Chips and Technologies

Chips and Technologies (C&T), founded in Milpitas, California in December 1984[1] by Gordon A. Campbell and Dado Banatao, was an early fabless semiconductor company.

Chips and Technologies
IndustrySemiconductors
Fateacquired by Intel
Founded1984 (1984)
Defunct1997 (1997)
Headquarters,
United States
Area served
Worldwide
ProductsSoCs, GPUs
The F8680 is a x86 compatible SoC.

Its first product, announced September 1985, was a four chip EGA chipset that handled the functions of 19 of IBM's proprietary chips on the Enhanced Graphics Adapter. By that November's COMDEX, more than a half dozen companies had introduced EGA-compatible boards based on C&T's chipset.[2] This was followed by chipsets for PC motherboards and other computer graphics chips.

C&T was acquired by Intel in 1997, primarily for its graphics chip business.

Former members of C&T founded Asiliant Technologies in January 2000 to continue the support of the CHIPS 65545, 65550, 65555, 69000, 69030, and other notebook and LCD oriented graphics ICs. Intel licensed the rights to build, sell, and service the C&T chips to Asiliant. Asiliant manufactured and sold C&T components for the next few years until it closed.

x86 products

x86-CPU Super386.
C&T SuperMath J38700DX

C&T SuperMath J38700DX was an 80387DX compatible FPU coprocessor.

C&T also designed a 386-compatible microprocessor known as the Super386 38600DX/38600SX using clean room design techniques, but this chip never enjoyed as much success as the 386 CPUs produced by Intel, AMD, and Cyrix. C&T 38605DX had 512 byte cache, but the 144 pin PGA package was incompatible with 386 socket.

Motherboard chips and chipsets

  • 82C100 - IBM PS/2 Model 30 and Super XT Compatible Chip[3] - Released in 1987,[4] compatible with 8086, 80C86, V30, 8088, 80C88, V20 CPUs. Compatible with all PC/XT functional units: 8284, 8288, 8237, 8259, 8254, 8255, DRAM controller, SRAM controller, Keyboard controller, Parity Generation and Configuration registers.[5] Additionally features EMS control, dual clock and power management. It supports up to 2.5 MB RAM.
  • 82C206 chip, introduced by C&T in 1986 and the core of the NEAT (New Enhanced AT) chipset. This chip, like its predecessor the 82C100, provided equivalent functionality to the TTL chips on the PC/AT's mainboard, namely: the 82284 clock generator, the 82288 bus controller, the 8254 Programmable Interval Timer, the two 8259 Programmable Interrupt Controllers, the two 8237 DMA controllers, the MC146818 NVRAM/RTC chip.[6]
  • 82C235 - Single Chip AT (SCAT)[7] - Released in 1989,[8] compatible with PC/AT. Supported LIM EMS 4.0, up to 16 MB memory and Shadow RAM.
  • 82C836 - Single Chip 386sx AT (SCATsx)[9] - Compatible with PC/AT (bus), supported all the features of SCAT, added support for the i386SX processor and i387SX math coprocessor.

Video chips

Chips and Technologies was the first company (outside of IBM) to deliver an EGA-compatible chipset. The Enhanced Graphics CHIPSet consisted of the four chips:

  • 82C431 Graphics Controller
  • 82C432 Sequencer
  • 82C433 Attributes Controller
  • 82C434 CRT Controller[10]

Later C&T announced a "Super EGA" dual-chip chipset: 82C435 Enhanced Graphics Controller and 82A436 Bus Interface with resolution up to 800Ă—600 38MHz.

C&T was the first company (outside of IBM) to deliver a compatible VGA chipset, the 82C451, and VGA cards were introduced the same year as VGA (1987) based on the 82C451, opening up the IBM compatible graphics display market. [11] This market was then entered by companies such as Trident Microsystems, Western Digital, Cirrus Logic, Oak Technology, and others, until it was saturated.

Chips and Technologies provided the Wingine video card, a very high speed framebuffer that sat in a proprietary local bus slot on supported motherboards. Epson and JCIS were two manufacturers who offered motherboards featuring the Wingine local bus slot. The Wingine was popular with users of NEXTSTEP for Intel processors, as it was one of the highest performing video cards supported by the operating system.[12][13] Latest HiQVision architecture (65550, 65554, 65555, 68554, 69000 and 69030) added a hardware acceleration.

Apple used a number of C&T controllers in their PowerBook line. Among others, the 65550 was used in the PowerBook 3400[14] and the faster 65554 was used in the "Kanga" PowerBook G3, which was derived from the 3400.[15] Early NuBus PowerBooks such as the PowerBook 1400 used the less-sophisticated 65525A.[16]

C&T eventually ended up competing in the low end of the video market, the 65555 featured an LVDS transmitter and notably won a design in early Compaq Armada laptops.

See also

References

  1. Chips & Technologies:Driving in the Fast Lane, InfoWorld, February 22, 1988
  2. The Enhanced Graphics Standard Comes of Age, PC Magazine, August 1986
  3. 82C100 IBM PS/2 Model 30 and Super XT Compatible Chip. Chips and Technologies.
  4. "Firm Says System Logic Chip Will Speed PS/2 Model 30 Cloning". InfoWorld. 1987-07-27. p. 26.
  5. Michael H. Tooley (2005). PC Based Instrumentation and Control. Elsevier. p. 32. ISBN 9780750647168.
  6. Scott Mueller (2003). Upgrading and Repairing PCs. Que Publishing. pp. 230. ISBN 9780789729743.
  7. 82C235 Single Chip AT. Chips and Technologies.
  8. "Chip Makes Cheaper AT Clones possible". InfoWorld. 1989-10-09. p. 1.
  9. 82C836 Single Chip 386sx AT. Chips and Technologies.
  10. Anatomy of an EGA Board, PC Magazine, August 1986
  11. Peddie, Jon (2013-06-13). The History of Visual Magic in Computers: How Beautiful Images are Made in CAD, 3D, VR and AR. Springer Science & Business Media. ISBN 9781447149323.
  12. bytecellar.com - Chips & Technologies’ WINGINE, 2007-02-09
  13. CHIPS And Technologies' WINGINE: Giving Windows Horsepower
  14. "RockHopper.dk: Apple Powerbook 3400 240MHz". Archived from the original on 1 May 2012. Retrieved 29 September 2014.
  15. "PowerBook G3 Press Release". Retrieved 29 September 2014.
  16. "For users of Linux on NuBus PowerMacs". Archived from the original on 22 June 2015. Retrieved 29 September 2014.
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