Screenshot of Windows 95, the first version of Windows in the 9x series | |
Developer | Microsoft |
---|---|
OS family | MS-DOS |
Working state | Discontinued |
Source model | Closed source |
Initial release | July 14, 1995; 29 years ago (1995-07-14) (as Windows 95) |
Final release | 4.90.3000 / June 19, 2000; 24 years ago (2000-06-19) (as Windows Me) |
Update method | Windows Update |
Platforms | IA-32 |
Kernel type | Monolithic (DOS) |
Userland | Windows API |
Influenced by | MS-DOS, OS/2, Windows 3.1 |
Default user interface | Windows shell (Graphical) |
License | Proprietary commercial software |
Preceded by | Windows 3.1 (1992-1993) |
Succeeded by | Windows XP (2001) |
Support status | |
Mainstream support for Windows 95 ended on December 31, 2000. Extended support ended on December 31, 2001. Mainstream support for Windows 98 ended on June 30, 2002. Mainstream support for Windows Me ended on December 31, 2003. Extended support for both 98 and Me ended on July 11, 2006. |
Windows 9x is a generic term referring to a line of discontinued Microsoft Windows operating systems from 1995 to 2000, which were based on the Windows 95 kernel and its underlying foundation of MS-DOS, both of which were updated in subsequent versions. The first version in the 9x series was Windows 95, which was succeeded by Windows 98 and then Windows Me, which was the third and last version of Windows on the 9x line, until the series was superseded by Windows XP.
Windows 9x is predominantly known for its use in home desktops. In 1998, Windows made up 82% of operating system market share.
The internal release number for versions of Windows 9x is 4.x. The internal versions for Windows 95, 98, and Me are 4.0, 4.1, and 4.9, respectively. Previous MS-DOS-based versions of Windows used version numbers of 3.2 or lower. Windows NT, which was aimed at professional users such as networks and businesses, used a similar but separate version number between 3.1 and 4.0. All versions of Windows from Windows XP onwards are based on the Windows NT codebase.
History
See also: Microsoft Windows version historyWindows prior to 95
The first independent version of Microsoft Windows, version 1.0, released on November 20, 1985, achieved little popularity. Its name was initially "Interface Manager", but Rowland Hanson, the head of marketing at Microsoft, convinced the company that the name Windows would be more appealing to consumers. Windows 1.0 was not a complete operating system, but rather an "operating environment" that extended MS-DOS. Consequently, it shared the inherent flaws and problems of MS-DOS.
The second installment of Microsoft Windows, version 2.0, was released on December 9, 1987, and used the real-mode memory model, which confined it to a maximum of 1 megabyte of memory. In such a configuration, it could run under another multitasking system like DESQview, which used the 286 Protected Mode.
Microsoft Windows scored a significant success with Windows 3.0, released in 1990. In addition to improved capabilities given to native applications, Windows also allowed users to better multitask older MS-DOS-based software compared to Windows/386, thanks to the introduction of virtual memory.
Microsoft developed Windows 3.1, which included several minor improvements to Windows 3.0, primarily consisting of bugfixes and multimedia support. It also excluded support for Real mode, and only ran on an Intel 80286 or better processor. Windows 3.1 was released on April 6, 1992. In November 1993 Microsoft also released Windows 3.11, a touch-up to Windows 3.1 which included all of the patches and updates that followed the release of Windows 3.1 in early 1992.
Meanwhile, Microsoft continued to develop Windows NT. The main architect of the system was Dave Cutler, one of the chief architects of VMS at Digital Equipment Corporation. Microsoft hired him in August 1988 to create a successor to OS/2, but Cutler created a completely new system instead based on his MICA project at Digital. The first version of Windows NT, Windows NT 3.1, would be released on July 27, 1993 and used Windows 3.1's interface.
About a year before the development of Windows 3.1's successor (Windows 95, code-named Chicago) began, Microsoft announced at its 1991 Professional Developers Conference that they would be developing a successor to Windows NT code-named Cairo, which has been implied by some to succeed both Windows NT and Windows 3.1's successor under one unified system. Microsoft publicly demonstrated Cairo at the 1993 Professional Developers Conference, complete with a demo system running Cairo for all attendees to use.
