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Patriot Warp v2 SATA SSD PE128GS25SSDR
Reviews - Featured Reviews: Storage
Written by Olin Coles   
Monday, 01 December 2008

Patriot Warp v2 SSD

EDITORS NOTE: Please read Solid State Drive (SSD) Benchmark Performance Testing to understand how the benchmarks used in this article should be interpreted.

Solid State Drives are rapidly changing the computing landscape, and many enthusiasts are using SSD technology in their primary systems to help boost performance. Benchmark Reviews has tested nearly all of the products available to the retail market in this sector, and several do well while others fall flat. It used to be that performance was the largest hurdle, but now we're seeing that stability is a major factor. In this article, we test bandwidth performance on the Patriot Warp 128GB SATA-II SSD PE128GS25SSDR and compare it against the competition.

Since first making a commercial public debut at the 2007 Consumer Electronics Show, Solid State Drives (SSD's) have been a topic of hot discussion among performance enthusiasts. With virtually no access time delay, these nonvolatile flash memory-based drives were quick to promise a more reliable storage device with greater performance while operating at a fraction of the power level. Moving further into 2008 they have become a reality for many performance-minded power users. I suppose it's been a slow ramp-up for consumers to accept Solid State Drive technology, similar to the struggle DDR3 SDRAM has seen.

Patriot_Warp_SSD_Retail_Package.jpg

Perhaps Benchmark Reviews likes to ride the edge of technology just a little too close, since we've tested more DDR3 and SSD's than almost everyone else on the web. The bleeding edge is where most enthusiasts like to live, but seldom enjoy the price tag. Because I am in a position where cutting edge technology are within my reach (if only for a few weeks of testing), my experience is valuable to the small niche of consumers that might actually want these premier products. Benchmark Reviews has been hard at work trying to ride the wave of innovation into the next big technology. It only took a few years of development, but Solid State Drives can now offer superior speed over Hard Disk Drives; but they are still extremely expensive.

According to a Q1 2008 report by the semiconductor market research firm iSuppli, the SSD market will grow at an annualized average of 124 percent during the four-year period from 2008 until 2012. iSuppli now projects SSD sales to increase by an additional 35 percent in 2009 over what it projected last year, 51 percent more in 2010, and 89 percent more in 2011, and continue to show dramatic increases in subsequent years.

Patriot Extreme Performance (EP) Warpseries Solid State Drive (SSD) is the latest in storage technology. Using the state-of-the-art NAND flash chips and ultra-fast controller, the Warp v.2 SSD is available from 32GB to 128GB capacity delivering a blazing transfer speed up to 175MB/s read and 100 MB/ write. Compared to conventional disk drives, built with 100% moving-free parts and housed in a vibration and shock resistance housing, the Warp SSDs provide a rock solid operating environment even during the most extreme working conditions. A perfect solution for a wide range of applications which demand ruggedness, minimal power consumption, cooler temperature and silent operations. Built to sustain heavy usage, the Warp SSDs have built-in wear leveling technology in addition to the standard 2 year warranty to maximize the life span of the drive and preserve your data integrity by automatically marking and blocking bad data cells.

  • Available in 32GB, 64GB and 128GB capacities
  • Interface: SATA I/II
  • Raid support: 0, 1, 0+1
  • Dimensions: 99.88 x 69.63x 9.3 mm
  • Weight: 91g
  • Sequential Read: up to 175MB/s
  • Sequential Write: up to 100MB/s
  • Shock Resistant: 1500G/0.5ms
  • Vibration Resistant: 20G/10~2000Hz with 3 Axis
  • Operating Voltage: DC 5V
  • Power Consumption: 280mA~330mA
  • Operating Temperature: -10°~70°
  • Storage Temperature: -55°~125°
  • MTBF: >1,500,000 Hours
  • Data Retention: > 5 years at 25°
  • Data Reliability: Built in BCH 15-bit ECC
  • O/S Support:Windows 2000/XP/Vista Linux, and Mac OSX
  • Certification: FCC/CE/RoHS
  • 2 Year Warranty

About the company: Patriot Memory (PDP Systems, Inc.)patriot_logo_blue_206px.png

Established in 1985, Patriot Memory builds a full range of memory module and flash memory products, offering a perfect blend of quality and value. Patriot products include Extreme Performance (EP), Signature Lines (SL) and Flash Memory solutions (FM).

Patriot has sales offices located throughout the U.S. and Asia. Patriot sells through the distribution channels throughout North America, Europe, Asia Pacific, Middle East, Africa, and Latin America.

Patriot's development and manufacturing facility are located in Fremont, California USA. Our manufacturing segment is composed of a highly skilled production staff and multiple production lines optimized for modules, giving Patriot the ability and resources necessary to provide a full line of memory module solutions. Patriot Memory is a trademark of PDP Systems, Inc.

