Drivers Number Nine Visual Graphic



Intel® Graphics DCH Driver for Windows® 10 64-bit for NUC8i7HNK, NUC8i7HVK Version: 27.20.100.8681 (Latest) Date: 9/15/2020 Automatically update your drivers. AMD Ryzen™ 9 Mobile Processors with Radeon™ Graphics. Microsoft® ODBC Driver 13.1 for SQL Server® - Windows, Linux, & macOS The Microsoft ODBC Driver for SQL Server provides native connectivity from Windows, Linux, & macOS to Microsoft SQL Server and Microsoft Azure SQL Database. Download Number Nine Visual video card drivers or install DriverPack Solution software for driver scan and update.

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Computing Memory

Drivers
  • DDR5 SDRAM
  • DDR4 SDRAM

Consumer Memory

DDR4 SDRAM [129KB]DDR3 SDRAM [87KB]

Graphics Memory

GDDR6 SDRAM [768KB]GDDR5 SDRAM [139KB]

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Device Operation

Label Info. DDR5

Label Information

DefinitionDescription
(1)SK hynix LogoSK hynix
(2)Module Type
(3)Module CapacityNumber of DDR5 DRAM storage in module
(4)Module ConfigurationNumber of ranks of memory installed and Device organization
(5)Memory TechnologyDDR5 Product
(6)Module Speed Grade· 4800B : 4800Mbps 40-40-40 (for SDP Chip base DIMM)
4800Mbps 46-40-40 (for 3DS Chip base DIMM)
(7)Module Type· S : 260pin SODIMM
· U : 288pin UDIMM
· R : 288pin RDIMM
(8)Raw Card RevisionJEDEC reference design file used for this design
(9)SPD RevisionJEDEC SPD revision encoding and additions level
(10)2D Barcode Comb.Technical Information + Serial Number + Part Number
(11)Eco Logo
(12)CountryCountry of origin
(13)CE Mark
(14)MPart NumberPlease refer to the [SUPPORT > Technical Support > Part Number Decoder]
(15)Process CodeInternal use
(16)Serial Number

Label Info. DDR4 (New P/N)

Label Information

DefinitionDescription
(1)SK hynix LogoSK hynix
(2)Module CapacityNumber of DDR4 DRAM storage in module
(3)Module Configuration· 2Rx4, 2Rx8, 1Rx4, 1Rx8, 1Rx16 : 2Ranks/1Rank, Single Die Package with x4/x8/x16 IO
· 4DRx4 : 4Ranks, Dual Die Package with x4 IO
· 2S2Rx4, 2S4Rx4 : 2Ranks, 3DS 2hi(4hi)-stacked Package with x4 IO
(4)Memory TechnologyDDR4 Product
(5)Module Speed GradeSDP/DDP chip based DIMM· 2133P : 2133Mbps 15-15-15
· 2400T : 2400Mbps 17-17-17
· 2666V : 2666Mbps 19-19-19
· 2933Y : 2933Mbps 21-21-21
· 3200AA : 3200Mbps 22-22-22
3DS chip based DIMM· 2133P : 2133Mbps 18-15-15
· 2400T : 2400Mbps 19-17-17
· 2666V : 2666Mbps 22-19-19
· 2933Y : 2933Mbps 24-21-21
· 3200AA : 3200Mbps 26-22-22
(6)Module Type· S : 260pin SODIMM
· U : 288pin UDIMM
· R : 288pin RDIMM
· L : 288pin LRDIMM
· N : 288pin NVDIMM
(7)Raw Card RevisionJEDEC reference design file used for this design
(8)SPD RevisionJEDEC SPD revision encoding and additions level
(9)2D Barcode
(10)Eco Logo
(11)CE Mark
(12)CountryCountry of origin
(13)Part NumberPlease refer to the [SUPPORT > Technical Support > Part Number Decoder]
(14)Process CodeInternal use
(15)Year & WeekCode of Manufactured Year & Week

Label Info. DDR4 (Old P/N)

