head	1.1;
branch	1.1.1;
access;
symbols
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locks; strict;
comment	@# @;


1.1
date	2000.01.10.06.21.30;	author kris;	state Exp;
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	1.1.1.1;
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date	2000.01.10.06.21.30;	author kris;	state Exp;
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1.1.1.2
date	2000.04.13.06.27.14;	author kris;	state Exp;
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1.1.1.3
date	2000.11.13.00.57.11;	author kris;	state Exp;
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1.1.1.4
date	2003.01.28.21.19.25;	author markm;	state Exp;
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1.1.1.1.2.1
date	2000.08.20.08.46.17;	author kris;	state Exp;
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date	2003.02.14.22.37.46;	author nectar;	state Exp;
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1.1.1.4.54.1
date	2003.01.28.21.19.25;	author svnexp;	state dead;
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1.1.1.4.54.2
date	2013.03.28.13.02.30;	author svnexp;	state Exp;
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next	;


desc
@@


1.1
log
@Initial revision
@
text
@All assember in this directory are just version of the file
crypto/bn/bn_mulw.c.

Quite a few of these files are just the assember output from gcc since on 
quite a few machines they are 2 times faster than the system compiler.

For the x86, I have hand written assember because of the bad job all
compilers seem to do on it.  This normally gives a 2 time speed up in the RSA
routines.

For the DEC alpha, I also hand wrote the assember (except the division which
is just the output from the C compiler pasted on the end of the file).
On the 2 alpha C compilers I had access to, it was not possible to do
64b x 64b -> 128b calculations (both long and the long long data types
were 64 bits).  So the hand assember gives access to the 128 bit result and
a 2 times speedup :-).

The x86xxxx.obj files are the assembled version of x86xxxx.asm files.
I had such a hard time finding a macro assember for Microsoft, I decided to
include the object file to save others the hassle :-).

I have also included uu encoded versions of the .obj incase they get
trashed.

There are 2 versions of assember for the HP PA-RISC.
pa-risc.s is the origional one which works fine.
pa-risc2.s is a new version that often generates warnings but if the
tests pass, it gives performance that is over 2 times faster than
pa-risc.s.
Both were generated using gcc :-)
@


1.1.1.1
log
@Initial import of OpenSSL 0.9.4, sans IDEA and RSA code for patent
infringement reasons.
@
text
@@


1.1.1.1.2.1
log
@MFC: OpenSSL 0.9.5a
@
text
@d2 1
a2 1
crypto/bn/bn_asm.c.
d17 7
@


1.1.1.1.2.2
log
@MFC: OpenSSL 0.9.6
@
text
@d18 6
a23 6
There are 3 versions of assember for the HP PA-RISC.

pa-risc.s is the origional one which works fine and generated using gcc :-)

pa-risc2W.s and pa-risc2.s are 64 and 32-bit PA-RISC 2.0 implementations
by Chris Ruemmler from HP (with some help from the HP C compiler).
@


1.1.1.1.2.3
log
@MFC OpenSSL 0.9.7
@
text
@a0 2
<OBSOLETE>

a23 2

</OBSOLETE>
@


1.1.1.2
log
@Initial import of OpenSSL 0.9.5a
@
text
@d2 1
a2 1
crypto/bn/bn_asm.c.
d17 7
@


1.1.1.3
log
@Initial import of OpenSSL 0.9.6
@
text
@d18 6
a23 6
There are 3 versions of assember for the HP PA-RISC.

pa-risc.s is the origional one which works fine and generated using gcc :-)

pa-risc2W.s and pa-risc2.s are 64 and 32-bit PA-RISC 2.0 implementations
by Chris Ruemmler from HP (with some help from the HP C compiler).
@


1.1.1.4
log
@Vendor import of OpenSSL release 0.9.7. This release includes
support for AES and OpenBSD's hardware crypto.
@
text
@a0 2
<OBSOLETE>

a23 2

</OBSOLETE>
@


1.1.1.4.54.1
log
@file README was added on branch RELENG_8_4 on 2013-03-28 13:02:30 +0000
@
text
@d1 27
@


1.1.1.4.54.2
log
@## SVN ## Exported commit - http://svnweb.freebsd.org/changeset/base/248810
## SVN ## CVS IS DEPRECATED: http://wiki.freebsd.org/CvsIsDeprecated
@
text
@a0 27
<OBSOLETE>

All assember in this directory are just version of the file
crypto/bn/bn_asm.c.

Quite a few of these files are just the assember output from gcc since on 
quite a few machines they are 2 times faster than the system compiler.

For the x86, I have hand written assember because of the bad job all
compilers seem to do on it.  This normally gives a 2 time speed up in the RSA
routines.

For the DEC alpha, I also hand wrote the assember (except the division which
is just the output from the C compiler pasted on the end of the file).
On the 2 alpha C compilers I had access to, it was not possible to do
64b x 64b -> 128b calculations (both long and the long long data types
were 64 bits).  So the hand assember gives access to the 128 bit result and
a 2 times speedup :-).

There are 3 versions of assember for the HP PA-RISC.

pa-risc.s is the origional one which works fine and generated using gcc :-)

pa-risc2W.s and pa-risc2.s are 64 and 32-bit PA-RISC 2.0 implementations
by Chris Ruemmler from HP (with some help from the HP C compiler).

</OBSOLETE>
@


