sliceKIT consists of a core board powered by a 16-core xCORE multicore microcontroller and equipped with four expansion slots that can be populated with I/O extension cards (or ‘slices’). XMOS offers a wide range of standard slices, such as Ethernet, UART, ADC, LCD graphics and digital audio, allowing designers to rapidly develop, prototype and debug their designs.
sliceKIT is closely integrated with the company’s recently announced xTIMEcompose Studio integrated design environment, and xSOFTip soft peripherals that are downloaded to the xCore devices to provide flexible interfaces. The xCORE family and associated design tools allow developers to work on real-time embedded applications using a unified design flow that is familiar to any software engineer. xCORE devices are configured with xSOFTip IP blocks and programmed in C, with real-time extensions, via the same flow.
“sliceKIT provides a platform for embedded designs that is very flexible,” said Nigel Toon, CEO, XMOS. “Our xCORE devices can be configured to support a range of interfaces and peripherals; you can add capabilities that you won't find in other microcontrollers. With XMOS you can put down the interfaces you need to match your exact requirements – sliceKIT provides a hardware development platform that matches your system requirement.”
Based on the 32-bit xCORE L2 multicore microcontroller, the sliceKIT core board delivers up to 1000 MIPS performance that can be dynamically shared across up to 16 cores. This allows the device to support multiple, concurrent, real-time tasks that are completely deterministic. sliceKIT incorporates unique on-board real-time debugging capabilities that allow designers to perform timing-accurate analysis on the performance of their application code.
Each sliceKIT I/O slice is supplied complete with a demo application, so that engineers can get their hardware configuration up and running quickly and easily. Slices connect to the processor board using low-cost PCIe style connectors, making it a straightforward task for users to interchange and experiment with hardware configurations. XMOS is also encouraging designers to build