If the Phase section is anything like the Liquid Cooling section, I'm going to take some lumps for this... but what the hell.
Intro
I somehow managed to get my hands on an OCZ Cryo-Z to play with and verify the new LGA775, LGA1156 and LGA1366 mount plate for Frozen CPU. I am a complete phase noob, so when I got the FedEx tracking information I came right to the Phase section, read through stickies and lots of threads... felt much more prepared, but still a complete noob and nervous as can be.
I didn't believe it until I opened the box... the OCZ Cryo-Z is real and doesn't just exist on a web site. I had heard a variety of different things. But the last I knew was they were available from a retailer in California and the units were pickup only. Now Frozen CPU is making an LGA775 through LGA1366 mount plate. Once I finally got the box open, directly to the manual... quick specification grab from the manual:
- Compressor: ZEL GQY70AD
- Refrigerant: R507
- Max. Stable Load: 120W
- Idle, 0W: -45ēC to -55ēC
- Dimensions (DwWxH): 18.0in x 8.2in x 10.1in
- Weight: 23 kg / 50.6 lbs
Going over the specs of the unit and absorbing what I could in the phase section here, I was trying not to get my hopes to high for the Cryo-Z. After all, the unit was originally planned for the Core 2 and LGA775 platforms. Yeah... guess they didn't make it. Enough negativity out of me regarding the vaporware status of the OCZ Cryo-Z, but I seriously imagined they were all destroyed or never really existed.
After lugging the box from my doorstep down the stairs to the lab, I was surprised by the shock watch stickers all over, and quickly verified all was good. Unit is out, coming with quite a bit of insulation, backplate, mount screws/springs, manual. Was going to be a few days before the Frozen CPU i5/i7 mount plate and backplate were going to arrive, figured I should figure out how to take the collar and plastic stock mount plate off. I don't have any available LGA775 machines to test with quickly either.
Collar/Plate removal
After a day or two of walking by the Cryo-Z, thinking about how I was gonna get that collar and plate off it was finally time to actually figure it out. I started by twisting, seeing if the collar would screw off... nope. Then I started moving the foam at the head around, sure enough there is a c-clip holding the collar back from slipping off. Quick job of the needle nose, pulling one of the side out, then gently pulling the c-clip loose. There ya go, collar should come right off.
Core i5/i7 Mount Plate
I hinted at this above, but want to make sure everyone caught it... the Cryo-Z does not natively support Core i5 (LGA1156) and Core i7 (LGA1366). The Cryo-Z was originally planned for Core 2 and LGA775. Frozen CPU went and whipped up a mount plate that is a perfect replacement for the plastic stock plate. The Frozen CPU plate is aluminum, with the LGA775 to LGA1366 mount holes, use the stock plate if your rocking AMD. Frozen CPU includes a LGA775 to LGA1366 backplate as well, the included 6-32 screws work just fine with the LGA1156 and LGA1366 backplate from Frozen CPU.
Now that we've got the stock plate off, I've got to clean that copper head before going any further. Looks like sitting in a warehouse for 2 years aged the copper surface a bit. Vapor's method of vinegar and salt, a few dips for roughly 90 secs, polished with a brush in between dips. Finish it off with a polish from the Krazy Kloth. With the copper head looking usable again, slip the Frozen CPU mount plate over the copper head and insulation, push the collar back on and ready the clip. You'll notice a small notch/extrusion in the recess where you have to secure the clip. That extrusion is where you want the opening of the c-clip. I was able to get one spot started in the recess and just used my thumb to work the clip back in securing the collar from slipping over the copper head. If you end up with some pinched insulation, just use your fingers to work the insulation out and the clip under.
Bench Setup
With the Cryo-Z all dressed up, time to focus on the board. I didn't get fancy, just used the foam insulation included and called out in the manual, not bad as far as instructions go, some things are left to draw your own conclusion. I ended up cutting quit the sliced up piece of insulation for the board... but it works. Now with the board insulated, have to craft some insulation for the head. For some crazy reason, I forgot to photo my hack job of 3 pieces of 3/8" foam. I cut it for the collar diameter, marked holes and used a drill bit to punch out the mount screws. I went for 3 pieces of 3/8" foam, seemed to do the trick quite well.
Nothing fancy on the bench for this one, just the same rig used for round 1 and 2 of CPU block testing, Prime95/Bench stable with at least 4.2GHz at 1.315v Vcore:
- CPU: Intel Core i7 920 D0
- Motherboard: Asus Rampage II Extreme
- RAM: Corsair DDR3-1600 6GB
- GPU: EVGA GTX260 SP216
- HDD: Samsung ST3250410AS
- PSU: Corsair HX1000
Popping that sub 0ēC cherry
So I didn't completely kill the weekend just on reading, copper head cleaning and mount plate photos... I actually got to make a first pass on clocks. Most important of all, I got to break my sub 0ēC cherry and that has to be the best part of the bench log. However, I have a lot of clocking to do... I can't just rely on the brute force method (raise Volts, raise bclk until it works) of clocking, time to actually learn and tweak. If the investment (time and money) in sub zero is going to be worth it, time to up the OC'ing game. First, lets revisit that whole expectations thing and remember the Cryo-Z was originally designed for Core 2 heat loads, Core i7 920's can reach well above 250w of heat... OCZ only spec'd a 120w compressor. So don't expect to see DTS sensor temps of -60ēC, that's just not going to happen with a Cryo-Z.
I have 3 of the many screen shots to come as I continue running the Cryo-Z and tweaking. But, the first shot shows 100% BOINC load on 8 threads running 4.2GHz with 1.2875V bios set. Next screen is just to show how bumping the Vcore up by roughly 0.1V means to heat load. Now, please remember that RealTemp and the Core DTS sensors on die aren't great at low and below 0ēC temps are inaccurate --BIOS was -105ēC to 18ēC-- so you can't rely on Tjunction or Tcase for relatively accurate temps. Even still, I'm using RealTemp as my proof of running fully loaded and maintain a temperature colder than 0ēC... don't take my small victory.
Once the initial twitch of being below zero and the expense I could accumulate in case of disaster occured, I gave in to the text messages from Vapor and decided to start running a few benchmarks. Sad thing is, I only got my 3DMark Vantage score baselined and had to call it a night and weekend.
At the present, time to change the Blue Bench (skinnee labs network name) back over to data logging for radiator tests... but I'm leaving as much in place as possible to get benching again before and during the Thanksgiving holiday. I really want a 15k Vantage score with this setup, and I'm having far too much fun just experimenting with something different, even though it isn't an sdumper unit approaching -100ēC... but I have the sense I'll be wanting a larger unit in the not so distant future.
Once again, thanks for the stickies and vast amounts of information in the phase section. You have no idea how valuable it was and will be for me as I cut my teeth on Phase.
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Originally Posted by malkiewicz
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