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|Form Factor||2.5" SFF|
|Drive Tray||Smart Carrier (SC)|
|Data Transfer Rate||12G|
|Workload||Read Intensive (RI)|
|Encryption||Digitally Signed (DS)|
|NAND Flash Memory Type||Triple-Level Cell (TLC)|
In the context of server hard drives, "2.5" SFF" refers to the physical form factor of the hard drive. SFF stands for "Small Form Factor," indicating that the hard drive has a smaller size compared to traditional 3.5" form factor drives commonly used in desktop computers and some servers.
The 2.5" SFF hard drive form factor was initially introduced in the early 1990s, but it gained significant prominence in the mid-2000s as a result of advancements in server technology. This form factor was specifically designed to address the needs of enterprise servers and data centers, offering several important advantages:
Overall, the introduction of 2.5" SFF hard drives was an important advancement in server technology, as it provided increased storage density, improved power efficiency, enhanced performance, and better reliability for enterprise-level servers and data centers.
A "read-intensive" drive refers to a type of solid-state drive (SSD) or hard disk drive (HDD) that is designed and optimized for applications and workloads that primarily involve reading data from the drive rather than writing data to it. This designation indicates that the drive is best suited for tasks where there are frequent and demanding read operations, such as retrieving and serving data to users, running databases that require quick access to information, or hosting virtual machines. Read-intensive drives are typically engineered to handle a high volume of read requests efficiently and are often chosen for scenarios where data reliability, access speed, and cost-effectiveness are crucial.
The concept of read-intensive drives has been around for several years, with the technology evolving over time. It's not a specific feature but rather a characterization of a drive's suitability for particular workloads. The terminology may vary between manufacturers, but the idea of categorizing SSDs or HDDs as read-intensive, write-intensive, or mixed-use has been present in the storage industry for a while.
The importance of read-intensive drives in technology can be summarized as follows:
In summary, read-intensive drives are a category of storage devices optimized for tasks that involve frequent data retrieval. They offer advantages in terms of performance, cost, and longevity for applications and workloads that predominantly read data. While the specific feature may not have been released on a specific date, the concept of categorizing drives based on their intended workloads has been an important advancement in storage technology, allowing organizations to choose the right type of drive for their specific needs and maximize the efficiency of their server infrastructure.
TLC stands for "Triple-Level Cell," and it is a type of NAND flash memory used in solid-state drives (SSDs). To understand what TLC means, let's break down the term:
TLC NAND was introduced as a technology advancement in the NAND flash memory landscape. It followed the earlier SLC (Single-Level Cell) and MLC (Multi-Level Cell) NAND types, which could store one bit and two bits per cell, respectively.
TLC NAND became significant for several reasons:
TLC NAND made SSDs more accessible to a wider range of consumers and helped accelerate the transition from traditional hard disk drives (HDDs) to SSDs in personal computers, laptops, and other devices.
Hot Swap, also known as hot swapping or hot plugging, refers to the ability to replace or add components in a computer system without shutting down or interrupting the operation of the system. In the context of server hard drives, hot swapping allows you to remove or insert hard drives while the server is running and operational, without causing any downtime or disruption to the services the server provides.
This feature was introduced to improve system availability, reliability, and ease of maintenance. Before hot swapping became common, adding or replacing components in a running system required shutting down the system, which could result in service interruptions and downtime. With hot swap capabilities, server administrators can perform maintenance tasks such as replacing a failed hard drive or adding additional storage capacity without affecting the overall system operation. This is particularly important in scenarios where uptime and continuous service availability are critical, such as in data centers, enterprise environments, and high-performance computing systems.
The concept of hot swapping dates back to the early days of computing, but it became more widely implemented in the late 1990s and early 2000s as server hardware and storage technologies evolved. The specific release dates of hot swap-capable hardware may vary depending on manufacturers and models, but it became a standard feature in many enterprise-grade servers and storage systems during this time period.
In addition to hard drives, hot swapping has been applied to various components, including power supplies, cooling fans, and network interface cards, among others. The ability to replace and upgrade components without downtime has contributed significantly to improved system uptime, reduced maintenance costs, and enhanced overall system reliability.
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All of our IT Hardware is tested through an extensive diagnostic process by certified Technicians. We are able to simulate the hardware's capabilities in an accurate environment, allowing us to guarantee that the equipment will be ready for use once it is delivered to you.
Even with our extensive testing procedures, equipment does fail from time to time beyond our control due to shipping or various reasons. Boost Hardware offers a 1 year hardware warranty, replacing any faulty or damaged equipment within the next business day. The RMA process we like to keep VERY simple, so there is no paperwork to fill out! :) We will provide a return label for any parts that you need to ship back on us. That’s it!!
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