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Multidirectional feedback frequency conversion system suitable for super computer

A supercomputer and frequency conversion system technology, applied in the field of computer security, can solve problems such as data loss, energy waste, and the system's inability to feedback temperature and humidity information in time

Inactive Publication Date: 2021-03-26
上海众新信息科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In view of the above situation, in order to overcome the defects of the prior art, the present invention provides a multi-directional feedback frequency conversion system suitable for supercomputers, which effectively solves the problem of the large number of arithmetic units, controllers and memories carried by supercomputers, and the need for For heat dissipation, the existing heat dissipation generally considers cooling the exterior of the supercomputer, that is, the casing, but the system equipped with the heat dissipation cannot timely feedback temperature and humidity information, which is likely to cause waste of energy, and when the supercomputer performs big data calculations, the circuit The temperature carried is also very high. In the case of constant current and voltage, it is easy to cause overload, which will lead to system crash and data loss.

Method used

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  • Multidirectional feedback frequency conversion system suitable for super computer
  • Multidirectional feedback frequency conversion system suitable for super computer
  • Multidirectional feedback frequency conversion system suitable for super computer

Examples

Experimental program
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Embodiment 1

[0024] Embodiment one, by figure 1 Given, the present invention is a multi-directional feedback frequency conversion system suitable for supercomputers, including an external acquisition module 1 and a line acquisition module 11, the electrical output of the external acquisition module 1 is connected to a data analysis module 2, and the electrical output of the data analysis module 2 Connected to the central controller 8, the electrical output of the line acquisition module 11 is connected to the data fuzzy processing module 12, the electrical output of the data fuzzy processing module 12 is connected to the fuzzy processor 13, and the electrical output of the fuzzy processor 13 is connected to the clear processing module 14 , the electrical output of the clear processing module 14 is connected to the unit matching module 15 , the electrical output of the unit matching module 15 is connected to the central controller 8 , and the electrical output of the central controller 8 is ...

Embodiment 2

[0025] Embodiment two, on the basis of embodiment one, by figure 1 Given, the electrical output of the central controller 8 is connected to the cooling regulation module 3 , and the cooling regulation module 3 is connected to the electrical output of the external acquisition module 1 .

[0026] The electrical output of the central controller 8 is connected to the design of the cooling control module 3, which can control the cooling control module 3 to cool the outside of the supercomputer to maintain the temperature balance outside the supercomputer. The cooling control module 3 is connected to the electrical output of the external acquisition module 1 The design can carry out timely data collection and feedback after cooling regulation, so as to form a closed loop of external temperature control.

Embodiment 3

[0027] Embodiment three, on the basis of embodiment one, by figure 1 Given, the electrical output of the pulse distributor 7 is connected to the variable speed frequency modulation inverter 6 , the variable speed frequency modulation inverter 6 is electrically connected to the squirrel cage motor 5 bidirectionally, and the squirrel cage motor 5 is bidirectionally electrically connected to the coordination controller 4 .

[0028] The electrical output of the pulse distributor 7 is connected to the variable-speed frequency-modulation inverter 6, which is designed to facilitate the control of the variable-speed frequency-regulation inverter 6. The three-phase power-frequency alternating current is converted into direct current, and the motor is filtered into a DC voltage. The variable-speed frequency modulation inverter 6. The squirrel-cage motor 5 is electrically connected bidirectionally, and the squirrel-cage motor 5 is electrically connected bidirectionally with a coordination...

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Abstract

The invention relates to the technical field of computer security, and discloses a multidirectional feedback frequency conversion system suitable for a super computer. The multidirectional feedback frequency conversion system suitable for the super computer comprises an external acquisition module and a line acquisition module, the external acquisition module is in electrical output connection with a data analysis module, the data analysis module is in electrical output connection with a central controller, and the line acquisition module is in electrical output connection with a data fuzzy processing module. The closed loop of external temperature control effectively ensures that the external temperature and humidity are always kept in a proper range when the super computer runs, avoids the influence of the temperature and humidity on the running of the super computer or damage to the super computer, and can realize variable-frequency circulation of current and voltage; therefore, proper current and voltage can be kept when the super computer is used, and system crash and data loss caused by overload of the super computer due to overlarge current and voltage are avoided.

Description

technical field [0001] The invention belongs to the technical field of computer safety, in particular to a multi-directional feedback frequency conversion system suitable for supercomputers. Background technique [0002] A supercomputer is a computer that can perform large amounts of data and high-speed calculations that ordinary personal computers cannot handle. The components of supercomputers and ordinary computers are basically the same, mainly composed of arithmetic units, controllers, memory, input devices and output devices, but there are differences in performance and scale. The main characteristics of supercomputers include two aspects: huge data storage capacity and extremely fast data processing speed, so it can perform work in various fields that people or ordinary computers cannot do, and is mostly used in national high-tech fields and cutting-edge technologies Research. [0003] Supercomputers are equipped with a large number of computing units, controllers, ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05D27/02G06F1/20H02M7/66H02P27/06
CPCG05D27/02G06F1/206H02M7/66H02P27/06
Inventor 包建东钟岗刘杨李兴中邹永平
Owner 上海众新信息科技有限公司