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The Camera Serial Interface (CSI) is a specification of the Mobile Industry Processor Interface (MIPI) Alliance. It defines an interface between a camera and a host processor. The latest active interface specifications are CSI-2 v4.1 (April 2024), CSI-3 v1.1 (March 2014) and CCS v1.1.1 (April 2023).
MIPI Alliance Debug Architecture provides a standardized infrastructure for debugging deeply embedded systems in the mobile and mobile-influenced space. The MIPI Alliance MIPI Debug Working Group has released a portfolio of specifications; their objective is to provide standard debug protocols and standard interfaces from a system on a chip (SoC) to the debug tool.
Display Serial Interface connector on Raspberry Pi single-board computer. The Display Serial Interface (DSI) is a specification by the Mobile Industry Processor Interface (MIPI) Alliance aimed at reducing the cost of display controllers in a mobile device. It is commonly targeted at LCD and similar display technologies.
M-PHY is a high speed data communications physical layer protocol standard developed by the MIPI Alliance, PHY Working group, and targeted at the needs of mobile multimedia devices. [1] The specification's details are proprietary to MIPI member organizations, but a substantial body of knowledge can be assembled from open sources.
MIPI specifications provide interface solutions for mobile handsets. As the traditional mobile ecosystem has expanded to include tablets and laptops, MIPI Alliance's specifications are implemented beyond mobile phones including: tablets, PCs, cameras, industrial electronics, Machine to Machine (IoT), augmented reality, automotive, and medical ...
The Display pixel interface (DPI) is the interface defined by the Mobile Industry Processor Interface (MIPI), [1] which is used for Active-Matrix LCD displays for handheld devices. It is intended for the display modules in the mobile devices.
The initiative to develop the UniPro protocol came forth out of a pair of research projects at respectively Nokia Research Center [1] and Philips Research. [2] Both teams independently arrived at the conclusion that the complexity of mobile systems could be reduced by splitting the system design into well-defined functional modules interconnected by a network.
The System Power Management Interface (SPMI) [1] is a high-speed, low-latency, bi-directional, two-wire serial bus suitable for real-time control of voltage and frequency scaled multi-core application processors and its power management of auxiliary components.