The Samsung MUF-256DA USB-C Drive, a portable storage option, is currently on a great deal on AMAZON, where it is only $15.99, a 30% savings. With 256GB of storage space, this sleek and small drive is perfect for taking backups, papers, and multimedia files with you. Its USB-C interface lets you quickly move data and makes it work with a wide range of devices, such as laptops, tablets, and smartphones. There is no better time than now to increase your storage space at an amazing price, whether you are a student, a worker, or a tech fanatic. Direct-attached storage devices like portable SSDs, storage bridges, and memory cards are all tested on the same testbed with similar tasks. Only small changes are made depending on the product’s end market.
More external ports have been added, like Thunderbolt 2, Thunderbolt 3, and USB 3.2 Gen 2 via Type-C. Our testbeds have kept up. A custom desktop based on Haswell was built for us in the middle. We had to switch to the Hades Canyon NUC to start because the Thunderbolt 3 software upgrade on the Skylake machine went wrong. Since the Hades Canyon NUC couldn’t use an add-in card and USB 3.2 Gen 2×2 was becoming more popular, we had to look for a new DAS testbed platform.
Specifications
Feature | Specification |
---|---|
Capacity | 256GB |
Interface | USB 3.2 Gen 1 (5 Gbps) |
Read Speed | Up to 400 MB/s |
Write Speed | Up to 200 MB/s |
Dimensions | 45.0 x 18.8 x 8.3 mm |
Weight | 3.4 g |
Operating Temperature | 0°C to 70°C |
Storage Temperature | -50°C to 85°C |
Warranty | 5 years |
Where to Get Samsung’s MUF-256DA?
The common direct-attached storage workloads have developed in recent years. High-bit-rate 4K videos at 60fps are widespread, and 8K videos are appearing. High-resolution textures and artwork have gradually increased game install sizes. Backups contain more tiny files. As expected, suppliers have released 4TB bus-powered systems. Our evaluation approach has been modified to account for these. Direct-attached storage device performance can be assessed quickly using ATTO and CrystalDiskMark. The results show instantaneous performance for certain workloads but do not account for behaviour changes due to long-term conditioning and thermal throttling. Another use of synthetic benchmarks is to determine storage device feature support that affects performance.
Samsung claims read speeds of up to 400 MBps but only states that writes will be slower. The ATTO benchmarks below support these. ATTO benchmarking only represents a small subset of real-world workloads due to its queue depth setup. It allows visualisation of transfer rates as I/O size changes, with optimal performance at 512 KB for a queue depth of 4—read speeds of 353 MBps and writes of 110 MBps.