Langbahn Team – Weltmeisterschaft

NV1

Nvidia NV1 / STG2000
The original Nvidia logo
Release dateNovember 7, 1995; 29 years ago (1995-11-07) May 22, 1995; 29 years ago (1995-05-22)[1][non-primary source needed]
CodenameNV1
DirectXNone
History
Predecessornone
SuccessorRIVA 128
Support status
Unsupported

The Nvidia NV1 was Nvidia's first graphics accelerator product. Manufactured by SGS-Thomson Microelectronics under the model name STG2000, NV1 was a multimedia PCI card announced in May 1995 and released in November 1995.[2] It was sold to retail by Diamond as the Diamond Edge 3D.

The NV1 featured a complete 2D/3D graphics core based upon quadratic texture mapping, VRAM or FPM DRAM memory, an integrated 32-channel 350 MIPS playback-only sound card, and a Sega Saturn-compatible joypad port. As such, it was intended to replace the 2D graphics card, Sound Blaster-compatible audio systems, and 15-pin joystick ports, then prevalent on IBM PC compatibles.

Putting all of this functionality on a single card led to significant compromises, and the NV1 was not very successful in the market. A modified version, the NV2, was developed in partnership with Sega for the Sega Dreamcast, but ultimately dropped.[citation needed] Nvidia's next stand-alone product, the RIVA 128, focused entirely on 2D and 3D performance and was much more successful.

History

Several Sega Saturn games saw NV1-compatible conversions on the PC such as Panzer Dragoon and Virtua Fighter Remix. However, the NV1 struggled in a market place full of several competing proprietary standards, and was marginalized by emerging triangle polygon-based 2D/3D accelerators such as the low-cost S3 Graphics ViRGE, Matrox Mystique, ATI Rage, and Rendition Vérité V1000 among other early entrants. It ultimately did not sell well, despite being a promising and interesting device. [peacock prose]

Diamond EDGE 3D 3400

NV1's biggest initial problem was its cost and overall quality. Although it offered credible 3D performance, its use of quadratic surfaces was not popular, and was quite different than typical polygon rendering. The audio portion of the card received merely acceptable reviews, with the General MIDI receiving lukewarm responses at best (a critical component at the time due to the superior sound quality produced by competing products). The Sega Saturn console was a market failure compared to Sony's PlayStation or Sega's earlier Sega Genesis, and so the unique and somewhat limiting support of these gamepads was of limited benefit. Nvidia, by integrating all of these usually separate components, raised their costs considerably above what they would have been if the card had been designed solely for 3D acceleration.

During the NV1's release timeframe, the transition from VLB/ISA (486s) to PCI (Pentiums and late model 486 boards) was taking place, and games often used MIDI for music because PCs were still generally incapable of large-scale digital audio playback due to storage and processing power limitations. Reaching for the best music and sound quality, and flexibility with MS-DOS audio standards, often required 2 sound cards be used, or a sound card with a MIDI daughtercard connector. Additionally, NV1's 2D speed and quality were not competitive with many of the high-end systems available at the time, especially the critical-for-games DOS graphics speed. Many customers were simply not interested in replacing their often-elaborate system setups with an expensive all-in-one board and so the heavy integration of NV1 hurt sales simply through inconvenience.

Diamond EDGE 3D 2120

Market interest in the product quickly ended when Microsoft announced the DirectX specifications, based upon triangle polygon rendering. This release by Microsoft of a major industry-backed API that was generally incompatible with NV1 ended Nvidia's hopes of market leadership immediately. While demos of quadratic rendered round spheres looked good, experience had proved working with quadratic texture maps was extremely difficult. Even calculating simple routines was problematic. Nvidia did manage to put together limited Direct3D support, but it was slow and buggy (software-based), and no match for the native triangle polygon hardware on the market.[3]

Subsequent NV1 quadratic-related development continued internally as the NV2.

NV2

NV2 was to be NVIDIA's second PC 3D accelerator graphics chip, but it was cancelled before completion. It was planned to succeed the NV1.

NV2 built upon its predecessor's unusual quadratic 3D-rendering architecture. It was initially considered for use in Sega's Dreamcast console, due to the relationship cultivated between NVidia and Sega over the porting of Sega arcade and Saturn console titles over to the PC platform, where the similarity in NV1's and Saturn's 3D-rendering architecture aided in the porting process. (The NV1 graphics cards had 2 Sega Saturn gamepad ports integrated so that Saturn titles could be easily ported over to the NV1 cards and have an equal gameplay experience.) However, experience with both Saturn and NV1's 3D-rendering architecture in the Saturn ultimately led the company to abandon quadratic 3D-rendering architecture altogether, in favor of a more traditional architecture that operated on triangle primitives.[4]

NVIDIA's strong desire to stick with their maturing quadratic forward texture mapping technology was a great cause of friction between Sega and NVIDIA. One part of the equation was undoubtedly that Sega's PC games division. A quadratic 3D game engine would be very difficult to port over to just about any other contemporary 3D graphics hardware, all of which used triangle primitives and inverse-texture mapping. More importantly, although consumer 3D hardware was still in its infancy, there was general consensus within the industry that triangle primitives with inverse-texture mapping would be standard going forward. Sega ultimately selected NEC/VideoLogic's PowerVR2 to power the 3d-graphics in its Dreamcast console.[5]

Because the demand was not there from Sega, and the PC market had drastically changed direction away from QTM due to the popularity of the triangle polygon-based OpenGL and DirectX, NVIDIA abandoned further development of the NV2 and started on a new architecture, a.k.a. "NV3" or RIVA 128.

Supported games

Chipset table

Model
Launch
Transistors (million)
Die size (mm2)
Core clock (MHz)
Memory clock (MHz)
Core config[a]
Fillrate Memory
TDP (Watts)
Latest API support
MOperations/s
MPixels/s
MTexels/s
MVertices/s
Size (MB)
Bandwidth (GB/s)
Bus type
Bus width (bit)
STG-2000 May 22, 1995 NV1 SGS
500 nm
1[7] 90 PCI 12
75
50
60
1:1:1 12 12 12 0 1
2
4
0.4
0.48
FPM
EDO
VRAM
64 ? 1.0 n/a

References

  1. ^ Nvidia Corporation (May 22, 1995). "Multimedia Accelerator From NVIDIA Corporation Transforms PC Into The Ultimate Multimedia Machine" (Press release). Archived from the original on November 12, 1996. Retrieved April 14, 2020.
  2. ^ Nvidia Corporation (May 22, 1995). "NVidia, Links to other Press Releases" (Press release). Archived from the original on February 28, 1997.
  3. ^ "Nvidia NV1 Diamond Edge 3D review". vintage3d.org. Retrieved 2023-05-04.
  4. ^ Dang, Alan (February 16, 2001). "NVIDIA NV2 Report". FiringSquad. Retrieved 2008-06-15.
  5. ^ "History of the Modern Graphics Processor, Part 2". 4 December 2020.
  6. ^ "3D accelerator database". Vintage 3D. Archived from the original on 23 October 2018. Retrieved 30 August 2024.
  7. ^ "NVIDIA NV1 GPU Specs | TechPowerUp GPU Database". 30 August 2024.