The world of technology is constantly evolving, and one of the key players in this evolution is Intel. The company has been at the forefront of innovation, introducing new and improved processors that have revolutionized the way we use our devices. One such innovation is the Intel Cherry Trail, a processor that has been making waves in the tech industry. In this article, we will delve into the world of Intel Cherry Trail, exploring what it is, its features, and its impact on the tech world.
What is Intel Cherry Trail?
Intel Cherry Trail is a line of system-on-chip (SoC) processors designed by Intel for use in low-power devices such as tablets, laptops, and desktops. It is part of the Intel Atom series, which is known for its energy efficiency and affordability. The Cherry Trail processor was announced in 2015 and was designed to provide a balance between performance and power consumption.
Architecture and Design
The Intel Cherry Trail processor is based on the Airmont microarchitecture, which is a 14nm process technology. This means that the processor is built using a 14nm manufacturing process, which allows for smaller transistors and increased efficiency. The processor features a quad-core design, with four processing cores that can handle multiple tasks simultaneously.
Key Features
Some of the key features of the Intel Cherry Trail processor include:
- Quad-core design for improved performance
- 14nm process technology for increased efficiency
- Integrated graphics processing unit (GPU) for improved graphics performance
- Support for up to 4GB of RAM
- Support for eMMC storage
Performance and Power Consumption
One of the key benefits of the Intel Cherry Trail processor is its balance between performance and power consumption. The processor is designed to provide smooth performance for everyday tasks such as browsing, emailing, and office work, while also being energy efficient.
Benchmark Results
In terms of benchmark results, the Intel Cherry Trail processor has shown impressive performance. In the Geekbench 3 benchmark, the processor scored an average of 1,500 points in the single-core test and 4,500 points in the multi-core test. In the 3DMark Ice Storm Unlimited benchmark, the processor scored an average of 15,000 points.
Power Consumption
In terms of power consumption, the Intel Cherry Trail processor is designed to be energy efficient. The processor has a thermal design power (TDP) of 2W, which means that it consumes very little power. This makes it ideal for use in devices that require long battery life.
Comparison with Other Processors
The Intel Cherry Trail processor is often compared to other processors in its class, such as the Qualcomm Snapdragon 410 and the MediaTek MT8163. In terms of performance, the Cherry Trail processor is generally faster than these processors, especially in multi-core tasks.
Comparison Table
| Processor | Single-Core Performance | Multi-Core Performance |
|---|---|---|
| Intel Cherry Trail | 1,500 points | 4,500 points |
| Qualcomm Snapdragon 410 | 1,000 points | 3,000 points |
| MediaTek MT8163 | 900 points | 2,500 points |
Devices that Use Intel Cherry Trail
The Intel Cherry Trail processor is used in a variety of devices, including tablets, laptops, and desktops. Some examples of devices that use the Cherry Trail processor include:
- Asus Transformer Book T100HA
- Lenovo ThinkPad 10
- Dell Venue 10 Pro
- HP Stream 10
Benefits for Device Manufacturers
The Intel Cherry Trail processor offers several benefits for device manufacturers, including:
- Improved performance and efficiency
- Increased battery life
- Support for a wide range of devices
- Affordable pricing
Benefits for Consumers
The Intel Cherry Trail processor also offers several benefits for consumers, including:
- Smooth performance for everyday tasks
- Long battery life
- Affordable pricing
- Support for a wide range of devices
Conclusion
In conclusion, the Intel Cherry Trail processor is a powerful and energy-efficient processor that is designed for use in low-power devices. Its quad-core design, integrated GPU, and support for up to 4GB of RAM make it an ideal choice for devices that require smooth performance and long battery life. With its affordable pricing and support for a wide range of devices, the Cherry Trail processor is a great option for both device manufacturers and consumers.
Future Developments
As technology continues to evolve, we can expect to see future developments in the Intel Cherry Trail processor. Intel is constantly working to improve its processors, and we can expect to see new and improved versions of the Cherry Trail processor in the future.
Final Thoughts
In final thoughts, the Intel Cherry Trail processor is a powerful and energy-efficient processor that is designed for use in low-power devices. Its balance between performance and power consumption makes it an ideal choice for devices that require smooth performance and long battery life. With its affordable pricing and support for a wide range of devices, the Cherry Trail processor is a great option for both device manufacturers and consumers.
