Difference between revisions of "VCO Object"
From Sega Retro
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'''VCO Object''' arcade hardware was used by [[Sega]] for a brief period between 1981 and 1983. It was Sega's earliest attempt at creating hardware specifically designed for sprite scaling, something that would be widely used in the Super Scaler series of arcade hardware ([[Sega Hang-On hardware|Sega Hang-On]], [[Sega OutRun hardware|Sega OutRun]], [[Sega X Board]], [[Sega Y Board]], [[Sega System 32]]), and a handful of Sega System boards in between. | '''VCO Object''' arcade hardware was used by [[Sega]] for a brief period between 1981 and 1983. It was Sega's earliest attempt at creating hardware specifically designed for sprite scaling, something that would be widely used in the Super Scaler series of arcade hardware ([[Sega Hang-On hardware|Sega Hang-On]], [[Sega OutRun hardware|Sega OutRun]], [[Sega X Board]], [[Sega Y Board]], [[Sega System 32]]), and a handful of Sega System boards in between. | ||
− | The hardware debuted with the release of ''[[Turbo]]'', and is also known as the '''Turbo Hardware''' because of this. It is also known as the '''Sega Z80-3D''' system.{{ref|https://github.com/mamedev/mame/tree/master/src/mame/video/turbo.cpp}} | + | The hardware debuted with the release of ''[[Turbo]]'', and is also known as the '''Turbo Hardware''' because of this. It is also known as the '''Sega Z80-3D''' system. {{ref|https://github.com/mamedev/mame/tree/master/src/mame/video/turbo.cpp}} |
All VCO Object games rely on external LED displays for parts of the HUD. This means extra precautions must be taken when attempting to emulate VCO Object games. | All VCO Object games rely on external LED displays for parts of the HUD. This means extra precautions must be taken when attempting to emulate VCO Object games. | ||
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** [[wikipedia:Tile engine|Tilemap]] layer: 8×8 [[pixel]] tiles, 4 colors per tile, [[wikipedia:Scrolling|scrolling]], tile flipping {{ref|https://github.com/mamedev/mame/tree/master/src/mame/drivers/turbo.cpp}} | ** [[wikipedia:Tile engine|Tilemap]] layer: 8×8 [[pixel]] tiles, 4 colors per tile, [[wikipedia:Scrolling|scrolling]], tile flipping {{ref|https://github.com/mamedev/mame/tree/master/src/mame/drivers/turbo.cpp}} | ||
** [[wikipedia:Bitmap|Bitmap]] layer {{ref|https://github.com/mamedev/mame/tree/master/src/mame/video/turbo.cpp}} | ** [[wikipedia:Bitmap|Bitmap]] layer {{ref|https://github.com/mamedev/mame/tree/master/src/mame/video/turbo.cpp}} | ||
− | * [[Sprite]] capabilities: Pseudo-3D [http://www.giantbomb.com/sprite-scaling/3015-7122/ sprite-scaling] (analog scaling), [[wikipedia:Framebuffer|line buffer]], 64 sprites on screen, 16 sprites per [[wikipedia:Scan line|scanline]], 4 to 8 colors per sprite | + | * [[Sprite]] capabilities: Pseudo-3D [http://www.giantbomb.com/sprite-scaling/3015-7122/ sprite-scaling] (analog scaling), [[wikipedia:Framebuffer|line buffer]], 64 sprites on screen, 16 sprites per [[wikipedia:Scan line|scanline]], 4 to 8 colors per sprite {{ref|https://github.com/mamedev/mame/tree/master/src/mame/video/turbo.cpp}}{{ref|https://github.com/mamedev/mame/tree/master/src/mame/drivers/turbo.cpp}} |
− | ** Pixel clock cycles: 4.992 MHz (standard) to 9.984 MHz (scaling) | + | ** Pixel clock cycles: 4.992 MHz (standard) to 9.984 MHz (scaling) {{ref|https://github.com/mamedev/mame/tree/master/src/mame/includes/turbo.h}} |
