Paul Crowley wrote, On 24/8/08 1:00 AM:
http://www.ddj.com/hpc-high-performance-computing/201803067
[...] However, glancing through the SSE5 specification, I
can't see at all how such a dramatic speedup might be achieved
A commenter on slashdot hinted at the vector permutation instructions,
s
Paul Crowley wrote:
> http://www.ddj.com/hpc-high-performance-computing/201803067
>
> In the above Dr Dobb's article from a little over a year ago, AMD
> Senior Fellow Leendert vanDoorn states "the Advanced Encryption
> Standard (AES) algorithm gets a factor of 5 performance improvement by
> using
Speaking of CPU-specific optimisations, I've seen a few algorithm proposals
from the last few years that assume that an algorithm can be scaled linearly
in the number of CPU cores, treating a multicore CPU as some kind of SIMD
engine with all cores operating in lock-step, or at least engaging in so
Hi Folks,
Please remember that the 90-day public comment period for XTS ends
Sept 3, which is coming up very quickly. If you have any comments you
would like to submit to NIST concerning XTS-AES (as specified in IEEE
Std 1619-2007), please send an e-mail to [EMAIL PROTECTED]
The excerpt of IEEE
Eric Young wrote:
> I've not looked at it enough yet, but currently I'm doing an AES round
> in about 140 cycles a block (call it 13 per round plus overhead) on a
> AMD64, (220e6 bytes/sec on a 2ghz cpu) using normal instructions.
Urk, correction, I forgot I've recently upgraded from a 2ghz machin