Game engine

Game engine

A game engine is a system designed for the creation and development of video games. There are many game engines that are designed to work on video game consoles and personal computers. The core functionality typically provided by a game engine includes a rendering engine (“renderer”) for 2D or 3D graphics, a physics engine or collision detection (and collision response), sound, scripting, animation, artificial intelligence, networking, streaming, memory management, threading, localization support, and a scene graph. The process of game development is often economized, in large part, by reusing/adapting the same game engine to create different games.[1]

Contents

Purpose

Game engines provide a suite of visual development tools in addition to reusable software components. These tools are generally provided in an integrated development environment to enable simplified, rapid development of games in a data-driven manner. Game engine developers attempt to "pre-invent the wheel" by developing robust software suites which include many elements a game developer may need to build a game. Most game engine suites provide facilities that ease development, such as graphics, sound, physics and AI functions. These game engines are sometimes called "middleware" because, as with the business sense of the term, they provide a flexible and reusable software platform which provides all the core functionality needed, right out of the box, to develop a game application while reducing costs, complexities, and time-to-market—all critical factors in the highly competitive video game industry.[2] Gamebryo and RenderWare are such widely used middleware programs.[3]

Like other middleware solutions, game engines usually provide platform abstraction, allowing the same game to be run on various platforms including game consoles and personal computers with few, if any, changes made to the game source code. Often, game engines are designed with a component-based architecture that allows specific systems in the engine to be replaced or extended with more specialized (and often more expensive) game middleware components such as Havok for physics, Miles Sound System for sound, or Bink for Video. Some game engines such as RenderWare are even designed as a series of loosely connected game middleware components that can be selectively combined to create a custom engine, instead of the more common approach of extending or customizing a flexible integrated solution. However extensibility is achieved, it remains a high priority in games engines due to the wide variety of uses for which they are applied. Despite the specificity of the name, game engines are often used for other kinds of interactive applications with real-time graphical needs such as marketing demos, architectural visualizations, training simulations, and modeling environments.[4]

Some game engines only provide real-time 3D rendering capabilities instead of the wide range of functionality needed by games. These engines rely upon the game developer to implement the rest of this functionality or assemble it from other game middleware components. These types of engines are generally referred to as a "graphics engine," "rendering engine," or "3D engine" instead of the more encompassing term "game engine." This terminology is inconsistently used as many full-featured 3D game engines are referred to simply as "3D engines." A few examples of graphics engines are: Crystal Space, Genesis3D, Irrlicht, JMonkey Engine, OGRE, RealmForge, Truevision3D, and Vision Engine. Modern game or graphics engines generally provide a scene graph, which is an object-oriented representation of the 3D game world which often simplifies game design and can be used for more efficient rendering of vast virtual worlds.

Hardware abstraction

Most often, 3D engines or the rendering systems in game engines are built upon a graphics application programming interface (API) such as Direct3D or OpenGL which provides a software abstraction of the graphics processing unit (GPU) or video card. Low-level libraries such as DirectX, Simple DirectMedia Layer (SDL), and OpenAL are also commonly used in games as they provide hardware-independent access to other computer hardware such as input devices (mouse, keyboard, and joystick), network cards, and sound cards. Before hardware-accelerated 3D graphics, software renderers had been used. Software rendering is still used in some modeling tools or for still-rendered images when visual accuracy is valued over real-time performance (frames-per-second) or when the computer hardware does not meet needs such as shader support.

With the advent of hardware accelerated physics processing, various physics API such as PAL and the physics extensions of COLLADA (an interchange format for 3D assets) became available to provide a software abstraction of the physics processing unit of different middleware providers and console platforms.

History

Before game engines, games were typically written as singular entities: a game for the Atari 2600, for example, had to be designed from the bottom up to make optimal use of the display hardware—this core display routine is today called the kernel by retro developers. Other platforms had more leeway, but even when the display was not a concern, memory constraints usually sabotaged attempts to create the data-heavy design that an engine needs. Even on more accommodating platforms, very little could be reused between games. The rapid advance of arcade hardware—which was the leading edge of the market at the time—meant that most of the code would have to be thrown out afterwards anyway, as later generations of games would use completely different game designs that took advantage of extra resources. Thus most game designs through the 1980s were designed through a hard-coded ruleset with a small amount of level and graphics data.

