Comparing: DDR3 1333MHz SODIMM vs LPDDR5 4800MHz
In this comparison, we analyze two Memory: DDR3 1333MHz SODIMM and LPDDR5 4800MHz, 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.
DDR3 1333MHz SODIMM
| Type: | Memory |
|---|---|
| Model: | DDR3 1333MHz SODIMM |
| Freq: | 1333MHz |
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 | DDR3 1333MHz SODIMM | LPDDR5 4800MHz |
|---|---|---|
| Model | DDR3 1333MHz SODIMM | LPDDR5 4800MHz |
| Frequency | 1333MHz | 4800 MHz |
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 | DDR3 1333MHz SODIMM | LPDDR5 4800MHz |
|---|---|---|---|
| 1 | PYPrime - 2B with BenchMate |
27sec, 922ms |
14sec, 377ms |
| 2 | AIDA64 - Memory Read |
17105 points |
49727 points |
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 DDR3 1333MHz SODIMM
DDR3 1333MHz SODIMM is a type of memory designed for mid-generation laptops, offering a balance between performance and power efficiency. Using the SODIMM form factor, this module is suitable for portable devices such as notebooks and ultrabooks. In this test, two pieces of RAM from the Hynix brand were used, each with a capacity of 2GB, bringing the total capacity to 4GB in a dual-channel configuration. The RAM runs at an effective frequency of 1333MHz with timings of 9-9-9-24-1T, which is ideal for delivering stable system response in a variety of basic to medium computing tasks.
The test platform uses an HP Pavilion dv3-4054TX laptop, which is a previous generation Windows-based device. The laptop runs both Windows 7 and Windows 10 operating systems, providing an overview of RAM performance in two different system environments. With a dual DIMM configuration, the Hynix RAM modules demonstrated good compatibility and adequate performance for daily use such as browsing, media playback, office applications, and light multitasking.
DDR3 1333MHz RAM sits in the middle of the DDR3 memory speed spectrum, faster than DDR3 1066MHz but still efficient in power consumption compared to higher frequency modules. While not designed for modern gaming or heavy applications, this memory is still very viable for reviving older laptops, making economical upgrades, or for use in legacy systems that still require DDR3 SODIMMs.
With the famously stable quality of the Hynix brand, as well as optimal timing support, the DDR3 1333MHz SODIMM is a cost-effective and reliable solution for users looking for better performance than standard configurations without having to replace the entire device. This RAM is also widely available in both local and international markets, making it a popular choice in the repair and maintenance segment of older laptop devices.
Device test (testbed):
Device: HP Pavilion dv3-4054TX
RAM: 4GB DDR3 Single Channel
OS: Windows 7, Windows 10
Thursday, 21 July 2022 19:48:31 | Update: 1 month ago
About Hardware LPDDR5 4800MHz
The 4800MHz LPDDR5 module embedded in the Acer Aspire 5 A515-58P is a next-generation memory solution specifically designed to deliver high speed and maximum power efficiency in modern devices such as ultrabooks and thin laptops. It uses Micron-made chips with a total capacity of 8GB embedded directly into the motherboard (onboard), making it non-upgradable yet more space and energy efficient than conventional SODIMM modules. Running at a frequency of 4800MT/s and timings of CL52-44-44-104 1T, this LPDDR5 offers extremely low latency and much higher memory bandwidth compared to previous generations such as LPDDR4X.
In performance testing, this memory showed very impressive results for the thin laptop class. In the PYPrime 2B benchmark with BenchMate, the time recorded was only 14 seconds 377 milliseconds, indicating a very solid CPU and RAM performance in processing heavy computing loads based on integer calculations. Meanwhile, testing using AIDA64 Memory Read showed a reading of 49,727 points, proving that Micron's 4800MHz LPDDR5 is capable of delivering high memory read speeds, which greatly supports the smooth multitasking, productivity and media consumption needs of the Windows 11 22H2 operating system.
With its combination of high power efficiency, excellent data transfer speed, and direct device integration, LPDDR5 4800MHz is the ideal choice for modern laptop users who prioritize responsiveness and battery life without compromising on performance.
Device test (testbed):
Device: Acer Aspire 5 A515-58P
CPU: i5 1335U
RAM: 8GB LPDDR5 (Fix, Cannot Upgrade)
OS: Windows 11 22H2
Tuesday, 15 August 2023 13:16:48 | Update: 1 month ago