Label Information

DefinitionDescription
(1)SK hynix LogoSK hynix
(2)Module CapacityNumber of DDR4 DRAM storage in module
(3)Module Configuration· 2Rx4, 2Rx8, 1Rx4, 1Rx8, 1Rx16 : 2Ranks/1Rank, Single Die Package with x4/x8/x16 IO
· 4DRx4 : 4Ranks, Dual Die Package with x4 IO
· 2S2Rx4, 2S4Rx4 : 2Ranks, 3DS 2hi(4hi)-stacked Package with x4 IO
(4)Memory TechnologyDDR4 Product
(5)Module Speed GradeSDP/DDP chip based DIMM· 2133P : 2133Mbps 15-15-15
· 2400T : 2400Mbps 17-17-17
· 2666V : 2666Mbps 19-19-19
· 2933Y : 2933Mbps 21-21-21
· 3200AA : 3200Mbps 22-22-22
3DS chip based DIMM· 2133P : 2133Mbps 18-15-15
· 2400T : 2400Mbps 19-17-17
· 2666V : 2666Mbps 22-19-19
· 2933Y : 2933Mbps 24-21-21
· 3200AA : 3200Mbps 26-22-22
(6)Module Type· S : 260pin SODIMM
· U : 288pin UDIMM
· R : 288pin RDIMM
· L : 288pin LRDIMM
· N : 288pin NVDIMM
(7)Raw Card RevisionJEDEC reference design file used for this design
(8)SPD RevisionJEDEC SPD revision encoding and additions level
(9)2D Barcode
(10)Eco Logo
(11)CE Mark
(12)CountryCountry of origin
(13)Part NumberPlease refer to the [SUPPORT > Technical Support > Part Number Decoder]
(14)Module Option CodePlease refer to the next slide
(15)Process CodeInternal use
(16)Year & WeekCode of Manufactured Year & Week

No 14. Module Option Code Information

MeaningDetail DescriptionRemark
N0NT / NFw/o TS, w/o FDHS
  • Int. = Integrated
  • w/o = with out
  • TS = Thermal Sensor
  • RCD = Registering Clock Driver
  • DB = Data Buffer
  • FDHS = Full DIMM Heat Spreader
T0TS / NFInt. TS, w/o FDHS
T1TS / NH / MontageInt. TS, w/o FDHS, Montage RCD Gen 1.0 / DB Gen 1.0
T2TS / NH / MontageInt. TS, w/o FDHS, Montage RCD Gen 1.5 / DB Gen 1.5
T3TS / NH / MontageInt. TS, w/o FDHS, Montage RCD Gen 2.0 / DB Gen 2.0
T4TS / NH / MontageInt. TS, w/o FDHS, Montage RCD Gen 2.5 / DB Gen 2.5
T5TS / NH / MontageInt. TS, w/o FDHS, Montage RCD Gen 2.5 / DB Gen 2.5 LP
T8TS / NH / Rambus (formerly – Inphi)Int. TS, w/o FDHS, Rambus RCD Gen 2.5 / DB Gen 2.5
TDTS / NH / Renesas (formerly – IDT)Int. TS, w/o FDHS, Renesas RCD Gen 2.5 / DB Gen 2.5
TETS / NH / Renesas (formerly – IDT)Int. TS, w/o FDHS, Renesas RCD Gen 1.0 / DB Gen 1.5
TFTS / NH / Renesas (formerly – IDT)Int. TS, w/o FDHS, Renesas RCD Gen 2.0 / DB Gen 2.0
TGTS / NH / Renesas (formerly – IDT)Int. TS, w/o FDHS, Renesas RCD Gen 2.5 / DB Gen 2.5
THTS / NH / Renesas (formerly – IDT)Int. TS, w/o FDHS, Renesas RCD Gen 2.5 / DB Gen 2.5 LP
TLTS / NH / Rambus (formerly – Inphi)Int. TS, w/o FDHS, INPHI RCD Gen 1.0 / DB Gen 1.0
TMTS / NH / Rambus (formerly – Inphi)Int. TS, w/o FDHS, INPHI RCD Gen 1.0 / DB Gen 1.5
TNTS / NH / Rambus (formerly – Inphi)Int. TS, w/o FDHS, INPHI RCD Gen 2.0 / DB Gen 2.0

