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Java Virtual Machine: Memory Management, Garbage Collection, and Performance Analysis.

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Release: 2023-05-11 19:54:10
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The Java Virtual Machine (JVM) is the foundation of the Java program. It is responsible for managing the program's memory, executing code, and performing garbage collection. In this article, we will discuss JVM memory management, garbage collection, and performance analysis.

Memory Management
JVM has two types of memory: heap memory and non-heap memory. Heap memory is the memory allocated when a Java program is running, and is used to store all objects and arrays. Non-heap memory includes stack memory, method area and local memory. The stack memory is used to store method calls and local variables, the method area stores class information, and local memory is the memory that interacts with the underlying operating system.

The heap memory size of JVM can be adjusted by modifying the -Xmx and -Xms parameters. By default, the heap size is 1/4 of the physical memory size. These parameters can be passed as command line arguments when starting the JVM or dynamically adjusted in the application using Java Management Extensions (JMX). Using a large heap may improve program performance, but it also increases garbage collection overhead.

Garbage Collection
Java uses garbage collection (GC) to automatically reclaim objects and arrays that are no longer used. There are multiple garbage collectors in the JVM that use different algorithms and strategies to reclaim memory. By default, the JVM uses two collectors, Parallel GC and CMS GC.

Parallel GC uses the young generation and the old generation to manage memory. The young generation is an area where newly created objects are stored. If the young generation is full, a young generation garbage collection is triggered. The old generation is an area where long-lived objects are stored. If the old generation is full, Full GC will be triggered, which will suspend the running of the program and perform garbage collection on the entire heap memory.

CMS GC uses a concurrent garbage collection algorithm, which means that the program will not stop running due to garbage collection. It uses multiple threads to recycle memory in the young and old generations. Compared with Parallel GC, CMS GC does not waste too much CPU time on garbage collection. But CMS GC requires more memory to maintain the continuity of the old generation, so if the heap memory is not large enough, the performance of CMS GC will be affected.

Performance Analysis
JVM provides a variety of tools to analyze and diagnose program performance problems. One such tool is jstat, which displays information such as JVM memory, threads, and garbage collection. By using jstat, users can monitor the running status of the program in real time and help locate memory leaks and garbage collection issues.

Another tool is jconsole, which can display the memory usage, thread information and garbage collection of the process. jconsole can also remotely connect to the JVM process running on the remote machine, which makes program performance analysis and diagnosis more convenient.

In addition to the above tools, there are many other JVM performance analysis tools, such as VisualVM and Mission Control. These tools provide more advanced functions, such as CPU profiling and heap analysis, which can help users locate program performance problems and optimize program performance.

Summary
JVM is the foundation of Java programs. Correct memory management, garbage collection and performance analysis are crucial to the performance of the program. The setting of the heap memory size, the selection of the garbage collector and the use of performance analysis tools all have an important impact on the performance of the program. By understanding and mastering JVM's memory management, garbage collection, and performance analysis technologies, programmers can better optimize program performance and improve system stability and reliability.

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