Description
Power Consumption
Power consumption refers to the amount of electrical energy a device or system uses in a given amount of time. It is usually measured in watts (W) and is used to determine the energy efficiency of a device, as well as to calculate the cost of electricity consumption. Power consumption can be influenced by several factors such as device design, usage patterns, and the environment in which it operates.
Operating Temperature
Operating temperature refers to the temperature range within which a device or system is designed to function properly. Operating temperature is typically specified by the manufacturer and can vary based on the type of device and the environment in which it will be used. Excessive temperature can lead to decreased performance, permanent damage, or even failure of the device. For some devices, such as computers, the operating temperature is tightly controlled to prevent overheating, while for others, such as refrigerators, the operating temperature range is much broader. Operating temperature is often specified in degrees Celsius (°C) or degrees Fahrenheit (°F).
Capacity and Speed
Capacity and speed are two important characteristics of many technology devices and systems.
Capacity refers to the amount of data, information, or other content that a device can store or handle. For example, the capacity of a hard drive refers to the amount of data it can store, while the capacity of a processor refers to the amount of data it can handle at one time. Capacity is often measured in bits, bytes, or gigabytes (GB).
Speed, on the other hand, refers to the rate at which a device or system can perform its tasks. For example, the speed of a processor is typically measured in gigahertz (GHz), while the speed of a hard drive is measured in rotations per minute (RPM). The speed of a device can greatly impact its overall performance and efficiency.
Both capacity and speed can have a significant impact on the performance and functionality of a device or system, and are important factors to consider when making technology purchasing decisions.
3200 MHz Clock Speed
A 3200 MHz clock speed refers to the frequency at which a computer’s central processing unit (CPU) operates. The clock speed is measured in megahertz (MHz) and determines how many cycles per second a CPU can execute. A 3200 MHz clock speed means that the CPU can execute 3.2 billion clock cycles per second.
Higher clock speeds generally result in faster performance, as the CPU can process more instructions in a given amount of time. However, other factors such as the number of cores, the architecture of the CPU, and the speed of the memory also play a role in overall performance.
It’s important to note that clock speed is not the only factor that determines a CPU’s performance, and a higher clock speed does not necessarily guarantee better performance in all situations. It’s often more effective to consider the clock speed in conjunction with other specifications to get a more accurate picture of a CPU’s capabilities.
General Information of this Micron MTA72ASS16G72LZ-3G2B3
- Brand Name: Micron
- Model Number or SKU# MTA72ASS16G72LZ-3G2B3
- Type: Memory (RAM)
- RAM Type: Pc4-25600
- Product Name: 128GB DDR4 SDRAM Memory Module
Technical Information about 128GB DDR4 Ram
- Storage Capacity: 128GB
- Memory Technology: DDR4 SDRAM
- Number Of Modules: 1 X 128GB
- Bus Speed: 3200MHz DDR4-25600/PC4-3200
- Data Integrity Check: Ecc
- Signal Processing: Registered
- Cas Latency Timings: Cl22
- Rank Features: 4rx4
- Form Factor: 288-Pin Lrdimm
Physical Characteristics of Micron Memory
- 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)
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