FIRST LOOK: ULi M1695 PCIe/AGP Socket 939 for Athlon 64
by Wesley Fink on July 13, 2005 12:05 AM EST- Posted in
- Motherboards
Basic Features: ULi AP9507A (M1695/M1567)
| ULi AP9507A (M1695/M1567) | |
| CPU Interface | Socket 939 Athlon 64 |
| Chipset | ULi M1695 Northbridge - ULi M1567 Southbridge |
| BUS Speeds | 200MHz to 400MHz in 1MHz Increments |
| PCIe Speeds | 75-125MHz in 1MHz Increments |
| PCI/AGP | Fixed at 33/66 |
| Core Voltage | Startup, 0.825V to 1.55V in 0.025V increments |
| CPU Clock Multiplier | Startup, 4x-25x in 1X increments |
| HyperTransport Frequency | 1000MHz (1GHz) |
| HyperTransport Multiplier | 200, 400, 600, 800, 1000 |
| DRAM Voltage | NO Adjustments |
| HyperTransport Voltage | NO Adjustments |
| Memory Slots | Four 184-pin DDR DIMM Slots Dual-Channel Configuration Regular Unbuffered Memory to 4GB Total |
| Expansion Slots | 1 PCIe x16 (or 2 PCIe x8) 1 AGP 8X 2 PCIe x1 2 PCI Slots |
| Onboard SATA/RAID | 2 SATA Drives by ULi M1567 (RAID 0, 1, JBOD) |
| Onboard IDE/IDE RAID | Two Standard ATA133/100/66 (4 drives) |
| Onboard USB 2.0/IEEE-1394 | 8 USB 2.0 ports supported by ULi M1567 No Firewire (Optional) |
| Onboard LAN | 10/100 Ethernet by Realtek PNY (Gigabit LAN Optional) |
| Onboard Audio | AC '97 2.3 6-Channel by Realtek ALC655 |
| BIOS Revision | Award OC50624A (6/24/2005) |
The ULi Award BIOS provides a wide range of BIOS control options, particularly considering that this is a Reference Board used to qualify a chipset. The wide 200 to 400 range for CPU clock was a pleasant surprise, but it is somewhat academic with no memory voltage controls present in the BIOS.
The included vCore adjustments and PCIe speed adjustments were also a nice addition, although the range to just 1.55V is very limited for Clawhammer processors, which are 1.50V at default.
Since the ULi implementation of AGP is real AGP and not derived, the AGP adjustments will look familiar to AGP owners.
Click image to enlarge.
Reference Boards are designed for qualification and not for production. It would therefore be a mistake to dwell on the Reference Board layout, except to say that Reference Boards often influence layout of production boards. IDE, SATA, video slots and bottom edge headers all work fine where they are located. However, we hope that production boards will take a different approach to the location of the 24-pin ATX power connector. Located in about the center of the board between the CPU and rear IO ports, there is really no good way to route the heavy cable. In the center of the board, you have to be careful not to interfere with air flow or operation of the CPU and memory.
The location of the floppy connector at the bottom of the board will be a long reach for floppy users. Many buyers don't care about floppies any more, but if you still use them, the bottom of the board is an inconvenient and hard-to-reach location.
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Jalf - Saturday, July 16, 2005 - link
Sorry if I missed this, but any word on when we're going to see this chipset in retail?mino - Friday, July 15, 2005 - link
I believe there are many typo's. A least this:"...Ventilation was just able..." should be
"...Ventilation was just NOT able..."
and
"... 5°C higher temperature..." should be
"...5°C higher temperature than outdoors in average..."
mino - Friday, July 15, 2005 - link
#59 Yeah, thats right. I just didn't want someone to fell in mistake by believing val on his 20W figure. I have to explain this a lot of times and it is sometimes hard to undo the damage done.val: actually I live in central Europe and here 1kWh costs ~ EUR 0.15 which IS cheap in Europe. I have made my own measurements and the problem is only 6xx series chips consume some reasonable amounts of energy. If they tested some older 5xx series model teh idle consumption easily reaches 120W with i865G while our AMD systems on SIS755/R9200 consume about 70W in C'nC mode and those are 130nm Newcastle chips !.