Handling Guide

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Number Nine Visual Technology
IndustryComputer hardware
Founded1982
FounderAndrew Najda and Stan Bialek
ProductsGraphics cards
Websitewww.nine.com (offline, in the Web archive)

Number Nine Visual Technology Corporation was a manufacturer of video graphics chips and cards from 1982 to 1999. Number Nine developed the first 128-bit graphics processor (the Imagine 128), as well as the first 256-color (8-bit) and 16.8 million color (24-bit) cards.[1]

The name of the company, as well as many of its products (e.g., Revolution, Imagine, Pepper, Ticket to Ride) refer to Beatles songs. At system boot up, Number Nine cards' video BIOS splash screens display short phrases from Beatles songs related to the cards' model names. Card model names were usually preceded by a '#9' moniker.

History[edit]

Number Nine was founded in 1982 by Andrew Najda and Stan Bialek as Number Nine Computer Corporation. The company was renamed Number Nine Visual Technology Corporation in the early 1990s. For most of its existence, Number Nine was based in Lexington, Massachusetts. Number Nine initially made an Apple II accelerator board, then later moved into the design and manufacture of high-end PC graphics cards in 1983. Number Nine was one of the premier, higher-end graphics card companies into the early 1990s. In the mid to late 1990s, Number Nine began to lose market share to competitors in both the price and performance arenas. Number Nine was slow to respond to the boom in 3D graphics, continuing to emphasize high quality, fast 2D graphics.[citation needed] On December 20, 1999, Number Nine announced a 'letter-of-intent' for S3 Inc. (later S3 Graphics Co.) to buy substantially all assets and intellectual property of Number Nine. By mid 2000, S3 had completed the acquisition of Number Nine's assets and Number Nine had ceased operations. In 2002 two former Number Nine engineers, James Macleod and Francis Bruno, formed Silicon Spectrum, Inc., and licensed Number Nine's graphics technology from S3 to implement in FPGA devices.[2][3][4][5]

For five years after Number Nine closed its doors, a former employee kept Number Nine's website up and running, with driver downloads and a forum available for self-help. A volunteer and #9 enthusiast provided regular, impromptu technical support on the forum for the last two and a half years the site was active. Several former employees checked in to help occasionally. The website finally went off the air for good in March 2005 and the domain name was taken over by an online gambling company.

In 2013 Francis Bruno from Silicon Spectrum tried to fund an open-source GPU based on a #9 Ticket To Ride IV derived design. Started on the crowdfunding platform kickstarter.com, the campaign was unsuccessful as only $13,000 of the requested $200,000 was gathered.[6][7] Despite this, source code was released under a GPL3 license in August 2014.[8]

Products[edit]

The first Number Nine graphics cards were ISA bus, pre-VGA standard cards that had no graphics accelerator chips. In the latter 1980s to early 1990s, Number Nine made ISA and MCA bus graphics cards based on Texas Instruments' TIGA coprocessors.

Beginning in the 1990s, Number Nine made AGP and PCI graphics cards with their own proprietary graphics accelerators (the Imagine line GPUs). Contemporaneously, Number Nine made AGP, PCI, VLB and ISA graphics cards using S3 Graphics' accelerator chips. Their very last AGP card used an Nvidia GPU.

Early pre-VGA video cards[edit]

Early cards (no co-processor, pre-1986, pre-VGA standard):

#9 ModelDisplay ResolutionColor Palette[9]PC BusNotes
Number Nine Graphics SystemCGACGAISA
Revolution 512x8512×480256 colors selectable from a palette of 16.7 millionISAuses NEC µPD7220
Revolution 512x32512×480245,760 colors selectable from a palette of 16.7 millionISAuses NEC µPD7220
Revolution 1024x81024×768 from 1024×1024256 colors selectable from a palette of 16.7 millionISA
Revolution 2048x4[10]1280×960 from 2048×102416 colors selectable from a palette of 4096ISAHitachi HD63484 Advanced CRT Controller

The Revolution series were large, full-length cards that ranged in price from $1995 to $2995 at introduction.

