White Paper: MySQL Performance Testing: SupremeRAID™ versus Linux MD RAID
The results are in! Turns out, SupremeRAID™ RAID 6 delivers more transactions per second than Linux MD RAID 10, while…
Read MoreChallenge the status quo for performance-demanding workloads with SupremeRAID™ SR-1000 for PCIe Gen 3, 4, and 5 -- designed to deliver superior SSD performance while increasing scalability, improving flexibility, and lowering TCO.
SupremeRAID™ SR-1000 (for PCIe 3, 4, and 5 servers) delivers lightning-fast SSD performance in AI-accelerated compute, AFA, and HPC applications. Designed for both Linux and Windows operating systems, it supports RAID levels 0/1/10/5/6/JBOD while the core software license supports up to 32 native NVMe drives. SupremeRAID™ SR-1000 enables superior NVMe/NVMeoF, SAS, and SATA performance while increasing scalability, improving flexibility, and lowering TCO. Its revolutionary AI solution eliminates the traditional RAID bottleneck in mass storage to deliver maximum SSD performance for high-intensity workloads.
The cutting edge technology of SupremeRAID™ SR-1000 eliminates the traditional RAID bottleneck to unlock the full potential of your SSD performance. A single SR-1000 card is capable of delivering 16 million IOPS and 110 Gb/s of throughput. (Based on RAID5 with 3rd Gen Intel® Xeon Scalable Platform and Intel D7-P5510)
RAID 0, 1, 5, 6, 10
32
4
8
Defined by physical drive size
Linux: CentOS 8.4, 8.5
openSUSE Leap 15.2, 15.3
RHEL 8.4, 8.5
SLES 15 SP2, SP3
Ubuntu 20.04
Windows Server 2019 x86-64
Windows 10 x86-64
x16 PCIe Gen 3.0
50 W
2.713” H x 6.137” L, Single Slot
132.6
Introducing the world’s first NVMe and NVMeoF RAID card to unlock the full potential of your SSD performance. SupremeRAID™ cutting edge technology eliminates the traditional RAID performance bottleneck to deliver world-record performance, comprehensive data protection, and unmatched flexibility at the lowest TCO on the market.
. | Linux Environment | Windows Environment | ||||
---|---|---|---|---|---|---|
OPTIMAL | RAID 5 | RAID 6 | RAID 10 | RAID 5 | RAID 6 | RAID 10 |
4K Random Read IOPS | 16M IOPS | 16M IOPS | 16M IOPS | 2 M IOPS | 2 M IOPS | 2 M IOPS |
4K Random Write IOPS | 820 K IOPS | 450 K IOPS | 6 M IOPS | 500 K IOPS | 450 K IOPS | 1 M IOPS |
1M Sequential Read THROUGHPUT | 110 GB/s | 110 GB/s | 110 GB/s | 65 GB/s | 60 GB/s | 70 GB/s |
1M Sequential Write THROUGHPUT | 11 GB/s | 11 GB/s | 25 GB/s | 9 GB/s | 9 GB/s | 35 GB/s |
REBUILD REBUILD_SPEED=LOW | ||||||
4K Random Read IOPS | 3 M IOPS | 3 M IOPS | 9 M IOPS | 350 K IOPS | 350 K IOPS | 2 M IOPS |
4K Random Write IOPS | 600 K IOPS | 400 K IOPS | 5 M IOPS | 400 K IOPS | 370 K IOPS | 1 M IOPS |
1M Sequential Read THROUGHPUT | 12 GB/s | 13 GB/s | 55 GB/s | 12 GB/s | 13 GB/s | 15 GB/s |
1M Sequential Write THROUGHPUT | 11 GB/s | 11 GB/s | 25 GB/s | 8 GB/s | 8 GB/s | 13 GB/s |
. | Linux Environment | Windows Environment | ||||
---|---|---|---|---|---|---|
OPTIMAL | RAID 5 | RAID 6 | RAID 10 | RAID 5 | RAID 6 | RAID 10 |
4K Random Read IOPS | 16M IOPS | 16M IOPS | 16M IOPS | 2 M IOPS | 2 M IOPS | 2 M IOPS |
4K Random Write IOPS | 820 K IOPS | 450 K IOPS | 6 M IOPS | 500 K IOPS | 450 K IOPS | 1 M IOPS |
1M Sequential Read THROUGHPUT | 110 GB/s | 110 GB/s | 110 GB/s | 65 GB/s | 60 GB/s | 70 GB/s |
1M Sequential Write THROUGHPUT | 11 GB/s | 11 GB/s | 25 GB/s | 9 GB/s | 9 GB/s | 35 GB/s |
REBUILD REBUILD_SPEED=LOW | ||||||
4K Random Read IOPS | 3 M IOPS | 3 M IOPS | 9 M IOPS | 350 K IOPS | 350 K IOPS | 2 M IOPS |
4K Random Write IOPS | 600 K IOPS | 400 K IOPS | 5 M IOPS | 400 K IOPS | 370 K IOPS | 1 M IOPS |
1M Sequential Read THROUGHPUT | 12 GB/s | 13 GB/s | 55 GB/s | 12 GB/s | 13 GB/s | 15 GB/s |
1M Sequential Write THROUGHPUT | 11 GB/s | 11 GB/s | 25 GB/s | 8 GB/s | 8 GB/s | 13 GB/s |
. | Linux Environment | Windows Environment | ||||
---|---|---|---|---|---|---|
OPTIMAL | RAID 5 | RAID 6 | RAID 10 | RAID 5 | RAID 6 | RAID 10 |
4K Random Read IOPS | 16M IOPS | 16M IOPS | 16M IOPS | 2 M IOPS | 2 M IOPS | 2 M IOPS |
4K Random Write IOPS | 820 K IOPS | 450 K IOPS | 6 M IOPS | 500 K IOPS | 450 K IOPS | 1 M IOPS |
1M Sequential Read THROUGHPUT | 110 GB/s | 110 GB/s | 110 GB/s | 65 GB/s | 60 GB/s | 70 GB/s |
1M Sequential Write THROUGHPUT | 11 GB/s | 11 GB/s | 25 GB/s | 9 GB/s | 9 GB/s | 35 GB/s |
REBUILD REBUILD_SPEED=LOW | ||||||
4K Random Read IOPS | 3 M IOPS | 3 M IOPS | 9 M IOPS | 350 K IOPS | 350 K IOPS | 2 M IOPS |
4K Random Write IOPS | 600 K IOPS | 400 K IOPS | 5 M IOPS | 400 K IOPS | 370 K IOPS | 1 M IOPS |
1M Sequential Read THROUGHPUT | 12 GB/s | 13 GB/s | 55 GB/s | 12 GB/s | 13 GB/s | 15 GB/s |
1M Sequential Write THROUGHPUT | 11 GB/s | 11 GB/s | 25 GB/s | 8 GB/s | 8 GB/s | 13 GB/s |
The results are in! Turns out, SupremeRAID™ RAID 6 delivers more transactions per second than Linux MD RAID 10, while…
Read MoreSupremeRAID™ vs. Software RAID vs. Hardware RAID PCIe Gen 5 is new, only just released recently, and provides significant performance…
Read MoreAre you interested in storage solutions with high demands on I/O & IOPS? Then take a look at the latest…
Read MoreNamed Most Innovative Flash Memory Startup, Best of Show by Flash Memory Summit 2022, SupremeRAID™ performance is breaking world records. Contact us today to find out how our innovative NVMe solution can unlock the full potential of your high performance workloads.
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