Try this: place 30 of those machines in classroom without clima and here is the difference:
Prescotts(Q3/04 530's) are overheating any time you trow something heavier o them. This poorly insulated room is ~30°C in the winter with heating OFF(outdoor -10) !!! Despite they bought LCD's to conserve space, after this summer courses they had to install clima for about 1/4 price of the whole IT instalation bought last year. The room was simply unusable anytime outdoor temperature reached 20C or more. Ventilation was just able to come around the problem since many could not work in the wind.
This happened on another faculty we are sharing building with. In similar room (+/-0.5m, same situation) we have 30 A64 3000+ Newcastle chips w/Radeon 9200 passive cards. The machines are (except heavy multitasking which is rare there) equally powerfull but more responsive _and_ more reliable. The enviroment is also ways better, in the summer there only about 5°C higher temperature in average with moderate ventilation(one window). Clime would certainly help, but we consider investing into another IT room more important at this time. Now I'm happy my arguing last year time brought some fruits
The prescott machines have to date(3/4yr timeframe) about 30% failure rate. Mainly caused by underrated power circuitry on MB's and PSU's. I know, they should have bought better PSU's. But that would only extend the price delta of 10% at the time of purchase (same suplier). I still remember how my friend from IT dep. of that faculty laughed at me then how stupid I am by using so underdog and unreliable config for our project.
To sum it up:
1) Prescott will have to cost $50 less to assure same reliability system at the same price/perf as A64
2) If 1) is fulfilled(i.e. some Dell machines) such a system could a good buy for causual use and definitelly a sngle choice if heavier multitasking is a must.
3) However for larger and especially for dense envirements prescott-based solution colud be a real pain in the ass.
4) 6xx somwhat improve this but after arrival of 90nm A64's just com pensate for AMD's improvement in power consumption thus the absolute delta remains approx. the same, the relative one even worsens.
5) On hugely positive aspect of prescott's existence is undoubtedly the fact that it forced even the cheapest case manufacturers to make some arflow in the case. I believe this could not have been achieved byt any other means that prescott. For that we should all be really thankfull.
huh, jet another novel ;-(
Jep4444 - Friday, July 15, 2005 - link
why are you people arguing over power consumption, its irrelevant to the topicval - Friday, July 15, 2005 - link
München last year wasted only for people's comfort (more often street train than would be needed) over 270 MW hours.This means 1.000.000 people gaming whole year 3 hours a day. For stupid people comfort.
val - Friday, July 15, 2005 - link
#54 one mid size advertising panel on building takes about 20000W, you have in USA them on one street more than we have people in some villages.And i hope that you and all your hippie friends are not using plasma TVs or worse CRT TVs and monitors to screw my nature.
val - Friday, July 15, 2005 - link
#54 i know, but i am trying to tell you, that one useless powerplant only for military researches will cover milions of people possible waste. Who cares power plants, you change nothing.What i am saying is, that if it would be important, people should first STOP USING THEIR CLIMA, change the bulbs to energy efficient ones, do YOUR MATH.
Minos bulbs harm the world much more than mine pc!
And how much takes your clima? Your hot water collector?! use brain please. You cannot tout on intel for poor 100W of average use no more than 2 hours full PC load.
Your car damages nature and costs you more than difference to me having some VIA cpu to save your nature. Get it to your head.
So stop talk like hippie.
SilverTrine - Friday, July 15, 2005 - link
So can this board handle 2 ATi cards if one is a crossfire or it just for Nvidia SLI?nserra - Friday, July 15, 2005 - link
#52200 euro for you, but 200 euro x 10.000 people is 2.000.000€.
I win 800€ month, make the 2.000.000€/800€ how many months of salary is it?
Isn’t just 20W as you say, it's 20W to 100W. You are right that people aren’t playing games the all day, but is the all day idle? , in fact put some complex 3D screen saver and you will see how idle it is.
Also 20W for you but 20W x 10.000 people is 200.000W (best case scenario), but if it's 100W x 10.000 people its 1.000.000Watts!!!
So do you your math, because the world isn’t just you!
val - Friday, July 15, 2005 - link
#50 while intel usually works from first release when the mobo brand quality is not underestimated.