The is a single-board computer (SBC) that is small, cost-effective, and powerful. It is ideal for embedded systems, industrial automation, and Internet of Things (IoT) applications.
Features
The CuBox has a number of features that make it an attractive choice for embedded systems applications. These features include:
- Compact size: The CuBox is only 100 x 60 x 28 mm, making it ideal for applications where space is limited.
- Low power consumption: The CuBox consumes between 2 and 4 watts of power, making it an energy-efficient choice for embedded systems applications.
- High performance: The CuBox is powered by a quad-core ARM Cortex-A7 processor and has up to 2GB of DDR3 RAM. This gives it the performance needed to handle demanding embedded systems applications.
- Rich I/O: The CuBox has a wide range of I/O options, including:
- 2x Gigabit Ethernet ports
- 2x USB 2.0 ports
- 1x USB 3.0 port
- 1x SATA port
- 1x miniPCIe slot
- 1x microSD slot
Applications
The CuBox is a versatile single-board computer that can be used in a wide range of embedded systems applications. Some of the most common applications include:
- Industrial automation: The CuBox can be used in industrial automation applications, such as controlling machinery and robots.
- IoT: The CuBox can be used in IoT applications, such as collecting data from sensors and controlling devices.
- Networking: The CuBox can be used in networking applications, such as routing and switching.
- Multimedia: The CuBox can be used in multimedia applications, such as playing back video and audio.
Software
The CuBox comes with a variety of pre-installed software, including:
- Ubuntu Linux: The CuBox comes pre-installed with Ubuntu Linux, which is a popular operating system for embedded systems.
- Android: The CuBox also comes with support for Android, which is a popular operating system for mobile devices.
- Windows 10 IoT: The CuBox also comes with support for Windows 10 IoT, which is a specialized version of Windows 10 for embedded systems.
Accessories
There are a number of accessories available for the CuBox, including:
- Cases: There are a number of cases available for the CuBox, which can protect it from damage.
- Power supplies: There are a number of power supplies available for the CuBox, which can provide it with power.
- Development boards: There are a number of development boards available for the CuBox, which can help you develop and test your applications.
Technical Specifications
The following table provides the technical specifications for the :
Specification | Value |
---|---|
Processor | Quad-core ARM Cortex-A7 |
Memory | Up to 2GB DDR3 RAM |
Storage | 8GB eMMC flash |
I/O | 2x Gigabit Ethernet ports, 2x USB 2.0 ports, 1x USB 3.0 port, 1x SATA port, 1x miniPCIe slot, 1x microSD slot |
Power | 2-4 watts |
Size | 100 x 60 x 28 mm |
Weight | 150 grams |
Frequently Asked Questions (FAQs)
Q: What is the ?
A: The is a single-board computer that is small, cost-effective, and powerful. It is ideal for embedded systems, industrial automation, and IoT applications.
Q: What are the features of the CuBox?
A: The CuBox has a number of features, including its compact size, low power consumption, high performance, and rich I/O options.
Q: What are some of the applications of the CuBox?
A: The CuBox can be used in a wide range of embedded systems applications, including industrial automation, IoT, networking, and multimedia.
Q: What software comes with the CuBox?
A: The CuBox comes with a variety of pre-installed software, including Ubuntu Linux, Android, and Windows 10 IoT.
Q: What accessories are available for the CuBox?
A: There are a number of accessories available for the CuBox, including cases, power supplies, and development boards.
References
SolidRun ClearFog
SolidRun ClearFog is a modular platform specifically designed for Internet of Things (IoT) and edge computing applications. It features highly customizable hardware and software options, enabling tailored solutions for various use cases. ClearFog offers a wide range of processor options, including ARM and x86, allowing users to select the appropriate processing power and architecture for their specific requirements.
ClearFog is equipped with flexible expansion capabilities, with multiple PCIe and M.2 slots available. This allows for the integration of various peripherals and storage devices, providing increased functionality and scalability. The platform also supports various operating systems, including Linux, FreeBSD, and Windows, offering flexibility in software selection.
With its rugged industrial design, ClearFog is suitable for harsh environments and extended operating temperatures. It supports multiple power inputs and provides remote management capabilities, simplifying system deployment and maintenance. The modular nature of ClearFog enables easy upgrades and reconfigurations, ensuring adaptability in evolving IoT and edge computing scenarios.
Single-board Computer for AI
Single-board computers (SBCs) offer compact and versatile platforms for deploying AI applications. They integrate essential components, including a processor, memory, and I/O interfaces, on a single board.
Specialized SBCs designed for AI applications typically feature:
- High-performance processors with multiple cores and advanced instruction sets
- Onboard graphics processing units (GPUs) or dedicated neural processing units (NPUs) for accelerated AI calculations
- Ample memory to support large datasets and complex models
- Connectivity options for communication with sensors, actuators, and other devices
- Development environments and software stacks tailored for AI development
SBCs empower developers to build cost-effective and resource-efficient AI solutions. They provide the necessary hardware and software foundation to run AI models, perform sensor data processing, and implement advanced machine learning algorithms.
IoT Gateway with SolidRun
SolidRun offers a range of IoT gateways designed to facilitate the deployment and management of IoT devices. These gateways act as intermediaries between devices, cloud platforms, and other network infrastructure.
Powered by SolidRun’s ARM-based System on Module (SOM) technology, the gateways provide high performance and scalability. They feature robust interfaces such as Gigabit Ethernet, cellular connectivity, and USB ports to connect with diverse devices.
SolidRun’s IoT gateways come pre-loaded with an operating system optimized for IoT applications, providing secure and reliable operation. Additionally, they support the use of container technologies, allowing for the deployment of multiple applications within a single gateway.
Computer on Module for Embedded Systems
Definition:
A computer on module (COM) is a compact and modular electronic device that combines the core components of a computer system onto a single board.
Benefits:
- Reduced size and weight
- Faster time-to-market
- Flexible and customizable design
- Enhanced reliability
Applications:
COMs are commonly used in embedded systems applications where space and power constraints are crucial, such as:
- Industrial automation
- Medical devices
- Avionics and aerospace
- Transportation
Components:
A typical COM includes:
- Processor
- Memory (RAM and flash)
- Connectivity interfaces (Ethernet, USB, CAN)
- Peripheral support (GPIO, ADC, UART)
Form Factors:
COMs come in various form factors to meet different space and performance requirements, including:
- COM Express
- Qseven
- SMARC
- SOM-DIMM
- Raspberry Pi Compute Module
System on Module for Industrial Automation
A system on module (SoM) is a pre-integrated embedded system that combines a processor, memory, and other essential components onto a single board. SoMs are designed to provide a flexible and cost-effective solution for industrial automation applications.
SoMs offer several advantages over traditional embedded systems:
- Reduced development time: SoMs come pre-tested and verified, which eliminates the need for extensive design and prototyping.
- Lower cost: SoMs are typically more affordable than developing a custom embedded system from scratch.
- Flexibility: SoMs can be easily integrated into a variety of industrial automation systems, allowing for rapid prototyping and scaling.
- Reliability: SoMs are designed to meet industrial standards, ensuring reliable operation in harsh environments.
SoMs are widely used in industrial automation applications such as:
- Programmable logic controllers (PLCs)
- Distributed control systems (DCSs)
- Human-machine interfaces (HMIs)
- Robotics
- Motion control