DapuStor teams up with Marvell, introduces FDP tech for QLC SSDs.

DapuStor Corporation, a trailblazer in the world of high-performance data storage solutions, has just announced an exciting expansion of its partnership with Marvell. Together, they are set to revolutionize the storage industry with their Flexible Data Placement (FDP) technology, specifically designed for Quad-Level Cell (QLC) and Triple-Level Cell (TLC) Solid-State Drives (SSDs). This collaboration aims to address the challenges faced by QLC SSDs, such as lower endurance and slower write speeds, ultimately providing a robust and cost-effective solution for data centers, cloud computing, and high-performance computing environments.

Now, let’s take a closer look at how this collaboration is unlocking the true potential of QLC SSDs with the help of FDP technology. QLC SSDs are for their ability to store four bits of data per memory cell, which translates to significant capacity advantages and a lower Total Cost of Ownership (TCO) compared to other SSD types. However, they do face some hurdles along the way. That’s where FDP technology comes in.

FDP technology, supported by the Marvell Bravera SC5 SSD controller with firmware level solution developed by DapuStor, intelligently distributes data across the QLC Flash memory. By optimizing the use of available memory cells and minimizing the impact of write amplification, FDP algorithms ensure that the most frequently accessed data is stored in the fastest and most durable regions of the SSD. The result? Improved performance, extended endurance, and enhanced reliability.

But how impressive are the performance metrics of Marvell and DapuStor’s FDP solutions? Extensive testing has shown that FDP algorithms integrated with the Marvell Bravera SC5 SSD controller and DapuStor firmware can achieve a write amplification (WA) close to 1.0. In simpler terms, this means that the SSD is utilizing the NAND Flash to its full endurance potential without any wastage. This optimization ensures that the DapuStor QLC SSD H5000 series can perform at its highest efficiency.

That’s not all. DapuStor’s FDP solutions also incorporate advanced error correction and wear leveling techniques, further enhancing the endurance and reliability of QLC SSDs. These advancements enable QLC SSDs to achieve higher write speeds, lower Latency, and a longer lifespan, making them ideal for a wide range of demanding applications.

This exciting announcement builds on the remarkable work that Marvell and DapuStor have already accomplished in bringing PCIe Gen 5 SSDs to the market. Their latest collaboration on FDP technology marks a significant milestone in opening up new possibilities for QLC applications. By combining Marvell’s expertise in data center semiconductor solutions with DapuStor’s innovative storage technologies, this partnership is set to deliver unparalleled advancements in SSD performance and efficiency.

Matt Kim, VP of Storage Business at Marvell, expressed his enthusiasm about the extended collaboration, stating, “Marvell is excited to extend our longstanding relationship with DapuStor in bringing innovative storage technologies to market. Our collaboration on FDP technology will unlock the full potential of QLC SSDs, providing our customers with higher capacity and performance storage solutions at a lower total cost of ownership.”

John Li, VP of DapuStor, also shared his excitement about the collaboration, saying, “We are thrilled to collaborate with Marvell in developing FDP solutions. This collaboration underscores our commitment to innovation and excellence in the storage industry. Together, we will set new standards for the DapuStor QLC SSD H5000 series’ performance and reliability.”

With this partnership, Marvell and DapuStor are leading the charge in advancing storage innovation and excellence. The future looks bright for QLC SSDs, thanks to the game-changing FDP technology developed by these two industry leaders. Stay tuned for more exciting developments in the world of high-performance data storage!

Technology Explained

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Latency: Technology latency is the time it takes for a computer system to respond to a request. It is an important factor in the performance of computer systems, as it affects the speed and efficiency of data processing. In the computer industry, latency is a major factor in the performance of computer networks, storage systems, and other computer systems. Low latency is essential for applications that require fast response times, such as online gaming, streaming media, and real-time data processing. High latency can cause delays in data processing, resulting in slow response times and poor performance. To reduce latency, computer systems use various techniques such as caching, load balancing, and parallel processing. By reducing latency, computer systems can provide faster response times and improved performance.

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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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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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