Texas Instruments TMS9918

The TMS9918 is a Video Display Controller (VDC) manufactured by Texas Instruments, introduced in 1979. The TMS9918 and its variants were used in the ColecoVision and CreatiVision, Memotech MTX, MSX, SG-1000/SC-3000, Spectravideo, Sord M5, Tatung Einstein, Texas Instruments TI-99/4, Casio PV-2000, and Tomy Tutor.

VDP TMS9918A
VDP TMS9918A
VDP TMS9928A

The TMS9918 supports generation of both grid-based character graphics (used to display text or background images) and sprites used for moving foreground objects.

Product family

There are several variants called TMS9918, TMS9918A, TMS9928A and TMS9929A, where the 'A' indicates a second version of the chip which added new features, most prominently the addition of a bitmap mode (Graphic II). The non-A version was only used in the TI-99/4; the TI-99/4A and the other computers had the A version VDC. The TMS9918A and TMS9928A output a 60 Hz video signal, while the TMS9929A outputs 50 Hz. The difference between '1' and the '2' in 'TMS9918A' and 'TMS9928A' is that the '1' version outputs composite NTSC video, while the '2' versions (including the TMS9929A) outputs YPbPr, more precisely the Y, R-Y and B-Y colour differences (luminance and colour difference signals). The need for the latter was predominant in the 50 Hz world, including Europe, due to the different video signal standards PAL and SECAM. It was more cost-effective to output Y, R-Y and B-Y and encode them into PAL or SECAM in the RF modulator, than to try to have a different console for every different color standard. The '1' version also features an external composite video input which made it a handy chip to use in video "titlers" that could overlay text or graphics on video, while the '2' version does not.

A later variant of the TMS9918 series chips, the TMS9118, TMS9128, and TMS9129, were released in the mid-late 1980s, but were never very popular. The function of one pin is changed, and a different mapping of the 16k × 8 bit block of video memory is supported. Otherwise the chips are completely identical to the TMS9918A, TMS9928A and TMS9929A respectively.

All of the ICs in this family are usually referred to by the TMS9918 name, sometimes with an 'A' postfix.

Texas Instruments TMS9918 Product Family Summary
Chip Variant Video Out Video In Video Frequency Mode 2 Support
9918 Composite Composite 60 Hz No
9918A / 9118 Composite Composite 60 Hz Yes
9928A / 9128 Luminance and Color Difference (None) 60 Hz Yes
9929A / 9129 Luminance and Color Difference (None) 50 Hz Yes

External interfaces

Video RAM

The VDP has 16k × 8 bits of external video memory. This memory is outside the address space of the CPU. Having a separate address space means that the CPU has to do more work to write or read this memory, but it also means that the VDC doesn't slow the CPU down when it periodically reads this memory to generate the display. Additionally, it leaves more address space available to the CPU for other memory and memory-mapped hardware.

Depending on the screen mode being used, not all of the video memory may be needed to generate the display. In these cases, the CPU may use the extra video memory for other purposes. For example, one use is as a scratch-pad for uncompressing graphics or sound data stored in cartridge ROM into. Another popular use is to create a second copy of some or all of the display data to eliminate flickering and tearing, a technique known as double buffering.

CPU

The CPU communicates with the VDP through an 8-bit bus. A pin controlled by the CPU separates this bus into two "ports", a control port and a data port. To write or read a byte of video memory, the CPU first has to write two bytes on the VDP's control port to the VDC's internal address register. Next, the CPU performs the actual write or read on the VDP's data port. As a data byte is written or read, the TMS9918 automatically increments the internal address register. This auto-increment feature accelerates writes and reads of blocks of data. The control port is also used to access various internal registers.

Graphics

The TMS9918 has two separate and distinct graphics types, characters and sprites.

Characters

Characters are typically used to create text or background images. They appear behind sprites.

Screen modes

The TMS9918 has a number of screen modes that control the characteristics of the characters.

