On August 1, 2012, Windows 8 (build 9200[41]) was released to manufacturing with the build number 6.2.9200.16384.[42] Microsoft planned to hold a launch event on October 25, 2012[43] and release Windows 8 for general availability on the next day.[44] However, only a day after its release to manufacturing, a copy of the final version of Windows 8 Enterprise N (a variant for European markets which lacks bundled media players to comply with an antitrust ruling) leaked online, followed by leaks of the final versions of Windows 8 Pro and Enterprise a few days later.[45][46] On August 15, 2012, Windows 8 was made available to download for MSDN and TechNet subscribers.[47] Windows 8 was made available to Software Assurance customers on August 16, 2012.[48] Windows 8 was made available for students with a DreamSpark Premium subscription on August 22, 2012, earlier than advertised.[49] Windows 8 became generally available for download to all MSDN and TechNet customers on August 15 and for retail purchase on October 26, 2012.

Windows 8 build 8888 (win8_gdr_soc_intel) is an RTM candidate build of Windows 8, which was compiled less than one day before the RTM build. It was rejected in favor of 9200 due to the build number not being divisible by 16, a requirement that was only removed with the Windows 10 November Update.

Key Windows 8 Single Language Build 9200 64 19

The x86 compile of this build was shared by KiTTY as a "Christmas present" on 24 December 2014. It is not much different from the retail version of 9200, other than the fact that it does not include any Modern apps apart from the Store and Internet Explorer. On 19 October 2018, the checked/debug x86 and x64 compiles of this build were shared.

The heart of the MULTI IDE is a source-level debugger that supports process- and system-level debug. The debugger provides a separate window for each process, supports mixed assembly and high-level language formats, and includes a language-sensitive expression evaluator. The MULTI 2000 debugger is also fully RTOS aware, which enables designers to debug and tune their applications at the task level. With the MULTI debugger, designers working with popular RTOSes like INTEGRITY(TM) and ThreadX(R) can start and stop tasks and monitor OS resources like buffers, queues, and streams. Programmers can set application breakpoints in either the Rational Rose RealTime UML model or generated C/C++ source code (within MULTI). These breakpoints facilitate synchronized debugging between Rational Rose RealTime and MULTI. When a breakpoint is encountered during execution, the application stops running on the target system. Programmers can then single-step the application from within the model view or source code view, synchronized through MULTI. 2ff7e9595c