<s>
Kittyhawk	O
is	O
an	O
IBM	O
supercomputer	B-Architecture
.	O
</s>
<s>
The	O
proposed	O
project	O
entails	O
constructing	O
a	O
global-scale	O
shared	O
supercomputer	B-Architecture
capable	O
of	O
hosting	B-Device
the	O
entire	O
Internet	O
on	O
one	O
platform	B-Device
as	O
an	O
application	B-Application
,	O
whereas	O
the	O
current	O
Internet	O
is	O
a	O
collection	O
of	O
interconnected	O
computer	B-Architecture
networks	I-Architecture
.	O
</s>
<s>
In	O
2010	O
IBM	O
open	O
sourced	O
the	O
Linux	O
kernel	O
patches	O
that	O
allow	O
otherwise	O
unmodified	O
Linux	O
distributions	O
to	O
run	O
on	O
Blue	B-Operating_System
Gene/P	I-Operating_System
.	O
</s>
<s>
In	O
2012	O
the	O
Kittyhawk	O
project	O
was	O
made	O
a	O
part	O
of	O
the	O
United	O
States	O
Department	O
of	O
Energy	O
fault	O
oblivious	O
execution	O
(	O
FOX	O
)	O
project	O
,	O
and	O
ported	O
to	O
run	O
on	O
the	O
Intrepid	O
supercomputer	B-Architecture
at	O
Argonne	O
National	O
Laboratory	O
.	O
</s>
<s>
In	O
2013	O
researchers	O
used	O
the	O
Kittyhawk	O
project	O
to	O
demonstrate	O
a	O
novel	O
high-performance	O
cloud	O
computing	B-Device
platform	I-Device
by	O
merging	O
a	O
cloud	O
computing	O
environment	O
with	O
a	O
supercomputer	B-Architecture
.	O
</s>
<s>
Kittyhawk	O
will	O
be	O
based	O
on	O
the	O
previously	O
developed	O
IBM	O
supercomputer	B-Architecture
called	O
Blue	B-Operating_System
Gene/P	I-Operating_System
.	O
</s>
<s>
In	O
theory	O
,	O
Kittyhawk	O
can	O
have	O
up	O
to	O
16,384	O
racks	O
,	O
for	O
a	O
total	O
of	O
67.1million	O
cores	B-Architecture
and	O
32PB	O
(	O
32×250	O
bytes	O
)	O
of	O
memory	B-General_Concept
.	O
</s>