Based on the Windows NT kernel, Cairo was a next-generation operating system that was to feature as many new technologies into Windows, including a new user interface with an object-based file system (this new user interface would officially debut with Windows 95 nearly 4 years later while the object-based file system would later be adopted as WinFS during the development of Windows Vista). According to Microsoft's product plan at the time, Cairo was planned to be released as late as July 1996 following its development.
However, it had become apparent that Cairo was a much more difficult project than Microsoft had anticipated, and the project was subsequently cancelled 5 years into development. A subset of features from Cairo were eventually added into Windows NT 4.0 released on August 24, 1996, albeit without the object file system. Windows NT and Windows 9x would not be truly unified until Windows XP nearly 5 years later, when Microsoft began to merge its consumer and business line of Windows under a singular brand name based on Windows NT.
Windows 95
Main article: Windows 95After Windows 3.11, Microsoft began to develop a new consumer oriented version of the operating system code-named Chicago. Chicago was designed to have support for 32-bit preemptive multitasking, that of which was available in OS/2 and Windows NT, although a 16-bit kernel would remain for the sake of backward compatibility. The Win32 API first introduced with Windows NT was adopted as the standard 32-bit programming interface, with Win16 compatibility being preserved through a technique known as "thunking". A new GUI was not originally planned as part of the release, although elements of the Cairo user interface were borrowed and added as other aspects of the release (notably Plug and Play) slipped.
Microsoft did not change all of the Windows code to 32-bit; parts of it remained 16-bit (albeit not directly using real mode) for reasons of compatibility, performance and development time. Additionally it was necessary to carry over design decisions from earlier versions of Windows for reasons of backwards compatibility, even if these design decisions no longer matched a more modern computing environment. These factors immediately began to impact the operating system's efficiency and stability.
Microsoft marketing adopted Windows 95 as the product name for Chicago when it was released on August 24, 1995.
Microsoft went on to release five different versions of Windows 95:
- Windows 95 – original release (RTM)
- Windows 95 A – included Windows 95 OSR1 slipstreamed into the installation.
- Windows 95 B – (OSR2) included several major enhancements, Internet Explorer (IE) 3.0 and full FAT32 file system support.
- Windows 95 B USB – (OSR2.1) included basic USB support.
- Windows 95 C – (OSR2.5) included all the above features, plus IE 4.0. This was the last 95 version produced.
OSR2, OSR2.1, and OSR2.5 ("OSR" being an initialism for "OEM Service Release") were not released to the general public, rather, they were available only to OEMs that would preload the OS onto computers. Some companies sold new hard drives with OSR2 preinstalled (officially justifying this as needed due to the hard drive's capacity).
The first Microsoft Plus! add-on pack was sold for Windows 95.
Windows 98
Main article: Windows 98On June 25, 1998, Microsoft released Windows 98, code-named "Memphis" during development. It included new hardware drivers and better support for the FAT32 file system which allows support for disk partitions larger than the 2 GB maximum accepted by Windows 95. The USB support in Windows 98 was more robust than the basic support provided by the OEM editions of Windows 95. It also introduces the controversial integration of the Internet Explorer 4 web browser into the Windows shell and File Explorer (then known as Windows Explorer at the time).
On June 10, 1999, Microsoft released Windows 98 Second Edition (also known as Windows 98 SE), an interim release whose notable features were the addition of Internet Connection Sharing and improved WDM audio and modem support. Internet Connection Sharing is a form of network address translation, allowing several machines on a LAN (Local Area Network) to share a single Internet connection. It also includes Internet Explorer 5 as opposed to Internet Explorer 4 in the original version. Windows 98 Second Edition also has certain improvements over the original release, and hardware support through device drivers was increased. Many minor problems present in the original release of Windows 98 were also found and fixed. These changes, among others, makes it (according to many) the most stable release of Windows 9x family—to the extent that some commentators used to say that Windows 98's beta version was more stable than Windows 95's final (gamma) version.
