The first thing to appreciate is that your question contains a mistaken assumption. You ask about "the complete build process from source code to hardware specific binaries" - but the normal Java build process never produces architecture-specific binaries. It gets as far as architecture-independent bytecode, then stops. It's certainly true that in most cases, that bytecode will be translated into native code to be executed, but that step happens at runtime, inside the JVM, entirely in memory, and does not involve the production of binary files - it is not part of the build process.
There are exceptions to this - compilers such as GCJ can produce native binaries, but that is rarely done.
So, the only substantial step that occurs as part of a build process is compilation. The compiler reads in source code, does the usual parsing and resolution steps, and emits bytecode. That process is not in any way specified; as is usual, the language specification defines what the elements of the language are, and what they mean, but not how to compile them. What is specified in the format of the output: the bytecode is packaged in the form of class files, one per class, which in turn may be grouped together in jar files for ease of distribution.
When the class files come to be executed, there are then further steps needed before execution is possible. These are quite well-specified in the chapter on loading, linking, and initializing in the JVM specification. But, as i said, these are not really part of the build process.
There are a few other steps that may occur in a build process, usually prior to compilation: dependencies might be resolved and downloaded, resources might be copied and converted between character sets, and code might be generated. But none of this is standard, it's all stuff that's added on to the core process of compilation by various build tools.