Intel 945P Motherboards: Going from Hopeless to Enthusiastic
by Gary Key on November 15, 2005 12:02 AM EST- Posted in
- Motherboards
EPOX 5LDA+GLI: Features
Epox designed a generally acceptable board layout with most major connections easily reached. The board is lacking most clearance issues and was very easy to install in our mid-size ATX case. Epox did an excellent job with the color coordination of the various peripheral slots and connectors.
The DIMM module slots' color coordination is correct for dual channel setup. The memory modules can easily be changed with a full size video card installed in the first PCI Express x16 slot. The power plug placement favors newer ATX case designs that place the power supply at the bottom of the case. Due to the location of the 24 pin ATX power connector, it can lead to power cable management issues in the CPU area and possibly block airflow.
The Intel ICH7R IDE port connector is located near the edge of the board and did not present any connection issues in our mid-size ATX case.
The Intel SATA II ports are conveniently located below the ICH7R chipset and above the primary IDE connector. The SATA II ports feature the new clamp and latch design. Epox did not include the new cable designs in their accessory kit, which greatly enhance the security of the SATA connections.
The floppy drive port connector is placed along the bottom left edge of the board and could create cable management issues in tower cases. The CP80P post port debug LED and BIOS chip are located to the right of the floppy drive connector. The additional power on and reset buttons are located in between the BIOS chip and the Intel SATA II ports.
The Intel USB connectors, IEEE1394a connectors, and Com2 serial port are located along the left edge of the board and are a tight fit when utilizing the bottom PCI slot. The CMOS reset is a traditional jumper design located to the left of the Intel ICHR7 chipset.
The board comes with (2) physical PCI Express x16 slots, (3) 32bit PCI slots, and (1) PCI Express x1 slot. The layout of this design offers a very good balance of slots and allows for numerous add-in peripheral cards.
In between the two x16 PCI Express slots is the single x1 PCI Express slot. This configuration could potentially render this slot useless when utilizing the first x16 PCI Express slot. We did not have any issues utilizing this slot with video cards containing single slot cooling systems, yet we were unable to install a network card upon installation of a NVIDIA 6800 Ultra in the x16 PCI Express slot. Regardless, the layout of this area is organized better than the Asus P5LD2 Deluxe.
Returning to the CPU socket area, we find ample amount of room for alternative cooling solutions. We utilized the stock Intel heat sink, but also verified several aftermarket cooling systems that would fit in this area during our tests. However, due to the large MCH heatsink, installation of certain cooling solutions could be problematic.
The Northbridge and Southbridge chipsets are passively cooled with heatsinks that do not interfere with any installed peripherals. In fact, this system kept the chipsets cool enough that additional chipset voltage was not a factor in our overclocking tests. Epox places the four-pin 12V auxiliary power connector at the top of the CPU socket area, but out of the way of most aftermarket cooling solutions. The five-phase switching power design is visible in this picture.
The rear panel contains the standard PS/2 mouse and keyboard ports, parallel port, LAN (RJ-45) port, and 4 USB ports. Located below the parallel port and to the right of the PS/2 ports are the Coaxial S/PDIF and Optical S/PDIF ports. The audio panel consists of 6 ports that can be configured for 2, 4, 6, and 8-channel audio connections.
The BIOS options are acceptable on the 5LDA+GLI, with memory voltage to 2.15V, and a wide range of chipset, bus, and vCore voltage adjustments. Memory ratios are limited compared to the nForce4 Intel Edition boards, but Epox did provide a variety of settings. The board fully supports manual memory timing adjustments or allows for an Auto setting that will set the memory to the SPD settings. This Auto setting will adjust the memory timing settings automatically when the system is overclocked.
Epox designed a generally acceptable board layout with most major connections easily reached. The board is lacking most clearance issues and was very easy to install in our mid-size ATX case. Epox did an excellent job with the color coordination of the various peripheral slots and connectors.
The DIMM module slots' color coordination is correct for dual channel setup. The memory modules can easily be changed with a full size video card installed in the first PCI Express x16 slot. The power plug placement favors newer ATX case designs that place the power supply at the bottom of the case. Due to the location of the 24 pin ATX power connector, it can lead to power cable management issues in the CPU area and possibly block airflow.