TIGA cards[edit]

Number Nine graphics cards using Texas Instruments' TIGA co-processors were made from about 1986 to 1992. The Texas Instruments TMS-340x0 co-processors were coupled with custom Number Nine-designed application specific chips, which could only handle very primitive graphics functions such as clipping. Nevertheless, this was a major accomplishment back in the day. With the exception of the GXi Lite, all of the TIGA graphics cards were large, full length cards.

Cards using a TIGA co-processor were (in approximate order of introduction):

#9 ModelTIGA co-processorMemoryPC Bus Architecture
PepperTMS-34010??ISA
Pepper SGTTMS-34010 + Intel 827861M, 4M?ISA
Pepper Pro 1024[11]TMS-340101.5M, 2MMCA, ISA
Pepper Pro 1280TMS-34010??MCA?, ISA
Pepper Pro 1600TMS-34010??MCA?, ISA
GXTMS-34010??? 1M DRAM? + 2M VRAM?MCA?, ISA
GXi LiteTMS-340201M DRAM + 1M VRAMMCA?, ISA
GXiTMS-340201M DRAM + 2M VRAMMCA?, ISA
GXiTCTMS-340201M? DRAM + 4M VRAMMCA?, ISA

The TIGA-based cards were very expensive in their day, ranging in price from $995 to $2495 at introduction.

Number Nine Video Cards using Number Nine GPUs[edit]

Imagine 128 (early original version, note old company name)
Imagine 128 Series II
Revolution 3D (Ticket to Ride), PCI bus
Revolution IV (Ticket to Ride 4), PCI bus

The Imagine series GPUs (also called graphics accelerators) were Number Nine's own in-house designs. The Imagine series went through four generations:

Number

Drivers Number Nine Visual Graphic Organizer

  1. Imagine 128 (Imagine)
  2. Imagine 128-II (Imagine2)
  3. T2R (marked 'Ticket to Ride'; sometimes marked 'Imagine-3')
  4. T2R4 (marked 'Ticket to Ride IV').

The Imagine 128 GPU introduced a full 128-bit graphics processor—GPU, internal processor bus, and memory bus were all 128 bits. However, there was no, or very little, hardware support for 3D graphics operations.[12]

Drivers number nine visual graphics

Drivers Number Nine Visual Graphics

The Imagine 128-II added Gouraud shading, 32-bit Z-buffering, double display buffering, and a 256-bit video rendering engine.[13]

The Ticket to Ride (Imagine-3) supported WRAM and both the AGP and PCI buses, had a 3D floating point setup engine, bilinear filtering and perspective correction, Gouraud shading, alpha blending, interpolated fogging, specular lighting, double and triple display buffering, 16-, 24- and 32-bit Z-buffering, MPEG-1 and MPEG-2, and hardware MIP mapping.[14][15]

The Ticket to Ride IV included an integrated 250 MHz RAMDAC, support for up to 32 MiB SDRAM, full scene anti-aliasing, per pixel fog, specular, and alpha effects, 10-level detail per pixel MIP mapping, bilinear and trilinear filtering, 8 bits per texel, 8 KB on-chip texture cache, hardware MPEG-1 and MPEG-2, and a full IEEE 754 floating point pipeline 3D rendering setup engine.[16][17]

Number Nine graphics accelerators were used on the following Number Nine model video cards:

#9 Model#9 GPUMemoryPC Bus Architecture
Imagine 128Imagine 1284M, 8M VRAMPCI
Imagine 128 Series 2Imagine 128-II4M, 8M H-VRAMPCI
Imagine 128 Series 2eImagine 128-II4M EDO DRAMPCI
Revolution 3DT2R4M or 8M (base), 12M, 16M WRAMPCI, AGP
Revolution IVT2R416M, 32M SDRAMPCI, AGP
Revolution IV-FPT2R432M SDRAMPCI, AGP

These 1990s video cards were Number Nine's flagship cards of their day (the Imagine 128 and 128 Series 2 were very expensive). None required a heatsink on the GPU. The original Imagine 128 was introduced in 1994. The Revolution IV was introduced in 1998.