** [[wikipedia:Fillrate|Fillrate]]: 4.992 million (standard) to 9.984 million (scaling) pixels/texels per second, 83,200 (standard) to 166,400 (scaling) pixels/texels per frame | ** [[wikipedia:Fillrate|Fillrate]]: 4.992 million (standard) to 9.984 million (scaling) pixels/texels per second, 83,200 (standard) to 166,400 (scaling) pixels/texels per frame | ||
** [[wikipedia:Texel (graphics)|Sprite pixels/texels]] per scanline: 315 (standard) to 630 (scaling) | ** [[wikipedia:Texel (graphics)|Sprite pixels/texels]] per scanline: 315 (standard) to 630 (scaling) | ||
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===''SubRoc-3D'' Specifications=== | ===''SubRoc-3D'' Specifications=== | ||
− | ''[[SubRoc-3D]]'' featured the following hardware changes and upgrades in mid-1982:{{ref|https://github.com/mamedev/mame/blob/master/src/mame/drivers/turbo.cpp}} | + | ''[[SubRoc-3D]]'' featured the following hardware changes and upgrades in mid-1982: {{ref|https://github.com/mamedev/mame/blob/master/src/mame/drivers/turbo.cpp}} |
{{multicol| | {{multicol| | ||
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** Main: 6.25 KB (2 KB main, 2 KB analog reset, 256 bytes input, 2 KB handle) | ** Main: 6.25 KB (2 KB main, 2 KB analog reset, 256 bytes input, 2 KB handle) | ||
** [[VRAM|Video]]: 8.5 KB (2 KB video, 1 KB sprite line buffer, 1 KB sprite position, 2 KB characters, 512 bytes collision, 2 KB collision clear) | ** [[VRAM|Video]]: 8.5 KB (2 KB video, 1 KB sprite line buffer, 1 KB sprite position, 2 KB characters, 512 bytes collision, 2 KB collision clear) | ||
− | * Frame rate: 30 frames per second | + | * Frame rate: 30 frames per second |
− | * Color palette: 768 | + | * Color palette: 768 |
* [[wikipedia:Stereoscopic video game|Stereoscopic 3D]]: Sega-Matsushita [[wikipedia:Active shutter 3D system|active shutter 3D system]] | * [[wikipedia:Stereoscopic video game|Stereoscopic 3D]]: Sega-Matsushita [[wikipedia:Active shutter 3D system|active shutter 3D system]] | ||
}} | }} | ||
===''Zoom'' Specifications=== | ===''Zoom'' Specifications=== | ||
− | ''[[Zoom 909]]'' and ''[[Buck Rogers: Planet of Zoom]]'' featured the following hardware upgrades in late 1982:{{ref|https://github.com/mamedev/mame/blob/master/src/mame/drivers/turbo.cpp}} | + | ''[[Zoom 909]]'' and ''[[Buck Rogers: Planet of Zoom]]'' featured the following hardware upgrades in late 1982: {{ref|https://github.com/mamedev/mame/blob/master/src/mame/drivers/turbo.cpp}} |
{{multicol| | {{multicol| | ||
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** Main: 39.5 KB (2 KB main, 2 KB analog reset, 256 bytes input, 2 KB handle, 2 KB CPU 2 mirror, 31.25 KB other) | ** Main: 39.5 KB (2 KB main, 2 KB analog reset, 256 bytes input, 2 KB handle, 2 KB CPU 2 mirror, 31.25 KB other) | ||
** [[VRAM|Video]]: 64.5 KB (2 KB video, 1 KB sprite line buffer, 1 KB sprite position, 2 KB characters, 512 bytes collision, 2 KB collision clear, 56 KB bitmap) | ** [[VRAM|Video]]: 64.5 KB (2 KB video, 1 KB sprite line buffer, 1 KB sprite position, 2 KB characters, 512 bytes collision, 2 KB collision clear, 56 KB bitmap) | ||
− | * Frame rate: 60 frames per second | + | * Frame rate: 60 frames per second |
− | * Color palette: 1536 | + | * Color palette: 1536 |
** Colors on screen: 1024 | ** Colors on screen: 1024 | ||
}} | }} |
Revision as of 20:45, 15 November 2015
VCO Object | |||||
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Manufacturer: Sega | |||||
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VCO Object arcade hardware was used by Sega for a brief period between 1981 and 1983. It was Sega's earliest attempt at creating hardware specifically designed for sprite scaling, something that would be widely used in the Super Scaler series of arcade hardware (Sega Hang-On, Sega OutRun, Sega X Board, Sega Y Board, Sega System 32), and a handful of Sega System boards in between.
