Comparing: DDR3 SODIMM 1066MHz [Disk] vs GeForce MX350 [Disk]

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.

Submission Comparison Table

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Submission Comparison Chart

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About Hardware DDR3 SODIMM 1066MHz [Disk]

DDR3 SODIMM 1066MHz is a third-generation memory module with a speed of 1066MHz that is commonly used in laptops and small devices. With the SODIMM form factor, these modules are often the standard choice for mobile computing systems, serving as the main memory for running operating systems, applications, and light to medium multitasking processes.

However, in this particular experiment, two 1066MHz DDR3 SODIMM modules from Micron and ADATA (2GB capacity each) were uniquely configured as a RAMDisk, a temporary storage space that uses RAM capacity to simulate a storage drive with much higher access speeds than SSDs or HDDs.

The 1066MHz DDR3 SODIMM-based RAMDisk test was conducted on an HP 1000 1b05au laptop device, powered by an AMD E1-1200 processor. The system is equipped with a 2x2GB DDR3 SODIMM 1600MHz RAM configuration, but due to processor architecture limitations, the memory only runs in single channel mode with an effective speed of 1066MHz. The operating system used is Windows 7, and to create and manage the RAMDisk, two popular applications, SoftPerfect RAMDisk and ImDisk Virtual Disk Driver, were used. The configured RAMDisk size was 2GB, utilizing some of the available RAM capacity.

Even though the device specifications are old and have limited memory bandwidth, the RAMDisk configured in this system was still able to show excellent performance in the read and write speed benchmarks. Based on tests using CrystalDiskMark, the read speed reached 746.24 MB/s, while the write speed touched 828.18 MB/s. In a follow-up test using ATTO Disk Benchmark with a 64MB block size, the read speed increased to 1020.00 MB/s, and the write speed reached 1080.00 MB/s. These results prove that even on older systems, RAMDisk configurations are still capable of delivering very high I/O performance, far surpassing conventional storage such as HDDs or even some SSDs.

Analysis

The results show that a 1066MHz DDR3-based RAMDisk is still capable of delivering data transfer speeds on par with entry-level NVMe SSDs, even outperforming many SATA SSDs and leaving conventional HDDs far behind. This makes RAMDisks an ideal solution for temporary use such as:

• Application caching,
• Temporary file storage,
• Fast computing with high I/O,
• Software or script testing without the risk of contaminating the main file system.

Although limited to a small capacity (2GB in this test), RAMDisk is still very useful for specific needs, especially for users with more than enough RAM or older devices that want to maximize their performance.

Test on:

Device: HP 1000 1b05au
Specs: 
CPU: AMD E1-1200
OS: Windows 7
RAM: 2x2GB Single Channel 2 DIMM 1066MHz (Does not support dual channel due to limitations of the CPU, currently running single channel mode and 1066MHz)

Wednesday, 26 December 2012 14:27:32 | Update: 1 month ago

About Hardware GeForce MX350 [Disk]

The NVIDIA GeForce MX350 is an entry-level GPU designed for thin and light laptops, delivering significant graphics performance improvements over the processor's built-in iGPU. The GPU is based on the Pascal architecture with 640 CUDA Cores, and features 2GB or 4GB of GDDR5 memory with 64-bit bus width. The MX350 is generally used for light graphics tasks such as photo editing, light video, and casual gaming, and provides GPU acceleration for CUDA-enabled creative applications.

But in this particular test, a portion of the video memory (VRAM) on the GeForce MX350 was configured as a VRAMDisk. The concept of a VRAMDisk is similar to a RAMDisk, but it uses the VRAM of the GPU as a super-fast storage medium. VRAMDisk allows the creation of temporary, high-speed drives that can be utilized for technical experiments, speed testing, or graphics caching in certain scenarios. Although its capacity is limited and volatile (data is lost on reboot), the high bandwidth and low latency of VRAM provide compelling performance in certain contexts.

The tests were conducted on a Lenovo IdeaPad Slim 3i 14ITL6 laptop with Intel Core i5-1135G7 processor, 12GB DDR4 3200MHz dual channel RAM, and Windows 11 22H2 operating system. The VRAMDisk was created from a 2GB GeForce MX350 GPU, with virtual disk sizes of 1GB and 1.5GB, using special software called GPU RAM Drive.

Benchmark results with CrystalDiskMark recorded read speeds of 1113.58 MB/s and write speeds of 995.48 MB/s, showing the high bandwidth potential of VRAM as a temporary storage medium. Although the performance does not match DDR4-based RAMDisks, VRAMDisks remain a unique and attractive solution for certain technical purposes, especially for users who want to utilize idle VRAM for fast I/O processes. With its dedicated laptop GPU form factor and PCIe x4 Gen 3.0 interface, the GeForce MX350 VRAMDisk opens up new exploration possibilities in the world of experimental graphics-based high-speed storage.

Device test (testbed):

Device: Lenovo IdeaPad Slim 3i 14ITL6
CPU: i5 1135G7
RAM: 12GB DDR4 3200MHz Dual Channel (8+4)
OS: Windows 11 22H2

Friday, 06 August 2021 04:34:19 | Update: 1 month ago