[H]ard|OCP's Distributed Computing Guides: (source)

• BOINC client optimized for multisocket machines [Linux]
• [H] Ubuntu DC Appliance -- alternative approach to Linux crunching/folding
• BOINC configurations and How To's
• Supermicro H8QGi/6 and H8QGL Next Generation OC BIOS
• Watercooling Component Guide for a 4P
• CM Hyper 212+ - Alternative G34 Mounting Method
• 2P and 4P system guide

Overclock.net BOINC Guides and Tutorials: (source)

• BOINC ATI/AMD support thread
• Installing BOINC on windows 7/8/8.1
• Installing BOINC on Ubuntu from the terminal
• Installing BOINC on Ubuntu using the Berkeley Installer
• GOOGLE SPREADSHEET-BOINC CPU/GPU WU times & points 04-06-14
• BOINC Essentials Thread

Misc. BOINC Guides and Tutorials:

• OcUK BOINC FAQ
• Techpowerup: Guide to running multiple GPU work units
• Installing and Running the BOINC client on Unix
• AMD 4P / Quad Socket Design and Build
• Home Rack Garage Build - Beating the Folding Heat of Summer

Cooling and power best practices for distributed computing projects

1. Choose a quality power supply

• Power supply with higher 80 plus rating will provide lowest cost of operation, as well as produce less heat
• From highest(most efficient) to lowest(least efficient): 80+ Titanium, 80+ Platinum, 80+ Gold, 80+ Silver, 80+ Bronze, and 80+
• Reputable brands such as Corsair, Antec, BeQuiet or Seasonic have proven to operate at high loads for long periods of time

2. To reduce the chances of burning board connectors or melting wires:

• Avoid EPS splitters to power motherboards
• Avoid using PCI-E power splitters
• If making splices always solder
• Male PCI-E ends can be re-pinned to EPS.
• Use high quality powered riser cables.

3. Use duty-sized cords

• Use cord included with PSU
• Ensure any surge protector has a least 12ga wire when running multiple machines from one surge strip
• Do not ever plug a surge bar into another surge bar
• Avoid any light gauge cables, especially on high-draw applications
• Avoid the use of extension cords

4. Cooling

• Always ensure you have air flow over and under motherboard. Position these fans to the edge of the board. You want a good flow over top and bottom of board.
• Ensure ambient air movement around GPUs
• When possible, apply heat sinks to VRMs. Cool with fans
• If not using a case (naked) do use stand offs to suspend board off of any broad surfaces
• Use larger coolers to dissipate more heat
• PWM fans can ramp up/down based on heat, minimum duty cycles can be specified on some motherboards.
• Using software (Windows) to manual control or monitor GPU temps or adjust GPU fan, such as ATI’s Catalyst control center, Nvidia control panel, Trixx(ATI), MSI Afterburner (ATI & Nvidia), or EVGA Precision-X (Nvidia)
• Monitor ambient temps using a thermometer (IR thermometers can be used to monitor CPU sockets, boards, chips, and other devices)

5. Outlets and circuits

• Do be mindful of breaker or fusing limits. If a breaker trips on a regular basis, REDUCE THE LOAD.
• It is recommended to use dedicated breakers for high draw applications (multiple 4p or multi GPU machines)
• For "farm" DC projects, consult an electrician for your application. We do not advocate DIY electricians.
• A Kill A Watt can be used to measure the draw in watts or amps to avoid overloading circuits.