Roughly 7 weeks after the official announcement we received a call from an Intel spokesperson if we could please review their Latest main board chipset, the 925XE. Sure we handle a lot of mainboard reviews but we quite honestly never get requests to test chipsets so a bit surprized I said sure ! Completely forgetting that it's the busiest time of the year, that's right .. Christmas means silly seizon. We are backlogged with reviews articles and features. A well .. a quickie mainboard review we can handle just fine.
Back in June Intel launched it's new desktop line with the 915 and 925X chipsets. It offered great new technology, think here of PCI Express interface and that all new sound concept, high definition integrated audio. Hey feature of course was PCI Express with options in 16x and 1x busses but also the introduction of LGA775, the new Pentium 4 Socket for the new 'Prescott' core based CPU's. A strong new platform that had to battle AMD's Athlon 64. A harsh battle as Intel's Prescott CPU's run rather hot and use up a lot of wattage compared to it's competitor.
So my friends, a few weeks ago we received a reference Intel D925XECV2 mainboard equipped with the seriously breathtaking yet unfortunately to expensive 3.46GHz Pentium 4 Extreme Edition to try out for a couple of weeks. Unfortunately is an understatement .. the processor is 1000 EUR alone ! But let's focus on that mainboard versus chipset. Key primary feature you need to keep in mind is that this mainboard is capable of a lovely 1066 MHz system bus. Your average Pentium 4 mainboard these days run on the quad pumped 800 MHz front side bus, this one can handle a bit more (266 MHzx 4).
That being said, let's startup this review. The mainboard tested is the Intel Desktop Board D925XCV with the i925XE chipset, armed with an Pentium 4 Extreme Edition 3.46GHz.
The CPU bus speed also known as "front-side bus speed" (or FSB) and is the speed at which the CPU communicates with RAM memory and the motherboard chipset. Athlon XPs have a 266, 333 or 400 MHz FSB, Pentium 4s have a 400MHz, 533MHz or 800MHz and now the 1066 MHz FSB , AMD Durons have a 200MHz FSB, and socket 478 Celerons have a 400MHz FSB. That being explained, never assume that the CPU with the fastest front-side bus is the fastest performer. There are many factors that control CPU speed, the most important are its design and efficiency of its floating point unit, the internal clock speed of the CPU (the GHz speed it's rated for), and the speed and amount of its L2 cache.
When choosing a FSB speed for the CPU you choose, be aware that you'll need to purchase memory capable of this faster speed. For example, many people are enticed by the remarkably low priced memory, yet you need to sync your memory to CPU's FSB. First of all all mainboard these days use either DDR or DDR2 memory, this one needs DDR2. In our case we know that the CPU we have uses the1066 MHz bus so we're gonna need DDR memory rated PC 4200, thus 533 MHz DDR2 memory that is capable handling that high FSB. You can also equip this mainboard with a 800 MHz FSB processor, in that case you'll need DDR2 400 MHz. Just devide the CPU FSB with 2 and you are set to go.
Secondly, make sure you buy two bars so that you can have a 'dual-channel' memory configuration which effectively double's the memory bandwith, and the Pentium 4 loves that bandwidth for sure .
Here are some of the architectural highlights for the Intel Pentium 4 Extreme Edition:
Let's take a quick look at the processor and note the bigger differences between your 'normal' Pentium 4. The Extreme Edition over the 'normal' 130nm (Northwood) Pentium 4's is the inclusion of a nice amount of 2MB of Level 3 cache, this cache will speed up software/applications big-time, it's also extremely expensive the implement.. Next to that bigger cache the big difference of course is that the FSB speed is new for the 3.46GHz P4EE.
The processor
Pentium 4 Extreme Edition |
|
Architecture |
Intel NetBurst Micro architecture |
Cache | 512K L2, 2MB L3 |
Clock Speed | 3.46GHz |
FSB | 1066MHz (266MHz quad pumped) |
Monitoring |
|
Other Technologies |
|
The mainboard - we'll have a quick overview of the more important features of the 925XE chipset and skip the less improtant things like USB/FireWire etc. This chipset is basically 100% the same as your 925X system yet now has support for that 1066MHz Front Side Bus.
When you look at the CPU position you'll of course notice the new Socket 775. Back in June Intel needed to make that move as they ran into limitations with the Socket 478 design.
The 775 based processor means nothing else then 755 pins ... ehm whoah wait .. but not on the processor anymore!. It's completely different as your CPU does not have the pins anymore, no your mainboard CPU socket now has them. To prevent damage during transport everything needs to be well covered. As you can observe is is surrounded by multiple transistors, they are not a problem for any heatsink, it won't cause any problems. Personally I am not at all a fan of Socket 775 from a practical point of view. The pins are easily damaged.
