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What exactly is a "sporadic statistic"?

Does anyone have any first-hand, practical experience with SSD?

I know Darth Vader had his own SSD, but that's probably not what you're talking about.

I've put one 32GB 1.8" IDE SuperTalent SSD in my Thinkpad X40, to replace that ever-failing 1.8" mechanical Hitachi crap, and formatted it with Reiser4 + cryptcompress. I LOVE IT. Fast, silent, more battery life, and, best of all, reliable. It was worth every buck.

I was going to buy a small one (15GB?) and put my linux partition on it (PC, so mobile benefits don't matter), but figured not too because of the fact that the number of times you can re-write is less. But according to "Because of these wear-leveling techniques, and the fact that a modern NAND device can sustain up to one million write cycles, the overall lifetime of an SSD can be decades. So losing capacity due to flash write cycles is probably not an issue", the option is now still back on.

But the re-write times are twice as slow! (ok I can live with that). But the read times are faster...as a home user, WHERE is this going to benefit me? Will I notice a diffence in 'vim file' or playing/streaming music?

I could maybe see if I were using a laptop, but I don't get how this would benefit me.

Thanks for taking the time to answer if anyone can persuade me different.
I might just get it for the cleanness of having a small segregated linux drive - really that's the best reason I can see.

Both my home server and several systems in use at work boot from compactflash drives. Our production servers run Ubuntu LTS, and are basically VMware Server boxes--the actual apps run off of guest OSs that live on the 6TB RAID-6s on each server.

All in all, I've had seven servers running off of SSDs for about eight months, and they have worked like a charm. I never have to worry about getting paged due to the inevitable mechanical failure of magnetic drives.

Also, SSDs are NOT expensive! A CF-to-IDE adapter costs $15, and a 2GB CF card costs about $30. Two gigabytes is more than enough to boot an OS and start a RAID. Don't waste your money on a 64GB CF card. The CF+RAID hybrid approach is the way to go.

> Does anyone have any first-hand, practical experience with SSD?
Yes. Transcendent 4GB 266x Compact Flash card, fast, silent, installed Ubuntu 7.04, currently 1.4 GB free.
Price for the card + card to ide bridge was about two 80GB HDD drives.

Only problem was that I had to make my own drive mount first, because all I got was a board with a Compact Flash slot and a IDE connector.

If you are happy with a few GB of disk space, go for it. If you want to store big amount of data, wait. The price will fall.

I think solid state drives will be like digital cameras. The price and usability (read size) will appear not to be mainstream enough, that is, until you've just made that "big" investment in the latest incarnation of the superseded technology.

It happened to me. I bought a new (not that expensive) film SLR about 18 months prior to digital cameras having sufficient resolution/cost ratio to supersede film for everyday use. Coming from a generation where cameras tend to last almost a lifetime (having been used to my father's Minolta SR-T 101, purchased about the time I was born). The concept of a camera becoming almost obsolete in that short timeframe was a bit annoying, at the time.

I have first hand experience with SSDs as I have bought one of the Samsung 64 GB SATA SSDs. In terms of writing performance, they're approximately on par with regular hard disks, as far as I can tell. Disk reads, however, are very good. To give you a vague idea of the read speed, Windows XP on this drive boots to login screen without the black logo screen appearing at all. Additionally, for those who are interested, here's what Linux's hdparm has to say about it:

# hdparm -tT /dev/sda1 /dev/sda1:
  Timing cached reads: 7352 MB in 2.00 seconds = 3679.72 MB/sec
  Timing buffered disk reads: 168 MB in 3.01 seconds = 55.86 MB/sec

It just boggles my mind how modern solid-state electronics organized for parallel I/O can be less than a factor of 10 times faster than an inherently serial and decidedly ancient-sounding "mechanically moved heads over a magnetized spinning disk" approach.
What the heck is going on here?

Basically the reviews on Anandtech [anandtech.com] & Tom's Hardware [tomshardware.com] have drawn some interesting conclusions... In terms of write performance, some are significantly worse than most notebook HDs, but all are better in terms of read performance. The idle of SATA SSD drives are significantly worse than UDMA ones (0.5w vs. 0.05w).

Basically, do your research... How much speed you'll get depends on how they bank the flash chips. More banks of lower density chips will yield a higher transfer rate--but uses more power. (Good luck finding how any one brand of SSD drive is banked...) Tom's Hardware found that the Samsung 64GB SSD offered double the transfer rate than their 32GB SSD. Anandtech found the Transcend & Super Talent SSD's to be extremely weak offerings. But then again Anandtech found the MTRON 32GB SSD far superior to most other drives they tested.

Basically SSD drives help with bootup times but in mixed tests, only the MTRON SSD drives are near Raptor speed, but I found only one retailer that even sells them--and a 32GB one for $2336.95 [google.com]!!!