Patriot Warp SSD Closer Look

For the entire 2007 year and part of 2008, Benchmark Reviews had anxiously awaited the fabled Solid State Drive that could replace our current list of preferred Hard Disk Drives. Making this wait seem even longer was the fact that HDD manufacturers were constantly improving there product and adding new enhancements to the technology. First there was perpendicular storage technology, then came fluid bearings, and finally there was the increase in cache buffer DRAM to speed-up the burst data transfer. Performance has always been the hurdle that SSD's have had a tough time clearing, with read and write bandwidth creating the largest obstacles. Response time and reduced power consumption has long become the key arguments for owning an SSD, but without the bandwidth throughput to measure up against HDD's they became an expensive niche item.

That time has come to pass, and our collection of SSD reviews is proof. Back in March (2008) we tested the lightning-fast MemoRight GT SSD which finally put the Western Digital Raptor in its place... to the tune of almost $2000. In that round, the Solid State Drive won the speed and bandwidth victory, but it had a long way to go before surpassing the value of a Hard Disk Drive. This is a new chapter in the history of the Solid State Drives struggle to replace the Hard Disk Drive. Power consumption is still astonishingly low, even when compared to the newest series of efficient HDD's available. So now all that remains on the list of items holding back the widespread use is... cost.

Patriot_Warp_SSD_Top.jpg

When it comes to the appearance of notebook drives, it must be understood that the product you're looking at will be hidden away from plain view once installed. I'm personally a big fan of black and yellow, which are the two primary colors used on the Patriot Warp v2 SSD. Keeping in mind that this product is solid state, and therefore offers no amount of noticeable physical activity, it takes some special attention to presentation to help the consumer feel comfortable with their premium purchase.

Like everything else with a price tag, perception is reality. So it was a little surprising when I discovered how well the Patriot Warp SSD came packaged using an over-needed amount of protection. Back at the start of 2008 I witnessed a Crucial/Lexar demonstration of a SSD fastened to a paint-mixer and being shaken while a video game was being played be a CES convention-goer. Unlike the Hard Disk Drive (HDD), SSD's are practically impervious to impact damage and do not require extra-special packing precautions.

Patriot_Warp_SSD_Corner.jpg

Nevertheless, Patriot has safely nestled the PE128GS25SSDR in a plastic tray enclosure with the care a flight data recorder might receive - and perhaps that is the reason for all of the extra attention. Solid State Drives are very popular items in military and aerospace technology, primarily because of their ability to withstand shock in excess of 1500 G's. The SSD offers the same rugged longevity, which amounts to safer data even after the worst disasters.

Standard 2.5" drive bay mounting points are pre-drilled and threaded in the SATA-II SSD, which allows for quick upgrade or addition to any existing notebook or desktop system. The mounting positions matched up to the drive bracket on my Dell Inspiron laptop, and without any trouble at all I was quickly loading the Windows XP SP-3 Operating System image on this 128GB SATA SSD Solid State Drive.

Patriot_Warp_SSD_Bottom.jpg

The underside of the Warp v2 SSD reveals standard SATA power and data interface connections. Unlike desktop computers which utilize a SATA cable system to connect drive to motherboard, nearly all notebooks allow the 2.5" drive to simply slide directly into a connection bay within the system. In addition to notebooks and desktop computer usage, this Patriot SATA Solid State Drive can be utilized for mission-critical backups or high-abuse data systems.

Patriot_Warp_SSD_Bottom_Angle.jpg

The Patriot Warp 128GB SATA-II SSD PE128GS25SSDR is encased in an metal half shell, which fastens from the underside with counter-sunk screws. In the next section Benchmark Reviews begins the performance testing on this Solid State Drive, and we determine just how well the Warp v2 SSD compares to the competition.

SSD Testing Methodology

EDITORS NOTE: Please read Solid State Drive (SSD) Benchmark Performance Testing to understand how the benchmarks used in this article should be interpreted.

Solid State Drives have traveled a long winding course to finally get where they are today. Up to this point in technology, there have been several key differences separating Solid State Drives from magnetic rotational Hard Disk Drives. While the DRAM-based buffer size on desktop HDD's has recently reached 32 MB and is ever-increasing, there is still a hefty delay in the initial response time. This is one key area in which flash-based Solid State Drives continually dominates because they lack moving parts to "get up to speed".

However the benefits inherent to SSD's have traditionally fallen off once the throughput begins, even though data reads or writes are executed at a high constant rate whereas the HDD tapers off in performance. This makes the average transaction speed of a SSD comparable to the data burst rate mentioned in HDD tests, albeit usually lower than the HDD's speed.

Test SystemPatriot_Warp_SSD_Side-Angle.jpg

Disk Hardware

Benchmark Reviews is aware that all Intel ICH9/9R and ICH10/10R chipsets featured on 3- and 4- series motherboards exhibit a bandwidth limit defect for most SSDs of approximately 80MBps when not operating in ACHI mode (BIOS configuration). Since the Gigabyte GA-X48T-DQ6 motherboard we used for testing also comes equipped with a JMicron JMB363 SATA controller for two additional SATA-II ports, all tests were conducted using this drive controller.

