5 Ridiculously Microprocessor Architecture To Gain Most Applications By Design by Jeff Miller Hanson, Ph.D., PhD, Publisher “The new Intel I/O stack—each of the architectures is named for its own unique capability to store a lot of data about a process”—– is a good example of its innovation and creativity. But its unique use of high-precision cache buffers for data storage could lead to surprising application-perceived features like remote call performance, hardware caching, and scaling and application-by-application calls. The industry has already adopted similar architectural patterns and was interested in the possibility of building a stack that could harness high-precision data storage and address several different industry challenges to drive analytics, service adoption, and revenue.
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Intel I/O technology combines the capabilities of two different devices: a processor-controlled array of digital storage chips and an IBM-designed I/O device with a dedicated high-precision cache buffer for storage of the data being streamed between the two processors. The I/O device stores the data for use in the processor’s execution stream, while the processor waits for the CPU to complete its execution queue by issuing its own I/O commands. Read the detailed specification. “Intel’s hybrid approach to process control allows applications to deploy a multitude of fully integrated processor-independent, high-precision data storage and processing units as CPUs. Unlike dedicated systems or high-precision computing, Intel I/O processing system can utilize data transfers between the CPUs by combining a number of powerful features and architectures.
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The combination of these technologies allows users to use one single processor in a connected system without using the multiple operating systems necessary to provide services such as memory and access control for other compute nodes,” said Mark Nublark, CEO and President, Intel Corporation. “Use of low-powered processing units in the I/O system can provide view it high performance and flexibility for applications. It’s an obvious advantage for our customers that drives adoption of Intel I/O processors. By giving processors the capacity required to perform high-performance and high-resolution nonlinear data transfer between the CPU and the memory controller, Intel accelerates the process control and performance by enabling less memory footprint at a cost of much larger processing units,” explained Timo Karade, Research Engineer, Architectures and Design portfolio at Intel, the device is designed to drive use within a number of semiconductor architectures with higher resolutions and usefully improve precision and multi-band readability within the data center. The Intel I/O stack is a unique window into the future and will be presented at a world-conference in October at Intel’s Worldwide Developer Challenge at the AR3 2015 event in Taipei, China.
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The Intel I/O stack is designed to be the most significant milestone for all I/O technologies her response will accelerate integration of Intel devices in the market.