Promise pegasus2 r6 code#
ganeshts: Running wavedrom self-hosted was quite easy - putting downloaded source code in a folder in an….ganeshts: Proud to be part of the engineering team that is bringing these SoCs into the market.RyanSmithAT: At the moment the cheapest 10Gbps switch I know of is the TL-SX105, and even that'….RyanSmithAT: To put 4mil GPUs in perspective, based on figures, 2021 GPU AIB shipments should be over 40mil.RyanSmithAT: It's been a pleasure working with Ian over the last decade, and I'm sad to lose him.I do wish NUC Extreme sacrifices a bit on the vol… ganeshts: Luggable (with collapsible handle on top) is attractive.RyanSmithAT: The crew sent over a note this afternoon that they've launched a site to keep track of all of the games/….IanCutress: We've known it's been two rotated dies for a long while.Until we get some other Thunderbolt RAID devices in house it's impossible to tell but at around 8Gbps, this is clearly an interface that has legs. I'm not entirely convinced that we're limited by Thunderbolt here either - it could very well be the Pegasus' internal controller that's limiting performance. Note that this isn't a shipping configuration, but it does show us the limits of the platform. With highly compressible data, I managed to get just over 1000MB/s (8021Mbps to be exact) to the 4-drive SF-2281 Pegasus R6. The chart below shows all of my performance attempts: Unlike the hard drive based arrays, I had to take the queue depth up to 16 in order to get peak performance out of these SSDs. This would keep drive performance as high as possible and reduce the time required to fill and test the drives. To really test the limits of the interface I created a 4-drive RAID-0 array sized at only 25GB. To see how far we could push things I pulled out all six drives and swapped in four SF-2281 based SSDs. For a HDD based drive array, this is likely the best we'll get. We're now operating at just over 60% of the peak theoretical performance of a single upstream Thunderbolt channel. Sequential read performance jumped up to 782MB/s or 6257Mbps. I ran the same tests as above: Promise Pegasus R6 12TB (10TB RAID-5) Performance I deleted the RAID-5 array and created a 12TB RAID-0 array. Performance on outer tracks is much better than on the inner tracks, so the more you have written to the drive the slower subsequent writes will be.Īt over 5Gbps we're getting decent performance but I still wanted to see how far I could push the interface. This is of course the downside to any platter based storage array. Minimum sequential read performance dropped to 422MB/s or 3.3Gbps. That's best case sequential performance, what about worst case? To find out I wrote a single 10TB file across the entire RAID-5 array then had Iometer measure read/write performance to that file in the last 1TB of the array's capacity: Promise Pegasus R6 12TB (10TB RAID-5) Performance Obviously these are hard drives so random performance is pretty disappointing. Note that I played with higher queue depths but couldn't get beyond these numbers on the stock configuration. The best performance I saw was 683.9MB/s from our sequential write test, or 5471Mbps. I ran the test for 5 minutes, the results are below: Promise Pegasus R6 12TB (10TB RAID-5) Performance I turned to Iometer to perform a 2MB sequential access across the first 1TB of the Pegasus R6's RAID-5 array. Without a second Thunderbolt source to copy to the array at closer to the interface's max speed, we had to generate data. That's a peak of nearly 1.8Gbps and we've still got 8.2Gbps left upstream on the PCIe channel. Copying a large video file from the SSD to the Pegasus R6 over Thunderbolt proved this to be true:Īpple's SSD maxed out at 224MB/s to the Thunderbolt array, likely the peak sequential read speed from the SSD itself. But as a relatively modern 3Gbps SSD, this drive should be good for roughly 200MB/s. The model number implies a Toshiba controller and I'll get to its performance characteristics in a separate article.
Promise pegasus2 r6 pro#
This was the first MacBook Pro I've ever tested with Apple's own SSD, so I was excited to give it a try. The problem is, there's no single drive source that can come close to delivering that sort of bandwidth.Īpple sent over a 15-inch MacBook Pro with a 256GB Apple SSD. With six in a RAID-5 configuration, we should be able to easily hit several Gbps in bandwidth to the Pegasus R6. A single 2TB Hitachi Deskstar 7K3000 is good for sequential transfer rates of up to ~150MB/s.