Test Tools

  • HD Tach RW v3.0.4.0 by Simpli Software
  • ATTO Disk benchmark v2.02
  • System Speed Test v4.78 by Vladimir Afanasiev
  • PCMark05 by Futurmark Corporation
  • Windows XP Professional SP-3 (optimized to 16 processes at idle)

Comparing a Solid State Disk to a standard Hard Disk Drives is always relative; even if you're comparing the fastest rotational spindle speeds. One is going to be many times faster in response (SSD's), while the other is usually going to have higher throughput bandwidth (HDD's). Additionally, there are certain factors which can effect the results of a test which we do our best to avoid.

Nevertheless there will be some tests which will not be completely representative of the individual product tested, but a combination of the product and supporting system hardware. An excellent example of such a test is the write-to bandwidth benchmarks, which rely on other system components to force data onto the drive along with the bus bandwidth to support it. This dependency on system hardware is why you will see Benchmark Reviews place an emphasis on read bandwidth over write tests.

System Speed Test Benchmarks

EDITORS NOTE: Please read Solid State Drive (SSD) Benchmark Performance Testing to understand how the benchmarks used in this article should be interpreted.

It's show time! All claims to performance are either made real or proven false in our testing, and although SSD's clearly offer some advantages it sometimes takes seeing a product compared to the performance of others to prove the point. Not very long ago I decided to take action and get System Speed Test v4.78 back in our test rotation. This software is solid, and the results are more accurate than any others available that I have used.

I doubt that when DOS died, Vladimir Afanasiev ever thought he would see his System Speed Test software used again in professional reviews. This program offers comprehensive system information, but it also has a powerful benchmarking tool for memory, processor, and disks. In terms of disk performance, it measures interface and physical transfer rates, seek and access times at the hardware level, and it does so without delay or interference from Operating System software or running processes. This is why Benchmark Reviews will continue to use this test: it polls its results directly from the hardware without the need for Windows!

To detect the Random Access Time of each device, we ran full test routines on all products a total of five times. The highest and lowest scores were ignored, and the remainder was averaged. This would be pointless however, because in every single access time benchmark the test results were identical. In the bandwidth tests the results were extremely close to the others, and therefore required averaging.

System_Speed_Test_Access_Time.png

To my complete surprise, System Speed Test access time benchmarks places the Mtron Pro 7500 SSD at the very top of our results. With a lightning-fast 0.08 ms access time, every other SSD is forced to live in the shadow that the MSP-SATA7525 has just created. The sub-0.1ms group of top performers also includes the MemoRight GT, Mtron Pro 7000, and Mtron MOBI 3000. Clearly, Mtron knows a little something about keeping random access time to a bare minimum in their Solid State Drives. The OCZ SATA-II OCZSSD2-1S64G, Samsung MCCOE64G5MPP, Silicon Power SATA-II SP032GBSSD750S25, Patriot Warp PE128GS25SSDR and original OCZ OCZSSD64GB maintain the midrange level or random access times between 0.14ms and 0.23ms.

At the slower end of our SSD response time chart is the original SATA Silicon Power SP064GBSSD25SV10, OCZ Core Series, Crucial's CT32GBFAB0, and the Super Talent MasterDrive MX finishing out the list. In reality you couldn't begin to perceive these subtle differences, but technology should get better with time and not the other way around. It's also worth keeping in mind that our Hard Disk Drive alternatives are a much slower to react: Western Digital's Raptor took 8.53ms to respond, followed by 12.99ms for the Seagate 7200.11, and 15.39ms for the 7200 RPM (most are 4800 RPM) Hitachi Travelstar 7K100 notebook drive.

Bandwidth is a whole other consideration once you record the results. In our tests, both the Western Digital Raptor and Seagate 7200.11 Hard Disk Drives showed strength as only a select few SSD's could meet or exceed their buffered read performance. A larger 32MB buffer in the 7200.11 makes a 7200 RPM HDD difficult to keep pace with, and the 10,000 RPM spindle speed offer enough of an advantage to keep the Raptor on top. Close on the Raptors' tail was the OCZ OCZSSD2-1S32G and OCZSSD2-1S64G, which is based off of the Samsung MCCOE64G5MPP-0VA SSD which performed the same. The Seagate 7200.11 HDD was nearly matched in buffered read bandwidth by the Super Talent FTM60GK25H and Patriot Warp v2 SSD, with the Mtron Pro 7500 a short distance behind marking the end our our high-bandwidth finishers.