The first generation of third party graphics engines or renderers (and precursor to what we now know as engines) was dominated by three players; BRender from Argonaut Software, Renderware from Criterion Software Limited and RenderMorphics' Reality Lab. Reality Lab was the fastest of the three and was the first to be acquired in an aggressive move by Microsoft. The RenderMorphics team Servan Keondjian, Kate Seekings and Doug Rabson subsequently joined the Microsoft project which turned Reality Lab into Direct3D before Keondjian and Rabson left to start another middleware company Qube Software. Renderware was eventually bought by EA (Electronic Arts) but was sidelined by the games giant.

The term "game engine" arose in the mid-1990s, especially in connection with 3D games such as first-person shooters (FPS). (See also: first-person shooter engine.) Such was the popularity of Id Software's Doom and Quake games that, rather than work from scratch, other developers licensed the core portions of the software and designed their own graphics, characters, weapons and levels—the "game content" or "game assets." Separation of game-specific rules and data from basic concepts like collision detection and game entity meant that teams could grow and specialize.

Later games, such as Quake III Arena and Epic Games's 1998 Unreal were designed with this approach in mind, with the engine and content developed separately. The practice of licensing such technology has proved to be a useful auxiliary revenue stream for some game developers, as a one license for a high-end commercial game engine can range from US$10,000 to millions of dollars, and the number of licensees can reach several dozen companies, as seen with the Unreal Engine. At the very least, reusable engines make developing game sequels faster and easier, which is a valuable advantage in the competitive video game industry.

Modern game engines are some of the most complex applications written, often featuring dozens of finely tuned systems interacting to ensure a precisely controlled user experience. The continued evolution of game engines has created a strong separation between rendering, scripting, artwork, and level design. It is now common, for example, for a typical game development team to have several times as many artists as actual programmers.[5]

First-person shooter games remain the predominant users of third-party game engines, but they are now also being used in other genres. For example, the RPG The Elder Scrolls III: Morrowind and the MMORPG Dark Age of Camelot are based on the Gamebryo engine, and the MMORPG Lineage II is based on the Unreal Engine. Game engines are used for games originally developed for home consoles as well; for example, the RenderWare engine is used in the Grand Theft Auto and Burnout franchises.

Threading is taking on more importance due to modern multi-core systems (e.g. Cell) and increased demands in realism. Typical threads involve rendering, streaming, audio, and physics. Racing games have typically been at the forefront of threading with the physics engine running in a separate thread long before other core subsystems were moved, partly because rendering and related tasks need updating at only 30–60 Hz. For example, on PlayStation 3, physics ran in Need For Speed at 100 Hz versus Forza Motorsport 2 at 360 Hz.

Although the term was first used in the 1990s, there are a few earlier systems in the 1980s that are also considered to be game engines, such as Sierra's Adventure Game Interpreter (AGI) and SCI systems, LucasArts' SCUMM system and Incentive Software's Freescape engine. Unlike most modern game engines, these game engines were never used in any third-party products (except for the SCUMM system which was licensed to and used by Humongous Entertainment).

Recent trends

As game engine technology matures and becomes more user-friendly, the application of game engines has broadened in scope. They are now being used for serious games: visualization, training, medical, and military simulation applications.[6] To facilitate this accessibility, new hardware platforms are now being targeted by game engines, including mobile phones (e.g. Android phones, iPhone) and web browsers (e.g. WebGL, Shockwave, Flash, Trinigy's WebVision, Silverlight, Unity Web Player, O3D and pure dhtml).[7]

Additionally, more game engines are being built upon higher level languages such as Java and C#/.NET (e.g. TorqueX, and Visual3D.NET) or Python (Panda3D). As most 3D rich games are now mostly GPU-limited (i.e. limited by the power of the graphics card), the potential slowdowns of higher level languages become negligible, while the productivity gains offered by these languages works to the game engine developers' benefit.[8] These recent trends are being propelled by companies such as Microsoft to support Indie game development. Microsoft developed XNA as the SDK of choice for all video games released on Xbox and related products. This includes the Xbox Live Indie Games [9] channel designed specifically for smaller developers who don't have the extensive resources necessary to box games for sale on retail shelves. It is becoming easier and cheaper than ever to develop game engines for platforms that support managed frameworks.[10]