Been using arrays of 4 and 8 32GB SSDs as both RAID0 and RAID5, off hardware RAID controllers and as Linux softraid, to push seek time to near 0 and throughput as far as possible. Bottom line is, they're significantly faster than "real" disks. We've found MTrons to be faster than Samsungs, generally 20 to 40%, and the MTron seek times are significantly better (they probably don't write-balance check as often under heavy usage). Only reliability problems I had were with another brand (neither Samsung nor MTron).

All I have to say is screw NAND. Give me some DDR RAM-based hard drive... Ridiculously fast, very low power, no possible questions about lifetime. Perhaps even the possibility of just swapping out one failed SODIMM instead of scrapping the whole drive, is quite enticing.

I've been using Flash longer than most... From wiring minuscule capacity EEPROMs into embedded circuits, to squeezing OSes down to 8MBs for firewalls. Floppies are a no-go for important systems.

They're low power, quiet, and have high speed seeking, but I don't really care. What I want most in a drive is seriously high throughput... That probably means RAM, with a battery back-up. In the mean time, HDDs keep getting faster and quieter.

I was wondering if anyone can answer a simple(?) question: Can data be recovered from an SSD after it has been overwritten once? i.e If I'm disposing of an SSD with sensitive data on it do I have to run secure erasing software to make multiple/random writes to every sector?

And I really like it. This laptop is great. I have a desktop with dual 24" displays for doing work so I don't need a laptop for that. What I do need is something ultra-portable to do email, read slashdot, occasional ssh into a remote machine while on the road, terminal into a box while at the datacenter, etc. And this thing fits the bill. The solid state disk has caused no problems so far but allows things like 10 second boot times and no noise and little heat. The prices of SSD will come down, the densities will go up, and SSD drives will proliferate.

I've been using a Sandisk 32 GB SSD on a Dell Latitude D630 running Vista for about 3 months now. This wasn't cheap, and even with an early adopter mindset, this is a big disappointment; it does indeed reads much faster (about 30 times), but writes at least 3 times slower than the same D630 running a SATA. My typical usage involved web/email, Microsoft Office, photography/photoshop, compiling large projects, etc.

Quiet is great, more battery is fine, and I hardly ever reboot using Vista almost instant-sleep feature, but installing software or writing large files is *painful*. Moreover, you should plan for a lot of physical memory: you do *not* want to see your system paging for virtual memory.

Now maybe Vista is to blame, but the whole system will hang now and then for 10 secs or more. Is it indexing something, writing whatever system logs to disk, who knows, but a a few other users have reported the same issue with this SSD on Dell forums. No driver update has been released either since the SSD option was out. This is also probably not coincidental that SSD vendors emphasize read speed but remain somehow quiet about the write speed (or lack thereof).

I, for one, am switching back to a 7200 RPM SATA. This is *not* ready for prime time, even if Samsung claims slightly better write speed on its 64 GB; *do* check the user forums (say, Dell), and you will find a lot of frustrated users. This was worth a shot, and I'll eventually consider that technology again in 10 months.

Hope this helps

Puppy Linux runs nicely on small USB memory sticks of 128MB and up. A 1GB memory stick make a beautiful system. You really don't need umpteen gazillion gigabytes of storage space for a PC.

I agree with TFA that SSD is most useful if you need the ruggedness and the read speed. I have a 16GB Samsung 1.8" SSD in my fujitsu P1510D. It's a marriage made in heaven! I am a Biologist, and use my P1510 in the field. The SSD gives piece of mind, one less thing to go wrong. In fact, almost right after I swapped in my SSD, I (yes accidentally) dropped my computer about three feet to the floor. After checking to see that screen and case wasn't cracked, I just knew it was fine, and of course it booted right up. I also work in some high altitude locations, and I find the the machine boots at higher altitudes now. (perhaps hard drives cut out at high altitude because there's not enough air to keep the head off the platter?) Finally, the P1510 uses hard to find and extremely expensive micro-DIMMs, so upgrading the memory is prohibitively expensive. That was my biggest gripe with the little machine, it was slow because I couldn't get the 1GB it really needs. This, coupled with the incredibly slow 1.8" hard drive made it kind of annoying. I still can't do much about upgrading RAM, but the read speed of the SSD allows me to just close applications, and re-open them when I need them (nearly instantaneously), so I never have more than two applications open at a time. The most telling test I've done is with Allway Sync, which I use to synchronize the files on my little laptop with my desktop. Running "Analyze" (version checking files) on my home folder used to take about about a minute, now with the SSD it's somewhere between 10-15 seconds. Sure, I wouldn't put it on a MySQL server or the like, but for my laptop, the whole experience is just so much better. I would recommend one to anyone who can use the ruggedness and read speed.

A year of Solid State Disk on Desktop?