Mike Rayfi el d, general manager of NVIDIA's mobile business unit, said: "Today's consumers want portable computing devices tailored to their specific needs while providing the same lively and fascinating experience as desktop PCs. And ultra-low-power NVIDIA Tegra is the world's smallest, full-HD on-chip computer, and it is also a manufacturer of portable devices that want to design a feature-rich, compact form factor for a new generation of consumers who have been connected to the Internet. The ideal choice."
ARM CEO Warren East said: "Today, the release of NVIDIA Tegra based on ARM processor technology is a testament to our long-term and fruitful relationship with NVIDIA. NVIDIA is the first to license the use of ARM11MPCore multi-core processor technology. One of the partners. The release of NVIDIA Tegra marks an important step in the drive to revolutionize the next generation of computing, driven by ultra-low-power, ultra-portable mobile Internet devices, and ARM itself. I am very proud to be at the core of this technology that changes the rules of the future game."
ARM claims that MPCore multi-core processor technology is designed to push flexibility, performance, power efficiency and functionality to an unprecedented level, especially for smartphones and MID applications.
The ARM11 MPCore multi-core processor can be freely configured from single core to quad core depending on the needs of the specific application. The unique scalability of the ARM11MPCore processor gives device OEMs the level of performance best suited for their application, while allowing each processor to enter a standby, sleep or shutdown energy management mode to help control the processor. Dynamic and static energy consumed.
Displacement sensor, also known as linear sensor, is a linear device belonging to metal induction. The function of the sensor is to convert various measured physical quantities into electricity. In the production process, the measurement of displacement is generally divided into measuring the physical size and mechanical displacement. According to the different forms of the measured variable, the displacement sensor can be divided into two types: analog and digital. The analog type can be divided into two types: physical property type and structural type. Commonly used displacement sensors are mostly analog structures, including potentiometer-type displacement sensors, inductive displacement sensors, self-aligning machines, capacitive displacement sensors, eddy current displacement sensors, Hall-type displacement sensors, etc. An important advantage of the digital displacement sensor is that it is convenient to send the signal directly into the computer system. This kind of sensor is developing rapidly, and its application is increasingly widespread.
Magnetic Scale Sensor,Magnetic Length Scale,Magnetic Scale Device,Magnetic Scale Measurements
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