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I want to buy the best laptop for Eclipse development (Lenovo W510 I guess), but I'm not sure if I should invest in a SSD, or a fast HHD with perhaps a little extra ram.

Other considerations/thoughts for buying new hardware as a Java+Eclipse developer are welcome as well.

Thanks a lot in advance!

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Sort of a duplicate here: stackoverflow.com/questions/499889/ssd-and-programming They don't really give any objective answers though (whether it's faster or how much). Joel Spolsky wrote a thing about using SSDs here: joelonsoftware.com/items/2009/03/27.html –  Brendan Long Dec 29 '10 at 21:21
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8 Answers

up vote 10 down vote accepted

Oh yes it will. I just switched to a solid state drive on my laptop and the performance has at least doubled. There is still a limitation on the bus speed though.

I have also used a home-brew ssd to test performance before going all in and spending the extra $ for the performance. You can get a 2.5" drive cage from amazon.com, and an 8GB compact flash drive for about $50.

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Investing quite some money is at the moment not an issue, since I work with it all the time, when I'm awake. I thought SSD might be useless since RAM and RAMDrive's exist, but after reading the comments, I assume it will be beneficial. Thanks for the replies!! –  prefabSOFT Dec 31 '10 at 0:23
    
3 yrs ago, I tried at my previous company a 32GB SSD to build our C++ program on, and it won about 0 seconds of build time. Then after 2 month, I lost about 30/40% perf over the rotating HDD which never lost perf. I hope this changed with newer OS, newer firmware, larger capacities and faster SATA specs. –  v.oddou Nov 6 '13 at 1:43
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8GB flash drive... $50. Oh my goodness how times have changed since 2010 –  BigMario Mar 25 at 17:45
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We've been using SSDs to hold the Eclipse workspace and source directories for about a year. We see about a 4x performance boost over a 10K RPM disk when building a large system (tens of thousands of .java files).

Go for it.

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What platform? Any anti-virus? –  Thorbjørn Ravn Andersen Dec 29 '10 at 23:26
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Win7x64 on a Core i7-920 with 12GB memory; TrendMicro AV. –  Jim Garrison Dec 30 '10 at 2:56
    
Great, I'm looking forward a lot to start compiling on my new machine. :) –  prefabSOFT Dec 31 '10 at 0:21
    
Not to be unfounded, most of the advantages of solid-state drives over traditional hard drives are due to their ability to access data completely electronically instead of electromechanically, resulting in superior transfer speeds and mechanical ruggedness. –  Ruslan Gerasimov Jun 19 at 5:28
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I have seen several suggestions to put your workspace onto a SSD. I tried that and didn't see much performance gain. However, when I put Eclipse, the workspace, and the JDK on the SSD I got a huge performance gain.

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If you need to run any form for anti-virus the SSD will most likely not bring you any benefits since the antivirus will eat it all.

You will however benefit from lots of memory. Eclipse is big. Any Web server/Java EE server will be big, plus you also want to do other stuff on the system. I would recommend you to buy as much memory as you can afford, and perhaps even a bit more.

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Then I'm going to upgrade my 4gb dual core Vaio laptop for an 8 or perhaps 16gb Lenove w510 Core i7-920XM, and with SSD drive then if there a chance of improving Eclipse responsiveness. –  prefabSOFT Dec 31 '10 at 0:19
    
Please do, and report your findings back. If you have VERY big workspaces the sheer amount of bookkeeping data will be large. If it slows things down then, I do not know. –  Thorbjørn Ravn Andersen Dec 31 '10 at 8:06
    
-1 A) you can always white list your eclipse workspace dir in your AV. b) SSD is SICK FAST compared to HDD....get a samsung pro and never look back –  Jason Sep 13 '13 at 17:30
    
@jason strongly depends on whether your system administrator allows you to. –  Thorbjørn Ravn Andersen Sep 13 '13 at 17:40
    
that's true...I agree. You could use one externally either via an esata port or straight from the mobo via a card slot adapter. I would thing most sysadmins only care about the boot drive. –  Jason Sep 19 '13 at 13:13
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Fist you need memory(8GB+ I suggest), then think about a SSD or maybe 2 fast HHDs in a raid.

