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Solid State Drives (SSDs) with built-in encryption features to safeguard data saved on the device are known as self-encrypting SSDs. The drive’s controller handles the encryption procedure, thus no additional hardware or software is needed.
Self-encrypting SSDs encrypt data as it is written to the drive using cutting-edge encryption techniques like AES (Advanced Encryption Standard). The drive’s controller generates and stores the encryption key in the drive’s memory, which is used to safeguard the data. When data is read from the drive, this key is used to decrypt the data.
Self-encrypting SSDs’ robust security of data at rest, or information saved on the disc when it is turned off, is one of their main advantages. This is crucial for safeguarding confidential data in the event of theft, loss, or unauthorized access.
Self-encrypting SSDs generally have safe erase features that enable speedy and secure data deletion from the disc in addition to encryption. This can be helpful if you want to safely dispose of the drive or put it to another use.
Self-encrypting SSDs are, in general, a very safe storage option that can offer robust security for delicate data kept on the drive.
Self-encrypting SSDs represent a cutting-edge storage solution that employs hardware-level encryption. This advanced technology ensures that data is securely encrypted as it’s written to the drive and decrypted upon retrieval. The result is a robust layer of data security, even in situations where the drive is lost or stolen.
These self-encrypting SSDs are experiencing a surge in popularity, primarily within data centers and enterprise environments where data security takes precedence. They prove invaluable for organizations looking to safeguard their data from unauthorized access, potential theft, and data loss. Furthermore, they serve as a reliable tool for adhering to stringent data security and compliance regulations.
One of the driving forces behind the global self-encrypting SSD market’s growth is the escalating demand for heightened data security and compliance. Companies of all sizes are under mounting pressure to fortify their sensitive data against unauthorized breaches, theft, and potential loss. Self-encrypting SSDs offer an effective means of securing data at rest, positioning them as an ideal solution for organizations obligated to meet rigorous data security and compliance standards.
The market leaders in the global self-encrypting SSD sector encompass prominent names such as Samsung Electronics, Western Digital, SK Hynix, Micron Technology, and Kioxia Corporation. These industry giants boast an extensive array of self-encrypting SSDs, ranging in terms of storage capacity, performance capabilities, and enhanced security features.
The Global Self-Encrypting SSD Market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
A recent industry report by IDC found that self-encrypting SSDs are gaining momentum in the enterprise. The report found that the adoption of self-encrypting SSDs is being driven by a number of factors, including the increasing need for data security, the growing adoption of cloud computing, and the decreasing cost of self-encrypting SSDs.
The demand for high-performance and high-capacity self-encrypting SSDs is increasing, as businesses and organizations are storing more and more data and need to protect that data from unauthorized access. Vendors are developing self-encrypting SSDs with capacities of up to 100 TB and read and write speeds of up to 24GB/s.
New self-encrypting SSD technologies are being developed that offer improved performance, security, and reliability. For example, vendors are developing self-encrypting SSDs with support for multiple encryption algorithms, secure erase, and tamper detection.
Some emerging trends in the self-encrypting SSD market include:
The GDPR is a regulation in the European Union that requires organizations to protect the personal data of EU citizens. The GDPR can be interpreted to require organizations to use encryption to protect personal data. This could lead to increased demand for self-encrypting SSDs in the European Union.
The CCPA is a law in California that gives consumers the right to know what personal data is being collected about them, to request that businesses delete their personal data, and to opt out of the sale of their personal data. The CCPA can be interpreted to require businesses to use encryption to protect personal data. This could lead to increased demand for self-encrypting SSDs in California.
Kingston releases the KC2500, a powerful user-friendly self-encrypting SSD. The KC2500, a new SSD from Kingston, was recently released. The read and write speeds of the NVMe PCIe SSD are up to 3,500 MB/s and 2,900 MB/s, respectively. It is intended for workstations, desktop computers, and high-performance computing platforms.
On Kingston’s website, the 250GB model of the KC2500 is offered for as little as $80. Although the KC2500 can hold up to 2TB of data, the highest variation at the moment is the 1,000GB model, which costs $254.
Gen 3.0 x 4 controller and 96-layer 3D TLC NAND are features of the Kingston KC2500. Kingston emphasizes its security features, including the fact that it self-encrypts and provides “a full-security suite for end-to-end data protection using AES-XTS 256-bit hardware-based encryption.” Other security products utilizing TCG Opal 2.0 include those from Symantec, McAfee, and WinMagic.
