Dynamic resource scheduling method based on analysis technology and data flow information on heterogeneous many-cores

Abstract

The invention discloses a dynamic resource scheduling method based on an analysis technology and data flow information on heterogeneous many-cores, and relates to the field of heterogeneous many-core systems. The method comprises the following steps: analyzing a program, and determining the execution times of a parallelizable loop body; determining a data flow diagram of the loop body; setting a threshold value, and calculating the number of required GPUs; dividing the GPU task size according to dependence; distributing the tasks to different GPUs for operation according to the data streams of the tasks; and checking whether the platform is load-balanced. The invention mainly aims at providing a resource scheduling method based on information during program analysis and program data flow information aiming at the current situation that programmers need to set the number of GPUs and manually divide tasks on a heterogeneous platform. The execution times and the data dependence of the loop statements obtained through analysis are utilized, a threshold value is set to determine the number of the set GPUs, the thread granularity with data dependent task division is increased, tasks are distributed to each GPU for running by utilizing data flow information at the same time, and a work-stepping algorithm is actively detected and combined to solve the problem of platform load balancing, therefore, the dynamic resource scheduling method capable of automatically setting the number of GPUs, improving the utilization rate of GPU computing resources, actively detecting and realizing load balancing is realized.

Description

technical field [0001] The invention mainly relates to the field of heterogeneous many-core systems, in particular to a dynamic resource scheduling method based on analysis technology and data flow information on the heterogeneous many-core simulator MGPUSim. Background technique [0002] The many-core processor structure is an exploration of the development path of the micro-processing chip architecture with on-chip scalability reaching thousands of cores and computing power reaching trillions of operations. Its computing resource density is higher, the on-chip communication overhead is significantly reduced, it can achieve high scalability of chip structure and performance, and it can well deal with the problems of power consumption, line delay and design complexity of nanotechnology generation chip design. [0003] Graphics processing units (GPUs) have far surpassed general-purpose processors in terms of integration and computing-intensive problem processing capabilities,...

AI Technical Summary

Problems solved by technology

[0009] In the current resource scheduling scheme for heterogeneous platforms, programmers need to manually allocate the number of GPUs, and the task allocation part also needs to be manually divided by programmers. However, GPUs are suitable for data computing tasks that are highly uniform in type and independent of each other, so only This type

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