And after you have enough mem the SSD will improve the performance of eclipse around 2x with big projects with Maven and so on.

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I found these answers to be very strange. My experiment here showed no performance gains at all with HD or SSD. Here's what I did:

The experiment consisted of building Maven source code using Maven itself. First I built Maven normally, with the following commands:

sudo apt-get install maven2
git clone https://git-wip-us.apache.org/repos/asf/maven.git
cd maven
mvn install     # once to download dependencies
mvn clean       # now that we have them, let's clean to start over
mvn install -o  # the real thing. -o is to avoid network speed influence

This last command took 38s on my desktop machine (i7, 16GB RAM and SSD) and 5.5min on my netbook (Atom 1.6, 2GB RAM and HDD).

Then I tried a RAM disk build. On both computers, I changed my /tmp into a tmpfs, residing in RAM. In other words, HD and SSD were no longer used to store source code or generated files; everything went to RAM, which is much faster.

cd /tmp
cp -r (...)/maven .   # copying source code to RAM disk
cd maven
mvn install -Duser.home=/tmp/.m2    # switch user.home to RAM as well
mvn clean -Duser.home=/tmp/.m2
mvn install -o -Duser.home=/tmp/.m2

Results were surprising: exactly the same 38s on my desktop and 5.5 minutes on my netbook.

I can only conclude that the SSD wasn't making any difference on this case, since moving from disk to RAM made no difference as well. The only thing I didn't try was moving JDK and Maven binaries to RAM. But I doubt it would make any great difference.

It seemed clear to me that CPU power and RAM size were the real reasons for the difference in build performance between my desktop and netbook. I believe the same should apply to most projects.

Do you guys agree?

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It has to do with bus bandwidth. a bit core i7 and a small atom (even a core i3) compare very badly in terms of memory control. This is all where the big perf gap comes from. And I personaly agree from experience that SSD brings no gain into building stuff, which is limited by RAM and CPU speed. Every source file is already cached after you do the first "search in solution" (Ctrl+shift+F), or the first build (cold build). the cold build is slow but its the first of the day... –  v.oddou Nov 6 '13 at 1:48
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It depends on your tasks!

For example, I have parsed the same csv file located both on hdd and ssd. To my surprise the run time for hdd based file is faster than that of ssd.

hdd run time 4 min 38 sec

ssd run time 5 min 30 sec

I looked at resource monitor and found out that ssd usage didn't exceed hdd usage in MB/s. I can not say why is that so, but in my case I don't have performance boost parsing csv files, but of course I notices performance boost from SSD in general.

UPDATE: Actually I rewrote the code, because I found bottleneck, and now it runs faster 2 times on ssd vs hdd! So yes, you can say that you get noticable performance gain when you go with ssd.

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Are you able to fix the bottlenecks of microsoft C compiler ? In general its not your own app that you want to gain speed on. –  v.oddou Nov 6 '13 at 1:50
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SSDs have no moving (mechanical) components. This distinguishes them from traditional electromechanical magnetic disks such as hard disk drives (HDDs), which contain spinning disks and movable read/write heads. Compared with electromechanical disks, SSDs are typically more resistant to physical shock, run silently, have lower access time, and less latency.

Making a comparison between SSDs and ordinary (spinning) HDDs is difficult. Traditional HDD benchmarks tend to focus on the performance characteristics that are poor with HDDs, such as rotational latency and seek time. As SSDs do not need to spin or seek to locate data, they may prove vastly superior to HDDs in such tests. However, SSDs have challenges with mixed reads and writes, and their performance may degrade over time. SSD testing must start from the (in use) full disk, as the new and empty (fresh out of the box) disk may have much better write performance than it would show after only weeks of use.

Most of the advantages of solid-state drives over traditional hard drives are due to their ability to access data completely electronically instead of electromechanically, resulting in superior transfer speeds and mechanical ruggedness. On the other hand, hard disk drives offer significantly higher capacity for their price.

Field failure rates indicate that SSDs are significantly more reliable than HDDs,however SSDs are uniquely sensitive to sudden power interruption, resulting in aborted writes or even cases of the complete loss of the drive. The reliability of both HDD and SSD vary greatly amongst models.

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