installation, work in progress
32729947731449800000000000000000000000000000000000000000000000000000000000000000000000000000000 disk drive arrays

1. determine number of atoms containable in universe
2. create a different code for each atomic element
3. create a data file indicating atoms stored at every location in universe
4. store universal data file(UDF) on hard disks
5. exhibit collection of hard disks with UDF

diameter of smallest atom (Helium) = .000000000062 metres
diameter of largest atom (Cesium) = .000000000596 metres
average size of atom = .000000000317 m = .000000000000317 kilometres
size of universe = 13500000000 light years
speed of light = 300000 kilometres per second
speed of light = 9467077824000 kilometres per year

us = size of universe = size of universe in light years x speed of light = 13500000000 x 9467077824000 kilometres
us = 127805550620000000000000 kilometres

dimensions in universe = 3
x = 127805550620000000000000 kilometres
y = 127805550620000000000000 kilometres
z = 127805550620000000000000 kilometres

1 mile = .621 kilometres

a = number of possible atoms in one dimension of universe = 127805550620000000000000 / .000000000000317
a = 403172083990000000000000000000000000 atoms

u = number of atoms containable in universe = a^3 = 403172083990000000000000000000000000^3 atoms
u = 65534706772000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 atoms

different elements in universe = 109

element codes:
1 H Hydrogen
2 He Helium
3 Li Lithium
4 Be Beryllium
5 B Boron
6 C Carbon
7 N Nitrogen
8 O Oxygen
9 F Fluorine
10 Ne Neon
11 Na Sodium
12 Mg Magnesium
13 Al Aluminum
14 Si Silicon
15 P Phosphorus
16 S Sulfur
17 Cl Chlorine
18 Ar Argon
19 K Potassium
20 Ca Calcium
21 Sc Scandium
22 Ti Titanium
23 V Vanadium
24 Cr Chromium
25 Mn Manganese
26 Fe Iron
27 Co Cobalt
28 Ni Nickel
29 Cu Copper
30 Zn Zinc
31 Ga Gallium
32 Ge Germanium
33 As Arsenic
34 Se Selenium
35 Br Bromine
36 Kr Krypton
37 Rb Rubidium
38 Sr Strontium
39 Y Yttrium
40 Zr Zirconium
41 Nb Niobium
42 Mo Molybdenum
43 Tc Technetium
44 Ru Ruthenium
45 Rh Rhodium
46 Pd Palladium
47 Ag Silver
48 Cd Cadmium
49 In Indium
50 Sn Tin
51 Sb Antimony
52 Te Tellurium
53 I Iodine
54 Xe Xenon
55 Cs Cesium
56 Ba Barium
57 La Lanthanum
58 Ce Cerium
59 Pr Praseodymium
60 Nd Neodymium
61 Pm Promethium
62 Sm Samarium
63 Eu Europium
64 Gd Gadolinium
65 Tb Terbium
66 Dy Dysprosium
67 Ho Holmium
68 Er Erbium
69 Tm Thulium
70 Yb Ytterbium
71 Lu Lutetium
72 Hf Hafnium
73 Ta Tantalum
74 W Tungsten
75 Re Rhenium
76 Os Osmium
77 Ir Iridium
78 Pt Platinum
79 Au Gold
80 Hg Mercury
81 Tl Thallium
82 Pb Lead
83 Bi Bismuth
84 Po Polonium
85 At Astatine
86 Rn Radon
87 Fr Francium
88 Ra Radium
89 Ac Actinium
90 Th Thorium
91 Pa Protactinium
92 U Uranium
93 Np Neptunium
94 Pu Plutonium
95 Am Americium
96 Cm Curium
97 Bk Berkelium
98 Cf Californium
99 Es Einsteinium
100 Fm Fermium
101 Md Mendelevium
102 No Nobelium
103 Lr Lawrencium
104 Rf Rutherfordium
105 Db Dubnium
106 Sg Seaborgium
107 Bh Bohrium
108 Hs Hassium
109 Mt Meitnerium

data bits required to store 1 element code = 7 bits (128 possible codes with 7 bits) 
ub = bits required to store atomic data of universe = 7 x u = 7 x 65534706772000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 bits
ub = 458742947404000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 bits

uB = bytes required to store atomic data of universe (1 byte = 8 bits) = ub / 8 
uB = 57342868425500000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 bytes

UDF = universal data file = uB bytes of data

view partial UDF

ac = storage capacity of 1 drive array = 12 x 146000000000 bytes (Sun StorEdge 3510 FC Array Hard drive array) 
ac = 1752000000000 bytes      

dn = number of drive arrays required to store UDF = uB / ac = 57342868425500000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 / 1752000000000 drive arrays
dn = 32729947731449800000000000000000000000000000000000000000000000000000000000000000000000000000000 drive arrays

dx = x dimension of 1 drive array = 0.44704 metres
dy = y dimension of 1 drive array = 0.0889 metres
dz = z dimension of 1 drive array = 0.5334 metres
dv = volume of 1 drive array = dx  x dy  x dz = 0.44704 x 0.0889 x 0.5334 cubic metres
dv = 0.021198306 cubic metres

dV = total volume of drives required to store UDF   = dn x dv  = 0.021198306 cubic metres x 32729947731449800000000000000000000000000000000000000000000000000000000000000000000000000000000
dV = 693819447061071000000000000000000000000000000000000000000000000000000000000000000000000000000 cubic metres
dV = 693819447061071000000000000000000000000000000000000000000000000000000000000000000000 cubic kilometres

uv = volume of universe = x x y x z = 127805550620000000000000 x 127805550620000000000000 x 127805550620000000000000 cubic kilometres
uv = 2087608935977570000000000000000000000000000000000000000000000000000000 cubic kilometres

ur = number of universes required to store drive arrays containing atomic data of universe(UDF) = dv / uv = 693819447061071000000000000000000000000000000000000000000000000000000000000000000000 / 208760893597757000000000000000000000000000000000000000000000000000000 universes
ur = 332351253677775 universes