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Analyze the influencing factors of JVM memory allocation strategy and related memory parameters

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Analyze the influencing factors of JVM memory allocation strategy and related memory parameters

JVM memory parameter settings: To explore the influencing factors of JVM memory allocation strategy, specific code examples are needed

1. Introduction

JVM (Java Virtual Machine ), as the running environment for executing Java programs, plays a vital role in memory management. Properly configuring the memory parameters of the JVM can improve the performance and efficiency of the program. This article will explore the influencing factors of JVM memory parameter settings from the perspective of memory allocation strategy, and give specific code examples.

2. Introduction to memory allocation strategy

JVM memory is divided into two parts: heap and non-heap. Among them, heap memory mainly stores object instances, while non-heap memory stores metadata information and method areas of classes. The allocation strategies adopted by the JVM when allocating memory mainly include the following:

  1. Objects are allocated first in the Eden area. The memory is divided into multiple young generations and an old generation. The young generation is divided into an Eden area and two Survivor areas (usually a From area and a To area). Most of the newly created objects will be allocated to the Eden area. When the Eden area is full, Minor GC is triggered and the surviving objects are copied to the Survivor area.
  2. Large objects enter the old generation directly. If the size of an object exceeds the value set by the PretenureSizeThreshold parameter, the JVM will allocate it directly to the old generation to avoid multiple copies between the Eden area and the Survivor area.
  3. Long-term surviving objects enter the old generation. By setting the MaxTenuringThreshold parameter, you can control how many times an object passes through Minor GC in the Survivor area before it can be promoted to an object in the old generation.

3. Influencing factors and specific code examples

  1. Heap memory size (Xmx and Xms parameters)

The setting of heap memory size will Directly affects program performance and throughput. If the heap memory setting is too small, it will cause frequent GC and reduce the execution efficiency of the program; if the heap memory setting is too large, it may cause a waste of memory resources. It is generally recommended to set the Xmx and Xms parameters to the same value to avoid additional processing during GC.

Sample code:

java -Xmx512m -Xms512m MainClass
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  1. Young generation size (Xmn parameter)

The young generation size setting will affect the trigger frequency and execution of Minor GC efficiency. The size of the young generation is generally recommended to occupy 1/3 to 1/4 of the entire heap memory. A young generation that is too small will trigger frequent Minor GC, while a young generation that is too large may cause the execution time of each Minor GC to be too long.

Sample code:

java -Xmn256m MainClass
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  1. Survivor area ratio (SurvivorRatio parameter)

The Survivor area is the area where young generation surviving objects are stored. The SurvivorRatio parameter is used to set the ratio of the Eden area and the Survivor area. The default value is 8, that is, the size ratio of the Eden area and the Survivor area is 8:1. Properly setting the SurvivorRatio parameter can make the memory space ratio of the young generation more reasonable.

Sample code:

java -XX:SurvivorRatio=8 MainClass
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  1. Direct memory size (XX:MaxDirectMemorySize parameter)

Direct memory is called through Native when using the NIO library to operate allocated memory space. Direct memory that is too small may cause an OutOfMemoryError exception, while direct memory that is too large may cause a waste of memory resources.

Sample code:

java -XX:MaxDirectMemorySize=256m MainClass
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4. Summary

This article starts from the influencing factors of memory allocation strategy and gives a code example for JVM memory parameter setting. Properly configuring the memory parameters of the JVM can improve the performance and efficiency of the program. However, it should be noted that the configuration of JVM memory parameters needs to be adjusted according to specific application scenarios and hardware environments. There is no fixed optimal setting. Therefore, when setting JVM memory parameters, comprehensive consideration and experimental verification are required based on the actual situation in order to achieve the best performance.

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