Like with Windows 95, Windows 98 received the Microsoft Plus! add-on in the form of Plus! 98.
Windows Me
Main article: Windows MeOn September 14, 2000, Microsoft introduced Windows Me (Millennium Edition; also known as Windows ME), which upgraded Windows 98 with enhanced multimedia and Internet features. Code-named "Millennium", It was conceived as a quick one-year project that served as a stopgap release between Windows 98 and Windows XP (then code-named Whistler at the time). It borrowed some features from the business-oriented Windows 2000 into the Windows 9x series, and introduced the first version of System Restore, which allowed users to revert their system state to a previous "known-good" point in the case of a system failure. Windows Me also introduced the first release of Windows Movie Maker and included Windows Media Player 7. Internet Explorer 5.5 came shipped with Windows Me. Many of the new features from Windows Me were also available as updates for older Windows versions such as Windows 98 via Windows Update. The role of MS-DOS has also been greatly reduced compared to previous versions of Windows, with Windows Me no longer allowing real mode DOS to be accessed.
Windows Me initially gained a positive reception upon its release, but later on it was heavily criticized by users for its instability and unreliability, due to frequent freezes and crashes. Windows Me has been viewed by many as one of the worst operating systems of all time, both in critical and in retrospect. PC World was highly critical of Windows Me months after it was released (and indeed when it was no longer available), with their article infamously describing Windows Me as "Mistake Edition" and placing it 4th in their "Worst Tech Products of All Time" feature in 2006. Consequently, many home users that were affected by Windows Me's instabilities (as well as those who negatively viewed Windows Me) ultimately stuck with the more reliable Windows 98 Second Edition for the remainder of Windows Me's lifecycle until the release of Windows XP in 2001. A small number of Windows Me owners moved over to the business-oriented Windows 2000 Professional during that same time period.
The inability of users to easily boot into real mode MS-DOS like in Windows 95 and 98 led users to quickly figure out how to hack their Windows Me installations to provide this missing functionality back into the operating system.
Windows Me never received a dedicated Microsoft Plus! add-on like with Windows 95 and Windows 98.
Decline
The release of Windows 2000 marked a shift in the user experience between the Windows 9x series and the Windows NT series. Windows NT 4.0, while based on the Windows 95 interface, suffered from a lack of support for USB, Plug and Play and DirectX versions after 3.0, preventing its users from playing contemporary games. Windows 2000 on the other hand, while primarily made towards business and server users, featured an updated user interface and better support for both Plug and Play and USB, as well as including built-in support for DirectX 7.0. The release of Windows XP in late 2001 confirmed the change of direction for Microsoft, bringing the consumer and business operating systems together under Windows NT.
After the release of Windows XP, Microsoft stopped selling Windows 9x releases to end users (and later to OEMs) in the early 2000s. By March 2004, it was impossible to purchase any versions of the Windows 9x series.
End of support
Over time, support for the Windows 9x series ended. Windows 95 had lost its mainstream support in December 31, 2000, and extended support was dropped from Windows 95 on December 31, 2001 (which also ended support for older Windows versions prior to Windows 95 on that same day). Windows 98 and Windows 98 Second Edition had its mainstream support end on June 30, 2002, and mainstream support for Windows Me ended on December 31, 2003. Microsoft then continued to support the Windows 9x series until July 11, 2006, when extended support ended for Windows 98, Windows 98 Second Edition (SE), and Windows Millennium Edition (Me) – 4 years after extended support for Windows 95 ended on December 31, 2001.
Microsoft DirectX, a set of standard gaming APIs, stopped being updated on Windows 95 at version 8.0a. It also stopped being updated on Windows 98 and Me after the release of Windows Vista in 2006, making DirectX 9.0c the last version of DirectX to support these operating systems.