The hardware debuted with the release of Turbo, and is also known as the Turbo Hardware because of this. It is also known as the Sega Z80-3D system. [1]
All VCO Object games rely on external LED displays for parts of the HUD. This means extra precautions must be taken when attempting to emulate VCO Object games.
Contents
Hardware
It was the first system specifically designed for pseudo-3D sprite-scaling graphics, using an analog scaling technique, with Voltage Controlled Oscillators (VCOs) generating clock signals controlling the data fetched from the sprite/object ROM; the slower the clock signal, the larger the sprite on screen.[2]
In 1982, SubRoc-3D also introduced an active shutter 3D system, jointly developed by Sega with Matsushita (now Panasonic).[3]
Technical Specifications
VCO Object Specifications
- Board composition: CPU board, Sound board[4]
- CPU: Zilog Z80 @ 5 MHz (8-bit & 16-bit instructions @ 0.725 MIPS)
- Sound board: Sega Sound Board
- Sound chip: Custom
- Audio output: Stereo
- Video scaling hardware: 8× Voltage Controlled Oscillators (VCOs)
- RAM: 12 KB[4]
- Video resolution: [5][6]
- Refresh rate: 60 Hz (V-sync) [5]
- Frame rate: 60 frames per second
- Color palette: 832 [5]
- Colors on screen: 256
- Background planes:
- Sprite capabilities: Pseudo-3D sprite-scaling (analog scaling), line buffer, 64 sprites on screen, 16 sprites per scanline, 4 to 8 colors per sprite [1][5]
- Pixel clock cycles: 4.992 MHz (standard) to 9.984 MHz (scaling) [6]
- Fillrate: 4.992 million (standard) to 9.984 million (scaling) pixels/texels per second, 83,200 (standard) to 166,400 (scaling) pixels/texels per frame
- Sprite pixels/texels per scanline: 315 (standard) to 630 (scaling)
SubRoc-3D Specifications
SubRoc-3D featured the following hardware changes and upgrades in mid-1982: [4]
- RAM: 14.75 KB
- Main: 6.25 KB (2 KB main, 2 KB analog reset, 256 bytes input, 2 KB handle)
- Video: 8.5 KB (2 KB video, 1 KB sprite line buffer, 1 KB sprite position, 2 KB characters, 512 bytes collision, 2 KB collision clear)
- Frame rate: 30 frames per second
- Color palette: 768
- Stereoscopic 3D: Sega-Matsushita active shutter 3D system
Zoom Specifications
Zoom 909 and Buck Rogers: Planet of Zoom featured the following hardware upgrades in late 1982: [4]
- Board composition: CPU board, Sound board, ROM board
- CPU: Zilog Z80 & Sega 315-5014 (Z80) @ 5 MHz (8-bit & 16-bit instructions @ 1.45 MIPS)
- RAM: 104 KB (96 KB DRAM, 8 KB high-speed SRAM)
- Main: 39.5 KB (2 KB main, 2 KB analog reset, 256 bytes input, 2 KB handle, 2 KB CPU 2 mirror, 31.25 KB other)
- Video: 64.5 KB (2 KB video, 1 KB sprite line buffer, 1 KB sprite position, 2 KB characters, 512 bytes collision, 2 KB collision clear, 56 KB bitmap)
- Frame rate: 60 frames per second
- Color palette: 1536
- Colors on screen: 1024
List of VCO Object Games
Only three games make use of VCO Object hardware:
- Turbo (1981)
- SubRoc-3D (1982)
- Zoom 909 / Buck Rogers: Planet of Zoom (1982)
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