Documented

There are four documented screen modes available in the TMS9918A (as mentioned before, the TMS9918 lacks mode Graphic 2):

  • Mode 0 (Text): 240×192 pixels total, as 40×24 characters, pulled from 1 character set of 256 6×8 pixel characters. The entire character set has a 2-color limitation. This mode doesn't support sprites.
  • Mode 1 (Graphic 1): 256×192 pixels total, as 32×24 characters, pulled from 1 character set of 256 8×8 pixel characters. Each group of 8 characters in the character set has a 2-color limitation. For example, the characters "0" through "7" will all have the same color attributes.
  • Mode 2 (Graphic 2): 256×192 pixels total, as 32×24 characters, pulled from 3 character sets of 256 8×8 pixel characters. Each 8-pixel-wide line of a character in the character sets has a 2-color limitation. This mode provides a unique character for every character location on screen, allowing for the display of bitmapped images.
  • Mode 3 (Multicolor): 256×192 pixels total, 64×48 changeable virtual pixels, as 32×24 "semi-graphics" characters. These semi-graphics are defined in a special character set of 256 characters defined by 2×2 "fat-pixels". There are 4×4 pixels in each fat-pixel, but the pixels within a fat-pixel cannot be individually defined, although each fat-pixel can have its own color, hence the name of this mode (Multicolor). This mode is very blocky, and rarely used.
Undocumented

Texas Instruments originally only documented the four modes listed above. However the bit that enables mode 2 is more interesting than initially let on. It is best described as a modifier bit for the other modes. Enabling it does three things[1]:

  1. Expands the color table size.
  2. Divides the screen horizontally into thirds.
  3. Changes two address bits of the pattern and color tables into mask bits, which control if each third of the screen has its own pattern and color table or not.

With this in mind, three additional modes are possible. Note that although genuine TMS9918A chips support these modes, clones and emulators may not.

  • Mode 0 (Text) + Mode 2 (Graphic 2): Known as Bitmap Text Mode. This mode allows for two-color bitmap images, with no color table. This saves memory, at the expense of a slightly reduced horizontal resolution (text mode has a horizontal resolution of 240 pixels instead of 256 pixels like the graphic modes do).
  • Mode 1 (Graphic 1) + Mode 2 (Graphic 2): Known as Half-Bitmap Mode. Texas Instruments actually documented this "undocumented" screen mode in their manual titled "Video Display Processors Programmers Guide SPPU004". In section 8.4.2, Playing Games with VRAM Addressing, they discuss how this mode combines the memory savings of mode 1 with the color detail of mode 2. However, as they go on to say this mode limits the number of sprites that can be displayed to 8 instead of 32. Therefore, the term "undocumented" used to describe this mode is a misnomer. However, because this manual was not widely known, this mode is generally considered to be one of the undocumented modes. Generally, the only reason to use this mode over Mode 2 is to reduce memory consumption.
  • Mode 3 (Multicolor) + Mode 2 (Graphic 2): Known as Bitmap Multicolor Mode. This mode is more of a novelty, as it offers nothing beyond what the standard Multicolor mode can't already do.

Screen Mode 2 details

Technically, mode 2 is a character mode with a colorful character set. The screen is horizontally divided into three 256×64 pixel areas, each of which gets its own character set. By sequentially printing the characters 0 through 255 in all three areas, the program can simulate a graphics mode where each pixel can be set individually. However, the resulting framebuffer is non-linear.

The program can also use three identical character sets, and then deal with the screen like a text mode with a colorful character set. Background patterns and sprites then consist of colorful characters. This was commonly used in games, because only 32x24 bytes would have to be moved to fill and scroll the entire screen. The graphics can be drawn such that the 8×8 pixel borders are not too obvious, an art where Konami was particularly well known for their excellence.