Game middleware

In the broader sense of the term, game engines themselves can be described as middleware. In the context of video games, however, it is often used to refer to subsystems of functionality within a game engine. Some game middleware does only one thing but does it more convincingly or more efficiently than general purpose middleware. For example, SpeedTree was used to render the realistic trees and vegetation in the role-playing game The Elder Scrolls IV: Oblivion.[11]

The four most widely used middleware packages[12] that provide subsystems of functionality include RAD Game Tools' Bink, Firelight FMOD, Havok, and Scaleform GFx. RAD Game Tools develops Bink for basic video rendering, along with Miles audio, and Granny 3D rendering. Firelight FMOD is a low cost robust audio library and toolset. Havok provides a robust physics simulation system, along with a suite of animation and behavior solutions. Scaleform provides GFx for high performance Flash UI, along with a high quality video playback solution, and an Input Method Editor (IME) add-on for in-game Asian chat support.

Some middleware contains full source code, others just provide an API reference for a compiled binary library. Some middleware programs can be licensed either way, usually for a higher fee for full source code.

Massively multiplayer online games

Middleware for massively multiplayer online games (MMOs, MMOGs) is far more complex than for single-player video games. Technically every normal game engine can be used to implement an MMO game by combining it with MMO middleware. The increasing popularity of MMOGs is spurring development of MMO middleware packages. Some MMO middleware software packages already include a game engine, while others provide networking only and therefore must be combined with a game engine to create a MMO game. Some prominent MMO middleware solutions include:

First-person shooter engines

A well-known subset of game engines are 3D first-person shooter (FPS) game engines. Groundbreaking development in terms of visual quality is done in FPS games on the human scale. While flight and driving simulators and real-time strategy (RTS) games increasingly provide realism on a large scale, first-person shooters are at the forefront of computer graphics on these smaller scales.

The development of the FPS graphic engines that appear in games can be characterized by a steady increase in technologies, with some breakthroughs. Attempts at defining distinct generations lead to arbitrary choices of what constitutes a highly modified version of an 'old engine' and what is a brand-new engine.

The classification is complicated as game engines blend old and new technologies. Features considered advanced in a new game one year become the expected standard the next year. Games with a mix of older generation and newer feature are the norm. For example Jurassic Park: Trespasser (1998) introduced physics to the FPS games, but it did not become common until around 2002. Red Faction (2001) featured destructible walls and ground, something still not common in engines years later (for example in Unreal Tournament 2004 there are still no destructible objects). Battlezone (1998) and Battlezone II: Combat Commander (1999) added vehicle based combat to the usual FPS mix, which did not hit the mainstream until later. Tribes 2, Battlefield 1942, Halo: Combat Evolved and Unreal Tournament 2004 fully realized the potential for vehicular-combat and first person shooter integration.

Visual novel engines

Due to the less graphic-intensive nature of visual novel games, visual novel engines tend to be very simple compared to FPS game engines. Visual novel game engines include:

