Hynix HBG4e
User Benchmarks
Model | Type | Score | Seq. Read MB | Seq. Write MB | Read 4k64QD | Write 4k64QD | Read Access msek. | Write Access msek. |
Hynix HBG4e | 31 | 274 | 124 | 69 | 42.61 | 13.51 | 0.22 | 0.34 |
The measurement of the Hynix HBG4e was carried out on Windows. Similar read and write speeds could certainly be achieved with the Hynix HBG4e under Linux and MacOS. Of course, the correct hard drive driver should be installed and the correct interface for the Hynix HBG4e should be used.
The Hynix HBG4e is a high-performance DRAM (Dynamic Random Access Memory) memory solution typically used in mobile devices such as smartphones, tablets, and other portable electronics. It belongs to the mobile DRAM family and offers a combination of high speed and power efficiency that is important for modern applications in mobile technology.
Here is a detailed description of the Hynix HBG4e, including technical details, features, and application area:
Technical Details
1. Memory Technology:
- DRAM (Dynamic Random Access Memory). DRAM memory is volatile, meaning it only stores data as long as it is supplied with power. It is often used as random access memory in mobile devices and computers.
2. Memory Architecture:
- LPDDR4 (Low Power DDR4). The HBG4e utilizes LPDDR4 technology, which is optimized for mobile devices. LPDDR4 offers higher data transfer rates and better power efficiency compared to LPDDR3.
3. Memory Size:
- The exact capacity of the HBG4e may vary, but typical modules for this type of DRAM range from 2GB to 8GB. The exact size depends on the specific model and configuration.
4. Speed:
- Data Rate: LPDDR4 memory technology offers data transfer rates of up to 4266 MT/s (Mega Transfers Per Second). This enables faster data access times and improved system performance.
5. Voltage:
- 1.1 Volts. LPDDR4 technology operates at an operating voltage of 1.1V, which is lower compared to older DRAM technologies and contributes to improved power efficiency.
6. Form Factor:
- BGA (Ball Grid Array). The DRAM chip is housed in a BGA package that enables a compact design and provides efficient heat dissipation. This is especially important for integration into small and thin mobile devices.
7. Burst Length:
- 16. The burst length of 16 means that data is transferred in blocks of 16 consecutive memory cells, increasing the efficiency and speed of data transfer.
8. Channel Structure:
- Single channel or dual channel. The HBG4e can be used in configurations that support single or dual channels to further optimize data transfer rates and system performance.
Features
1. High Data Transfer Rate:
- The HBG4e offers a high data transfer rate of up to 4266 MT/s, which is required for fast read and write operations. This improves the performance of applications and operating systems in mobile devices.
2. Energy Efficiency:
- With a lower operating voltage of 1.1V, the HBG4e reduces energy consumption compared to older DRAM technologies. This helps extend battery life in mobile devices and reduces heat generation.
3. Compact Design:
- The BGA package enables a compact design required for integration into modern, thin and light mobile devices.
4. Improved Performance:
- LPDDR4 technology offers improved performance characteristics compared to previous LPDDR generations, including faster data transfer rates and better multitasking capabilities.
5. Reliability:
- The HBG4e is optimized for use in mobile devices and offers the high reliability and stability required for everyday use in smartphones and tablets.
Area of ​​application
1. Smartphones:
- The HBG4e is often used in smartphones to improve performance and energy efficiency. The high data rate and energy efficiency are crucial for modern mobile phones that support powerful applications and games.
2. Tablets:
- The HBG4e is used in tablets to ensure a fast and smooth user experience. The high performance and compact design contribute to the thin and light design of modern tablets.
3. Portable electronics:
- In addition to smartphones and tablets, the HBG4e is also used in other portable electronics, such as portable computers and handheld consoles.
4. Mobile gaming:
- The high data rate and energy efficiency of the HBG4e make it ideal for mobile gaming applications that require fast data access and long battery life.
5. Multimedia Applications:
- The HBG4e is also suitable for multimedia applications that require high memory bandwidth and fast data processing, such as video streaming and image editing on mobile devices.
Summary
The Hynix HBG4e is a high-performance and energy-efficient DRAM chip optimized for use in mobile devices such as smartphones and tablets. With its high data transfer rate, low operating voltage and compact design, it offers excellent performance and energy efficiency required for modern applications. It is ideal for use in devices where fast response times and long battery life are crucial.
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Hynix HBG4e and the compatible operating systems
Windows Server 2025, 2022, 2019, 2016, ... or 2008 and higher
Windows 12, 11, 10 or Windows 7 and higher
Linux (various distributions)
macOS (from version 10.6)
Please note that the exact functions and areas of application may vary depending on the firmware version and configuration of Hynix HBG4e.
The Hynix HBG4e is a reliable disk in case of problems, failures, file loss and other errors, check the drivers of the Hynix HBG4e regardless of whether it is under Windows 12, 11, 10, etc. or Linux and Apples macOS.