System_Speed_Test_Bandwidth.png

Leading the midrange portion of our SSD group was the SATA-II Silicon Power SP032GBSSD750S25 which performed almost identically to the older SP064GBSSD25SV10 SSD. The Crucial/Lexar CT32GBFAB0 trailed close behind, while the OCZ's CORE SSD performed at the same level as the Crucial/Lexar SATA-II SSD, while the OCZ Core Series SSD, Mtron Pro 700, and Mtron MOBI 3000 complete the midrange list. The low-end portion of our drive performance chart is occupied by the original OCZ SSD, which lasted mere minutes on the market after being released early 2008.

Looked at a different way, and ignoring the dominant buffered read speed results trend set by the Hard Disk Drives, the top SSD's actually did well to hold ground against the Raptor and 7200.11, which are at the very top-end of HDD performance.

Disk Hardware Tested:

  • Crucial / Lexar 32GB 2.5" SATA-2 SSD CT32GBFAB0
  • Hitachi Travelstar 7K100 2.5" 60GB SATA 7,200 RPM HDD HTS721060G9SA00
  • Samsung 64GB 2.5" SATA-2 SSD MCCOE64G5MPP-0VA
  • Seagate 7200.11 500GB 3.5" ST3500320AS 7,200 RPM SATA-II Hard Disk Drive (32MB Cache Buffer)
  • Western Digital Raptor 74GB 3.5" WD740ADFD 10,000 RPM SATA Hard Disk Drive (16MB Cache Buffer)

    • Although Benchmark Reviews completely endorses the test results of System Speed Test for our benchmarking, it's always good to have other sources. We decided to then test our collection of SSD products using the HD Tach RW and ATTO Disk Benchmark tool in the following sections. Please continue to see if our results were a fluke or not.

    HD Tach RW Benchmark Results

    EDITORS NOTE: Please read Solid State Drive (SSD) Benchmark Performance Testing to understand how the benchmarks used in this article should be interpreted.

    HD Tach is a software program for Microsoft Windows that tests the sequential read, random access and interface burst speeds of the attached storage device. For the record. every single product tested was brand new and never used. HD Tach allows write-bandwidth tests only if no partition is present. Additionally, each and every product was tested five times with the highest and lowest results removed before having the average result displayed here. The graphical user interface (GUI) of the Windows-based benchmark tool HD Tach is very convenient. and allows the test product to be compared against others collected on your system or those registered into the Simpli Software database.

    In the tests below, Benchmark Reviews utilizes the HD TachRW tool to compare the fastest collection of desktop drives and competing SSD's we can get our hands on. Using the JMB363 SATA controller on the Gigabyte GA-X48T-DQ6, HD Tach was used to benchmark the test SSD five times with the best results displayed below. It's important to note that HD Tach's Burst Speed result should be ignored for Solid State Drives due to the cache methods inherent to each memory controller architecture. There are times where this number will be extremely high, which is a result of the optimized cache used for SSD's.

    Our featured test item, the Patriot Warp v2 SATA SSD PE128GS25SSDR, performed at 120.6 MBps sustained read bandwidth and an impressive 87.9 MBps sustained write bandwidth.

    Patriot_SSD_HD_Tach_Benchmark.png

    The chart below illustrates the collected benchmark results for HD Tach RW on the JMicron SATA controller, with the read and write bandwidth results added together to determine placement. Without question, the MemoRight GT MR25.2-064S SSD enjoys a substantial lead over the entire field of storage products with an impressive 117.9 MBps read-from and 122.8 MBps write-to bandwidth speed (240.7 MBps collectively). In second place with a collective total of 233.0 MBps is the Mtron Pro 7500, which produced results only 3% behind the leader. After these two products, the collective bandwidth falls off.

    Unlike the System Speed Test benchmarks that placed the Warp v2 SSD near the middle portion of that chart, HD Tach positions the Warp v2 in third place within our test results. Even still, the 125.2 MBps read and 83.8 MBps write bandwidth only trails behind the top-position leader by 14%.

    HD_Tach_Bandwidth.png

    Our chart indicates that the midrange portion begins with OCZ's SATA-II SSD, which trails a decent distance behind with 94.3 MBps read and 85.9 MBps write, followed by the Seagate 7200.11 HDD with 88.8 and 78.8 MBps respectively. Mtron's Pro 7000 and Samsung's SATA-II SSD (not charted) are trailed by the Crucial SATA-II SSD and Mtron MOBI 3000, which both feature great read speed paired with less-desirable write bandwidth.

    At the bottom half of our chart is the Western Digital Raptor 74GB 3.5" WD740ADFD 10,000 RPM SATA Hard Disk Drive. Sustained speeds seem to taper out after the initial burst for this drive, which by no means is a slouch - but just not as high-bandwidth as the others in our test group. The Super Talent MasterDrive MX SATA-II SSD seems to also suffer from a very poor write bandwidth matched against very good read performance. Finally, the Silicon Power 64GB SATA SSD SP064GBSSD25SV10 offers the second worst performance out of an SSD we've ever seen, only to be under-performed by OCZ's original SSD product which arrived to market almost a year ago.

