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Intel SSDSC1NB240G401, SSDSC2BB600G401 Figure 3. RAID 1 Random 90% Read @ 4KB Transfer Size with Average Latency , Figure 4. RAID 1 Random 100% Read @ 4KB transfer size with Average Latency

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Intel

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SSD DC S3500 Workload Characterization in RAID Configurations

White Paper December 2013

12 329903-001US

Figure 3. RAID 1 Random 90% Read @ 4KB Transfer Size with Average Latency

Intel internal testing, October 2013

Figure 4. RAID 1 Random 100% Read @ 4KB transfer size with Average Latency

Intel internal testing, October 2013

Notes:

Figures 2, 3 - In mixed workloads, 70% read and 90% read , I OPS increase with additional drives

and show slightly exponential growth with deeper queues .

Figures 2, 3, 4 - Average latency for 70% read starts out similar to 100% write, but the progression

is not as steep through deeper queues, ending between 50 0-600 µS. Average latency for 90% read

and 100% read continue to improve due to the higher speed of reads over writes.

Figures 2, 3, 4 - The latency of the two drive set is lower than other drive counts as read

percentage increases due to the manner in which the LSI contro l le r d eals with the additional drives.

This is expected behavior. For more information, p lease contact LSI for details.

Figure 4 - At 100% read the IOPS performance scales linearly. In other words, the IO PS for four

drives is double that of two drives, six drives is tr iple that of two drives, and eight drives is four

times that of two drives.

Contents

Main Intel SSD DC S3500 Series Workload Characterization in RAID Configurations White Paper Intel SSD DC S3500 Workload Characterization in RAID Configurations White Paper December 2013 2 329903-001US Contents Tables Figures 1.0 Revision History 2.0 Supporting Documentation 3.0 About This Guide 4.0 Overview 4.1 What Impacts SSD IO Performance As randomness increases, IOPS decreases, and latency increases. 4.2 Queue Depth and Latency 4.3 Why Mixed Workload Is Important 4.4 Drive Endurance 4.5 Selection of RAID Controller 5.0 RAID 1 5.1 Test System Specifications 5.2 Intel SSD DC S3500 Series in RAID 1 Performance Characterization Data Figure 1. RAID 1 Random 100% Write @ 4KB Transfer Size with Average Latency Figure 2. RAID 1 Random 70% Read @ 4KB Transfer Size with Average Latency Figure 3. RAID 1 Random 90% Read @ 4KB Transfer Size with Average Latency Figure 4. RAID 1 Random 100% Read @ 4KB transfer size with Average Latency 5.3 RAID 1 Consistency Figure 5. RAID 1 Maximum Latency for 2-drive and 8-drive Configurations 5.4 RAID 1 Performance Conclusions 6.0 RAID 5 6.1 Test System Specifications 6.2 Intel SSD DC S3500 Series in RAID 5 Performance Characterization Data Figure 6. RAID 5 Random 100% Write @ 4KB Transfer Size with Average Latency Figure 7. RAID 5 Random 70% Read @ 4KB Transfer Size with Average Latency Figure 8. RAID 5 Random 90% Read @ 4KB Transfer Size with Average Latency Figure 9. RAID 5 Random 100% Read @ 4KB Transfer Size with Average Latency 6.3 RAID 5 Consistency Figure 10. RAID 5 Maximum Latency for 3-drive and 8-drive Configurations 6.4 RAID 5 Performance Conclusions 7.0 Summary 8.0 Appendix 8.1 RAID Levels