Description
Performance Benefits of using 2666 MHz Memory
The “Performance Benefits of using 2666 MHz Memory” subheading would provide information on the advantages of using memory with a speed of 2666 MHz, such as the HPE 32GB 2666Mhz memory module (832798-B21).
One of the main benefits of using memory with a higher speed, such as 2666 MHz, is improved performance. The memory’s clock speed, measured in MHz, determines how fast data can be transferred to and from the memory. A higher clock speed means that data can be transferred more quickly, which can result in faster overall system performance, particularly for tasks that require a lot of data to be read from or written to memory.
Another benefit of using memory with a speed of 2666 MHz is increased memory bandwidth. Bandwidth refers to the amount of data that can be transferred per second. With more bandwidth, the system can access data more quickly, which can lead to improved performance for tasks that require a lot of data to be read from or written to memory.
Additionally, using 2666 MHz memory can also reduce the number of cycles required to access the memory, which can improve performance as well. It can also help to reduce power consumption.
It’s important to note that the performance benefits of using memory with a speed of 2666 MHz will depend on the specific server model and workloads. It’s always recommended to check the server’s documentation for the recommended memory speed and to perform testing before making any changes.
Power Efficiency of the Memory Module
The “Power Efficiency of the Memory Module” subheading would provide information on the power consumption and efficiency of the HPE 32GB 2666Mhz memory module (832798-B21). This would include information on the memory module’s power consumption in idle and active states, as well as any power-saving features or technologies that are built into the module.
One of the main benefits of using a memory module that is power efficient is that it can help to reduce the overall power consumption of the server. This can result in cost savings on electricity bills and also help to prolong the life of the server’s power supply.
Additionally, power-efficient memory modules can also generate less heat, which can improve the overall thermal management of the server and help to prevent overheating.
It’s important to note that the power efficiency of the memory module will depend on the specific server model and workloads. It’s always recommended to check the server’s documentation for the recommended memory configuration and power consumption and to perform testing before making any changes.
Comparison to other Memory Technologies
The “Comparison to other Memory Technologies” subheading would provide information on how the HPE 32GB 2666Mhz memory module (832798-B21) compares to other memory technologies, such as DDR3, DDR4L, and LRDIMM. This would include information on the differences in performance, power efficiency, capacity, and compatibility between the different memory technologies.
For example, DDR4 memory has a faster transfer rate and higher bandwidth than DDR3, which results in improved performance. LRDIMM memory has a higher capacity than RDIMM, but it also consumes more power.
This subheading would help readers to understand the trade-offs between different memory technologies and make informed decisions on which technology is best suited for their specific server and workloads. It would also help the readers to understand the evolution of memory technology and how it affects the performance and power efficiency of the memory module.
General Information
- Manufacturer: HPE
- Manufacturer Part Number: 832798-B21
- Type: Memory (RAM)
- Sub-Type: PC4-21300
- Product Name: 32GB DDR4 SDRAM Memory Module
Technical Information
- Storage Capacity: 32GB
- Memory Technology: DDR4 SDRAM
- Number Of Modules: 1 X 32GB
- Bus Speed: 2666MHZ DDR4-21300/PC4-2666V
- Data Integrity Check: Ecc
- Signal Processing: Registered
- Cas Latency Timings: Cl19
- Rank Features: 2rx4
Physical Characteristics
- Form Factor: 288-pin Rdimm
