S3 Chrome

S3 Graphics' Chrome series of graphics accelerators arrived in 2004 with the DeltaChrome line of chips. They were supplied as discrete, mobile, or integrated graphics.

Overview

Chrome S27 logo

In 2004 VIA attempted to re-launch the S3 Graphics brand with a new line of video cards under the name Chrome. The Chrome range featured low power requirements and high-definition output making it attractive for small form factor scenarios and OEM systems. Unfortunately by the time Chrome released, the rapid progression of 3D gaming performance between rivals NVIDIA and ATI Technologies made S3's offerings uncompetitive in the lucrative high end consumer market.

The Chrome series supports Direct3D 9 with full pixel shader 2.0 support, excluding the unreleased Savage XP/AlphaChrome and early UniChrome.

S3's AcceleRAM technology allowed system RAM to be used to supplement the video card's RAM, and is similar to ATI's HyperMemory and NVIDIA's TurboCache. Chrome also introduced MultiChrome technology, allowing multiple matched Chrome cards to be used simultaneously in a system to increase graphics performance, similar to ATI CrossFire and NVIDIA's SLI.

Product Families

  • AlphaChrome

Unreleased - the first of the 'Chrome' product line, previously titled Savage XP and codenamed Zoetrope.

S3 Deltachrome S8 video card (the cooler was removed to expose the graphics chip)
  • DeltaChrome

DeltaChrome added support for Shader Model 2.0, making it S3's first released DirectX 9 product. Other features included the introduction of the Chromotion Video Engine, and dual 400 MHz DACs for multi monitor support.

  • GammaChrome

GammaChrome is the first native PCI Express product line by S3 Graphics. It was originally announced on 2004-3-18 , but the product was not released until 2005-3-9. Marketed as 3rd generation DirectX 9 products competing against GeForce 6600 and Radeon X600, there is little change between it and the previous generation of product, except for the updated Chromotion 2.0 engine.

Review of the product showed it was comparable to the contemporary competitors at the market segment , but it was never able to gain a significant market share.

  • GammaChrome S19

S3 originally planned GammaChrome S19 on its roadmap, but it was cancelled.

Model listing Chronological order

ChipCode nameVertex ShadersPipeline[1]Core clock (MHz)Memory clock (MHz)Memory interface width (bit)
GammaChrome S14Matrix44/4/437530064/128
GammaChrome S18Metropolis44/4/4300-500300-45064/128
GammaChrome S19Matrix48/8/8500??
  • Chrome S20

This generation of S3 Chrome was announced on 2005-9-7 , and released on 2005-11-3.

  • S3 Graphics 2300E

It is an embedded version of Chrome S20. It addresses 256MiB 32/64-bit GDDR2 SDRAM at maximum 500 MHz.

  • Chrome 400

VIA planned the production of 2 new graphics chips, Chrome 440 and 430, by the end of 2007. The Chrome 460 will support DirectX 10 and adopts a 90 nm process, while the Chrome 430 will support DirectX 10.1 and adopts a 65nm process. Both chips will be manufactured by Fujitsu and have already entered the design verification test stage. Volume production is expected to start before the end of the year, noted the sources.[2][3]

The 430 GT was released on 2008-03-20 in US market,[4] while 440 GTX was released in 2008-05-30.[5]

The production models are made in 65 nm process, supports DirectX 10.1, and uses PCI Express 2.0 interface. Chromotion engine now supports Variable length decoding, and dual-stream Blu-ray playback (440 GTX). Display unit includes 2 dual-link DVI transmitters with integrated HDMI (audio passthrough) and HDCP, an integrated dual channel LVDS transmitter, an integrated TV/HDTV encoder, and support for two analog CRTs. 440 GTX runs at 725 MHz core speed.

  • Chrome 400 ULP

It is a mobile line for the Chrome 400. 430 ULP includes features in 430 GT, while 435 ULP and 440 ULP includes features in 440 GTX.

This product was released on 2008-09-24.[6]

  • Chrome 500
S3 Chrome 540 GTX with 256MiB Ram

Chrome 500 series includes integrated DisplayPort support, audio controller and an AES 128 encryption engine. The display unit loses 1 CRT and the TV encoder over Chrome 400. The audio controller supports Dolby 7.1 digital surround sound.

The first product, Chrome 530 GT, was released on 2008-11-20.[7]

The second product, Chrome 540 GTX was officially released on 2009-02-12[8] even though the product was on sale on the Gstore since 2009-02-07. It featured a displayport and a full-sized PCB; a feature uncommon amongst more modern S3 Chrome cards.