The Intel ICH7R IDE port connector is located near the edge of the board and did not present any connection issues in our mid-size ATX case.
The Intel SATA II ports are conveniently located below the ICH7R chipset and above the primary IDE connector. The SATA II ports feature the new clamp and latch design. Epox did not include the new cable designs in their accessory kit, which greatly enhance the security of the SATA connections.
The floppy drive port connector is placed along the bottom left edge of the board and could create cable management issues in tower cases. The CP80P post port debug LED and BIOS chip are located to the right of the floppy drive connector. The additional power on and reset buttons are located in between the BIOS chip and the Intel SATA II ports.
The Intel USB connectors, IEEE1394a connectors, and Com2 serial port are located along the left edge of the board and are a tight fit when utilizing the bottom PCI slot. The CMOS reset is a traditional jumper design located to the left of the Intel ICHR7 chipset.
The board comes with (2) physical PCI Express x16 slots, (3) 32bit PCI slots, and (1) PCI Express x1 slot. The layout of this design offers a very good balance of slots and allows for numerous add-in peripheral cards.
In between the two x16 PCI Express slots is the single x1 PCI Express slot. This configuration could potentially render this slot useless when utilizing the first x16 PCI Express slot. We did not have any issues utilizing this slot with video cards containing single slot cooling systems, yet we were unable to install a network card upon installation of a NVIDIA 6800 Ultra in the x16 PCI Express slot. Regardless, the layout of this area is organized better than the Asus P5LD2 Deluxe.
Returning to the CPU socket area, we find ample amount of room for alternative cooling solutions. We utilized the stock Intel heat sink, but also verified several aftermarket cooling systems that would fit in this area during our tests. However, due to the large MCH heatsink, installation of certain cooling solutions could be problematic.
The Northbridge and Southbridge chipsets are passively cooled with heatsinks that do not interfere with any installed peripherals. In fact, this system kept the chipsets cool enough that additional chipset voltage was not a factor in our overclocking tests. Epox places the four-pin 12V auxiliary power connector at the top of the CPU socket area, but out of the way of most aftermarket cooling solutions. The five-phase switching power design is visible in this picture.
The rear panel contains the standard PS/2 mouse and keyboard ports, parallel port, LAN (RJ-45) port, and 4 USB ports. Located below the parallel port and to the right of the PS/2 ports are the Coaxial S/PDIF and Optical S/PDIF ports. The audio panel consists of 6 ports that can be configured for 2, 4, 6, and 8-channel audio connections.
The BIOS options are acceptable on the 5LDA+GLI, with memory voltage to 2.15V, and a wide range of chipset, bus, and vCore voltage adjustments. Memory ratios are limited compared to the nForce4 Intel Edition boards, but Epox did provide a variety of settings. The board fully supports manual memory timing adjustments or allows for an Auto setting that will set the memory to the SPD settings. This Auto setting will adjust the memory timing settings automatically when the system is overclocked.
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MadAd - Tuesday, November 15, 2005 - link
Overall another good review Gary, thanks a lot, just one thingQuote:
"We will be reviewing additional sound card results in our next article."
Could you please include at least one external USB sound card/processor? They are getting more and more available and my thinking is based on the observation that more and more mobo designs are making it hard to plug in PCI cards when you have double width x16 cards.
SLId double width cards in the P5N32 (as well as the A8N32, not being tested here) would only leave one pci slot and since I have an ide raid array with at least a year or 2s life in it, that leaves me with no slot for a sound card therefore say, a USB Audigy NX would be useful. This would apply to other people with other cards such as mpeg, extra nics etc... two other boards in the review here (Asus + Epox) leave only 2 pci slots so its still a possibility to offload sound to the usb, provided the performance was not horrible.
