On-chip system bus with anisochronous transmission structure

A system-on-chip and bus technology, applied in instruments, electrical digital data processing, etc., can solve the problem that priority equipment cannot obtain the right to use the bus, and achieve the effect of reducing resource consumption, small hardware overhead, and ensuring real-time performance

Active Publication Date: 2015-11-18
北京中科昊芯科技有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

If there is no proper way, when the higher priority device continuously sends bus requests, the lower priority device will not get the right to use the bus for a long time

Method used

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  • On-chip system bus with anisochronous transmission structure
  • On-chip system bus with anisochronous transmission structure
  • On-chip system bus with anisochronous transmission structure

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Embodiment Construction

[0031] The invention provides a system-on-chip bus, which includes a request priority queue, an arbiter group, an address and control signal selector, an interconnection network, and an address decoder; a master device sends a bus request signal to the address decoder, and sends a corresponding The address signal and control signal are sent to the address and control signal selector; the address decoder sends an immediate application vector to the arbitrator group and the request priority queue according to the bus request signal; the request priority queue latches the application signal to generate a chip select signal , and send the chip select signal to the Internet, and at the same time, give the application vector of each slave device group according to the first-in-first-out principle, and the queue empty directly selects the result of the address decoder as the application signal of the current cycle and sends it to the arbitrator group ; The arbitrator group sends an ar...

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Abstract

The invention discloses an on-chip system bus, comprising a request priority queue, an arbiter group, an address and control signal selector, an internet and an address decoder. A primary device transmits a bus request signal to the address decoder; the address decoder transmits an application signal to the request priority queue according to the bus request signal; the request priority queue latches the application signal and generates a chip selection signal, and transmits the chip selection signal to the internet, and transmits the application signal to the arbiter group at the same time; the arbiter group transmits an arbitration result signal to the internet; the internet selects data and a handshake signal from the primary device to slave device according to the arbitration result signal, and the internet controls the data and the handshake signal from the primary device to slave device according to the chip selection signal. The on-chip system bus of the invention has different transmission time among different primary devices and slave devices on a large-area chip to achieve high-speed, parallel and real-time communication among devices.

Description

technical field [0001] The invention belongs to the field of on-chip communication, in particular to an on-chip system bus with non-isochronous transmission structure. Background technique [0002] With the development of integrated circuit technology, the SoC requires more processor cores, coprocessor cores and more on-chip peripherals. Moreover, the rapid development of technologies such as multimedia and communication requires a high-speed, parallel, and real-time communication mode between devices on the chip. [0003] In order to pursue a higher transmission rate, the frequency of the system bus is constantly increasing, but because of more functional requirements such as multi-core and multi-peripheral hardware, even with the support of more sophisticated technology, the area of ​​the chip is also constantly expanding, which leads to Discrepancy between on-chip device transfer time and bus frequency. When the various bus systems currently exist are used in high-frequ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F13/38G06F13/40
CPCG06F13/385G06F13/4031G06F13/404
Inventor 王东琳李任伟周沈刚
Owner 北京中科昊芯科技有限公司
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