crwdns2894164:0crwdne2894164:0

crwdns2892164:06crwdne2892164:0

crwdns2892146:0Andrew Optimus Goldheartcrwdnd2892146:0crwdne2892146:0

crwdns2875918:0crwdne2875918:0 crwdns2892120:0crwdne2892120:0 Andrew Optimus Goldheart

crwdns2892174:0crwdne2892174:0
crwdns2892176:0crwdne2892176:0
crwdns2892148:0crwdne2892148:0

crwdns2892168:0crwdne2892168:0

[* black] Greedy for more chips, we decide to give the logic board [http://youtu.be/qf8_tn7lBIc|the clamps|new_window=true]. What's our reward? Let's take a look-see:
- [* red] 1.6 GHz Intel [http://ark.intel.com/products/84984/Intel-Core-i5-5250U-Processor-3M-Cache-up-to-2_70-GHz|Core i5 5250U|new_window=true] Processor, with integrated Intel HD Graphics 6000
- [* orange] Intel [http://ark.intel.com/products/76721/Intel-DSL5520-Thunderbolt-2-Controller|DSL5520|new_window=true] Thunderbolt 2 Controller
- [* yellow] Texas Instruments [http://www.ti.com/product/CSD87350Q5D/technicaldocuments|58873D|new_window=true] Synchronous Buck NexFET Power Block MOSFET Pair
- [* green] ON Semiconductor [http://www.onsemi.com/pub_link/Collateral/NTMFD4902NF-D.PDF|4902F|new_window=true] RBV1L Dual N-Channel Power MOSFET with Integrated Schottky
+ [* red] 1.6 GHz Intel [http://ark.intel.com/products/84984/Intel-Core-i5-5250U-Processor-3M-Cache-up-to-2_70-GHz|Core i5 5250U|new_window=true] processor, with integrated Intel HD Graphics 6000
+ [* orange] Intel [http://ark.intel.com/products/76721/Intel-DSL5520-Thunderbolt-2-Controller|DSL5520|new_window=true] Thunderbolt 2 controller
+ [* yellow] Texas Instruments [http://www.ti.com/product/CSD87350Q5D/technicaldocuments|58873D|new_window=true] synchronous buck NexFET power block MOSFET pair
+ [* green] ON Semiconductor [http://www.onsemi.com/pub_link/Collateral/NTMFD4902NF-D.PDF|4902F|new_window=true] RBV1L dual N-channel power MOSFET
[* icon_note] Although [http://en.wikipedia.org/wiki/Broadwell_(microarchitecture)|Broadwell|new_window=true] is mainly a 14 nm die shrink of the existing [http://ark.intel.com/products/codename/42174/Haswell|Haswell|new_window=true] microarchitecture, it is up to 30% more power efficient.