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You guys might be able to help me with the conundrum I've got myself in. I recently got myself a job, and now have a stable source of income coming in and thought it was about time to buy a new computer. I went to the apple website and configured the one I wanted, but that was all too expensive, so I went down the route of making a hackintosh. I just recently bought an old Macintosh Classic 2 PC, which I will be reworking into the case of the computer. But I'm still having issues choosing a motherboard. Where could I find a list of micro ATX and mini ITX motherboards that are compatible with coffee lake to create a hackintosh with?
Hi guys, i am trying to install Mavericks on this ECS motherboard, sadly i can't even get pass the string in the bios. the only thing which I can set is the Sata configuration to ACHI. i can't seem to find the other settings such as 64bit etc etc. can someone guide on as the bios setting in this motherboard ? t5hank you
I built a cylindrical case with high grade aluminium that accommodates standard mini-ITX parts. We factored in thermals, cable management, and small form factor design. Please see my other forum on how I built it. http://www.osx86.net/forums/topic/23990-building-a-macpro-late-2013-case-cylinder/ Alex
Nearly a year ago, we started to build a case that was cylindrical in design that could be used with standard PC parts. It was a challenge to get all the parts inside the cylindrical case as it is not a box. We considered thermals, cable management, positioning of mobo / gpu / psu, and the ease of accessibility of parts. We used all the industry standards for PC parts and built around that. Today, I finally have come up with a design and I hope it will help others to that are looking for a similar solution that is well thought and complete. Here are some of the picture of the final product: Stage 1: Prototype 1 (Standard PC Parts) - January 2015 Parts: · Silverstone 450W SFX PSU Gold · MSI 780 GTX Gaming · MSI ITX motherboard · 16 GB Ram · 500 GB 2.5 inch Segate HDD · intel i7 4770k CPU We started to look at all these parts and measured them piece by piece. I had a friend who is a CAD designer and he helped me with drawing all this up in CAD ... Thanks buddy ... After drawing the CAD it was time to have these parts CNC out of aluminum ... it took forever to mill out the metal.. and very costly .. but in the end it was worth it. The most challenging part was to have a case that didn't have lines on the top of the case that was visible. We managed to do that with a combination of different methods. At the end of the process of cutting the metal, we put all the parts in. It looked great, but after looking at it for 5 minutes something didn't feel right.. The parts felt unorganized and cables were coming from everywhere. There was no cable management. Parts where not easy to put in and out. We stress test it with the case closed using Prime95, and decided that we need a fan to help aid the airflow. Stage 2: Prototype 2 (Fine Tune) - April 2015 Parts: Same as Prototype 1 plus a new 140mm Thermalright fan Three months later we used the existing outer case and redesign the inside. We 3D printed the front panel and gave it a paint job in bling bling gold. Also we included a 140mm fan on top of the case. Temps dropped and was quite cool inside the case. The fan on top pulling the air our of the case made a difference. Hot air naturally rises so the rate of hot air coming out was quicker. Putting it all together and analyzing it, I was still not satisfied and decided as much as I wanted a full size GPU in the case, more powerful cards were coming out in mini-ITX like the 970 GTX. I felt the case was too tall and it didn't look right. Stage 3: Prototype 3 (Making it shorter) - June 2015 Parts: Same as Prototype 2 but removed 780 GTX and replaced it with mini ITX 970 GTX I called my buddy the CAD guru to come over and asked him to recalculate every part and try to make this case smaller. During this process I came up with an idea that made the cables easier to manage. It was to mount the GPU on to a door and when you open the door you have access to HDD and cables for power and SATA. It changed everything !!!! It made inside the case look more appealing instead of seeing cables everywhere. Actually I have never seen this in any other case. We had another go at it and once we finished doing a quick prototype I was finally satisfied. Stage 4: Final Version - September 2015 Parts: Same as Prototype 3 We did a quick 3D print of most of the parts and CNC a new case and bottom. In the process I asked my buddy to make the door follow the contour of the round top. We sand down all the parts and put it all together. The result was amazing. We final made a version that was pleasing to the eye inside out, fix the problems with the thermal and cable management. Also we created a special container for the power supple which helps direct the air from the bottom into the right area leaving no place for hot spots. Now it was time to create a polished version painted, assembled, and tested. Stage 5: Final Version Part 2 - October 2015 Now we had a workable version we all liked, the next step was to recreate it with precision. The result was amazing. After a year on working on this case it has finally become a reality. I love the design and the fact I can put my own parts in it. I like the fact that I can keep upgrading it and most of all we used very high quality materials to build it using high grade aluminum and electronically painted it titanium grey and gold. I put a lot of hard work into this and thank everyone that helped me. You can see all progress on my case at: http://www.dunecase.com Thanks for reading. If your interested in more details, I am happy to share my experience. Alexander Gomez