The IGP Chronicles Part 1: Intel's G45 & Motherboard Roundup
by Anand Lal Shimpi & Gary Key on September 24, 2008 12:00 PM EST- Posted in
- Motherboards
Supermicro C2SEA
The third board in today’s overview is from Super Micro Computer, Inc.. Supermicro is typically associated with the server and workstation markets but they also offer desktop products based on the latest Intel chipsets. The Supermicro C2SEA is a full size ATX board featuring the G45 chipset but with DDR3 memory support instead of the typical DDR2 configurations we see in this sector of the market. While DDR3 is usually associated with top end chipsets like the Intel X48 or NVIDIA 790i, it is an alternative option on the P45/G45 chipsets.
Pricing on DDR3 has steadily been declining the last six months and a 4GB DDR3-1333 kit can be had now for $155~$185 depending on timings. Considering a 4GB DDR2-800 CAS4 kit runs around $70, DDR3 is still about twice as expensive. However, pricing will continue to drop based on the latest projections. Whether you like it or not, 2009 will be the year that we see a heavy emphasis on DDR3 with the new Intel i7 product range and AMD releasing AM3. In the grand scope of things, pricing is not that bad if you remember that 2GB of DDR2-800 was around $140~$180 when Core 2 Duo launched in June of 2006.
Getting back to the Supermicro board, the option/features list is rather mundane compared to the ASUS and Gigabyte boards. However, this board does offer Realtek RTL8111C Gigabit Ethernet (that’s three boards and counting now), Realtek ALC888 for HD Audio, a very good TI controller for IEEE 1394a, iTE8213 for PATA support, and the ICH10 Southbridge instead of the ICH10R on our other boards. One omission compared to our other boards is the lack of a DVI port that we found strange considering the board is designed for multiple markets. Also, we would like to have seen the ICH10R utilized as setting up a RAID 5 setup for the home theater (or even in a small business environment) would have been nice without having to purchase an additional RAID card.
Nothing flashy where the BIOS is concerned, it’s almost as if a group of starched white collar bearing engineers came out of retirement from IBM and created the BIOS for them. Actually, the BIOS is designed in this manner as the board will typically end up in white box systems for large corporate accounts or for those in the retail sector who value stability over pizazz. We have to say upfront, this board was extremely stable if nothing else.
While we wanted additional options, we knew that was not going to happen based on the board’s target market, but more importantly it just did not need a BIOS update. We will repeat that, in an age where BIOS releases are generated almost as fast as some Hollywood actors get picked up for DWI, this board did not have any problems we could locate in over 500 hours of testing. One could argue that by limiting the number of options greatly, that such feats are fairly simple to accomplish. If that was the case, then the Intel DG45ID board should have been problem free instead of carrying the seven plagues with it.
The layout of the Supermicro C2SEA is rather standard affair. We do not like the floppy and PATA connectors being on the bottom of the board as it means cable routing will be affecting airflow if these two legacy ports are used. The MCH heatsink did not interfere with our selection of CPU fan/heatsink choices but it did not dissipate heat as effectively as the ASUS, Intel, or Gigabyte offerings. We constantly measured MCH thermals about 3C higher than the other choices.
The other item that popped out to us after installing the board is the two USB ports at the back of the board instead of headers (two additional headers are available). This setup is great for open-air systems (it does happen) or internal devices like card readers that would require a long cable routing to the rear IO panel. The board includes two x16 slots, one is an x16 PCIe 2.0 capable slot and the other is an x4 PCIe 1.1 capable slot for graphics (CrossFire setup like the P35) or x4 and x1 capable peripheral cards.
This board does offer two PS/2 ports and a coaxial SPDIF out port in addition to the optical port. In addition, the board also features an 8-pin EATX power connector and five 4-pin fan headers with monitoring and control via the BIOS. Fan control is based on three settings, server, workstation, and full speed. Server and Workstation settings are thermal based solutions that will increase fan speeds as temperatures rise in the CPU or the case. While fan control is fairly limited, the three settings did work correctly. Supermicro highly suggests that for the fan control system to work properly that any attached system fans either be all 3-pin or 4-pin designs. We did not encounter any problems with S3 resume functions under Vista 32 or Vista 64.
Pros/Cons
This is not a board for those that like to fine tune, overclock, or tinker with a BIOS. It is not sexy, there is no flash here, and the documentation is about as interesting as a tractor maintenance manual. However, it is a perfect board for those who want to set up a board once and then forget about it. Super Micro Computer, Inc. heritage is in the server and workstation markets where stability is king and this board shows it. In addition to extreme stability and compatibility, our performance and power tests will show a slight advantage for DDR3 on this platform, not much mind you, but it was not a penalty until we had to input our credit card information at checkout for 4GB of Corsair's finest DDR3.
So what would we change? In keeping with Supermicro's design philosophy, we think limited voltage settings for the processor and memory would be valuable for the HTPC user who likes to undervolt or might have memory that will not POST at 1.5V. A DVI port, rearrangement of the floppy and PATA connectors, inclusion of the ICH10R, and a slightly better heatsink solution would be a bonus. However, none of this matters if stability is compromised as this board is about as solid as they come at this point. As such, for those that like to play it safe and keep systems around longer than a couple of years, this a board that deserves your full attention.
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sprockkets - Wednesday, September 24, 2008 - link
Except the fact that you needed a firmware update on the home theater receiver is just bulls****.Thanks DRM!
I can't wait till VLC gets native blue ray support! At least we have Sly-Soft!
DoucheVader - Friday, September 26, 2008 - link
Hey if it wasn't for a vast majority of people copying stuff, we wouldn't have DRM. I am sick of the complaints. We as consumers created this problem.Most things that have DRM are to protect someone's bread and butter. How would you like it if every time you got paid there was some money missing?
- Saturday, September 27, 2008 - link
Your point might be valid if DRM worked, but can you point out a single mainstream home theater medium on which the DRM means anything to the pirates?DRMed CDs? Ha. Those just pissed off consumers when they inevitable didn't play in some players and/or contained bad software. Often defeated with the frickin shift key.
DVD? People have tattoos of the DeCSS source code it's that damn short. Amusingly the longest lasting DRM scheme, with 2.5 years between the first DVD movie release and the release of DeCSS.
HD-DVD? 253 days, not even a full year after the format first shipped its AACS protection system was cracked. Under three weeks later the first copies start showing up on private trackers.
Blu-Ray (AACS)? The same AACS crack applied to it, and about two weeks after the first HD-DVD copies showed up Blu-Ray was right behind it. Launch to first pirated movie: 225 days.
Blu-Ray (BD+)? Slightly harder than AACS apparently, but titles did not ship with it until October 2007 so the cracking community got off to a late start. AnyDVD HD supported decrypting all BD+ titles roughly 5 months after the first titles shipped and copies again showed up soon after.
I'm less familiar with DVD-Audio and SACD, but my understanding is that there hasn't been a direct "crack" of their respective encryption but instead PC-based players and/or sound drivers are modified to just write the decoded bitstream to the hard drive. This works quite well for audio, as in most cases the compression (if any) applied on the disc is not wanted and the uncompressed PCM stream is exactly what the user desires. For obvious reasons that is not feasible with video.
Once these protections are broken, they do nothing to reduce piracy and only remain to prevent fair-use backups by technologically illiterate users and/or to annoy consumers with crap like these HDCP issues.
It doesn't even matter to the pirate crowd whether the cracks are public or private, as long as someone can do it that means the files will get out, and once they're out they're out.