The reference board includes Intel's South Bridge, the ICH6R for the Lions 'roar' factor. It is a slightly more mature feature over the standard ICH6 as it contains important additional RAID features that sport your standard RAID 0 / 1 features.
There's also something else there .. Integrated High-Definition sound. Intel designed this to integrate quality sound in Intel desktop platforms to meet the demands required of a modern PC in the home and office or even your HTPC (Home Theater PC). The previous AC'97 solution was capable of delivering a maximum of Six Channels of Audio at 48KHz/20-bit Audio quality, the Intel HD specification manages 8 channels at 192KHz 32-bit. With this solution Intel can support all modern Dolby formats like Dolby Digital EX and even DTS ES. Small note for the freaks, the software provides real time Dolby Digital (AC3) encoding and can take standard stereo signals and output them, digitally, as a Surround, Not bad, not bad at all.
925XE Chipset Details |
|
Front Side Bus |
1066MHz, 800MHz FSB Support |
Socket | LGA775 Processor Package |
Memory Bus | Dual
Channel DDR2 400 or DDR2 533Mhz RAM Supported Flex Memory Technology Supported |
Expansion Interfaces |
|
Storage Technology Support |
|
Integrated Audio | Intel High Definition Audio |
Other Technologies |
|
WHen we look at the photo's be sure to have a look at that 24-pin power connector... that's right I stated 24 pins. This is new, when you look at your PSU you'll notice a 20 pin connector. Don't worry, it'll still fit, yet 4 pins will be empty. Future PSU's will have 24 pins. BTW small warning, don't even think about trying to connect the additional 4-pin connector that your PSU supplies on there! That still has its own socket on the mainboard.
From a graphics/gamers point of view most exciting for us is of course that PCI-Expess technology is slowly replacing the older PCI and AGP ports, why? Bandwidth... it's all about bandwidth these days and the PCI-Express solution is a major step into the future. With up to 4GB/s of one-directional and 8GB/s of concurrent bandwidth, users are free to have high-speed graphics output. PCI Express significantly increases bandwidth between the central processing unit (CPU) and graphics processing unit (GPU). The x16 slot can feed your graphics card directly with 75 Watts.
Did you know that one PCI-Express lane (x1) has more bandwidth then your mainboard's entire PCI bus? PCI used to share that bus with all PCI devices, so a fast ethernet controller was capable of utilizing and stressing the entire PCI bus... that's a thing of the past as well as x1 PCI Express offers 500MB/sec full duplex over its own pipeline. No more sharing that bandwidth and thus better performance for all devices. Yes I'm all for the PCI Express bus.
D925XECV2 Desktop Board Details |
|
Form Factor |
ATX |
CPU Support | Intel Pentium 4's with 800MHz & 1066MHz FSB in the LGA 775 Package |
Memory | Up to 4
DDR2 533/400 DIMM's Supports up to 4GB of Memory DDR2 533 CL3 Timing Support |
Integrated Audio |
|
Network | GigaBit LAN |
Expansion Slots |
|
Peripheral Interfaces |
|
What's pretty cool is that Intel delivers the Intel's Desktop Control Center Software. This is a utility that allows you to monitor and tweak multiple features of the system platform.. Here you can setup different bus speeds (overclock) and different modes of fan operation. What I like the most is that you can create customizable profiles so that you can setup a a high performance configuration for for example gaming and a low noise configuration for Home Theater use. Pretty cool stuff.
SiSoft Sandra Benchmarks
SiSoftware Sandra (the System ANalyser, Diagnostic and Reporting Assistant) is an information & diagnostic utility. It should provide most of the information (including undocumented) you need to know about your hardware, software and other devices whether hardware or software. Sandra provides similar level of information to Norton SI, Quarterdeck WinProbe/Manifest, etc. The Win32 version is 32-bit and comes in both ANSI (legacy for Windows 98/Me systems) and native Unicode (Windows NT4/200X/.Net) formats. The Win64 version is 64-bit and comes in native Unicode format.Do note that all the SANDRA benchmarks are synthetic and thus are may not tally with real-life performance. The latter stands for whatever your environment is, i.e. which applications you run with what amount of data and so on. It is up to you to decide whether what Sandra measures is what you want to measure.