    Disk Hardware

    In the next section, ATTO Disk Benchmark compares our range of drives and offers a different perspective from a unique test tool.

    ATTO Disk Benchmark Results

    EDITORS NOTE: Please read Solid State Drive (SSD) Benchmark Performance Testing to understand how the benchmarks used in this article should be interpreted.

    The ATTO Disk Benchmark program is free, and offers a comprehensive set of test variables to work with. In terms of disk performance, it measures interface transfer rates at several different user-specified intervals and reports read and write speeds. The drives seek and access times are not statistics made available in this application, which makes this a considerably basic tool, although the adjustable test settings allow for a large range of differing results. Manufacturers seems to like this tool because it offers them the ability to reduce the test length load size to produce high benchmark results. Conversely, Benchmark Reviews uses this tool with the largest (32 MB) test chuck used to produce our test results.

    Bandwidth results from our tests are illustrated as the transfer rate in the images below, showing the performance curve for the Patriot Warp v2 SSD from 512 Bytes up to 1 MB test chunks. Patriot Memory specifies bandwidth expectations as 175 MBps read and 100 MBps write for their PE128GS25SSDR model, and so far our own bandwidth test results indicate that these are confirmed figures.

    Beginning with tests on the JMB363 SATA controller, our results are shown in the first chart pictured below. Read performance for the Patriot Warp SSD begins to plateau from 64.0 KB to 1024 KB and generates a 122,760 KBps (122.8 MBps) bandwidth around 64 KB, indicating a high performance throughput for most file size chunks. The same is true for the write bandwidth, which sustains a 85.0 MBps bandwidth beginning at the 32 KB test chunk range.

    Patriot_SSD_ATTO_Benchmark.png

    Since ATTO Disk Benchmark offers test settings for each transfer file size from .5 KB to 1 MB, Benchmark Reviews decided on using the largest (1 MB) statistic to build the chart shown below. In this illustration, I have organized the products using the sum of their read and write bandwidth speeds to determine position rank.

    Once again, the MemoRight GT SSD demonstrates that an optimized generation 1.0a SATA controller can outperform even the latest generation 2.0 SATA controllers (if you care to pay the high price tag). The Mtron Pro 7500 MSP-SATA7525 trails behind, with the Seagate 7200.11 hard drive directly behind to finish out the top-level performance section. Patriot's Warp SSD, along with the Silicon Powers SATA-II SSD and OCZ CORE Series SSD all lead the upper-mid performance section. Not very far behind was the OCZ 64GB SATA-II SSD, Mtron Pro 7000 16GB SSD, and Samsung SSD.

    The mid-range of performance is filled by the Mtron MOBI 3000 SSD and Western Digital Raptor, which aren't really all that far off from the products positioned above them. On the other hand, the low-end of performance is a noticeable distance away. The Crucial / Lexar CT32GBFAB0 SATA-II SSD takes a major dip in write-bandwidth performance, which is mirrored by the Super Talent MasterDrive MX SSD and Silicon Power 64GB SATA SSD. I'm not entirely clear on the technology each of these lower-end SSD's contain, but considering that two of them are SATA-II and match the performance of our slowest SATA-I SSD's I would contend that a design improvement is in order.

    ATTO_Disk_Benchmark.png

    Originally I hadn't planned on including the ATTO Disk Benchmark results in this article. While the software is decent enough to mention, it was merely included because almost all SSD manufacturers test with it... and for very good reason I have learned. After several tests had been completed, I began to see why they decided on this particular software for benchmarks. What I like least about ATTO Disk Benchmark is how you can manipulate the settings to produce extremely wide range results from the same product.

    As an example, if you reduce the total test length size from 32 MB (used in our testing configuration) to one of the smaller sizes the benchmark results are more than 30% different (as in higher bandwidth). This reason alone is enough for manufacturers to tweak their own test configurations for self-benefit. Nevertheless, in regard to our ATTO tests the entire range of SSD products is very well represented with our configuration. It should be noted that with cache buffers growing larger and larger, perhaps there's a reasonable middle ground that will provide the best of both worlds. I suspect that hybrid drives could play an important role in this argument very soon.

    Disk Hardware

    PCMark05 Benchmarks

    EDITORS NOTE: Please read Solid State Drive (SSD) Benchmark Performance Testing to understand how the benchmarks used in this article should be interpreted.

    PCMark is a series of computer benchmark tools developed by Futurmark Corporation. The tools are designed to test the performance of the user's CPU, read/write speeds of RAM and hard drives. For this article, we are concerned with only the HDD Test Suite, which measures the MBps performance of: Windows XP Startup, Application Loading, General Usage, Virus Scan, and File Writing.

    As we receive more PCMark05 test results from our collection of drives, the performance will be charted for comparison. This information is provided for comparison purposes only, against tests you may conduct on your own equipment, as PCMark does not calculate true read and write bandwidth performance. In the mean time, it's recommended that you take this particular test with minimal weight since it hasn't been observed long-term.