In addition to a standard analog VGA connector, the Revolution IV-FP (also called the Revolution IV-1600SW) had an OpenLDI digital interface connector for the Silicon Graphics, Inc (SGI) 1600SW digital flat panel monitor. The Revolution IV-FP was one of only a few standard video adapters with the OpenLDI interface for SGI's 1600SW digital flat panel monitor (some others were 3Dlabs Oxygen VX1-1600SW, I-O DATA GA-NF30/PCI, and Siemens Nixdorf S26361-D964 cards in some Siemens Nixdorf computer). SGI's 1600SW video adapters were proprietary (on board) to their O2, 320, and 540 graphics workstations. Formac made a limited number of PCI cards with OpenLDI for Apple Macs.

The OpenLDI interface is neither physically nor electrically compatible with the modern DVI-D interface. This was the early days of digital video connections and there were several competing, incompatible standards. OpenLDI for stand-alone displays disappeared, but several aftermarket manufacturers made adapters to convert OpenLDI to DVI-D so more modern video cards would work with the 1600SW monitor.

The 1600SW monitor was far ahead of its time and was eagerly sought long after it was out of production. For this reason, for a time, Revolution IV-FP and Oxygen VX1-1600SW video cards commanded a premium price in the used market, long after they were out of production.

Number Nine Video Cards using S3 Graphics processors[edit]

Motion 331 PCI (S3 Trio64V+)

Number Nine had a close business relationship with S3 Graphics throughout the 1990s. While the Imagine series GPUs and cards were Number Nine's flagship products, contemporaneously, Number Nine produced a series of less expensive video graphics cards using S3's GPUs. The S3-based cards were usually introduced in groups of three, at three price points below the Imagine cards. They carried the same model name, but different model numbers and GPUs. Except for the SR9, Number Nine's last, best S3 card, none of these video cards had heatsinks on the graphics processing chip (GPU).

The S3-based video cards were, in approximate order of introduction:

#9 ModelS3 GPUMemoryPC Bus ArchitectureNotes
GXE9281M, 2M, 3M, 4M VRAMISA, VLB, PCI
GXE 64864 (Vision864)1M, 2M DRAMISA?, VLB, PCI
GXE 64 Pro964 (Vision964)2M, 4M VRAMISA?, VLB, PCI
GXE 64 Trio764 (Trio64)1M, 2M DRAMISA?, VLB, PCI
Vision 330764 (Trio64)1M, 2M DRAMVLB, PCI
Motion 331765 (Trio64V+)1M, 2M DRAMVLB, PCI
Motion 531868 (Vision868)1M, 2M DRAMVLB, PCI
Motion 771968 (Vision968)2M, 4M VRAMVLB, PCI
Reality 332325 (ViRGE)2M EDO DRAMPCI
Reality 772988 (ViRGE VX)2M, 4M VRAMPCI
Reality 334357 (ViRGE GX2)4M SGRAMPCI, AGP
SR9 (SDRAM)394 (Savage4 LT, small heatsink on GPU)8M SDRAMAGP(some OEM)
SR9 (SDRAM)397 (Savage4 Pro, small heatsink on GPU)16M, 32M SDRAMAGP(retail)[18]
SR9 (SGRAM)398 (Savage4 Xtreme, small heatsink on GPU)8M?, 16M SGRAMAGP(OEM only?)

Number Nine Video Cards with heatsinks[edit]

SR9 SDRAM NLX 8MB (heatsink removed) with S3 Savage4 LT chip
SR9 SGRAM 16MB DVI (heatsink removed) with S3 Savage4 Xtreme chip

Number Nine's last two graphics cards were the only ones to require heatsinks on the GPU. Both outperformed the Revolution IV.