Support for Microsoft Internet Explorer on all Windows 9x releases have also ended. Windows 95, Windows 98 and Windows Me all lost security patches for Internet Explorer when the respective operating systems reached their end of support date. Internet Explorer 5.5 with Service Pack 2 is the last version of Internet Explorer compatible with Windows 95, while Internet Explorer 6 with Service Pack 1 is the last version compatible with latter releases of Windows 9x (i.e. 98 and Me). While Internet Explorer 6 for Windows XP did receive security patches up until it lost support, this is not the case for IE6 under Windows 98 and Me. Due to its age, Internet Explorer 7, the first major update to Internet Explorer 6 in half a decade, was only available for Windows XP SP2 and Windows Vista.
The Windows Update website continued to be available for Windows 98, Windows 98 SE, and Windows Me after their end of support date; however, during 2011, Microsoft retired the Windows Update v4 website and removed the updates for Windows 98, Windows 98 SE, and Windows Me from its servers.
Microsoft announced in July 2019 that the Microsoft Internet Games services on Windows Me (and XP) would end on July 31, 2019 (and for Windows 7 on January 22, 2020).
Current usage
The growing number of important updates caused by the end of life service for these operating systems have slowly made Windows 9x even less practical for everyday use. Today, even open source projects such as Mozilla Firefox will not run on Windows 9x without major rework.
RetroZilla is a fork of Gecko 1.8.1 aimed at bringing "improved compatibility on the modern web" for versions of Windows as old as Windows 95 and NT 4.0. The latest version, 2.2, was released in February 2019 and added support for TLS 1.2.
Design
Kernel
Main article: Architecture of Windows 9xWindows 9x is a series of monolithic 16/32-bit operating systems.
Like most operating systems, Windows 9x consists of kernel space and user space memory. Although Windows 9x features some memory protection, it does not protect the first megabyte of memory from userland applications for compatibility reasons. This area of memory contains code critical to the functioning of the operating system, and by writing into this area of memory an application can crash or freeze the operating system. This was a source of instability as faulty applications could accidentally write into this region, potentially corrupting important operating system memory, which usually resulted in some form of system error and halt.
User mode
The user-mode parts of Windows 9x consist of three subsystems: the Win16 subsystem, the Win32 subsystem and MS-DOS.
Windows 9x/Me set aside two blocks of 64 KiB memory regions for GDI and heap resources. By running multiple applications, applications with numerous GDI elements or by running applications over a long span of time, it could exhaust these memory areas. If free system resources dropped below 10%, Windows would become unstable and likely crash.
Kernel mode
The kernel mode parts consist of the Virtual Machine Manager (VMM), the Installable File System Manager (IFSHLP), the Configuration Manager, and in Windows 98 and later, the WDM Driver Manager (NTKERN).
As a 32-bit operating system, virtual memory space is 4 GiB, divided into a lower 2 GiB for applications and an upper 2 GiB for kernel per process.
Registry
Like Windows NT, Windows 9x stores user-specific and configuration-specific settings in a large information database called the Windows registry. Hardware-specific settings are also stored in the registry, and many device drivers use the registry to load configuration data. Previous versions of Windows used files such as AUTOEXEC.BAT
, CONFIG.SYS
, WIN.INI
, SYSTEM.INI
and other files with an .INI
extension to maintain configuration settings. As Windows became more complex and incorporated more features, .INI
files became too unwieldy for the limitations of the then-current FAT filesystem. Backwards-compatibility with .INI
files was maintained until Windows XP succeeded the 9x and NT lines.
Although Microsoft discourages using .INI files in favor of Registry entries, a large number of applications (particularly 16-bit Windows-based applications) still use .INI files. Windows 9x supports .INI files solely for compatibility with those applications and related tools (such as setup programs). The AUTOEXEC.BAT and CONFIG.SYS files also still exist for compatibility with real-mode system components and to allow users to change certain default system settings such as the PATH environment variable.
The registry consists of two files: User.dat and System.dat. In Windows Me, Classes.dat was added.
