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SNPHMNTGC/16G Dell 16GB 1333MHZ PC3-10600 240-Pin Registered Ddr3 Ecc SDRAM Ram | Brand New

Name: SNPHMNTGC/16G Dell 16GB 1333MHZ PC3-10600 240-Pin Registered Ddr3 Ecc SDRAM Ram | Brand New
Brand: Dell
SKU: SNPHMNTGC/16G-2
Availability: InStock

$40.00

SNPHMNTGC/16G 16GB 1X16GB 1333MHZ PC3-10600 240-Pin Ddr3 Fully Buffered Ecc Low Boltage Module Registered SDRAM DIMM Memory Poweredge for Server | Made by Dell | Brand New

1 in stock

SKU: SNPHMNTGC/16G-2 Category: 16GB Brand: Dell

Description

ECC Registered SDRAM vs Unbuffered SDRAM

ECC Registered SDRAM and Unbuffered SDRAM are two different types of memory modules that are used in computer systems. Here are some of the key differences between the two:

Error Checking and Correction (ECC): ECC Registered SDRAM has built-in error checking and correction capabilities that help detect and correct data errors that occur during the memory read and write processes. Unbuffered SDRAM, on the other hand, does not have ECC capabilities.
Reliability: Because of their ECC capabilities, ECC Registered SDRAM modules are generally considered more reliable than Unbuffered SDRAM modules. They are able to detect and correct memory errors, which can help prevent system crashes and data corruption.
Performance: ECC Registered SDRAM is slightly slower than Unbuffered SDRAM, as it requires an additional clock cycle to perform its error checking and correction functions. However, the difference in speed is generally not noticeable in real-world applications.
Compatibility: ECC Registered SDRAM is not compatible with all computer systems, as it requires a special memory controller that is designed to work with the ECC technology. Unbuffered SDRAM, on the other hand, is compatible with a wider range of systems.
Price: ECC Registered SDRAM is generally more expensive than Unbuffered SDRAM, due to its additional error checking and correction capabilities.

Latency and CAS timings

Latency and CAS (Column Address Strobe) timings are important specifications that are used to measure the performance of computer memory, including DDR3 SDRAM like the SNPHMNTGC/16G Dell 16GB 1333MHZ PC3-10600 240-Pin DDR3 ECC Registered SDRAM RAM. Here’s a brief explanation of each:

Latency: Memory latency refers to the time delay between when the CPU requests data from memory and when that data is actually delivered. In other words, it’s the amount of time it takes for the memory module to respond to a request for data. Latency is measured in clock cycles, with lower numbers indicating better performance. The most common type of memory latency is known as CAS latency.
CAS latency: CAS latency is a specific type of memory latency that refers to the number of clock cycles it takes for the memory module to provide a column of data in response to a memory request. It is measured in clock cycles, and lower numbers indicate better performance. For example, a memory module with a CAS latency of 9 will provide data in 9 clock cycles after receiving a request.

In general, lower latency and CAS timings are considered better, as they indicate faster response times and better performance. However, it’s important to note that latency and CAS timings are just two of many factors that can affect memory performance, and should not be the only considerations when choosing a memory module.

Other factors that can impact memory performance include clock speed, memory bandwidth, and the number of memory channels. Additionally, different applications and workloads may have varying requirements for memory performance, so it’s important to choose a memory module that is appropriate for your specific needs.

Overclocking potential

Overclocking potential refers to the degree to which a computer component, such as a RAM module, can be pushed beyond its standard operating specifications in order to achieve higher performance. In the case of RAM, overclocking involves increasing the clock speed of the memory beyond its rated speed, which can result in faster data transfer rates and improved system performance.

The overclocking potential of a RAM module depends on a number of factors, including the quality of the module itself, the capabilities of the motherboard and CPU, and the cooling system used to dissipate heat generated by the increased power consumption. It’s important to note that overclocking RAM can also increase the risk of system instability, data corruption, and hardware damage, so it should only be attempted by experienced users who understand the risks and have appropriate cooling systems in place.

The SNPHMNTGC/16G Dell 16GB 1333MHZ PC3-10600 240-Pin DDR3 ECC Registered SDRAM RAM may have some overclocking potential, but the specific amount will depend on the individual module and the other components in the system. It’s important to note that any overclocking attempts should be done carefully and with caution, and that any damage caused by overclocking may void the warranty.

General information