Description
Product Information
SNP4JMGMC/64G is a specific model of computer memory module, manufactured by Dell. This module is designed for use in servers and other high-performance computing systems that require large amounts of memory. In this article, we will explore the details of the SNP4JMGMC/64G memory module, including its specifications, features, and benefits.
Specifications
The SNP4JMGMC/64G memory module has a total capacity of 64GB, which is comprised of a single 64GB memory module. The module is based on DDR4 SDRAM technology, which is the latest standard in computer memory. The module operates at a frequency of 2666MHz, which means that it can transfer data at a rate of 2666 million cycles per second. This frequency is also known as the module’s clock speed.
The memory module has a CAS latency of 19, which is a measure of the delay between when a memory controller requests data and when the data is returned. A lower CAS latency means that the memory can respond to requests more quickly, which can result in better overall system performance.
The SNP4JMGMC/64G memory module also has ECC (error-correcting code) capabilities. This means that the module can detect and correct errors that occur during data transmission, which helps to ensure the reliability and accuracy of the data being transferred.
Features and Benefits
The SNP4JMGMC/64G memory module has a number of features that make it an ideal choice for use in servers and other high-performance computing systems. One of the key features of this module is its high capacity. With a total capacity of 64GB, this module can provide a significant boost in system performance, allowing for faster data processing and improved overall system responsiveness.
Another important feature of the SNP4JMGMC/64G memory module is its quad-rank design. This means that the module is divided into four separate ranks, each of which can be accessed independently by the memory controller. This allows for more efficient data transfer and can help to further improve system performance.
The SNP4JMGMC/64G memory module also has a low operating voltage of 1.2 volts. This helps to reduce power consumption and can result in lower overall operating costs for server systems.
In addition to its high capacity and low power consumption, the SNP4JMGMC/64G memory module also has ECC capabilities. This means that the module can detect and correct errors that occur during data transmission, which helps to ensure the reliability and accuracy of the data being transferred.
In Summary, the SNP4JMGMC/64G memory module is a high-performance computer memory module designed for use in servers and other high-performance computing systems. With a total capacity of 64GB, quad-rank design, low operating voltage, and ECC capabilities, this module provides a significant boost in system performance while also helping to reduce power consumption and improve data reliability. Its compatibility with a wide range of Dell PowerEdge server models and straightforward installation make it an ideal choice for IT professionals looking to upgrade their server systems.
General Information about the Dell SNP4JMGMC/64G
- Manufacturer: Dell
- Part Number or SKU# SNP4JMGMC/64G
- Product Type: Memory (RAM)
- Product Name: 64GB PC4-21300
Technical Specifications
- Storage Capacity: 64GB
- Memory Technology: DDR4 SDRAM
- Number Of Modules: 1 X 64GB
- Bus Speed: 2666mhz DDR4-21300/PC4-2666v
- Data Integrity Check: Ecc
- Signal Processing: Registered
- Cas Latency Timings: Cl19
- Rank Features: Quad Rank X4
Physical Characteristics
- Dimensions (W X D X H) : 8.89 X 19.81 X 1.91 Cm (3.5 X 7.8 X 0.75 In)
- Weight: 0.45 Kg (1 Lb)
Compatibility
- This Product Is Compatible With The Following Systems:
- Poweredge C6420
- Poweredge Fc640
- Poweredge M640
- Poweredge R440
- Poweredge R540
- Poweredge R640
- Poweredge R740
- Poweredge R740xd
- Poweredge R940
- Poweredge T440
- Poweredge T640
Contact us or ask for live chat/help if you have any questions about the compatibility of this item to ensure the model’s matching features with your current system.
