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The VSX-6127 has a fully static 32-bit x86 processor and is PC compatible allowing it to run most popular 32-bit Operating Systems such as Windows CE and Linux as well as older Operating Systems such as DOS. The XGI Volari Z9 video chipset features 32 MB onboard video memory supporting Analog VGA monitors and TFT Flat panel LCDs and has a resolution of up to 1280x1024 @ 16M colors. In addition to video, three USB 2.0 ports are provided as well as one Parallel port (SPP/EPP/ECP modes), an UltraDMA – 100/66/3 EIDE port (which supports up to 2 IDE devices) and seven RS-232 and one RS-232/422/485 serial port. The PCM-6127 can run at temperatures of -20 º C (-4º F) to 70º C (158º F). The numerous features provide an ideal price/performance solution for commercial and industrial applications where stability and reliability (no moving parts) are essential. **Flash Disk not included.**
AIMB-230 is designed with the Intel® HASWELL ULT Dual Core for industrial applications that require both performance computing and enhanced power management capabilities. The motherboard supports Intel HASWELL ULT Dual Core i5 1.9 GHz / Celeron 1.6GHz processor up to 3 MB L3 cache and DDR3L SO-DIMM 1600 up to 16GB. A rich I/O connectivity of 2 serial ports, 4 USB 3.0, 2 USB 2.0, dual GbE LAN and 3 SATA III ports.
CutiPy Product Video:
The Industrial IoT Development kit was developed to get you started using the CutiPy™ IoT board at IOT-F407C CutiPy™. This Microcontroller Development Kit comes preloaded with operating software and includes basic hardware to get you started developing your IoT device the first day out of the box. The CuTiPy™ Industrial IoT microcontroller was created to simplify adding IOT connectivity to devices and machines in the Industrial systems environment. EMAC Inc. has created an easy-to-use, cost-effective industrial IoT board that can be implemented anywhere from the factory floor to a remote offsite location.
The CutiPy™ is a low-power IOT board that can be powered from a Li-Ion rechargeable battery. The CutiPy™ comes equipped with a Webserver, MODBUS & MQTT and has support for AWS Cloud services. The CutiPy™ provides a plethora of I/O including: RS233, RS485, CAN, USB, I2C, SPI, A/D, D/A, PWM, Hi-Drive GPIOs, LCD with Pushbuttons and SD Card Socket in addition to WiFi Wireless and Bluetooth.

Yocto
The Yocto Project is an open source collaboration project that provides templates, tools and methods to help you create custom Linux-based systems for embedded products regardless of the hardware architecture. It was founded in 2010 as a collaboration among many hardware manufacturers, open-source operating systems vendors, and electronics companies to bring some order to the chaos of embedded Linux development.
As an open source project, the Yocto Project operates with a hierarchical governance structure based on meritocracy and managed by its chief architect, Richard Purdie, a Linux Foundation fellow. This enables the project to remain independent of any one of its member organizations, who participate in various ways and provide resources to the project.
Why use the Yocto Project? It's a complete embedded Linux development environment with tools, metadata, and documentation - everything you need. The free tools are easy to get started with, powerful to work with (including emulation environments, debuggers, an Application Toolkit Generator, etc.) and they allow projects to be carried forward over time without causing you to lose optimizations and investments made during the project’s prototype phase. The Yocto Project fosters community adoption of this open source technology allowing its users to focus on their specific product features and development.
The Yocto Project provides resources and information catering to both new and experienced users, and includes core system component recipes provided by the OpenEmbedded project. The Yocto Project also provides pointers to example code built demonstrating its capabilities. These community-tested images include the Yocto Project kernel and cover several build profiles across multiple architectures including ARM, PPC, MIPS, x86, and x86-64. Specific platform support takes the form of Board Support Package (BSP) layers for which a standard format has been developed. The project also provides an Eclipse IDE plug-in and a graphical user interface to the build system called Hob.