Virtual Machine Manager
The Virtual Machine Manager (VMM) is the 32-bit protected mode kernel at the core of Windows 9x. Its primary responsibility is to create, run, monitor and terminate virtual machines.
The VMM provides services that manage memory, processes, interrupts and protection faults. The VMM works with virtual devices (loadable kernel modules, which consist mostly of 32-bit ring 0 or kernel mode code, but may include other types of code, such as a 16-bit real mode initialisation segment) to allow those virtual devices to intercept interrupts and faults to control the access that an application has to hardware devices and installed software. Both the VMM and virtual device drivers run in a single, 32-bit, flat model address space at privilege level 0 (also called ring 0). The VMM provides multi-threaded, preemptive multitasking. It runs multiple applications simultaneously by sharing CPU (central processing unit) time between the threads in which the applications and virtual machines run.
The VMM is also responsible for creating MS-DOS environments for system processes and Windows applications that still need to run in MS-DOS mode. It is the replacement for WIN386.EXE in Windows 3.x, and the file vmm32.vxd is a compressed archive containing most of the core VxD, including VMM.vxd itself and ifsmgr.vxd (which facilitates file system access without the need to call the real mode file system code of the DOS kernel).
Software support
Unicode
Partial support for Unicode can be installed on Windows 9x through the Microsoft Layer for Unicode.
File systems
Windows 9x does not natively support NTFS or HPFS; however, there are third-party solutions available for Windows 9x that allows read-only access to NTFS volumes. Early versions of Windows 95 did not support FAT32.
Like Windows for Workgroups 3.11, Windows 9x provides support for 32-bit file access based on IFSHLP.SYS. Unlike Windows 3.x, Windows 9x has support for the VFAT file system, allowing file names with a maximum of 255 characters instead of having 8.3 filenames.
Event logging and tracing
Windows 9x has no support for event logging and tracing or error reporting that the Windows NT family of operating systems has, although software like Norton CrashGuard can be used to achieve similar capabilities on Windows 9x.
Security
Windows 9x is designed as a single-user system. Thus, the security model is much less effective than the one in Windows NT. One reason for this is the FAT file systems (including FAT12/FAT16/FAT32), which are the only ones that Windows 9x supports officially, though Windows NT also supports FAT12 and FAT16 (but not FAT32; which wouldn’t be supported until Windows 2000) and Windows 9x can be extended to read and write NTFS volumes using third-party Installable File System drivers. FAT systems have very limited security; every user that has access to a FAT drive also has access to all files on that drive. The FAT file systems provide no access control lists and file-system level encryption like NTFS.
Some operating systems that were available at the same time as Windows 9x are either multi-user or have multiple user accounts with different access privileges, which allows important system files (such as the kernel image) to be immutable under most user accounts. In contrast, while Windows 95 and later operating systems offer the option of having profiles for multiple users, they have no concept of access privileges, making them roughly equivalent to a single-user, single-account operating system; this means that all processes can modify all files on the system that aren't open, in addition to being able to modify the boot sector and perform other low-level hard drive modifications. This enables viruses and other clandestinely installed software to integrate themselves with the operating system in a way that is difficult for ordinary users to detect or undo. The profile support in the Windows 9x family is meant for convenience only; unless some registry keys are modified, the system can be accessed by pressing "Cancel" at login, even if all profiles have a password. Windows 95's default login dialog box also allows new user profiles to be created without having to log in first.
Users and software can render the operating system unable to function by deleting or overwriting important system files from the hard disk. Users and software are also free to change configuration files in such a way that the operating system is unable to boot or properly function. This phenomenon is not exclusive to Windows 9x; many other operating systems are also susceptible to these vulnerabilities, either by viruses, malware or by the user’s consent.
Installation software often replaced and deleted system files without properly checking if the file was still in use or of a newer version. This created a phenomenon often referred to as DLL hell. Windows Me introduced System File Protection and System Restore to handle common problems caused by this issue.
Network sharing
Windows 9x offers share-level access control security for file and printer sharing as well as user-level access control if a Windows NT-based operating system is available on the network. In contrast, Windows NT-based operating systems offer only user-level access control but integrated with the operating system's own user account security mechanism.
