ARM is offering two new processors -- the Cortex-R5 and Cortex-R7 -- which will help next-generation smartphones and tablets take better advantage of increasing mobile broadband speeds, the ...

Automotive technology is undergoing a transformation, with major innovations arriving every day, including new safety systems, increased connectivity and expanded availability of telematics ...

ARM today announced the launch of the ARM® Cortex™-R5 MPCore™ and the Cortex-R7 MPCore processors for use in 3G and 4G mobile baseband, mass storage, ...

CAMBRIDGE, U.K.--(BUSINESS WIRE)--ARM has delivered a comprehensive safety document set for the ARM ® Cortex ®-R5 processor to drive its adoption in safety-critical applications.This is a vital ...

The Cortex-R7 cores runs at 2.5 DMIPS/MHz making it almost twice as efficient as the Cortex-R5. The Cortex-R7 architecture (Fig. 3) does this using a deeper pipeline and some out-of-order execution.

ARM has added Cortex-R5 and Cortex-R7 to its range of processors for hard real-time embedded processing. They offer 750 and 1,250DMips respectively for baseband processing in phones, where they are ...

According to TI, with four high-performance Cortex-R5 cores running at 800 MHz, the high-end AM2434 can pump out more than 6,000 million instructions per second (DMIPS) of real-time computing power.

ARM on Tuesday announced the release of a new chip, called the Cortex-R5, that's designed for real-time embedded systems with critical safety needs, such as autonomous driving or surgical automation.

The Cortex-R52 is 35 percent faster than the previous generation Cortex-R5, which is already deployed in a range of safety applications.

In a move intended to boost adoption of the Cortex-R5 processor in safety critical applications, ARM has delivered a comprehensive safety document set that will allow semiconductor companies to ...

Safety Ready products include the Cortex-A72, Cortex-R5, Cortex-R52, Cortex A53, and Cortex M4, among others.

As a result, the Cortex-R5 processor is specifically intended for implementation in advanced silicon processes, emphasising improved energy efficiency, real-time responsiveness and ease of system ...