Editing RAM drive (section)

===Dedicated hardware RAM drives===
There have been RAM drives which use DRAM memory that is exclusively dedicated to function as an extremely low latency storage device. This memory is isolated from the processor and not directly accessible in the same manner as normal system memory. Some of the first dedicated RAM drives were released in 1983-1985.<ref>{{Cite web|url=https://books.google.com/books?id=soGti0kvtgwC&dq=megaram+solid+state&pg=RA1-PA74|title=Computerworld|first=I. D. G.|last=Enterprise|date=August 15, 1983|publisher=IDG Enterprise|via=Google Books}}</ref><ref>{{Cite web |url=https://books.google.com/books?id=9NSDMoEcJPcC&dq=pcmag+1985+notebook&pg=PA258 |title=PC Mag |date=November 12, 1985 |publisher=Ziff Davis, Inc. |via=Google Books }}</ref>

An early example of a hardware RAM drive was introduced by Assimilation Process in 1986 for the Macintosh. Called the "Excalibur", it was an external 2MB RAM drive, and retailed for between $599 and $699 US. With the RAM capacity expandable in 1MB increments, its internal battery was said to be effective for between 6 and 8 hours, and, unusual for the time, it was connected via the Macintosh floppy disk port.<ref>{{cite journal |last1=Groth |first1=Nancy |title=Apple-Compatible Wares Introduced |journal=InfoWorld |date=January 27, 1986 |volume=8 |issue=4 |page=56  |url=https://books.google.com/books?id=my8EAAAAMBAJ&q=%22Assimilation%20Inc%22%20trackball&pg=PA56 |access-date=19 August 2020}}</ref><ref>{{cite journal |title=What's New: Excalibur Adds Speed and Memory to Mac |journal=Byte Magazine |date=May 1986 |volume=11 |issue=5 |page=38 |url=https://worldradiohistory.com/Archive-Byte/80s/Byte-1986-05.pdf |access-date=19 August 2020}}</ref>

In 2002, [[Cenatek]] produced the ''Rocket Drive'', max 4 GB, which had four DIMM slots for PC133 memory, with up to a maximum of four [[gigabyte]]s of storage. At the time, common [[desktop computer]]s used 64 to 128 megabytes of PC100 or PC133 memory. The one gigabyte PC133 modules (the largest available at the time) cost approximately $1,300 ({{Inflation|US|1300|2002|fmt=eq}}). A fully outfitted Rocket Drive with four GB of storage would have cost $5,600 ({{Inflation|US|5600|2002|fmt=eq}}).<ref>{{cite web|title=Blast off with Cenatek's Rocket Drive|author=Mike Chin|date=2002-11-13|website=Silent PC Review|url=http://www.silentpcreview.com/article49-page1.html|access-date=2018-02-03|archive-url=https://web.archive.org/web/20180203130239/http://www.silentpcreview.com/article49-page1.html|archive-date=2018-02-03|url-status=live}}</ref>

In 2005, [[Gigabyte Technology]] produced the [[i-RAM]], max 4 GB, which functioned essentially identically to the Rocket Drive, except upgraded to use the newer DDR memory technology, though also limited to a maximum of 4 GB capacity.<ref>{{cite web|title=RAM disk without the fuss|author=Geoff Gasior|date=2006-01-25|website=The Tech Report|url=https://techreport.com/review/9312/gigabyte-i-ram-storage-device|access-date=2018-10-05|archive-url=https://web.archive.org/web/20181005112259/https://techreport.com/review/9312/gigabyte-i-ram-storage-device|archive-date=2018-10-05|url-status=live}}</ref>

For both of these devices, the dynamic RAM requires continuous power to retain data; when power is lost, the data fades away. For the Rocket Drive, there was a connector for an external power supply separate from the computer, and the option for an external [[Electric battery|battery]] to retain data during a power failure. The i-RAM included a small battery directly on the expansion board, for 10-16 hours of protection.

