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Our Gen4 Solutions With the 2-port SSD7502, you can reach 14,000 MB/s. Using the 4-port SSD7505 M.2 RAID controller can deliver up to 25,000 MBs. An 8-port SSD7540 can push your performance thresholds to 28,000 MBs. And if you need even faster speeds, dual Cross-Synced SSD7540 controllers will get you extreme transfer

This article discusses the differences between Random and Sequential NVMe storage performance, the types of applications that utilize each one, and which type of NVMe media is suitable for the task at hand. Random Performance By using NVMe storage tailored to maximize random performance, you can increase the responsiveness of file servers, databases, and virtualization solutions. These applications must be capable of accomodating a large user base simulataneously, likely carrying out a different sets of tasks (hence the term "random"). A high random performance is also ideal for the boot volume for a general use computing platform, such as home desktop/laptop running Windows 10 or 11. Example Applications: Datacenters File Servers Virtualization Platforms General Use/bootable solutions Sequential Performance Applications that have very strict performance requirements and are designed to accomplish a very specific set of tasks, use NVMe storage solutions that are designed to maximize sequential I/O (most often write transfers). For sequential I/O operation, data is transferred from start to finish, in a linear fashion. Some examples include an 8K video editing platform, a 3D design and animation workstation, and AI training and development systems for autonomous vehicles. Example Applications: High-speed data acquisition AI Training & Automation Engineering & Data Analysis High-end media production NVMe Media For applications that require a high level of random/sequential write transfer performance for an extended period of time, the best match are U.2 SSDs. They feature enterprise reliability and lifespans, are up to 16TB of storage, and deliver excellent random and sequential performance The next best option are datacenter class M.2 SSDs. Like U.2 SSDs, datacenter class M.2 SSDs are designed for 24/7 operation and are available in larger sizes.

The SSD7749E is a close cousin to our proven SSD7540 8-Channel M.2 PCIe Gen4 RAID HBA. Like the SSD7540, the SSD7749E is a compact, high-performance, single-device storage solution capable

Our Gen4 SSD7500 Series RAID controllers raise the bar even higher; you would need to double the number

HighPoint’s 8-Channel PCIe Gen3 NVMe AICs, such as the SSD7140A and SSD7180, utilize this switch to dynamically Our high-density 8-channel models (SSD7140A, SSD7180, SDSD7184) can dynamically allocate bandwidth to

Generation Cooling-System; “Low-Noise Hyper-Cooling” Our fourth-generation system was introduced for the SSD7540 PCIe Gen4 x16 8-Channel SSD7540 M.2 RAID controller.

SSD7500 and Rocket 1500 Series SSD7000 and Rocket 1000 Series

This design also allows high-port count controllers, such as the 8-port SSD7540, to reassign unused bandwidth

SSD7500 and SSD7749 series AICs are also capable of supporting bootable configurations.

In fact, the cards are only ½ inch or so wider than the SSD7540 M.2 RAID HBA, which uses a single-width