What is Intel Cherry Trail?
Intel Cherry Trail is a line of system-on-chip (SoC) processors designed by Intel, primarily for use in low-power devices such as tablets, laptops, and 2-in-1 hybrids. The Cherry Trail series is part of Intel’s Atom processor family and is known for its energy efficiency, making it suitable for devices that require long battery life.
The Cherry Trail processors were released in 2015, offering improved performance and power management compared to their predecessors, the Bay Trail processors. They feature a 14nm manufacturing process, which allows for increased efficiency and reduced power consumption. This makes them ideal for devices that need to balance performance with battery life.
What are the key features of Intel Cherry Trail processors?
Intel Cherry Trail processors come with several key features that make them suitable for low-power devices. They have a quad-core or dual-core CPU, depending on the specific model, and support for up to 4GB of RAM. They also feature Intel’s Gen8 graphics processing unit (GPU), which provides improved graphics performance compared to earlier models.
In addition to their CPU and GPU capabilities, Cherry Trail processors also support a range of other features, including Wi-Fi, Bluetooth, and USB connectivity. They also have a built-in Trusted Execution Engine (TXE) for improved security and a range of power management features to help reduce power consumption.
What devices use Intel Cherry Trail processors?
Intel Cherry Trail processors are used in a range of devices, including tablets, laptops, and 2-in-1 hybrids. They are commonly found in budget-friendly devices, where their low power consumption and affordable price make them an attractive option. Some examples of devices that use Cherry Trail processors include the Lenovo ThinkPad 10, the Asus Transformer Book T100, and the Acer Aspire Switch 10.
Cherry Trail processors are also used in some Chromebooks and Android devices, where their low power consumption and affordable price make them a popular choice. They are also used in some IoT devices, such as smart home hubs and industrial control systems, where their low power consumption and reliability are important.
How do Intel Cherry Trail processors compare to other processors?
Intel Cherry Trail processors are designed to provide a balance between performance and power consumption, making them suitable for devices that require long battery life. Compared to other processors in the same class, such as the ARM-based processors used in many mobile devices, Cherry Trail processors offer improved performance and compatibility with x86 software.
However, Cherry Trail processors may not offer the same level of performance as more powerful processors, such as Intel’s Core i series or AMD’s Ryzen series. They are also not as energy-efficient as some other low-power processors, such as ARM-based processors. However, they offer a good balance between performance and power consumption, making them a popular choice for many devices.
What are the advantages of using Intel Cherry Trail processors?
One of the main advantages of using Intel Cherry Trail processors is their low power consumption, which makes them suitable for devices that require long battery life. They are also relatively affordable, making them a popular choice for budget-friendly devices. Additionally, Cherry Trail processors offer improved performance and compatibility with x86 software compared to some other low-power processors.
Another advantage of Cherry Trail processors is their reliability and durability. They are designed to withstand the rigors of daily use and are built with high-quality components to ensure long-term reliability. They also offer a range of power management features to help reduce power consumption and improve battery life.
What are the limitations of Intel Cherry Trail processors?
One of the main limitations of Intel Cherry Trail processors is their relatively low performance compared to more powerful processors. They are designed to provide a balance between performance and power consumption, but may not be suitable for demanding applications or tasks that require high levels of processing power.
Another limitation of Cherry Trail processors is their limited upgradeability. They are often soldered directly to the motherboard, making it difficult or impossible to upgrade or replace them. This can limit the lifespan of devices that use Cherry Trail processors and make it difficult to keep them up-to-date with the latest software and security patches.
Is Intel Cherry Trail still supported by Intel?
Intel Cherry Trail processors were released in 2015 and are no longer considered a current product by Intel. While they are still supported by Intel in the sense that they are still receiving security updates and bug fixes, they are no longer actively marketed or sold by the company.
However, many devices that use Cherry Trail processors are still supported by their manufacturers, and may continue to receive software updates and security patches for some time. Additionally, the open-source community continues to support Cherry Trail processors, with many Linux distributions and other open-source operating systems still offering support for these processors.