nForce3-250 - Part 1: Taking Athlon 64 to the Next Level
by Wesley Fink on March 23, 2004 11:55 AM EST- Posted in
- CPUs
nForce3-250 Specifications
NETWORKING
- NVIDIA IEEE 802.3 Media Access Control (MAC)
- Supports 10/100/1000Base-T Ethernet/Fast Ethernet/Gigabit Ethernet*
- High performance networking features
- TCP segmentation offloads*
- Jumbo frames*
- Checksum offloads*
- NVIDIA StreamThru technology
- Isochronous controller paired with HyperTransport for fastest networking performance
- Supports HomePNA 2.0 PHYs
- Advanced Communication Riser (ACR) and Communications and Networking Riser (CNR) interface support
SECURITY
- NVIDIA Firewall technology*
- Industry's only native firewall solution
- Unmatched performance and protection
- Advanced management features
- Remote access, configuration, monitoring
- Command line interface (CLI)
- WMI scripts
STORAGE
- RAID 0 disk striping support for highest system and application performance
- RAID 1 disk mirroring support for fault tolerance
- RAID 0 +1 disk striping and mirroring support for highest performance with fault tolerance
- Support for both SATA and ATA-133 disk controller standards
- Dual independent SATA controllers**
- Supports up to 4 SATA disk drives simultaneously
- Integrated SATA PHY with support for two drives**
- Digital SATA interface for external PHY with support for two drives**
- Fast Ultra ATA-133 Disk Drive Controllers
- Each interface supports two devices, for support for up to six devices
- Supports UltraDMA modes 6-0 (UltraDMA 33/66/100/133)
- Industry-standard PCI bus master IDE register set
- Separate independent IDE connections for 5V-tolerant primary and secondary interfaces
CONNECTIVITY
- AGP interface
- Supports AGP3.0 - 0.8 V signaling for 8x and 4x with Fast Writes data transfers
- Supports AGP2.0 - 1.5 V signaling for 4x, 2x, and 1x modes with 4x and 2x Fast Writes data transfers
- Supports graphics address remapping table (GART) features
- The AGP3.0 8x 533 MT/s. (million transfers per second) interface provides the user with the ability to upgrade the external graphics card, thus avoiding obsolescence. An external AGP add-in card achieves higher performance than it would on existing platforms.
- AGP interface is backward compatible with the AGP2.0 specification.
- USB 2.0
- Single USB 2.0 Enhanced Host Controller Interface (EHCI)/Dual USB 1.1 Open Host Controller Interface (OHCI)
- Support for up to 8 ports
- Supports transfer rates at high speed (480 Mbps), full speed (12 Mbps), and low speed (1.2 Mbps)
- Dynamically configures slower devices for best utilization of bandwidth
- Allows USB concurrency
- PCI interface
- Integrates a fast PCI-to-PCI bridge running at 33 MHz. It includes an arbiter that supports six external master PCI slots.
Features of the PCI interface include:
- PCI 2.3-compliant, 5 V tolerant
- Supports six external PCI slots at 33 MHz
- Supports six bus master arbitration
- PCI master and slave interfaces
- Supports both master-initiated and slave-initiated terminations
- Bidirectional write posting support for concurrency
- Flexible routing of all four PCI interrupts
- Supports read ahead: memory read line (MRL) and memory read multiple (MRM)
PERFORMANCE
- HyperTransport technology
- High throughput (6.4GB/sec)**
- Low voltage
- Differential
AUDIO
- AC '97 2.1 compliant interface
- Supports 2, 4, or 6-channel audio
- Dual AC-Link - supports up to two codecs
- 16-bit or 20-bit stereo output and 16-bit input streams
- Supports input, output, and general purpose input/output (GPIO) channels for host-based modems
- Separate independent functions for audio and modem
- Supports ACR and CNR interface
- S/PDIF output (stereo or AC-3 output)
MOBILITY
- Power management
- Full support for AMD PowerNow! technology
- ACPI 2.0 compliant
- Support for ACPI C3 state
- Low power 0.15 µ process
- Maximizing real estate efficiency enabling small form factor designs
- Single chip solution
- Lower latency for higher performance
** NVIDIA nForce3 250Gb and 250 only.
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71 Comments
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Visual - Friday, March 26, 2004 - link
This chipset looks promising, I like it. And a great article about it :)I'm a bit curious about the raid - do you guys think it may be possible to implement a hot-swappable raid array with integrated raid controllers anytime soon?
Maybe you can make an article testing the performance boost from using a 4-drive raid 0 array with this baby?