    Our first results were obtained from the JMicron HBC resident on the Gigabyte GA-X48T-DQ6 motherboard. On this JMB363 SATA controller the Patriot Warp v2 SSD performed at levels which look suspiciously low, Benchmark Reviews hasn't offered the PCMark05 test results for many of our projects, but considering the Mtron Pro 7500 we recently tested offering nearly 58 MBps of bandwidth for the Windows XP startup test perhaps the 10.448 generated by the Patriot Warp SSD is pretty poor.

    Patriot_Warp_SSD_PCMark05.png

    The PCMark05 Virus Scan test recorded almost 114 MBps for the Mtron Pro 7500 while the same test resulting in 95.525 MBps for the 128GB PE128GS25SSDR. In the File Write test we received 48.417 for the Warp SSD compared to 96 MBps for the Mtron Pro 7500.

    Disk Hardware

    In our next section, the entire collection of SSD products Benchmark Reviews has tested will be timed for a Windows XP startup benchmark. Please continue to see how SSD's effect startup performance.

    Windows XP Startup

    After several SSD product reviews in which I recorded Windows XP startup time data, I have repeatedly omitted my results from the article for lack of enough comparison data. In all honesty, I cannot make this an interesting subject. Most of you reading this article have already watched the video of a Windows computer starting up in mere seconds when it used a Solid State Drive, so it wouldn't be very exciting to show this again. Instead, I have recorded the length of time it took for my Dell Inspiron 6400 notebook computer to startup with each drive. Here are the specifications on the notebook:

    • Dell Inspiron 6400 Notebook
    • Intel Core Duo T2300 @ 1.66 GHz
    • 2GB DDR2 667 MHz System Memory
    • Windows XP Professional SP3 (identical image cloned to each drive)

    Windows_Load_Time.png

    This "test" is going to be useful to laptop computer users only, primarily because I did not test the desktop hard drives. The only hard drive included was the high-performance 7200 RPM Hitachi Travelstar 7K100, which recorded a 28-second load time from the moment I pressed the power button to the moment the Windows Login screen was displayed.

    The primary purpose of this test was to demonstrate that a Solid State Drive could in fact cut the Windows load time in half, but there are other factors to consider. It's important to note that this particular Dell notebook consumes almost 11 seconds on the POST routine and BIOS pre-loading prior to actually loading Windows, so it's not realistic to think that my results would match another system identically.

    Disk Hardware

    In the next section, I begin to summarize my final thoughts on the Mtron Pro 7500 series as well as Solid State Drives in general. Please continue on to see what I think of SSD technology.

    Heat Output Results

    Solid State Drives are not yet a household technology, and because of this the marketing propaganda has become as high-pressure as any political campaign. Benchmark Reviews has tested SSD products from many manufacturers (to name a few: Crucial, Intel, MemoRight, Mtron, OCZ, Patriot, Samsung, Super Talent, and Silicon Power) and each has taken full advantage of the vast new technology improvements offered by their products. Some manufacturers have made claims that other websites have taken to the mat and wrestled with a topic (such as power consumption), only to later be criticized for improperly testing the hardware. Well, we don't intend on repeating the mistakes of our mega-site affiliates, which is why we plan to approach new methodology in small bites.

    There have been television shows made famous on the principal of dispelling rumors and myth. This section is not exactly meant to imitate that concept, although we do separate fact from fiction. The first myth we challenge is the claim that Solid State Drives produce no heat. Nearly every manufacturer selling Solid State products has at some point claimed their SSD products do not produce heat, which is believable on many levels because there are no moving parts. Well, chances are very good that you have already peeked at the illustration below, so I won't delay in explaining what we've found.

    Using some spare Styrofoam panels, I constructed a small unit to shield two 2.5" notebook drives from the nearby power supply. Although not pictured, there was also an open-top wall section that surrounded this unit, further insulating it from thermal effects of any nearby environment. Since there was no data connection made, these tests are what I would consider to be 'idle'. The power leads were connected and power was delivered for twenty minutes before temperatures were taken with a non-contact IR thermometer at approximately six inches from surface. The rooms ambient temperature as measured directly at the test site was exactly 19.0°C at the time I recorded the results for the units pictured.

    Mtron_SATA7525_SSD_Temp_Station.jpg

    In the image above there are only two devices pictured of a four-cell test platform. On the left side is the Hitachi Travelstar 7K100 60GB HTS721060G9SA00 7,200 RPM SATA 2.5" Hard Disk Drive, and on the right is one our Solid State Drive test subjects. The Hitachi 7K100 is one of the few 7200 RPM notebook hard drives available to OEM builders, and since these faster spinning disks use more power they also create more heat as a by-product. Although not pictured because of camera direction, my test rig setup compares up to four products at once. The results of other SSD test products are shown in the charts below.

