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.
71 Comments
View All Comments
draven31 - Thursday, March 25, 2004 - link
Yes, the lack of PCI Express is a disappointmentBut, so is the lack of PCI-X. It means that system integrators and postproduction facilities will be hesitant about using NF3-250 motherboards for workstations because a significant portion of the current NLE cards want at least a 64-bit PCI slot, if not a PCI-X 66, 100, or 133.
This lack of PCI-X slots on Athlon64 motherboards (you have to get a dual opteron board to get them) means i may have to go Intel for my next systems, and i was really hoping to get an Athlon64 because Lightwave runs best on them overall.
Wesley Fink - Wednesday, March 24, 2004 - link
#49 -I heartily DISAGREE with your conclusions. As you will see soon enough DDR2 is at present the same performance as DDR (at best) at twice the price or more. While I do appreciate the potential of DDR2, the current execution is like Prescott - much ado about very little.
As for your bandwidth, we are talking about an Athlon 64 and NOT an Intel CPU. Intel design and deep pipes keep it constantly starved for bandwidth; A64 on the other hand has been shown to perform just about as well with current single-channel DDR as it does with much greater bandwidth dual-channel DDR. This actual performance certainly refutes your claim for the A64 "needing DDR2". Even dual-channel is more a checklist item most consumers demand than it is a huge performance booster on A64. But dual-cahnnel will indeed be a part of socket 939 - doubling memory bandwidth for an Athlon 64 that already competes quite well with single-channel memory.
I do agree with your point about hard-drive throughput, and there is little to complain about in the nF3-250Gb design in that regard.
Talk to memory manufacturers about DDR2. Most are extremely frustrated at having to add huge buffering to even get the 533 stuff to work. In addition latencies are so high at 4-4-4-8 that any performance gain is pretty much nullified. And the cost is prohibitive (sound like early Rambus?). Things WILL improve with time on DDR2, but your sweeping pronouncements are just misinformed.
jcoltrin - Wednesday, March 24, 2004 - link
PCI Express and Hyperthreading won't make a bit of difference in today's games. The only benefit I can think of with nForce3 is *maybe* better sound, and gigabit LAN. PCI Express has been shown to only produce minimal effects on fps, and who cares about hyperthreading unless you enjoy burning CD's and compressing your latest movie while playing a FPS. What this chipset really needed, and the ref . board doesn't support is DDR2. Memory bandwidth and SATA hard drives are the only thing that's going to unleash the power of our already over-kill video cards and load the expansive levels in an acceptable time. Why this article failed to acknowledge this I don't understand.Reflex - Wednesday, March 24, 2004 - link
#46: For purely gaming purposes the Soundstorm does an adequate job. No complaints there. But many people use their PC for more than gaming, and anyone who cares about the actual quality of the sound coming out, especially for music playback would care about the differences. Yes the S/N ratio is very poor on SoundStorm setups. Anyone who cares about excellent reproduction would not be using SPDIF cables as well, they would demand a coax solution for digital output(Turtle Beach SC for instance offers this).Like I said, it was a leap over what was included on motherboards when it was first released, but it has stagnated since then and the competition is far ahead now. Even Creative Labs, which is not even remotely close to being a leader in sound quality, is far beyond the SoundStorm nowadays. Now give me a SS solution with 24/96 capabilities and 106 S/N ratio and they would be back in the hunt. But that won't happen, nVidia is not a audio company.
Pumpkinierre - Wednesday, March 24, 2004 - link
The dually is good if you're running a game and other apps even if they are single threaded. I don't of course but many do, to switch quickly to avoid the boss or for 10 minutes relaxation while working. There is some loss of performance as a result of the cpus watching each other but with the present design and power of the opteron it wouldnt be noticeable. I'd like a dually.BikeDude - Wednesday, March 24, 2004 - link
#41: Soundstorm=poor quality in what way? S/N? I'm using the SPDIF connector and get 5.1 surround in most of today's games and DVD movies. What other audio solution features Dolby encoding in hardware? I have not seen (heard) one yet.SoundStorm is the only audio solution that offers Audigy2 much competition when it comes to CPU usage in games.
When something better appears, I'll switch in a second, but for now I dread my next motherboard upgrade as it'll mean I'll have to go back to standard audiocables again (and no less than three at that, in addition to the SPDIF cable!). :-(
As for USB2: It sucks. Compare external drive solutions, the old firewire400 interface wins every time. If nVidia has really cut firewire support, lets atleast hope they get USB 2.0 support right this time. I had to install an extra USB 2.0 controller to get my Thrustmaster FF wheel working for more than five minutes at a time (I tried with both Epox 8RDA3+ and ABit AN7 motherboards).
GoatHerderEd - Wednesday, March 24, 2004 - link
#44:My bro is a BeOS fan too! How fun is that?
iwantedT - Wednesday, March 24, 2004 - link
personally i wouldnt mind a dual cpu a64 solution. In my experience, it means a hell of a lot more time between upgrades. Hell, i've even still got a dual celeron 500 bp6 setup that is quite usable still, even tho its running BeOS, ie. support is kinda dead :)ripdude - Wednesday, March 24, 2004 - link
Good article I must say, though the lack of PCI-Express is a small disappointment.Also, the conclusion states that socket 939 is a couple of months away, is there a bit more certain release date? Perhaps somewhere in april/may?
Reflex - Wednesday, March 24, 2004 - link
Trogdor: Yes multi-threading is more complicated, however its a shift that everyone *is* making. There is really very little excuse to make single threaded applications on today's hardware and operating system environments, its an issue more of an established method of doing things giving way *very* slowly to new ways. For an industry that embraces most new technology, its strange that they did not change their design philosophies long ago, really once Win9x(and Pentium CPU's) became a standard the infrastructure was in place...