Another thing that interests me - are there any mobos with IGP for Athlon64? I know it won't be a performer, I'm just curious if it even exists. Also is anything being heared about some new DX9 IGP anytime soon(hopefully with this chipset)? It'd also be cool if having an AGP card doesn't disable the IGP, like the ati-intel chipsets... Well I guess I'm dreaming now, but I'd like to see your comments or any info you have on nVidia's IGP plans. I guess you AT folks could ask nVidia about this :)
Thanks,
Visual
Reflex - Thursday, March 25, 2004 - link
#59: Try measuring your bandwidth with a 4 drive RAID 0 array using fast drives on that setup and then put the same array in an Intel or AMD chipset system. nVidia's PCI implementation is not very good at all.MichaelD - Thursday, March 25, 2004 - link
[q] Actually, to date nVidia has had a *very* troublesome PCI implementation, anyone with a PCI RAID controller and a 4 disk RAID 0 array can tell you that. It is so bad, in fact, that prototype NF3-150 boards for Opteron used AMD PCI chips just to avoid using the nForce3 integrated PCI bus. I am not certain if these boards ever reached production status however.[/q]Uh, no. Not in my experience. On my 8RDA+, I've used:
Highpoint ATA133 Contoller Card
3Ware7000-2 Two-channel IDE RAID card
LSI Megaraid 1600 SCSI RAID card
I've had zero problems. Wha'chu talkin' bout, Willis?
Reflex - Thursday, March 25, 2004 - link
#55: I did not say DDR2 was needed right now, its not and AMD is making the right decision. I was just pointing out that the latency penalty should not be a real issue since it moves more data. But time will tell.#54: I have not checked out the Catalina yet, however if it does not have a coax output, it will not find a home in my setup. SPDIF is a consumer level technology, championed by Sony, but it is not as high quality as coax simply due to the fact that the signal must be converted twice(to and from optical) which is never a good thing. Furthermore, the cables are frail and expensive. Professional level equipment never has SPDIF, it uses coax exclusively.
Wesley: Glad they are dropping SoundStorm. Waste of time and effort in my opinion.
BikeDude - Thursday, March 25, 2004 - link
Thanks Wesley; a single chip implementation makes sense. Now show us the benchmarks! :)Wesley Fink - Thursday, March 25, 2004 - link
#54 and others regarding Sound Storm -1 - nVidia is committed to the one-chip chipset for Athlon 64. They are firmly convinced that the one-chip eliminates the potential bottlenecks of a north-south bridge communications bus. Even with the the memory controller on the chip there is only so much real estate practically available on a single-chip chipset.
2 - Customer surveys by nVidia found that most buyers did not use Sound Storm, and that Sound Storm did not enter heavily into the decision to buy nForce. So the decision was made to choose the on-chip LAN, firewall, and much-expanded RAID capabilities which benefit greatly from being moved off the bus.
3 - There are new sound solutions in the works for nVidia. You may see them in a future chipset or on a sound card. Final decisions have not been made.
Pumpkinierre - Thursday, March 25, 2004 - link
#53, I'll believe it when I see the tests. It sounds like RAMBUS- that was supposed to be better at latency but turned out the opposite at over twice the cost at the time. Read the last paragraph of Wesley's post(#50)- he's closer to the industry and there are others expressing similar concerns. All these are things that Intel with its resources should iron out and AMD come in when its sorted, If AMD get to a third of the market and in the black then it can show leadership in these areas. Meanwhile stick to what they are best at cpus.BikeDude - Thursday, March 25, 2004 - link
#48: Turtle Beach Catalina which I suspect is a newer card (it's more expensive :) ) than SC, seem to tout optical SPDIF output as a feature (doesn't mention coax at all) and it's merely pass-through SPDIF at that (no hardware Dolby encoding -- thus I'll end up with the additional three audio cables again). Are you sure you have all your facts straight?If you're a professional musician -- I agree, the SS isn't for you, but I thought nForce was primarily a chipset targetted at gamers?
Reflex - Thursday, March 25, 2004 - link
#52: Latency ends up about the same due to the fact that twice the operations per clock are happening in the same span as regular DDR. It does not, however, give you any real benefit, just higher scalability. The lack of DDR2 support also really has nothing to do with the chipset, its a CPU feature on Athlon64/FX architecture's, not a chipset one, so people bemoaning the lack of DDR2 need to look at AMD, not nVidia.Like I said before, the only feature needed from my point of view is PCI Express. I refuse to buy anymore PCI or AGP devices at this point knowing that in a year or two they will be useless. Unlike my CPU, I don't often change out my sound card, motherboard, SCSI card, or other such devices, so when it comes time to upgrade my system, PCI Express will be the order of the day for me.
Pumpkinierre - Thursday, March 25, 2004 - link
Good to see your real opinions, wesley #50. I too am worried about this slow latency DDR2 particularly with the a64 where I see system memory latency as being the bottleneck for improved gaming speed. AMD have got themselves a winner with a64/newcastle but still have mainboard issues as well as heavy debt. In these conditions, good poker dictates that you play conservatively. So I'm quite happy to see only DDR1 and PCI on the nF3-250 for the moment.