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Design method for high efficiency super computing system based on task data flow drive

A technology of supercomputing system and design method, which is applied to digital computer components, computing, computers, etc., can solve problems such as low utilization rate, inability to obtain acceleration ratio, high energy consumption, etc., achieve efficiency improvement, improve queuing and wait, avoid unnecessary The effect of synchronization

Inactive Publication Date: 2010-02-24
THE PLA INFORMATION ENG UNIV
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Problems solved by technology

The common way to improve the computing power of a single processing node is to increase the clock frequency or increase the number of cores inside a single processor. Calculation speed is a problem, but it still cannot solve the problem of high computing efficiency
On the other hand, linear expansion of the number of processors cannot achieve a linear growth acceleration ratio. On the contrary, increasingly severe bottlenecks such as storage walls, scale walls, high energy consumption, high cost, and low utilization have restricted the development of high-performance computers.
[0004] It is difficult to improve the cost-effectiveness of the mechanism based on traditional command control data information flow. Can we get rid of this high-performance computer research and development idea and study a high-performance computing system to truly achieve high equivalent peak computing speed and high continuous processing speed? 1. The "double high and one low" high-efficiency computing system with low computing energy consumption is the main goal of the present invention

Method used

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  • Design method for high efficiency super computing system based on task data flow drive
  • Design method for high efficiency super computing system based on task data flow drive
  • Design method for high efficiency super computing system based on task data flow drive

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Embodiment Construction

[0032] see Figure 1 to Figure 7, the design method of a high-performance supercomputing system driven by task data flow uses a reconfigurable interconnection network to interconnect n processing units, memory arrays, and input / output interfaces, where n is a natural number greater than or equal to 1, and each function The components are reconfigurable and programmable according to the task data flow, so as to realize the coordinated operation of the whole system. The task data flow is stored in the instruction pool of the memory array in the form of instructions, and the processing unit takes out the required execution through the reconfigurable interconnection network. After the instructions are cached first, then type analysis and statistics are performed on them, and the processing unit is guided to perform structural reconstruction calculations according to the results of type analysis and statistics. When the operation resources and data corresponding to a task are availa...

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Abstract

The invention relates to a design method for high efficiency super computing system based on task data flow drive; the method uses reconfigurable internet to interconnect n processing units, memory array and input / output interfaces, each functional parts are reconfigurable and programmable according to task data flow, to realize coordination operation of the whole system, the task data flow is stored in instruction pool of the memory array in instruction mode, the processing unit may take out the instruction to be executed via the reconfigurable internet to store in a cache, then type analysisstatistics is executed, the processing unit executes the computation of structure reconstruction according to the result of the type analysis statistics; the invention provides a design method for high efficiency super computing system based on task data flow drive, the method may realize self-adaptive computation through the processing unit may configure programming, programmable internet, and other programmable software and hardware, so as to realize optimum performance of a computing system.

Description

(1) Technical field: [0001] The invention relates to a design method of a high-efficiency supercomputing system, in particular to a design method of a high-efficiency supercomputing system driven by task data flow. (two), background technology: [0002] At present, there are two main features of the top supercomputer: first, the information flow inside the computer is driven by instructions, and the order of instruction execution is determined by the instruction counter (PC); second, the application of the computer is mainly for numerical calculation and data processing. To make high-performance computers have super sustained and stable computing power and achieve a high cost-effectiveness ratio, that is, to make high-performance computers not only have unparalleled peak computing speed in cutting-edge scientific computing, but also have stable and efficient continuous computing performance. It is well known that using the instruction stream mechanism, it is difficult to ach...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F15/173G06F15/177G06F15/80
Inventor 李清宝赵荣彩徐冰曾光裕
Owner THE PLA INFORMATION ENG UNIV
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