High resolution digital cameras are becoming more and more popular in many modern industrial and commercial fields. The assembly line can use cameras to control robots and machinery, and inspect complex products such as semiconductor chips, automobiles and medicinal materials; the retail industry can use cameras to monitor entrances and collect intelligent data. As camera production technology, product complexity and resolution increase, so does the demand for these applications. Machine vision solutions need to run complex image processing algorithms on increasingly large data while meeting stringent real-time processing constraints. Freescale's high-performance multicore DSP processors solve the challenges of machine vision and smart camera image processing with its industry-leading DSP core, high-bandwidth I/O options and scalable solution options. Recommended solution Digital signal processor (DSP) MSC8256: High Performance Six-Core DSP The industry's highest performing, StarCore-based DSP core is designed to support the advanced processing requirements and capabilities of today's high performance industrial applications in the medical imaging, aerospace defense, and advanced test and measurement markets. It delivers industry-leading performance and power savings with 45 nm process technology in a highly integrated system-on-chip (SoC) that delivers the same performance as a 6 GHz single-core device. The MSC8256 helps device manufacturers create end products and services that integrate more functionality into smaller hardware. The MSC8256 DSP combines high performance and integration with six fully programmable enhanced SC3850 cores running at up to 1 GHz per core. According to an independent evaluation, the SC3850 DSP core has 40% higher processing power per MHz than the nearest DSP competitor. The high-performance internal RISC-based QUICC Engine subsystem supports multiple networking protocols to ensure reliable data transfer over packet networks while dramatically reducing the processing load on the DSP core. MSC8256 block diagram 2. Processor (MPU) P1010: QorIQ P1010/14 Low Power Communication Processor with Trusted Architecture The P1010 and P1014 communications processors enable QorIQ performance for cost and power sensitive applications. The processor features 45nm low-power technology, operates at up to 800MHz, and consumes as little as 1.1W. It has powerful integration capabilities and a rich interface for cost-sensitive endpoint applications such as NAS and DVR. , SOHO routers and networked factory automation. The P1010 processor features a trusted architecture platform with advanced end-to-end code signing and intrusion prevention to help prevent software intrusions and software cloning attacks. The P1010 processor also integrates multiple FlexCAN controllers to configure industrial protocols in a variety of factory automation systems. QorIQ P1010/14 low-power communication processor block diagram Details: P1010: QorIQ P1010/14 Low Power Communication Processor with Trusted Architecture 3. Motor driver 4. Power Management Tattoo Bed,Hydraulic Tattoo Bed,Tattoo Massage Table,Portable Tattoo Bed TOM SPA BEAUTY SALON EQUIPMENT CO.,LTD , https://www.tomspabeauty.com
Machine vision and smart camera hair program block diagram 
