Introduction
Founded in 1986, MSI has a long and successful history in the computer component business. They are a top 5 motherboard manufacturer and for the last four years they have held the number one manufacturer position in discrete video card sales. MSI is also an emerging player in the consumer electronics market while also providing a broad range of products from optical drives to wireless network components.
The MSI K8N Diamond Plus motherboard we are reviewing today is the latest board in the Diamond series and offers an excellent feature set and performance level for the AMD enthusiast or gamer. You can find more information about the entire line of MSI products at their website.
Our initial impression of the MSI K8N Diamond Plus upon opening the box is that it has an extensive feature list, cluttered yet clean layout, heat-pipe cooling system, and that the overall quality of components utilized by MSI is very good. The board retails in the US $190 range and arrives with an extensive accessory and documentation package. Besides the Asus A8N32-SLI and Abit AN8-32X, this is the only other AMD Socket 939 board to feature the NVIDIA nForce4 SLI X16 chipset configuration.
During our testing and general usage of the MSI K8N Diamond Plus we found the board's stability to be superb and it delivered class leading results in most of our synthetic and game benchmarks. Unfortunately, although the latest 3.0a BIOS release has generally improved the board's stability, overclocking options, and performance, we still incurred issues trying to get our particular sample to overclock in a similar fashion to our nForce4, ULi M1697, or ATI RD580/480 boards.
We met with limited success in the overclocking testing phase. While the board provided very competitive results when utilizing the stock multipliers, we had issues trying to POST near, at, or above a 300HTT setting. We tried numerous settings and various components over the entire test period with the board but just could not reach the 300HTT level and remain stable enough to complete our test suite. In the end, we were resigned to stay around a 285HTT level that left us disappointed as all other aspects of this board's performance are excellent.
The MSI K8N Diamond Plus offers a complete compliment of options including two physical PCI Express x16 connections (x16 operation in SLI mode), two PCI Express x1 connections, one PCI Express x4, and two 32-bit PCI 2.3 connections. The board also offers HD audio via the Sound Blaster Audigy SE chipset, PCI-E Gigabit Ethernet via the Marvell 88E8053 LAN controller, PCI Gigabit Ethernet via the Marvell 88E1115 PHY, ten USB 2.0 ports (four rear ports and six more available via three USB 2.0 headers), two SATA 3Gb/s connectors via the Silicon Image SiL3132, two ATA133 Ultra-DMA IDE and four SATA 3Gb/s connectors along with IEEE 1394 support from the VIA VT6306 1394A capable chipset.
How is all of this possible? The board is designed around the NVIDIA C51D and nForce4 SLI chipsets that account for a total of 38 PCI Express lanes via 7 independent PCI Express controllers. The C51D chipset acts as the Northbridge and contains 18 PCI Express lanes. Out of these 18 lanes, 16 are consumed for the primary PCI Express x16 graphics slot, one for a PCI Express x1 slot, and the remaining PCI Express lane for the Marvell 88E8053 Gigabit Ethernet controller. The nForce4 SLI chipset acts as the Southbridge and contains 20 PCI Express lanes. 16 lanes are utilized for the secondary PCI Express x16 graphics slot with one lane going to the second PCI Express x1 slot, one for the Silicon Image 3132 SATA controller, and the final two lanes powering the PCI Express x4 slot which limits its actual performance to x2 capability. The VIA VT6306 IEEE 1394, Marvell 88E1115 Ethernet PHY, and Creative Labs Audigy SE chipsets are PCI based with traffic being routed through the Southbridge.
Due to the splitting of the PCI Express lanes between the Northbridge and Southbridge for the x16 graphics capability, plus the various peripheral traffic between the two bridges, and it could be argued this design will limit or hamper performance. Though this design does not consolidate all of the PCI Express lanes for graphics operations into a single chip solution such as the ATI Radeon Xpress 3200 (RD580) chipset, we did not notice any ill effects or slowdowns in our testing. In fact, with a 16-bit 1GHz HyperTransport link providing up to 8GB/s of bandwidth, the bandwidth available between the two bridge chipsets is the same as the bandwidth between the Northbridge and the Socket 939 CPU.