Hardware support
Drivers
Device drivers in Windows 9x can be virtual device drivers or (starting with Windows 98) WDM drivers. VxDs usually have the filename extension .vxd
or .386
, whereas WDM compatible drivers usually use the extension .sys
. The 32-bit VxD message server (msgsrv32) is a program that is able to load virtual device drivers (VxDs) at startup and then handle communication with the drivers. Additionally, the message server performs several background functions, including loading the Windows shell (such as Explorer.exe or Progman.exe).
Another type of device drivers are .DRV
drivers. These drivers are New Executable format and are loaded in user-mode, and are commonly used to control devices such as multimedia devices. To provide access to these devices, a dynamic link library is required (such as MMSYSTEM.DLL).
Windows 9x retains backwards compatibility with many drivers made for Windows 3.x and MS-DOS. Using MS-DOS drivers can limit performance and stability due to their use of conventional memory and need to run in real mode which requires the CPU to switch in and out of protected mode.
Drivers written for Windows 9x are loaded into the same address space as the kernel. This means that drivers can by accident or design overwrite critical sections of the operating system. Doing this can lead to system crashes, freezes and disk corruption. Faulty operating system drivers were a source of instability for the operating system. Other monolithic and hybrid kernels, like Linux and Windows NT, are also susceptible to malfunctioning drivers impeding the kernel's operation.
Often the software developers of drivers and applications had insufficient experience with creating programs for the 'new' system, thus causing many errors which have been generally described as "system errors" by users, even if the error is not caused by parts of Windows or DOS. Microsoft has repeatedly redesigned the Windows Driver architecture since the release of Windows 95 as a result.
CPU and bus technologies
Windows 9x has no native support for hyper-threading, Data Execution Prevention, symmetric multiprocessing, APIC, or multi-core processors.
Windows 9x has no native support for SATA host bus adapters (and neither do Windows 2000 nor Windows XP for that matter), or USB drives (except for Windows Me). There are, however, many SATA-I controllers for which Windows 98/Me drivers exist (and indeed Windows 2000 and Windows XP also provided SATA support via third-party drivers as well), and USB mass storage support has been added to Windows 95 OSR2 and Windows 98 through third party drivers. Hardware driver support for Windows 98/Me began to decline in 2005, most notably in motherboard chipsets and video cards.
Early versions of Windows 95 had no support for USB or AGP acceleration (including lack of Infrared support for Windows 95 RTM). Windows 95 had preliminary support for ATAPI CD-ROMs, however it had buggy ATAPI implementation. Windows 95 prior to OSR2 also had buggy support for processors implementing MMX as well as processors based on the P6 microarchitecture.
MS-DOS
Windows 95 was able to reduce the role of MS-DOS in Windows much further than had been done in Windows 3.1x and earlier. According to Microsoft developer Raymond Chen, MS-DOS served two purposes in Windows 95: as the boot loader, and as the 16-bit legacy device driver layer.
When Windows 95 started up, MS-DOS loaded, processed CONFIG.SYS, launched COMMAND.COM, ran AUTOEXEC.BAT and finally ran WIN.COM. The WIN.COM program used MS-DOS to load the virtual machine manager, read SYSTEM.INI, load the virtual device drivers, and then turn off any running copies of EMM386 and switch into protected mode. Once in protected mode, the virtual device drivers (VxDs) transferred all state information from MS-DOS to the 32-bit file system manager, and then shut off MS-DOS. These VxDs allow Windows 9x to interact with hardware resources directly, as providing low-level functionalities such as 32-bit disk access and memory management. All future file system operations would get routed to the 32-bit file system manager. In Windows Me, win.com was no longer executed during the startup process; instead it went directly to execute VMM32.VXD from IO.SYS.