See also

References

  1. ^ What is a Game Engine? from GameCareerGuide.com
  2. ^ GameDaily Article: The Real Cost of Middleware
  3. ^ "Rise of Middleware". Develop-online.net. 2007-07-06. http://www.develop-online.net/features/13/Rise-of-Middleware-20. Retrieved 2011-01-17. 
  4. ^ Report on Use of Middleware in Games[dead link]
  5. ^ "Game Development Team Composition Study - Changes over time.". http://web.cs.wpi.edu/~id111x/c05/slides/intro.ppt. Retrieved 2011-01-17. 
  6. ^ "Video Games Starting to Get Serious". Gazette.net. 2007-08-31. http://www.gazette.net/stories/083107/businew11739_32356.shtml. Retrieved 2011-01-17. 
  7. ^ "Gaming: Mobile and Wireless Trends for 2008". M-trends.org. http://www.m-trends.org/2008/01/mobile-and-wireless-trends-for-2008.html. Retrieved 2011-01-17. 
  8. ^ 3D Game Engine Programming (book). Books.google.com. http://books.google.com/books?id=-vifhqAi0SEC&pg=PA338&lpg=PA338&dq=gpu-limited+games&source=bl&ots=ETONUQuLV7&sig=L1gSNaYCZh2_TQBkg6wcPLCEobw&hl=en&sa=X&oi=book_result&resnum=6&ct=result#PPA337,M1. Retrieved 2011-01-17. 
  9. ^ http://www.xboxlivecommunitygames.org/
  10. ^ "Microsoft to Enable User-Created XBox360 Games". http://www.gamasutra.com/php-bin/news_index.php?story=10458. 
  11. ^ "Gamusutra Product Review of Top Vegetation Middleware". Gamasutra.com. 2003-10-01. http://www.gamasutra.com/view/feature/2797/product_review_speedtree_rt__.php. Retrieved 2011-01-17. 
  12. ^ "Gamasutra Engine and Middleware Technology Survey". Gamasutra.com. 2009-05-08. http://www.gamasutra.com/blogs/MarkDeLoura/20090316/903/The_Engine_Survey_Technology_Results.php. Retrieved 2011-01-17. 
  13. ^ "AGC MMORPG Review". Mmorpg.com. 2006-09-19. http://www.mmorpg.com/showFeature.cfm?loadfeature=899&bhcp=1. Retrieved 2011-01-17. 
  14. ^ staff (2008-05-27). "Exit Games' Neutron Gaming Platform to Power Konami's Multiplayer Mobile Dance Dance Revolution". Uk.wireless.ign.com. http://uk.wireless.ign.com/articles/876/876663p1.html. Retrieved 2011-01-17. 
  15. ^ Sinclair, Brendan (2006-08-08). "BioWare uses HeroEngine". Gamespot.com. http://www.gamespot.com/pc/rpg/starwarstheoldrepublic/news.html?sid=6155459. Retrieved 2011-01-17. 
  16. ^ Alicia Ashby (2009-03-04). "Virtual Worlds News March 2009". Virtualworldsnews.com. http://www.virtualworldsnews.com/2009/03/qube-and-redbedlam-partner-for-messiah-virtual-worldmmo-toolkit.html. Retrieved 2011-01-17. 
  17. ^ "Front Page - Trinigy | Creators of the Vision Game Engine". Trinigy. http://www.trinigy.net/. Retrieved 2011-01-17. 

External links



Wikimedia Foundation. 2010.

Look at other dictionaries:

  • Game-Engine — Die Artikel Liste der Spiel Engines und Spiel Engine#Bekannte Engines überschneiden sich thematisch. Hilf mit, die Artikel besser voneinander abzugrenzen oder zu vereinigen. Beteilige dich dazu an der Diskussion über diese Überschneidungen. Bitte …   Deutsch Wikipedia

  • Game Engine — Die Artikel Liste der Spiel Engines und Spiel Engine#Bekannte Engines überschneiden sich thematisch. Hilf mit, die Artikel besser voneinander abzugrenzen oder zu vereinigen. Beteilige dich dazu an der Diskussion über diese Überschneidungen. Bitte …   Deutsch Wikipedia

  • Game Engine — Moteur de jeux Un moteur de jeu est une application informatique (dite de type middleware) apportant les fonctionnalités principales au fonctionnement d un jeu vidéo, mais aussi une aide au développement ou à la portabilité du jeu. Les… …   Wikipédia en Français

  • Game engine — Moteur de jeux Un moteur de jeu est une application informatique (dite de type middleware) apportant les fonctionnalités principales au fonctionnement d un jeu vidéo, mais aussi une aide au développement ou à la portabilité du jeu. Les… …   Wikipédia en Français

  • game engine — noun A video games software engine, it executes the core functionality of the game. May also refer to the graphics engine of the game as well …   Wiktionary

  • Game engine recreation — Game engine recreations are engine interpreters for video games that replace the original engine binary that came with the original game. Game engine recreations are primarily made to allow support for the game on other operating systems. In many …   Wikipedia

  • Torque Game Engine — Infobox Software name = Torque Game Engine caption = Tribes 2 is one of the most noted commercial games to be made with the Torque Game Engine. developer = GarageGames latest release version = 1.5.2 latest release date = May 15 2007 latest… …   Wikipedia

  • Source (game engine) — Source engine …   Wikipedia

  • Snowblind Studios game engine — Dark Alliance Engine Developer(s) Snowblind Studios Operating system PlayStation 2, Xbox, GameCube, Windows, PlayStation Portable, PlayStation 3, Xbox 360 Type Ga …   Wikipedia

  • Diesel (game engine) — The Diesel engine is a game engine developed and used by GRIN. The engine was originally developed for their game Ballistics and has been used, albeit with modifications, in a number of other games since then. The first installment of the engine… …   Wikipedia


Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”

We are using cookies for the best presentation of our site. Continuing to use this site, you agree with this.