Intel celeron processor n3160

Types of Intel Celeron processors

The Intel Celeron processor N3160 is a quad-core CPU that is part of the Intel Celeron brand of processors. These chips are made for budget-friendly computing and were made with efficiency in mind. While some Celeron CPUs only have one or two cores, the N3160 stands out because it has four cores working at the same time. This allows for multi-core tasks, smooth multimedia operations, and improves overall performance compared to dual-core or single-core models. The N3160 is an entry-level processor within the broader Intel Celeron lineup, designed primarily for low-powered devices like Chromebooks and other budget laptops. Alongside the N3160 model, other common Intel Celeron processors found in devices include the Celeron J4105, Celeron N4020, and Celeron N3350, with features varying for each.

Within the Intel Celeron family, different processor types cater to specific needs:

• Desktop Celerons: Equipped with higher TDP levels, these processors are created for desktop computers that demand more power and can handle intense applications like multitasking and video editing.
• Notebook Celerons: Notebook or mobile Celerons come with lower TDP levels and are designed for portable devices such as laptops and netbooks. They prioritize battery efficiency over performance to extend battery life and reduce heat generation.
• Bay Trail Celerons: These chips feature Intel's 22nm manufacturing technology and were introduced in 2013. They target powered devices like low-cost laptops, desktop computers, tablets, and Android TV boxes, striking a good balance between performance, efficiency, and expense.
• Gemini Lake Celerons: Launched in 2018, Gemini Lake Celerons, built on a 14nm architecture, replaced the Bay Trail versions. They come with updated Intel graphics and other technologies, boosting multimedia performance and efficiency for budget devices.

Features and functions of the Intel Celeron processor N3160

Here are some widely acknowledged features and functions of the Intel Celeron N3160 processor:

• Low Power Consumption: Designed for energy efficiency, this trait helps extend battery life in laptops and tablets, offering a balance between performance and power usage for everyday tasks.
• Dual-Core: Having two processing units, or cores, means the N3160 can tackle multiple tasks at once more smoothly than processors with just one core.
• Generation: Being a part of the Atom's 5th generation means it works well with other things made in that same group – the chipset and platform – giving better efficiency and performance together.
• Height: The maximum temperature the processor can take is 100°C, while the minimum is - 20°C for commercial purposes and - 40°C for industrial purposes, showing its ability to work under different temperatures.
• Lithography: Built on a 14nm production process, it uses new "Broadwell" Atom microarchitecture, provide decent performance while using less power and allowing for smaller, thinner devices with good battery life.
• L2/L3 Cache: It has a level 2 cache of 256 kB per core and a level 3 cache of 2 MB shared, which helps speed up frequently used data for better performance.
• Architecture: Support for 64-bit computing provides good multitasking capabilities, allowing more RAM to be used in modern operating systems and applications.
• Max Turbo Frequency: With a maximum adjustable frequency of 2.48 GHz, it can carry out basic processes swiftly, particularly when doing a single task at a time or when many requests must be processed together; this feature is also called Turbo Boost.

Usage scenarios of Intel Celeron processor N3160

Processor Celeron N3160 is suitable for a wide range of applications that require efficient computing power in a compact form factor. Here are some of the primary uses of Intel Celeron N3160 processor, Intel Celeron N3350, and more that enthusiasts and business owners can explore:

• Digital signage: The small form factor and low power consumption of Celeron N3160 and other models make them ideal for driving digital signage displays in retail stores, airports, and other public spaces.
• Point-of-sale systems: The processor can be used in POS terminals to handle transactions, inventory management, and other business operations.
• Embedded systems: With its small size and capabilities, the processor can be an essential component of embedded systems such as home automation devices, industrial controllers, and medical equipment.
• Compact desktop PCs: Celeron N3160 can power small laptops and desktop computers for everyday tasks such as web browsing, email, and office productivity.
• Low-power servers: The processor can host lightweight server applications such as file sharing, network printing, and web hosting for small businesses or home users.

How to Choose Intel Celeron N3160 Processors

• Use Case Consideration:

  Establishing application and workload requirements will help decide on processor suitability. Assess workloads such as web browsing, document editing, light photo/video processing, and media playback/streaming to determine a suitable balance of performance and efficiency. Choosing a processor or system with adequate single-thread and multi-thread performance is essential for smooth operation in the intended use cases.

• Performance Look-Outs:

  When evaluating the performance of Intel N3160 Celeron processor-based systems, it is necessary to pay careful attention to performance metrics. These include clock speed, single-thread performance (important for tasks like web browsing and office applications), and multi-thread performance (beneficial for content creation or heavy multitasking), and integrated graphics performance (crucial for casual gaming and multimedia). Assessing benchmark scores can give a sense of real-world performance capabilities.

• Thermal Design Power (TDP):

  Consider Pro/TDPs when choosing desktop vs. mobile platforms. Lower TDPs generally indicate better power efficiency and battery life for mobile devices, while higher TDPs may be better for sustained performance in desktop systems. Choosing an appropriate TDP ensures a good balance of power efficiency and performance based on the intended usage scenario.

• System and Form Factor Compatibility:

  Ensuring compatibility with peripherals and the required form factor is critical when selecting an Intel Celeron N3160 or similar processor. It helps to confirm that the chosen motherboard/socket matches the processor's specifications and to verify that the system chassis, whether mini-PC, all-in-one, or embedded device, meets spatial and connectivity requirements. This can include checking ports like USB, HDMI, audio jacks, and wireless standards. Making sure the processor aligns with compatibility expectations helps streamline integration with existing setups.

Intel celeron processor n3160 Q and A

Q1: What is the purpose of an Intel Celeron processor N3160?

A1: An Intel Celeron processor N3160 is great for everyday basics like web browsing, office work tasks, and watching movies. It is not made for doing very demanding things like gaming or professional photo and video editing.

Q2: What is Celeron N3160?

A2: An Intel Celeron N3160 is a low-power CPU made for portable devices like tablets, compact laptops, and Chromebooks. It runs effortlessly and saves battery life. Celeron processors are budget-friendly options.

Q3: How much memory does Intel Celeron N3160 support?

A3: The Intel Celeron N3160 can support a maximum of two RAM modules, giving a total of 4 gigabytes of memory. This amount of memory allows computers to run smoothly when doing normal tasks like opening multiple web pages, working with documents, and using lightweight programs all at the same time.

Q4: When was the Celeron N3160 released?

A4: The Intel Celeron N3160 was officially launched in the fourth quarter of 2015. The Skylake microarchitecture, to which this processor belongs, was first introduced by Intel in 2015.