  • S3 Graphics 4300E

It is the embedded version of S3 Graphics Chrome 430. It supports features found in S3 Chrome 400 and later products. Using GDDR2 memory, it runs up to 300 MHz core speed, 500 MHz memory; in a GDDR3 setup, it runs up to 650 MHz core speed, 900 MHz memory. Display unit includes 2 dual-link DVI transmitters with integrated HDMI (with audio controller) and HDCP, an integrated LVDS transmitter, and support for 2 analog CRTs.

  • OmniChrome

OmniChrome is a video card with DeltaChrome S4 Pro processor, Philips 1216/1236 TV tuner, Techwell video decoder.

  • UniChrome

UniChrome is an updated S3 ProSavage used in VIA's integrated graphics chipsets.[9]

  • Chrome9

This version is the first integrated graphics core based on the DirectX 9 cores, as S3 Graphics's attempt to pass Microsoft's Windows Vista Basic certification. Known variants include Chrome9 HC and Chrome9 HC3, the latter which supports HD video decode. The most popular Chrome9 IGP (Integrated Graphics Processor) chipsets are CN896, K8M890CE/K8N890CE, P4M900 and VN896. The VX800 chipset uses the HC3, and the chipset VX900 uses the HD.

  • Chrome 645/640

This version is the first integrated graphics core based on the DirectX 11 cores. Known variants include Chrome 640 and Chrome 645, These newer iGPs are a part of Via's VX11/H Media System Processor and support Blu-ray Decoding (VX11H with HDPC only).

Model listing

Chronological order

ChipReleasefab (nm)Core clock (MHz)Pipeline[1]Vertex shadersMemory clock (MHz)Memory interface width (bit)Notes
Savage XP (AlphaChrome) 6/2002 150 DDR SDRAM. Unreleased.
DeltaChrome S4 Pro mid-2004 130 300 4/4/4 2 300 128 Shader Model 2
DeltaChrome S8 mid-2004 130 300 8/8/8 4 300 128 Shader Model 2
DeltaChrome S8 Nitro mid-2004 130 315 8/8/8 4 315 128 Shader Model 2
DeltaChrome S8 ULP mid-2004 130 200 8/8/8 4 300 128 Shader Model 2
GammaChrome S18 CE 3/2005 130 400 4/4/4 4 300 128 Shader Model 2
GammaChrome S18 PRO 3/2005 130 300 4/4/4 4 300 128 Shader Model 2
Chrome S25 11/2005 90 600 4/8/8 4 400 (Max 500/500/700 for GDDR1/GDDR2/GDDR3 memory) 32/64/128 PCIe. GDDR1, GDDR2, GDDR3. AcceleRAM, MultiChrome.
Chrome S27 11/2005 90 700 4/8/8 4 700 (Max 500/500/700 for GDDR1/GDDR2/GDDR3 memory) 32/64/128 PCIe. GDDR1, GDDR2, GDDR3. AcceleRAM, MultiChrome.
Chrome 430 GT 2/2008 65 625
Shader clock at 900 MHz
Unified shader model
(VS=PS=GS=32)
32 1000 (500 GDDR2) 64 DirectX 10.1, OpenGL 2.1, PCIe 2.0, Shader Model 4.1, AcceleRAM, MultiChrome, H.264, MPEG2, MPEG4, VC1, WMVHD, AVS
Chrome 440 GTX 5/30/2008 800
Shader clock at 1100 MHz
32 1600 (800 GDDR3) 64 DirectX 10.1, OpenGL 2.1, PCIe 2.0, Shader Model 4.1, AcceleRAM, MultiChrome, H.264, MPEG2, MPEG4, VC1, WMVHD, AVS, features dual stream HD video playback and pip(picture in picture)
Chrome 530 GT 11/20/2008 625
core clock MHz
32 1000 (500 GDDR2) 64 DirectX 10.1, OpenGL 3.0, PCIe 2.0, Shader Model 4.1, AcceleRAM, MultiChrome, H.264, MPEG2, MPEG4, VC1, WMVHD, AVS, features dual stream HD video playback and pip(picture in picture)
Chrome 540 GTX 02/07/2009 800
core clock MHz
32 1700 (850 GDDR3) 64 DirectX 10.1, OpenGL 3.0, PCIe 2.0, Shader Model 4.1, AcceleRAM, MultiChrome, H.264, MPEG2, MPEG4, VC1, WMVHD, AVS, features dual stream HD video playback and pip(picture in picture), Displayport
gollark: Technically, IQ is defined relatively, so it'll have to continually cull the population.
gollark: There is always a bigger idiot.
gollark: Apparently 5G NR has the tower know your position to within a few metres for beamforming.
gollark: Mobile network specs require towers to have very, very accurate timers, and they can do multilateration (and without that know your location down to the nearest cell, at least).
gollark: I guess lots of the phone network gets timing from GPS, but still.

See also

References


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