The second role of MS-DOS (as the 16-bit legacy device driver layer) was as a backward compatibility tool for running DOS programs in Windows. Many MS-DOS programs and device drivers interacted with DOS in a low-level way, for example, by patching low-level BIOS interrupts such as int 13h, the low-level disk I/O interrupt. When a program issued an int 21h call to access MS-DOS, the call would go first to the 32-bit file system manager, which would attempt to detect this sort of patching. If it detects that the program has tried to hook into DOS, it will jump back into the 16-bit code to let the hook run. A 16-bit driver called IFSMGR.SYS would previously have been loaded by CONFIG.SYS, the job of which was to hook MS-DOS first before the other drivers and programs got a chance, then jump from 16-bit code back into 32-bit code, when the DOS program had finished, to let the 32-bit file system manager continue its work. According to Windows developer Raymond Chen, "MS-DOS was just an extremely elaborate decoy. Any 16-bit drivers and programs would patch or hook what they thought was the real MS-DOS, but which was in reality just a decoy. If the 32-bit file system manager detected that somebody bought the decoy, it told the decoy to quack."
MS-DOS Virtualization
Windows 9x can run MS-DOS applications within itself using a method called "Virtualization", where an application is run on a Virtual DOS machine.
MS-DOS Mode
Windows 95 and Windows 98 also offer backwards compatibility for DOS applications in the form of being able to boot into a native "DOS Mode" (MS-DOS can be booted without booting Windows, but not putting the CPU in protected mode). Through Windows 9x's memory managers and other post-DOS improvements, the overall system performance and functionality is improved. Some old applications or games may not run properly in the virtual DOS environment within Windows and require real DOS Mode.
Having a command line mode outside of the GUI also offers the ability to fix certain system errors without entering the GUI. For example, if a virus is active in GUI mode it can often be safely removed in DOS mode, by deleting its files, which are usually locked while infected in Windows. Similarly, corrupted registry files, system files or boot files can be restored from real mode DOS. Windows 95 and Windows 98 can be started from DOS Mode by typing 'WIN'
at the command prompt and then hitting "Enter", akin to earlier versions of Windows such as Windows 3.1.
User interface
See also: User interfaceUsers can control a Windows 9x-based system through a command-line interface (or CLI) or a graphical user interface (or GUI). The default mode for Windows is usually the graphical user interface, whereas the CLI is available through MS-DOS windows. The GUI provides a means to control the placement and appearance of individual application windows, and interacts with the window system.
The GDI, which is a part of the Win32 and Win16 subsystems, is also a module that is loaded in user mode, unlike Windows NT where the GDI is loaded in kernel mode. Alpha compositing and therefore transparency effects, such as fade effects in menus, are not supported by the GDI in Windows 9x, unlike with Windows NT releases since Windows 2000.
Windows Explorer is the default user interface for the GUI; however, a variety of additional Windows shell replacements exist. Other GUIs include LiteStep, bbLean and Program Manager.
In popular culture
The sheer popularity of the Windows 9x series led to several web-based projects being created in the 2010s that aimed to replicate the look and feel of Windows 9x (and indeed an actual operating system as a whole) on a single web browser.
Windows 93 (stylized as "WINDOWS93" in the title) is a web-based parody site created by two French musicians and programmers who go by the names of jankenpopp and Zombectro. Designed to look and feel like an actual operating system, It is also a parody of the Windows 9x series. It features several web applications which reference and features various internet memes from the late 1990s up to the early 2000s.
EmuOS is another web-based site that aims to replicate the look and feel of Windows 9x as a whole, featuring 3 themes based on all major Windows 9x releases starting from Windows 95 up to Windows Me. It was created by Emupedia, a video game preservation and computer history community-based site, and was designed to play retro games and applications within a web browser. The aforementioned Windows 93 parody site is also featured.
Windows 98 has been recreated in web-based format under the name 98.js (also known as Windows 98 Online). It featured web-based versions of several classic Windows applications.
See also
References
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External links
- Learning materials related to Windows 9x at Wikiversity
- Basic Computing Using Windows/Appendices/Dual Booting at Wikibooks
- Operating System Design/Case Studies/Windows 9x at Wikibooks
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