    Temperature Readings at 19.0°C

    Device Name Ambient Drive Temp
    Mtron Pro 7500 SSD 19.0°C 31°C
    Mtron Pro 7000 SSD 19.0°C 29°C
    OCZ Core Series SSD 19.0°C 28°C
    Hitachi Travelstar 7K100 HDD 19.0°C 27°C
    Samsung MCCOE64G5MPP-0VA SSD 19.0°C 27°C
    Silicon Power SP064GBSSD25SV10 SSD 19.0°C 27°C
    Super Talent FTM60GK25H SSD 19.0°C 27°C
    Mtron MOBI 3000 SSD 19.0°C 27°C
    Silicon Power SP032GBSSD750S25 SSD 19.0°C 26°C
    G.Skill FM-25S2S-64GB SSD 19.0°C 26°C
    Crucial CT32GBFAB0 SSD 19.0°C 25°C
    Patriot Warp SSD 19.0°C 25°C
    OCZ OCZSSD2 SSD 19.0°C 21°C

    The message here is simple: Although the heat produced by SSD's under load is usually the same as what the Hard Disk Drive generates at idle, Solid State Drives still produce heat. Don't let marketing hype fool you into believing that Solid State Drives are cold-operating devices just because there are no moving parts. Cooler, yes. Cold, no.

    Disk Hardware

    SSD Final Thoughts

    EDITORS NOTE: Please read Solid State Drive (SSD) Benchmark Performance Testing to understand how the benchmarks used in this article should be interpreted.

    New technology always has one major hurdle to face: the consumer. I have long maintained my opinion that DDR3 system memory is every bit an excellent replacement to the aging DDR2 standard, but the argument of high price and limited adoption by manufacturers has hushed my position. Faced with a similar situation, Solid State Drive technology has suffered the same difficult transition towards widespread use. Like most electronics, it wasn't a question of how much of a technology improvement was evident, it was price.

    Then at some point, a certain well-respected hardware website published an article that claimed SSDs didn't consume less power after all. Although this report was later recanted on account of testing errors, the foundation was shaken for consumers and led me to wonder what kind of impact my news of higher heat output will cause the adoption process? After all, I like these products, and completely endorse the technology. But the bad publicity, even when it's disproven, still has a lasting effect thanks to the angst a premium price tag creates.

    So back in May (2008) when I reviewed the OCZ SATA-II 32GB SSD it seemed like $17 per gigabyte was a relatively good price for SSDs at the time. Consider for a moment that before then, SSD's such the elite-level 32 GB MemoRight GT cost on the level of $33 per gigabyte. Even products like the entry-level 32 GB Mtron MOBI 3000 were still selling for $14 per gigabyte, making the price of admission seem quite high for even the lower-level SKU's. So when OCZ announced a 64GB SSD that would sell for under $259 in July of 2008, I really wasn't sure if the news was believable. It didn't take long to realize these claims were all true, because shortly thereafter NewEgg began listing these SSDs exactly as predicted. This event in itself should have probably started the long-awaited dawn of widespread consumer acceptance for SSD products... but there was a problem.

    As it turned out, the first generation OCZ Core Series SSD I touted in my review was prone to data corruption. Making matters worse was that the mail-in rebate nullified consumer ability to return the defective product for a refund. Nothing hurts progress more than an angry customer, and this incident created plenty. Later on, OCZ would issue a version 2 of the CORE series, and even though NewEgg offered this SSD for $199 ($169 after rebate), there will always be the fear of product reliability associated with Solid State Drives.

    Of course, everything tends to change over time, and Solid State Drive sale prices are much different now. When it comes to computer hardware, generally speaking the newer, faster, and better performing products traditionally cost more than their older predessors... but this is not the case with SSD's. I recognize that SSD speeds range from abismal to phenomenal and everywhere in-between, but the prices don't seem to correspond to performance. With the Holiday's right around the corner and SSD's filling store shelves, it could be a fluke occurrence that SSD's now sell for as little as $2.17 per gigabyte, which is getting dangerously close to Western Digital's VelociRaptor at $1.13 per gigabyte of storage.

    So why are some Solid State Drives so affordable while others sell at 2-7x the cost? That's a very good question that only a particular group of manufacturers can answer. DRAM Prices have dropped beyond anyone's expectations, which has certainly helped, which should give consumers an advantage heading into 2009.

    The last bit of good news comes from Samsung, who is planning to launch 64 GB DRAM IC chips based on a 30 nm fabrication process sometime in 2009. I see this as writing on the wall: get competitive or get out of the business. Samsungs MLC IC's already created the foundation for vastly more affordable SSD products, and now they're about to only get better... especially with the price of DRAW in decline.

    Patriot Warp v2 Conclusion

    EDITORS NOTE: Please read Solid State Drive (SSD) Benchmark Performance Testing to understand how the benchmarks used in this article should be interpreted.

