Comparing: SanDisk Cruzer Blade 16GB vs AMD Radeon HD 7310 IGPU VRAM Disk
In this comparison, we analyze two Disks: SanDisk Cruzer Blade 16GB and AMD Radeon HD 7310 IGPU VRAM Disk, using synthetic benchmark tests to evaluate their overall performance. This side-by-side comparison helps users understand which hardware delivers better value, speed, and efficiency based on standardized testing. Whether you're building a new system or upgrading an existing one, this benchmark-driven evaluation offers valuable insights to guide your decision.
SanDisk Cruzer Blade 16GB
| Type: | Disks |
|---|---|
| Model: | Cruzer Blade 16GB |
| Capacity: | 16GB |
| Interface: | USB 2.0 |
AMD Radeon HD 7310 IGPU VRAM Disk
| Type: | Disks |
|---|---|
| Model: | Radeon HD 7310 IGPU VRAM Disk |
| Capacity: | 128MB |
| Interface: | DDR3 |
Specification Comparison Table
This specification comparison presents technical details of several devices or components to help you understand the key differences between each option. Use this table as a reference to determine which device best suits your needs.
| Specification | SanDisk Cruzer Blade 16GB | AMD Radeon HD 7310 IGPU VRAM Disk |
|---|---|---|
| Brand | SanDisk | - |
| Format | USB FlashDrive | VRAM Disk |
| Capacity | 16GB | 128MB |
| Interface | USB 2.0 | DDR3 |
Submission Comparison Table
This submission comparison table displays the number and details of benchmark data submissions from various devices or components. This information helps you understand the performance based on the benchmarks that have been tested, as well as providing an overview of the consistency and popularity of the available benchmark results.
| No. | Benchmark Software | SanDisk Cruzer Blade 16GB | AMD Radeon HD 7310 IGPU VRAM Disk |
|---|---|---|---|
| 1 | ATTO Disk Benchmark - 64M |
Read: 21.46 MB/s Write: 9.10 MB/s |
Read: 966.34 MB/s Write: 378.12 MB/s |
| 2 | CrystalDiskMark |
Read: 24.94 MB/s Write: 16.33 MB/s |
Read: 393.23 MB/s Write: 393.66 MB/s |
Submission Comparison Chart
This chart visualizes the benchmark scores comparison between two hardware devices based on submitted data.
Media Gallery
A collection of photos of tested hardware. These images can help you identify the physical form, model, and variant of the hardware in question. These photos are from our own documentation, and if they are not available we may not be able to document them.
About Hardware SanDisk Cruzer Blade 16GB
The SanDisk Cruzer Blade 16GB is a smaller capacity variant of the Cruzer Blade series that relies on a USB 2.0 interface. This flash drive is suitable for storing document files, installers, or as temporary backup media at a relatively affordable price. Its compact and lightweight design makes it easy to carry around, although the data transfer speed is lower than USB 3.0-based flash drives.
The test was conducted using a Lenovo IdeaPad Slim 3i 14ITL6 device, with 12GB DDR4 RAM (dual channel), Windows 11 22H2 operating system, and connection via USB 3.1 Gen 1 port. Based on benchmark results using CrystalDiskMark, the drive recorded read speeds of 24.94 MB/s and write speeds of 16.33 MB/s. While in the Cross Platform Disk Test, the read speed reached 26.98 MB/s and write 4.21 MB/s. Despite its limited performance, its capacity and portability are still quite useful for basic needs.
Device Test:
Device: Lenovo IdeaPad Slim 3i 14ITL6
RAM: 12GB DDR4 3200MHz Dual Channel (8+4)
OS: Windows 11 22H2
USB: USB 3.1 Gen 1
Wednesday, 05 April 2023 17:18:31 | Update: 20 hours ago
About Hardware AMD Radeon HD 7310 IGPU VRAM Disk
AMD Radeon HD 7310 is an iGPU based on the Terascale 2 architecture integrated in some AMD E series APUs. With 80 Stream Processors, this GPU is designed for light use such as video playback, basic computing, and casual gaming with low graphics settings.
In this particular configuration, a portion of the VRAM (Video RAM) on the Radeon HD 7310 is used as a VRAMDisk, which is temporary storage that resides directly within the VRAM. This VRAMDisk can be used to store temporary files at high speeds, especially in technical experiments that utilize the high bandwidth of VRAM for data caching or other computing tasks.
Wednesday, 26 December 2012 14:27:32 | Update: 2 months ago