You're really noob and missed my point totally.


The limit for burst rate is the max. of the interface through which the HDD is connected. If you connect by ATA 133, you can't get over 133 MB/s even if the data is read from the HDD cache (i.e. steady state kind of memory). Likewise, the limit for SATA I and II are 1.5 Gb/s (187 MB/s) and 3.0 Gb/s (375 MB/s) respectively. Even for SCSI Ultra 640, the max. is only 640 MB/s.
Basically, even when the data is from the HDD cache (i.e. the data already stored in the HDD memory without a need to seek and read the data from the platters), you cannot achieve a speed faster than the max. the interface is capable of carrying.
Modern HDDs have 4MB/8MB/16MB etc. for caches and so the burst rate reported is in most instances measured for data coming from their caches and not reading from the platters. As a result, Burst rates are usually a number not far below the max. speed of the interface used and a measure of the interface speed in practice for HDD with huge caches. (all the other burst rates numbers reported attest to this) .
Now, look at the burst rates reported : 1391 MB/s and 2378.6 MB/s.
So even if it's RAID 0, 2x SATA II would have a limit of 375 x2 = 750MB/s and even the fastest SCSI Ultra 640 interface would have 640 x 2 = 1280 MB/s for burst rates.
So my earlier point is that the 1391 MB/s and 2378.6 MB/s are crazy because it greatly surpasses the limit of the interfaces usually seen.
Got it now?
I dunno why after so many
years I am still saying this same thing over and over again.. : many people don't think before they comment.