sage: R(b)
5.0203453777853342471068924069687121743561926939248060361200e50
sage: R(b).frac()
0.60361199639737606048583984375000000000000000000000000000000

Hint for the exercise:

sage: RR(2^200/10^50)
1.60693804425899e10
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Asked: 2013-08-05 16:08:03 +0100

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Last updated: Aug 05 '13