- Download SANDRA (special Guru3D.com edition)
Here you can find the scores of Sandra:
Sandra - DhryStone CPU Gigabyte 8PE667 Ultra 2 @ 2.4 GHz 6389 PX845PEV-800 @ 2.4 GHz 6451 PX865PE PROII @ 2.8 GHz no HT 7432 Athlon XP 3000+ 8120 Athlon XP 3200+ 8254 8IPE1000 Pro 2 -W + MIB + HT 8500 Pentium 4 - 3.06 GHz 8802 PX915P/G Pro 3.6 GHz 10470 Above, you can see the CPU performance. Of course thanks to the 3.6 GHz processor in combo with the mainboards it is very much on top of everything.
Sandra Memory DDR MEM MB/s Albatron PX845PE Pro II - DDR333 SC 2562 Gigabyte 8PE667 Ultra 2 - DDR333 SC 2524 PX845PEV-800 - DDR333 SC 2516 PX865PX PROII @ DDR400 DC 4306 8IPE1000 Pro 2 -W + MIB/PAT DC + HT 4500 PX865PX PROII @ DDR400 DC+PAT 4623 PX915P/G Pro 3.6 GHz DC 4573 Memory is based on non tweaked SPD timings. As you can see performance is rather good. On the previous 865 based mainboards we had to use little trick to enable extra memory performance. That same performance is now standard. The graphics clearly show what a difference dual channel memory can do in terms of memory bandwidth.
SC means single channel while DC of course means Dual Channel. Dual Channel memory @ 400+ MHz kicks ass and will boost your overall performance so much.
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PC Mark 2004
PCMark2002 Pro measures and makes a diagnosis of your computer’s performance under home and office usage. It has the capability to test all types of PCs, laptops and workstations using 39 comprehensive performance benchmarking tests. Although PCMark2002 Pro is a full-fledged professional benchmark, its exceptional ease-of-use makes even novice users feel comfortable in testing their own systems.
The integrated Online Result Browser service compares your results with PCs for all PCMark™2002 tests with other results submitted by PCMark2002 users around the world. Submitted results will help you get reliable information about your hardware and help you decide which hardware is the optimal upgrade for your system.Info and download - click here
PCMark 2002 results CPU MEM Athlon 2000+ 4987 3170 Gigabyte 8PE667 Ultra 2 - 2.4 GHz 5931 6299 PX845PEV-800- 2.4 GHz 5943 6196 Athlon XP 3000+ 6450 4809 Athlon XP 3200+ 6813 6166 8IPE1000 Pro 2 -W + MIB + HT 6784 8281 PX865PX PROII - 2.8 GHz P4-c + HT 6972 8761 PX915P/G Pro 3.6 GHz 7661 10847 This benchmark is getting outdated and is not even supported by Futuremark anymore, but since I had some more results available from past tests I decided to take it for a little spin anyway to show you some comparative results.
We also took some results with PCMark04:
PCmark04 Pcmark CPU Memory Graphics PX915P/G Pro 3.6 GHz 5060 4921 5190 3941 8IPE1000 Pro 2 2.8 GHz 4459 4181 4354 6408 It's nothing much, but it compares your average 2.8 GHz Pentium 4 rig (865) with the this new mainboard and CPU. In time more and more results will be added to this chart. one small sidenote where you read graphics... the 2.8 GHz system was equipped with a Radeon x800 XT where the Albatron 3.6 GHz system was equipped with a GeForce 6600 GT, that explains the big difference in performance.
Conclusion
I think it's fair to say that the new 925XE chipset again offers a little more performance over the previous generation, all that thanks to it's slightly faster FSB. That 1066 MHz FSB offers roughly 10-20 percent more performance ever the previous 800 MHz FSB product. Gaming wise, meh .. you'll not see a huge difference, 5 percent maybe if you graphics card isn't limiting you that is. Intel still has a difficult time battling AMD's Athlon 64 FX-53 price and performance. But let's not forget that Intel offers these small things we take for granted so easily, hyper-Threading for your multitasking intensive applications for example. The Pentium 4 EE offers good competition but currently is the only processor that can be used on this mainboard, but man .. that price ...
So in retrospect, the new 1066 MHz products offer a nice little performance increase of the last generation product. The chipset simply has an improved FSB, a small but worthy improvement. The chipset itself however already was loaded with fantastic features like DDR2, RAID, 8-channel sound in 192 kHz/32-bit quality, Matrix RAID, 4 native SATA 150 channels, PCI-Express. The mainboard itself was as expected, easy to install, very stable and performing really nicely. It has some nice overclocking and tweaking options at BIOS level, but also at software level with the help of Intel's Desktop Control Center Software.