Now let's take a closer look at the features and performance the MSI K8N Diamond Plus offers.
Founded in 1986, MSI has a long and successful history in the computer component business. They are a top 5 motherboard manufacturer and for the last four years they have held the number one manufacturer position in discrete video card sales. MSI is also an emerging player in the consumer electronics market while also providing a broad range of products from optical drives to wireless network components.
The MSI K8N Diamond Plus motherboard we are reviewing today is the latest board in the Diamond series and offers an excellent feature set and performance level for the AMD enthusiast or gamer. You can find more information about the entire line of MSI products at their website.
Our initial impression of the MSI K8N Diamond Plus upon opening the box is that it has an extensive feature list, cluttered yet clean layout, heat-pipe cooling system, and that the overall quality of components utilized by MSI is very good. The board retails in the US $190 range and arrives with an extensive accessory and documentation package. Besides the Asus A8N32-SLI and Abit AN8-32X, this is the only other AMD Socket 939 board to feature the NVIDIA nForce4 SLI X16 chipset configuration.
During our testing and general usage of the MSI K8N Diamond Plus we found the board's stability to be superb and it delivered class leading results in most of our synthetic and game benchmarks. Unfortunately, although the latest 3.0a BIOS release has generally improved the board's stability, overclocking options, and performance, we still incurred issues trying to get our particular sample to overclock in a similar fashion to our nForce4, ULi M1697, or ATI RD580/480 boards.
We met with limited success in the overclocking testing phase. While the board provided very competitive results when utilizing the stock multipliers, we had issues trying to POST near, at, or above a 300HTT setting. We tried numerous settings and various components over the entire test period with the board but just could not reach the 300HTT level and remain stable enough to complete our test suite. In the end, we were resigned to stay around a 285HTT level that left us disappointed as all other aspects of this board's performance are excellent.
The MSI K8N Diamond Plus offers a complete compliment of options including two physical PCI Express x16 connections (x16 operation in SLI mode), two PCI Express x1 connections, one PCI Express x4, and two 32-bit PCI 2.3 connections. The board also offers HD audio via the Sound Blaster Audigy SE chipset, PCI-E Gigabit Ethernet via the Marvell 88E8053 LAN controller, PCI Gigabit Ethernet via the Marvell 88E1115 PHY, ten USB 2.0 ports (four rear ports and six more available via three USB 2.0 headers), two SATA 3Gb/s connectors via the Silicon Image SiL3132, two ATA133 Ultra-DMA IDE and four SATA 3Gb/s connectors along with IEEE 1394 support from the VIA VT6306 1394A capable chipset.
How is all of this possible? The board is designed around the NVIDIA C51D and nForce4 SLI chipsets that account for a total of 38 PCI Express lanes via 7 independent PCI Express controllers. The C51D chipset acts as the Northbridge and contains 18 PCI Express lanes. Out of these 18 lanes, 16 are consumed for the primary PCI Express x16 graphics slot, one for a PCI Express x1 slot, and the remaining PCI Express lane for the Marvell 88E8053 Gigabit Ethernet controller. The nForce4 SLI chipset acts as the Southbridge and contains 20 PCI Express lanes. 16 lanes are utilized for the secondary PCI Express x16 graphics slot with one lane going to the second PCI Express x1 slot, one for the Silicon Image 3132 SATA controller, and the final two lanes powering the PCI Express x4 slot which limits its actual performance to x2 capability. The VIA VT6306 IEEE 1394, Marvell 88E1115 Ethernet PHY, and Creative Labs Audigy SE chipsets are PCI based with traffic being routed through the Southbridge.
Due to the splitting of the PCI Express lanes between the Northbridge and Southbridge for the x16 graphics capability, plus the various peripheral traffic between the two bridges, and it could be argued this design will limit or hamper performance. Though this design does not consolidate all of the PCI Express lanes for graphics operations into a single chip solution such as the ATI Radeon Xpress 3200 (RD580) chipset, we did not notice any ill effects or slowdowns in our testing. In fact, with a 16-bit 1GHz HyperTransport link providing up to 8GB/s of bandwidth, the bandwidth available between the two bridge chipsets is the same as the bandwidth between the Northbridge and the Socket 939 CPU.
