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Ahybrid drive (solid state hybrid drive –SSHD, anddual-storage drive) is a logical or physicalcomputerstorage device that combines a faster storage medium such assolid-state drive (SSD) with a higher-capacityhard disk drive (HDD). The intent is adding some of the speed of SSDs to the cost-effective storage capacity of traditional HDDs. The purpose of the SSD in a hybrid drive is to act as a cache for the data stored on the HDD, improving the overall performance by keeping copies of the most frequently used data on the faster SSD drive.

There are two main configurations for implementing hybrid drives: dual-drive hybrid systems and solid-state hybrid drives. In dual-drive hybrid systems, physically separate SSD and HDD devices are installed in the same computer, having the data placement optimization performed either manually by theend user, or automatically by theoperating system through the creation of a "hybrid" logical device. In solid-state hybrid drives, SSD and HDD functionalities are built into a single piece of hardware, where data placement optimization is performed either entirely by the device (self-optimized mode), or through placement "hints" supplied by the operating system (host-hinted mode).

There are two main "hybrid" storage technologies that combineNAND flash memory or SSDs, with the HDD technology: dual-drive hybrid systems and solid-state hybrid drives.

Dual-drive hybrid systems combine the usage of separate SSD and HDD devices installed in the same computer. Performance optimizations are managed in one of three ways:

1. By the computer user, who manually places more frequently accessed data onto the faster drive.
2. By the computer'soperating system software, which combines SSD and HDD into a singlehybrid volume, providing an easier experience to the end-user. Examples of hybrid volumes implementations in operating systems are ZFS' "hybrid storage pools",^[1]bcache anddm-cache onLinux,^[2] Intel's Hystor^[3] andApple'sFusion Drive, and otherLogical Volume Management based implementations^[4] onOS X.^[5]
3. By chipsets external to the individual storage drives. An example is the use offlash cache modules (FCMs). FCMs combine the use of separate SSD (usually anmSATA SSD module) and HDD components, while managing performance optimizations via host software,device drivers, or a combination of both. One example is IntelSmart Response Technology (SRT), which is implemented through a combination of certain Intel chipsets and Intel storage drivers, is the most common implementation of FCM hybrid systems today. What distinguished this dual-drive system from an SSHD system is that each drive maintains its ability to be addressed independently by the operating system if desired.

Solid-state hybrid drive (SSHD) refers to products that incorporate a significant amount of NAND flash memory into ahard disk drive (HDD), resulting in a single, integrated device.^[6] The term SSHD is a more precise term than the more generalhybrid drive, which has previously been used to describe SSHD devices and non-integrated combinations ofsolid-state drives (SSDs) and hard disk drives. The fundamental design principle behind SSHDs is to identify data elements that are most directly associated with performance (frequently accessed data, boot data, etc.) and store these data elements in the NAND flash memory. This has been shown^[7] to be effective in delivering significantly improved performance over the standard HDD.

An example of an often confused dual-drive system being considered an SSHD is the use of laptops which combine separate SSD and HDD components into the same 2.5-inch HDD-size unit, while at the same time (unlike SSHDs) keeping these two components visible and accessible to the operating system as two distinct partitions. WD's Black2 drive is a typical example; the drive can either be used as a distinct SSD and HDD by partitioning it appropriately, or software can be used to automatically manage the SSD portion and present the drive to the user as a single large volume.^[8]

In the two forms of hybrid storage technologies (dual-drive hybrid systems and SSHDs), the goal is to combine HDD and a faster technology (often NAND flash memory) to provide a balance of improved performance and high-capacity storage availability. In general, this is achieved by placing "hot data", or data that is most directly associated with improved performance, on the "faster" part of the storage architecture.

Making decisions about which data elements are prioritized for NAND flash memory is at the core of SSHD technology. Products offered by various vendors may achieve this with devicefirmware, device drivers or software modules and device drivers.

Self-optimized mode

In this mode of operation, the SSHD works independently from the host operating system or host device drives to make all decisions related to identifying data that will be stored in NAND flash memory. This mode results in a storage product that appears and operates to a host system exactly as a traditional hard drive would.

