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Drawer type high-density FPGA cloud platform case

A high-density, drawer-type technology, applied in the direction of data centers, support structure installation, servers, etc., can solve the problems of inaccessible data interaction, low flexibility, and increased costs, so as to reduce deployment and maintenance costs, The effect of convenient development environment and reduced wiring cost

Pending Publication Date: 2021-03-16
INST OF COMPUTING TECH CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This method will cause resource waste and cost increase for users who only need FPGA resources
[0005] Third, the existing FPGA node boards are managed and configured through the x86 server motherboard in the chassis. Users must first access the x86 server, and then start the relevant processes in the x86 server to manage and configure the FPGA node boards accordingly. configuration, less flexible
[0009] Data interaction between FPGA node boards inside the chassis cannot be directly performed

Method used

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  • Drawer type high-density FPGA cloud platform case
  • Drawer type high-density FPGA cloud platform case
  • Drawer type high-density FPGA cloud platform case

Examples

Experimental program
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Embodiment Construction

[0030] The present invention aims at the shortcomings of the existing cloud platform architecture, effectively reducing the cost of deployment and maintenance of the FPGA cloud platform chassis 1; using a stacked layout and a double-drawer structure can greatly improve the deployment of FPGA node boards 8 in a limited chassis space Density; through the control management system designed in "A Cloud Platform Computing System and Its Application Method" (Application No. 201810532745.0) and "A Method, Device and System for Realizing FPGA Server" (Application No. 202010019013.9), more efficient Manage and configure FPGA node boards to provide users with a convenient, fast, and cheaper environment for using FPGA resources.

[0031] The technical difficulty of the present invention lies in how to realize the deployment of high-density FPGA nodes in the limited cloud platform chassis space, and how to effectively manage, configure and use the high-density FPGA nodes in the chassis. S...

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Abstract

The invention provides a drawer type high-density FPGA cloud platform case. The drawer type high-density FPGA cloud platform case comprises an exchange module located at the bottom of the case, a power supply module located on the exchange module and a drawer structure located on the power supply module. A control board card and an FPGA node board card are arranged in the drawer structure, and theFPGA node board card is inserted into the control board card through a preset interface; the power transmission end of the power supply module is electrically connected with the switching module andthe power input interface of the control board card, and the network switching interface of the switching module is connected with the network interface of the FPGA node board card and used for interacting data between the FPGA node board cards. The deployable density of the FPGA node board cards in the FPGA cloud platform case is greatly improved. And the wiring cost, the assembly and disassemblycomplexity and the maintenance difficulty in the case are reduced. A comprehensive and convenient development environment is provided for a user by using an independently researched and developed control management system. And the states of the case and the board card are monitored in real time, and the number of manual wiring is reduced through a preset interface, so that the reliability of theFPGA cloud platform case is improved.

Description

technical field [0001] The invention relates to the field of computer architecture and FPGA (Field Programmable Gate Array) heterogeneous acceleration, in particular to a cloud platform server based on a programmable gate array. Background technique [0002] In recent years, due to its advantages of high energy efficiency, parallel computing and multiple programming, FPGA has gradually become one of the application solutions considered in various fields of computer, especially in the fields of media compression, encryption and decryption, AI, big data processing, etc., FPGA solutions are more traditional CPU and GPU can often achieve several times or even dozens of times of energy efficiency improvement. Due to this trend, the FPGA cloud platform came into being. [0003] The FPGA chassis is to the FPGA cloud platform, just like the commercial standard x86 chassis is to the cloud computing platform. As the core hardware component of the FPGA cloud platform, the FPGA chassi...

Claims

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Application Information

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IPC IPC(8): H05K7/14
CPCH05K7/1487H05K7/1489H05K7/1491
Inventor 张科于磊王亚洲常轶松赵然陈明宇
Owner INST OF COMPUTING TECH CHINESE ACAD OF SCI
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