    Patriot certainly knows how to grab consumer attention, as the Warp SSD product line wears an eye-catching retail package that injects a level of excitement into a product with no moving parts. I am impressed with the presentation in terms of aesthetics, but there's a lot to be desired when it comes to product information since Patriot omits nearly all of the product specifications from the package. Perhaps they were cutting corners by listing the most relevant features (SATA I/II compatible and 2.5" form factor), but sometimes the consumer wants to stand in the isle and compare one product to another making the product packaging their only resource.

    The product appearance is otherwise top-notch. Patriot doesn't waste production costs on milled aluminum enclosures that never see the light of day once installed into a notebook computer. Instead Patriot uses an attractive black metal enclosure with silver and gold labels to dress up the unit.

    Patriot_Warp_SSD_Banner.jpg

    Construction is probably the strongest feature credited to the SSD product line, and the Patriot Warp is no exception. Solid State Drives are by nature immune to most abuses, but add to this a hard metal shell and you have to wonder what it would take to make this drive fail. Patriot offers a 2-year warranty with free tech support (1-800-800-9600 in USA). There was a problem detected early on in my testing, and using Patriots RMA process I had a replacement within six days.

    Based on the collection of benchmark tests we conducted, Patriot's 128GB Warp v2 SSD earns a position near the top of our performance charts. At this moment the value-priced PE128GS25SSDR model occupies the #3 position behind two of the most expensive Solid State Drives available, which is quite an improvement over their last generation product. With a sustained read speed of 125 MBps and sustained write at 85 MBps, the bandwidth available is quite enough to match the fastest Hard Disk Drives; but the additional benefit of an immediate response time makes all the difference in performance.

    At a very-reasonable cost of $2.66 per gigabyte of SSD storage space (at the time of this writing), the 128GB Patriot Warp v2 Solid State Drive can be purchased from NewEgg for as little as $339 ($319 affter rebate). If you're not going to need that much storage space, the 64GB PE64GS25SSDR is sold for the more affordable price of $169 ($149 after rebate). I currently use a 32GB SSD on my notebook, which means that you can, too. NewEgg also sells the 32GB Patriot Warp PE32GS25SSDR for $88 ($68 after rebate). Bargain shoppers should use our Price Comparison Tool to find the best deals.

    In conclusion, the Patriot Warp v2 128GB SATA-II SSD has really impressed me. Despite the large 128GB of DRAM capacity it must flash in each cycle, the PE128GS25SSDR produced a swift 0.19 ms response time that is roughly 45x faster than the Western Digital Raptor HDD. The write-to performance was actually about the same as the Raptor's, while read-from performance was nearly 59% faster; which means less wait time for impatient super-users like myself. I don't expect anyone to be thrilled that the Warp SSD costs considerably more per gigabyte than the WD Raptor or Seagate 7200.11, but when performance is most important there's no denying the second version of Patriot's Warp Solid State Drive.Benchmark Reviews Golden Tachometer Award

    Pros:

    + Impressive 125 MBps read and 85 write bandwidth
    + Spatter-painted casing adds to appearance and appeal
    + Low power consumption may extend battery life
    + Lightweight compact storage solution
    + Resistant to extreme shock impact
    + Up to 128GB of SSD capacity
    + 2-Year Patriot Memory full warranty
    + Very low 0.19ms random access time
    + Only $2.93 per gigabyte SSD price ratio

    Cons:2008-ECA.png

    - Metal case is heavier and less durable than plastic
    - Early model firmware may fail under certain circumstances

    Ratings:

    • Presentation: 8.50
    • Appearance: 9.50
    • Construction: 9.75
    • Functionality: 9.25
    • Value: 8.75

    Final Score: 9.15 out of 10.

    Excellence Achievement: Benchmark Reviews Golden Tachometer Award.

    Questions? Comments? Benchmark Reviews really wants your feedback. We invite you to leave your remarks in our Discussion Forum.


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    Comments 

     
    # Firmware updateLubomir Fedorcak 2011-12-20 01:35
    Helo, where i can find firmware update for the Patriot Warp V2 SSD HDD drive PE128GS25SSD-2E22B0908, S2SN-A28SMDCJ022-12E, TW92020005?
    On ##patriotmemory.com/support/driversp.jsp i cant find this model.

    Disk sometime freeze system on startup with Gigabyte T1125N notebook. When i try start system few times again, and system at last start begin, disk works propertly. Problem its only with starting system.

    With another SSD disk OCZ agility3, or standard disk, notebook works propeltly. Notebook have instaled latest firmware from gigabyte.

    Thanks for answer

    Lubomir Fedorcak
    Slovak Republic
    Report Comment
     
     
    # RE: Firmware updateOlin Coles 2011-12-20 08:46
    Please contact Patriot customer service: patriotmemory.com/support/techSupportp.jsp
    Report Comment
     

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