Both devices used the SATA 1.0 interface to transfer data from the dedicated RAM drive to the system. The SATA interface was a slow bottleneck that limited the maximum performance of both RAM drives, but these drives still provided exceptionally low data access latency and high sustained transfer speeds, compared to mechanical hard drives.

In 2006, [[Gigabyte Technology]] produced the [[GC-RAMDISK]], max 8GB, which was the second generation creation for the i-RAM. It has a maximum of 8 GB capacity, twice that of the i-RAM. It used the SATA-II port, again twice that of the i-RAM. One of its best selling points is that it can be used as a boot device.<ref>{{cite web|title=Gigabyte boosts i-RAM speed capacity|author=Geoff Gasior|date=2006-06-06|website=The Tech Report|url=https://techreport.com/news/10116/gigabyte-boosts-i-ram-speed-capacity|access-date=2018-10-05|archive-url=https://web.archive.org/web/20181005112459/https://techreport.com/news/10116/gigabyte-boosts-i-ram-speed-capacity|archive-date=2018-10-05|url-status=live}}</ref>

In 2007, [[ACard Technology]] produced the ANS-9010 Serial ATA RAM disk, max 64 GB. Quote from the tech report: The ANS-9010 "which has eight DDR2 DIMM slots and support for up to 8 GB of memory per slot. The ANS-9010 also features a pair of Serial ATA ports, allowing it to function as a single drive or masquerade as a pair of drives that can easily be split into an even faster RAID 0 array."<ref>{{cite web|title=Solid-state storage from another angle|author=Geoff Gasior|date=2009-01-20|website=The Tech Report|url=https://techreport.com/review/16255/acard-ans-9010-serial-ata-ram-disk|access-date=2018-10-05|archive-url=https://web.archive.org/web/20181005111916/https://techreport.com/review/16255/acard-ans-9010-serial-ata-ram-disk|archive-date=2018-10-05|url-status=live}}</ref>

In 2009, Acard Technology produced the ACARD ANS-9010BA 5.25'' Dynamic SSD SATA-II RAM Disk, max 64GB. It uses a single SATA-II port.

Both variants are equipped with one or more [[CompactFlash]] card interface located in the front panel, allowing non-volatile data being stored on the RAM drive to be copied on the CompactFlash card in case of power failure and low backup battery. Two pushbuttons located on the front panel allows the user to manually backup / restore data on the RAM drive. The CompactFlash card itself is not accessible to the user by normal means as the CF card is solely intended for RAM backup and restoration. The CF card's capacity has to meet / exceed the RAM module's total capacity in order to effectively work as a reliable backup.

In 2009, [[DDRdrive, LLC]] produced the DDRDrive X1, which claims to be the fastest solid state drive in the world. The drive is a primary 4GB DDR dedicated RAM drive for regular use, which can back up to and recall from a 4GB SLC NAND drive. The intended [[Market (economics)|market]] is for keeping and recording [[log file]]s. If there is a power loss the data can be saved to an internal 4GB ssd in 60 seconds, via the use of a battery backup. Thereafter the data can be recovered back in to RAM once power is restored. A host power loss triggers the DDRdrive X1 to back up volatile data to on-board non-volatile storage.<ref>{{cite web|title=DDRdrive X1: Solid-State Storage Redefined|year=2014|website=DDRdrive LLC|url=http://www.ddrdrive.com/menu0.html|access-date=2018-10-05|archive-url=https://web.archive.org/web/20180817084053/http://ddrdrive.com/menu0.html|archive-date=2018-08-17|url-status=live}}</ref><ref>{{cite web|title=DDRdrive hits the ground running|author=Geoff Gasior|date=2009-03-04|website=PC Perspective|url=https://www.pcper.com/reviews/Storage/DDRdrive-hits-ground-running-PCI-E-RAM-based-SSD|access-date=2018-10-05|archive-url=https://web.archive.org/web/20181005112348/https://www.pcper.com/reviews/Storage/DDRdrive-hits-ground-running-PCI-E-RAM-based-SSD|archive-date=2018-10-05|url-status=live}}</ref>