Thanks a lot
Gary Key - Tuesday, November 15, 2005 - link
I will see what I can do. The next article will have the X-FI, HDA Mystique 7.1, and a surprise audio solution. ;-)
I completely agree about losing the slots and did not like Asus's AMD layout with both PCI slots in the middle. Due to SLI and CrossFire the available real estate on the board is shrinking rapidly and at this time we know of no PCI-e audio solutions on the horizon. It will be PCI or on-board for a while so proper slot layout or better audio solutions are a must.
I have found through repeated testing (over 300 runs) of our BF2 benchmark that the largest impact to the sound results were with the aircraft. We would get frame stuttering with the ALC88x solutions when the aircraft came on screen during the benchmark. However, the sound quality was very good in all games and was quite a surprise after hearing the SB Z2S in comparison (not saying it is better but good enough for most people). I am continuing testing in this area along with headphones and 7.1 output now instead of 2,4, and 5.1 output.
Missing Ghost - Tuesday, November 15, 2005 - link
That's sad. I want pcie sound cards.yacoub - Tuesday, November 15, 2005 - link
See, sound enabled can make a HUGE difference. Thanks for testing that, Gary. The obnoxious few around here that actually DON'T want you to test that because they think they know everything and "oh it doesn't make that much difference and it's just making more work for the reviewer" can go eat their feet. Here's damning proof it can and does make a huge difference in the performance even on this system with an 820D and 7800GTX OC!Houdani - Tuesday, November 15, 2005 - link
Dude, no one argues that sound has no influence on benchmarks. Particularly the case of integrated sound. It makes sense to test the affect of sound when you're testing a motherboard which has on-board sound to see it's impact.HOWEVER, when you're reviewing a graphics card or processor, the sound should be removed from the equation entirely so as to test the product with the fewest amount of outside variables possible. After all, in those reviews we want to see the performance of the individual component, NOT the performance of the system as a whole.
yacoub - Tuesday, November 15, 2005 - link
You might, but that would be silly. Gamers care infinitely more how the new graphics card does in the real world - ie, playing games - and that would be with sound enabled considering most of us are not deaf. It's great that it's all uber and whatnot - cool, that's fine. Now also show us how it does in a real rig under real conditions. It's not asking much and it's a lot more useful for those of us trying to decide which GPU we should get.peldor - Tuesday, November 15, 2005 - link
It's just not interesting to do so. Anyone serious enough about gaming to buy an expensive video card can spend <$50 for a sound card which puts the actual fps difference into the low single digits. In a video card review, all that's going to happen is that the scores drop by 2-4 fps across the board. That's not going to really change the relative performance.yacoub - Tuesday, November 15, 2005 - link
Situation: You have to upgrade your GPU no matter what. You have a soundcard you are happy with. You want to know if CardA will provide enough performance gain for your system or if you should go with CardB instead. You cannot tell that with the current GPU tests done at Anandtech.Houdani - Tuesday, November 15, 2005 - link
Well, see, that's where I go out and read sound card reviews -- to see how much system overhead they require. I pick and choose based on individual price/performance for all the components, which gives me an idea of how the completed system will perform.We clearly have different philosophies for how we select our components, and there's nothing wrong with that. I just happen to prefer the "filtered" performance benchmarks which isolate (as much as possible) the individual components because that provides me with the purest data for making my buying choices. It's then up to me to put all the pieces together in my head, knowing the individual contributions for each component based on reviews for each part.
Today I get to enjoy the goodness of putting together a Shuttle SFF, X2 4400+, 7800GT, 2GB RAM, et al. Reading a review of the 7800GT on a DFI motherboard with an X-Fi soundcard isn't nearly as useful to me as reading a review of the vid card in an isolated environment. Why? Because my system isn't the same as the reviewer's benchmarking system. Therefore, the isolated scores of the video card works best for me. The same can be said for the HDD, memory, processor, optical drive, ...
yacoub - Tuesday, November 15, 2005 - link
Funny, when I'm in the market for a new GPU, I don't go read soundcard reviews - I already have a soundcard! What I would want to know, though, is whether or not a -CardA- is going to give me enough performance boost over my current card or if I need to step up to a -CardB-. Your backwards approach is funny, and it supports the status quo, but it still isn't logical.