Greenliant introduces high-endurance SSDs designed for tough environments, boasting impressive P/E cycles, industrial 3D NAND technology, compact form factors, and advanced security features.
- Impressive 75,000 to 150,000 program-erase cycles, making them highly durable and reliable for tough environments
- Can operate in extreme temperatures ranging from -40°C to +95°C, ensuring functionality in harsh conditions
- Utilizes high-quality industrial 3-bit-per-cell (TLC) 3D NAND for improved performance and power efficiency
Greenliant’s New SSDs: A Look at High-Endurance Storage for Tough Environments
In the ever-evolving world of storage technology, Greenliant is making waves with its latest offering: the EnduroSLC NVMe M.2 2242 and 2280 ArmourDrive EX Series solid-state drives (SSDs). Now, before your eyes glaze over at the mention of acronyms and numbers, let’s break it down. These are high-endurance SSDs designed to withstand the harshest conditions—think extreme temperatures and rigorous usage.
Imagine being in the cockpit of a military aircraft, or perhaps in a remote oil rig. The last thing you want is a storage device that falters in the face of adversity. That’s where Greenliant’s new drives come in, boasting an impressive 75,000 to 150,000 program-erase (P/E) cycles. For context, a P/E cycle is essentially how many times you can write and erase data on a storage device before it starts to wear out. Most consumer SSDs struggle to hit even 1,000 cycles. So, if you’re looking for reliability in aerospace, defense, or even industrial applications, these drives might just be your new best friend.
Operating in temperatures ranging from a brisk -40°C to a scorching +95°C, these SSDs are built for the extremes. I remember a time when I was testing tech gear in a frigid winter storm and had to worry about my devices failing because of the cold. It’s a nightmare scenario for anyone relying on technology in critical situations. Greenliant seems to have taken that into account, ensuring that their drives can handle whatever Mother Nature throws at them.
But it’s not just about endurance. Greenliant is also rolling out the upgraded NVMe M.2 2242 and 2280 ArmourDrive PX Series SSDs, which utilize high-quality industrial 3-bit-per-cell (TLC) 3D NAND. This tech allows for a decent 5,000 P/E cycles, which should be more than enough for many applications. What does this mean for you? Well, if you’re running a data-intensive application, these drives have the performance chops to keep up while being power-efficient—drawing as little as 1,330 mW when active.
Let’s talk form factors. Whether you’re dealing with the larger 2280 (GLS88AS) or the more compact 2242 (GLS88CS), these SSDs are designed to fit snugly into space-constrained environments. Think about it: in the world of tech, size often matters. These single-sided, thin-profile SSDs open up possibilities for sleek designs without sacrificing performance.
Security is another area where Greenliant shines. With AES-256 hardware encryption, these drives are built to protect your data like a digital Fort Knox. Features like secure data erase and hardware write protection ensure that sensitive information stays safe, which is crucial for mission-critical applications. It’s like having a high-tech security guard for your data.
If you’re curious about the nitty-gritty specs, here’s a quick rundown: the NVMe M.2 2280 ArmourDrive (GLS88AS) supports the PCIe Gen3x4 interface and comes in capacities ranging from 40 GB to 640 GB for the EX Series and 120 GB to 1.92 TB for the PX Series. Meanwhile, the 2242 (GLS88CS) supports the PCIe Gen3x2 interface, with capacities from 20 GB to 320 GB (EX Series) and 60 GB to 960 GB (PX Series).
So, what’s next? Greenliant is currently sampling these SSDs to early engagement customers and plans to kick off volume shipping in the first half of 2025. If you’re in the market for storage solutions that can handle the heat—literally—these SSDs might be worth keeping on your radar.
For more details, check out the NVMe M.2 ArmourDrive information at bit.ly/NVMe-M2-SSD. As we continue to push the boundaries of technology, it’s exciting to see innovations that cater to the needs of industries that demand nothing less than the best. After all, in a world where data is king, having the right storage solution is essential.
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Technology Explained
M.2: M.2, also known as Next Generation Form Factor (NGFF), is a computer expansion card format that is designed to replace the outdated mSATA standard. It is thinner and longer than mSATA, which gives it a much higher data transfer rate. The M.2 format measures 22mm in width and can measure up to 110mm in length. It uses the M-key and B-key connectors to interface with PC host systems, and can connect to both SATA III and PCIe for data transfer. Due to its small size, M.2 is often used for ultra-slim laptops and netbooks, as well as in embedded SSDs for tablets and other mobile devices. It is also becoming increasingly popular in the desktop computer industry, thanks to its compactness and fast transfer speeds. This makes M.2 ideal for gaming PCs, workstations, and other demanding applications that require high levels of data throughput.
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NAND: NAND technology is a type of non-volatile memory that is used in many computer applications. It is a type of flash memory that is used to store data in a non-volatile manner, meaning that the data is not lost when the power is turned off. NAND technology is used in many computer applications, such as solid-state drives, USB flash drives, digital cameras, and memory cards. It is also used in many embedded systems, such as cell phones, tablets, and other consumer electronics. NAND technology is a reliable and cost-effective way to store data, making it a popular choice for many computer applications.
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NVMe: Non-Volatile Memory Express (NVMe) is a newly developed technology that has been gaining traction in the computer industry. This technology is a standard interface which allows for high-speed storage and retrieval of data from solid state drives (SSDs). NVMe is designed to increase the speed of data transfers in storage systems by enabling a direct connection to PCI Express (PCIe) bus, resulting in significantly faster access times compared to traditional interface protocols such SSDs. NVMe is particularly useful for applications that require lightning-fast access to large amounts of high-value data. NVMe-based SSDs are being widely adopted in the computer industry and are being employed to power data centers, high-end workstations, and gaming machines to support lightning-fast data processing and retrieval, which unlocks possibilities for machine learning, real-time analytics, edge computing, and other cutting-edge applications. NVMe is proving to be an invaluable tool in the field of computing, offering immense
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PCIe: PCIe (Peripheral Component Interconnect Express) is a high-speed serial computer expansion bus standard for connecting components such as graphics cards, sound cards, and network cards to a motherboard. It is the most widely used interface in the computer industry today, and is used in both desktop and laptop computers. PCIe is capable of providing up to 16 times the bandwidth of the older PCI standard, allowing for faster data transfer speeds and improved performance. It is also used in a variety of other applications, such as storage, networking, and communications. PCIe is an essential component of modern computing, and its applications are only expected to grow in the future.
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SSD: A Solid State Drive (SSD) is a modern data storage device that employs flash memory technology to store data electronically. Unlike traditional hard disk drives (HDDs), SSDs have no moving parts, resulting in significantly faster read and write speeds. This leads to quicker boot times, faster application loading, and smoother overall system performance. SSDs are known for their durability, shock resistance, and energy efficiency, making them ideal for laptops, ultrabooks, and other portable devices. They come in various form factors, including 2.5-inch, M.2, and PCIe cards, and are favored for their reliability, quiet operation, and reduced heat generation
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