  • The SR9 was Number Nine's last retail card. It used an S3 Savage4 GPU with a small heatsink on the GPU (the SDRAM one with VGA connector is Savage4 LT, the SGRAM one with DVI connector is Savage4 Xtreme).
  • An OEM-only AGP card using an Nvidia TNT2-M64 GPU and [16M? or] 32M SDRAM. The heatsink is larger than the one on the SR9. This Nvidia-based card has been variously called (probably unofficially) the 'M64' or 'Pepper M32,' but it was never a retail, end-user product.

PixelFusion joint venture[edit]

On April 20, 1999, Bankboston Business Credit announced it had provided $15 Million for Number Nine Visual Technology.[19]

On August 9, 1999, PixelFusion Ltd. and Number Nine Visual Technology Corp. announced they had entered into a relationship whereby Number Nine would use PixelFusion's FUZION 150 chip to design a very high-end 3D graphics accelerator card for AGP Pro-equipped PCs. The card would use 128 to 1024 MiB Rambus RDRAM, while the FUZION 150 chip would contain 24 megabits of embedded DRAM. The product was to be delivered in the first half of 2000.[20] However, no retail products were made following the announcement.

See also[edit]

Wikimedia Commons has media related to Number Nine video cards.

References[edit]

  1. ^'Number Nine Visual Technology and S3 Inc. -- Business to Continue as Usual'. PR Newswire. 23 June 1999. Retrieved Jan 8, 2011.
  2. ^'Number Nine Visual Technology Company History'. Number Nine Visual Technology. 1999. Archived from the original on 1999-01-17. Retrieved 2013-10-15.
  3. ^'Number Nine - Computer Dictionary Definition'. Retrieved Jan 8, 2011.
  4. ^'Number Nine Visual Technology, Inc. Announces Merger Agreement'. Reuters. 1999-12-20. Retrieved 2011-01-08.
  5. ^'Silicon Spectrum, Inc. - Overview'. Retrieved 2011-01-08.
  6. ^Eine Open-Source-GPU bei KickstarterArchived 2013-11-18 at the Wayback Machine on tomshardware.de (Oktober 15, 2013)
  7. ^Open Source Graphics Processor (GPU) on kickstarter.com by Francis Bruno
  8. ^'GPL v3 2D/3D graphics engine in verilog'. Retrieved 2016-07-26.
  9. ^Manufacturers of Higher Resolution Graphics Boards. 20 Oct 1986. Retrieved Mar 14, 2011.
  10. ^Machover, Carl; Dill, John (1985). 'New products'. IEEE Computer Graphics and Applications. 5 (10): 71. doi:10.1109/MCG.1985.276240.
  11. ^Number Nine Announces Series of Graphics Cards. 20 Nov 1989. Retrieved Jan 13, 2011.
  12. ^Notes on Imagine 128 retail box.
  13. ^Notes on Imagine 128 Series 2 retail box.
  14. ^Notes on Revolution 3D retail box
  15. ^'Number Nine Unveils `Ticket To Ride''. ebworld.com. May 15, 1997. Archived from the original on July 14, 1997. Retrieved November 3, 2019.
  16. ^Notes on Revolution IV retail box.
  17. ^'Number Nine Launches 'Ticket To Ride(TM) IV,' Its Fourth and Most Powerful 128-bit 3D/2D/Video Graphics Chip'. PR Newswire. 26 May 1998. Retrieved Jan 13, 2011.
  18. ^Notes on SR9 retail box.
  19. ^'Bankboston Business Credit Provides $15 Million for Number Nine Visual Technology'. BUSINESS WIRE. 20 Apr 1999. Retrieved 30 November 2017.
  20. ^'PixelFusion and Number Nine Announce Agreement to Jointly Develop Industry's Most Powerful 3D Graphics Solution'. PixelFusion/Number Nine press release, SIGGRAPH. 9 Aug 1999. Archived from the original on November 28, 1999. Retrieved 1 May 2012.

External links[edit]

Retrieved from 'https://en.wikipedia.org/w/index.php?title=Number_Nine_Visual_Technology&oldid=976874932'