The challenge of using TMS9918 mode 2 was that every 8×1 pixel area could have only two colors, foreground and background. They could be freely picked out of the 16 color palette, but for each 8x1 area, only two colors could exist. When manipulating the screen in BASIC with the LINE command, one easily could exceed the maximum 2 colors per 8×1 area and end up with "color spill".

Scrolling

The TMS9918 does not have any scroll registers, and so scrolling must be done by software. Furthermore, scrolling can only be done on characters boundaries.

Sprites

Sprites are typically used to create moving foreground objects. They appear in front of characters (tiles).

Modes 1, 2, and 3 can render sprites. There can be up to 32 monochrome sprites of either 8×8 or 16×16 pixels on screen, each sprite with its own, single color. The illusion of multicolor sprites can be created by stacking multiple sprites on top of each other.

There can be no more than 4 sprites on a single scanline; any additional sprites' horizontal pixels are dropped. Sprites with a higher priority are drawn first. The VDP reports in a status register the number of the first dropped sprite. The CPU can get around this limitation by rotating sprite priorities so that a different set of sprites is drawn on every frame; instead of disappearing entirely, the sprites will flicker. This technique is known as sprite multiplexing.

Automatic sprite movement is not handled by the VDP. Instead, in practice, the CPU will pick up on the VDP's 'vertical interrupt' - a standard VDP output, which is triggered automatically once every 50th or 60th of a second (depending on chip variant), at the start of the VBI (vertical blanking interval). The CPU then jumps to a sprite-handling routine in the software, which in turn tells the VDP where to reposition the sprites.

When two non-transparent pixels in any pair of sprites collide, the sprite collision flag is set. This is useful for triggering more advanced collision detection routines inside the software which can then determine the exact location of the collision and act upon it, as the VDP is itself incapable of reporting which two sprites have collided.

Colors

The TMS9918 has a fixed 16-color palette, composed of 15 displayed colors and a "transparent" color.

  • When "transparent" is used for sprites, it will show the background characters.
  • When "transparent" is used for characters, it will show the external video signal.

Specifications

  • Video RAM: 16 KB
  • Text modes: 40 × 24 and 32 × 24
  • Resolution: 256 × 192 (15 colours + transparent)
  • Sprites: 32, 1 colour, max 4 per horizontal line

Legacy

The TMS9918 was the first consumer device to use DRAM.[2] Because enough DRAM to store a complete frame buffer was too expensive at the time, the TMS9918 uses sprites.[2][3]

Texas Instruments' TMS9918A was succeeded by Yamaha's V9938, which added additional bitmap modes, more colorful sprites, a vertical full-screen scroll register, vertical and horizontal offset registers, a hardware blitter and a customizable palette. The V9938 was designed for the MSX2 standard of computers, and later used in a third-party upgrade to the TI-99/4A — the Geneve 9640 'computer-on-a-card'. The V9938, in turn, was succeeded by the V9958, which added some additional high-colour modes and a horizontal two-page scroll register. These chips were used in the MSX2+/turboR systems, as well as on the "TIM" upgrade card for the TI-99/4A, although rumor has it that the V9958 was also used in a generation of the Photo Play arcades. Yamaha also produced a V9990, which is considered the follow-up of the V9958 by some, but it is not backwards compatible.

Toshiba made a clone called the T6950 and does not support the undocumented pattern / color table masking feature in graphics 2 mode.[4] Later, Toshiba released the T7937A MSX-Engine with a built-in VDP and fixed the masking features. Both VDPs by Toshiba feature a slightly different palette than the Texas VDPs, with more vivid colors.

The TMS9918 was the basis for the VDP chips in Sega's Master System, Game Gear, and Mega Drive. They used additional display modes and registers, and added hardware scrolling capabilities and other advanced features.

gollark: The ammo of the future is potatoes.
gollark: I think you mean past.
gollark: The `ccenv` one, that is.
gollark: For CC development.
gollark: That's actually quite useful.

See also

  • Atari 8-bit family, a home computer line with comparable graphics hardware introduced the same year

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.