Host-optimized mode (or host-hinted mode)

In this mode of operation, the SSHD enables an extended set of SATA commands defined in the Hybrid Information feature, introduced in version 3.2 of theSerial ATA International Organization (SATA-IO) standards for the SATA interface. Using these SATA commands, decisions about which data elements are placed in the NAND flash memory come from the hostoperating system, device drivers, file systems, or a combination of these host-level components.^[9]

Some of the specific features of SSHD drives, such as the host-hinted mode, require software support from within the operating system. Microsoft added support for the host-hinted operation intoWindows 8.1,^[10] whilepatches for theLinux kernel are available since October 2014, pending their inclusion into theLinux kernel mainline.^[11][12]

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Hybrid-drive technology saw considerable advance over the decade beginning in 2007:

• In2007,Seagate andSamsung introduced the first hybrid drives with the Seagate Momentus PSD^[13] and Samsung SpinPoint MH80^[14] products. Both models were 2.5-inch drives, featuring 128 MB or 256 MB NAND flash memory options. Seagate's Momentus PSD emphasized power efficiency for a better mobile experience and relied onWindows Vista'sReadyDrive. The products were not widely adopted.^[15]
• InMay 2010, Seagate introduced a new hybrid product called the Momentus XT^[16] and used the termsolid-state hybrid drive. This product focused on delivering the combined benefits of hard drive capacity points with SSD-like performance. It shipped as a 500 GB HDD with 4 GB of integrated NAND flash memory.
• InNovember 2011, Seagate introduced what they referred to as their second-generation SSHD, which increased the capacity to 750 GB and pushed the integrated NAND flash memory to 8 GB.
• InMarch 2012, Seagate introduced their third-generation laptop SSHDs with two models – a 500 GB and 1 TB, both with 8 GB of integrated NAND flash memory.
• InSeptember 2012,Toshiba announced its first SSHD, delivering SSD-like performance and responsiveness by combining 8 GB of Toshiba's own SLC NAND flash memory and innovative, self-learning algorithms with up to 1 TB of storage capacity.
• InSeptember 2012,Western Digital (WD) announced a hybrid technology platform pairing cost-effective MLC NAND flash memory with magnetic disks to deliver high-performance, large-capacity integrated storage systems.
• InNovember 2012,Apple Inc. released the factory-configured dual-drive hybrid system namedFusion Drive.^[17]
• InOctober 2015, TarDisk introduced the plug-and-play dual-drive hybrid system "TarDisk Pear", with flash memory size options up to 256 GB.^[18]
• InAugust 2021, Western Digital introduced OptiNAND, a New Flash-Enhanced HDD Architecture. It uses a new iNAND read/write cache system for performance. This feature is for when power is lost during a write phase, to prevent data loss. The System-on-a-Chip (SoC) of an OptiNAND drive, in under a second, will use the rotational power generated by the already spinning disk platter inside the drive to power internal capacitors until the iNAND cached data transfers to non-volatile NAND.

Late 2011 and early 2012 benchmarks using an SSHD consisting of a 750 GB HDD and 8 GB of NAND cache found that SSHDs did not offer SSD performance on random read/write and sequential read/write, but were faster than HDDs for application startup and shutdown.^[19][20]

The 2011 benchmark included loading an image of a system that had been used heavily, running many applications, to bypass the performance advantage of a freshly-installed system; it found in real-world tests that performance was much closer to an SSD than to a mechanical HDD. Different benchmark tests found the SSHD to be between an HDD and SSD, but usually significantly slower than an SSD. In the case of uncached random access performance (multiple 4 KB random reads and writes) the SSHD was no faster than a comparable HDD; there is advantage only with data that is cached. The author concluded that the SSHD drive was the best non-SSD type of drive by a significant margin, and that the larger the solid-state cache, the better the performance.^[20]

• ExpressCache
• Fusion Drive
• Hybrid array
• ReadyBoost

• bcache
• dm-cache
• flashcache

• Computer peripherals
• Computer storage devices
• Computer storage media
• Solid-state caching
• Hard disk drives
• Non-volatile memory

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