Now let's take a closer look at the features and performance the MSI K8N Diamond Plus offers.
42 Comments
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Odeen - Wednesday, April 12, 2006 - link
Hi,I wish you guys would post the EXACT BIOS (and, as necessary, jumper) settings you used to achieve your best overclocks, plus any issues you had with certain settings, etc. I'd love to see the actual notes from the lab, i.e. "Tried this clock skew value, crashed after X minutes."
While this wouldn't solve every overclocker's question, it would at least set us on the right path in optimizing our own systems, in terms of how certain values affect things.
I imagine you guys have a better understanding on what the BIOS settings do, as opposed to us everyday enthusiasts, who operate primarily on coincidences and conjectures. Especially in this age of hyper-tweakable motherboards with more and more components, it'd be really nice to know, for example, whether the hypertransport multiplier between the "NB" and the "SB" should match the chip-NB hypertransport multiplier, or whether that hypertransport bus speed is independent of HTT, and can be kept at 200/5X regardless of HTT value.
Lastly, have you tried the firewall drivers on this board, and does the firewall STILL cause bluescreens and corrupt downloads?
Gary Key - Wednesday, April 12, 2006 - link
We will need a new server to handle the notes sections for some of these boards. ;-)
We are probably heading in this direction shortly, especially for the enthusiast level boards. I will see what we can do on the next enthusiast level board with a table chart and short descriptions on how we arrived at the settings. I will say this, sometimes leaving most of the settings on Auto works best, the board/bios engineers are usually very smart about the default settings and then when you think all is okay, they hit you with a setting that should never be a default item.
We found on the MSI board, the NB-SB, SB-NB, and CPU-NB HT settings had to be synchronized or the board had stability issues. In fact, the CPU-NB default setting was at 800MHz, we had to change the option to manual, and then bump it up to 1000MHz to match the NB-SB and SB-NB HT settings at stock speeds. It does appear we had an average or below average board for the review, the latest retail sample that MSI pulled from their warehouse was able to post at 318HTT x9 with our test components.
If they are more details you would like to know, please comment or email me.
We tried the firewall with the 6.85 drivers. We could only recreate one particular situation that resulted in a corrupt download. It required the use of BitComet, downloading seven plus files (each over 200MB) concurrently, transferring the files to a media folder, and then unzipping a file while three others were still downloading. It only did it once but it did do it, is it NVIDIA or something else? I personally have not experienced any BSODs or corrupt downloads with the latest drivers, a clean load of XP, and staying away from the P2P software.
We have a new NVIDIA Business Platform system on its way so it should be interesting to see the tweaked ActiveArmor suite and driver updates that NVIDIA has been working on extensively over the last ninety days.
Gary Key - Wednesday, April 12, 2006 - link
Just not my week....Should read - If there are more details you would like to know, please comment or email me.
slashbinslashbash - Tuesday, April 11, 2006 - link
PLEASE learn the difference between "discreet" and "discrete".JarredWalton - Tuesday, April 11, 2006 - link
I don't know about you, but I like my audio solutions to be unobtrusive. Nothing worse than audio that gets in your face with static and stuff.... ;)mbhame - Tuesday, April 11, 2006 - link
"Our initial impression of the MSI K8N Diamond Plus upon opening the box is that it has an extensive feature list, cluttered yet clean layout, heat-pipe cooling system, and that the overall quality of components utilized by MSI is very good."...how can a layout be 'cluttered yet clean'?
JarredWalton - Tuesday, April 11, 2006 - link
Cluttered in that there is a LOT of stuff; clean in that it still works and there aren't any issues with connecting everything. It's an oxymoron, like "little giant". :)nullpointerus - Tuesday, April 11, 2006 - link
Now I know how to describe my room.nullpointerus - Tuesday, April 11, 2006 - link
Where are these PCIe 1x cards I've been hearing about? What exactly is available on PCIe besides video/network cards? I've heard that it's going to be a very long, slow transition to PCIe for sound cards due to noise/power issues with the spec.DigitalFreak - Tuesday, April 11, 2006 - link
See http://www.siig.com/productList.asp?pid=1013&c...">this page for examples. I do wish they made PCI-E sound cards though.