Page 1:Intel’s SSD 520: Enthusiast Storage By SandForce?
Page 2:Test Setup And Benchmarks
Page 3:Breaking Out New Benchmarks
Page 4:4 KB Random Performance: Raw, Windows, And Mac
Page 5:128 KB Sequential Performance: Raw, Windows, And Mac
Page 6:Incompressible Performance: SandForce's Weakness
Page 7:Tom's Hardware Storage Bench And PCMark 7
Page 8:Power Consumption: Idle And 4 KB Random (Windows 7/Mac OS X)
Page 9:Power Consumption: 128 KB Sequential (Windows 7/Mac OS X)
Page 10:Power Consumption: Incompressible Sequential (Windows 7/Mac OS X)
Page 11:Endurance Testing: Write Amplification And Estimated Lifespan
Page 12:Steady State Performance (Worst Case) And TRIM
Page 13:Real World Performance: File Copy And Backup
Page 14:Real-World Performance: Windows And Mac Boot Times
Page 15:Not Just Another SandForce SSD
4 KB Random Performance: Raw, Windows, And Mac
Random Read Performance (background info)
Although Intel quotes a slightly lower random read specification than OCZ, it certainly doesn't trail at all in our tests. At the physical level, Intel's SSD 520s are just as fast as the older Vertex 3s, which stand in here to represent the larger crowd of SandForce-based competition.
That's a good sign. SSDs based on SF-2281 typically lead the high-end market with aggressive random access results, By extension, Intel joins this pack. Even when we consider that most desktop workloads impose very low queue depths, the Intel drive still outperforms Crucial's m4 and Samsung's 830. Granted, 90% of the time your workload will remain at a queue depth of one. In that situation, you'll only experience a 10 MB/s lead over the m4 and 830. However, the rest of the time where you're stressing your storage system with more outstanding I/Os, you're going to enjoy a much larger performance delta. As the queue depth increases, the SandForce-based drives establish a more substantial advantage.
For Intel, though, the big story is the improvement over its SSD 510. Last year, the Marvell-based 510 emerged as the company's purported performance flagship. But although it centered on the same controller as Crucial's m4, Intel clearly prioritized sequential performance over random I/O. As a result, in the above graph, the SSD 510 lags way behind. In shifting to the SSD 520, Intel addresses write performance in a major way.
The performance overhead imposed by a file system seems to be pretty dramatic. We already established that the physical drive performance should start out at roughly 80-90 MB/s for the 256 GB m4, 256 GB 830, Vertex 3s, and SSD 520s, but that's not what we see here. Formatted, all of the SSDs start at roughly 20 MB/s.
Our Windows 7-based system returns relatively strong random read results. At a queue depth of eight, you're already able to push through the 100 MB/s barrier with performance-oriented SSDs like Intel's SSD 520. Not so on our MacBook Pro, where we're limited to sub-100 MB/s speeds.
On our PC, in the chart above, the SSD 320s, 240 GB 520, 240 GB Vertex 3, 256 GB m4, and 256 GB 830 all perform as if in one fairly close group, while the slower 60 GB 520, 60 GB Vertex 3, and 250 GB SSD 510 trail off when there are more than eight outstanding I/Os. Samsung's 830 even takes a noticeable lead when you scale up to 16.
That's not the same trend observed on our Mac. While Samsung still leads, all of the SandForce-based drives start to fall behind at higher queue depths. In a twist, we even see both SSD 320s outperform the 520s and Vertex 3s.
Random Write Performance
Random write performance looks similar to random reads. At a queue depth of one, the latest SATA 6Gb/s SSDs hit the same ~90 MB/s ceiling. Only the SSD 510 and 320s perform noticeably slower. Once you scale up, though, things get more interesting.
While SandForce-based SSDs generally trend toward the top, Intel's 240 GB SSD 520 deserves praise for punching through the 300 MB/s barrier at only four outstanding I/O operations. Crucial's 256 GB m4 tops out at 250 MB/s, falling 50 MB/s short of SandForce-based pack. The real disappointment here is Samsung's 256 GB 830, which plateaus at ~150 MB/s.
Our Mac and PC systems produce vastly different results. Like random reads, our Windows 7-based PC seems much better suited for random writes. The results largely mirror what we see for physical block level testing.
In contrast, the results from our MacBook Pro reflect significantly less performance. Even at a queue depth of 16, we can't seem to punch through the 140 MB/s barrier. As a result, we see a very tight grouping. Intel's SSD 520s, OCZ's Vertex 3s, Crucial's 256 GB m4, and Samsung's 256 GB 830 are all lumped together without any perceivable difference.
- Intel’s SSD 520: Enthusiast Storage By SandForce?
- Test Setup And Benchmarks
- Breaking Out New Benchmarks
- 4 KB Random Performance: Raw, Windows, And Mac
- 128 KB Sequential Performance: Raw, Windows, And Mac
- Incompressible Performance: SandForce's Weakness
- Tom's Hardware Storage Bench And PCMark 7
- Power Consumption: Idle And 4 KB Random (Windows 7/Mac OS X)
- Power Consumption: 128 KB Sequential (Windows 7/Mac OS X)
- Power Consumption: Incompressible Sequential (Windows 7/Mac OS X)
- Endurance Testing: Write Amplification And Estimated Lifespan
- Steady State Performance (Worst Case) And TRIM
- Real World Performance: File Copy And Backup
- Real-World Performance: Windows And Mac Boot Times
- Not Just Another SandForce SSD