K9a2 platinum cpu support
Support For K9A2 Platinum.MSI K9A2 Platinum AMD FX Motherboard | HotHardware
Welcome to the MSI UK website. MSI designs and creates Mainboard, AIO, Graphics card, Notebook, Netbook, Tablet PC, Consumer electronics, Communication, Barebone. K9A2 Platinum V2 (MS) AMD Athlon 64/FX/X2, Athlon II, Athlon II, Athlon X2, Phenom II, Phenom, Sempron, Sempron X2 ; Apparently, it doesn’t support quad core processor. The best processor for this motherboard is the Comparer Intel Core 2 Extreme Processor X (expensive if you found it) or search for a Intel Core 2 Duo E [ Aug 19, · Please see support records for details. To determine part numbers for the MSI K9A2 Platinum (MS) motherboard, we use best guess approach based on CPU model, frequency and features. In some cases our guess may be incorrect. Please use specifications from the compatibility list to confirm processor’s part number before ordering.
K9a2 platinum cpu support.Intel® Xeon® Platinum Processor (33M Cache, GHz)
– The processor may or may not be supported. Please see support records for details. To determine part numbers for the MSI K9A2 Platinum V2 (MS) motherboard, we use best guess approach based on CPU model, frequency and features. K9A2 Platinum. • AMD ® Phenom/Athlon/Sempron in the Socket AM2+ package. Please refer to CPU Support for compatible CPU; the above description is for reference only. – Supports a maximum memory size up to 8GB. • 2 PCI slots, support V/ 5V PCI bus Interface. MSI K9A2 Platinum – motherboard – ATX – Socket AM2+ – AMD FX overview and full product specs on CNET. 1 x CPU 4 x DIMM pin ( V) AMD CrossFireX technology support .
K9A2 Platinum V2
MSI K9A2 PLATINUM V2 SERIES USER MANUAL Pdf Download | ManualsLib
MSI K9A2 Platinum AMD 790FX Motherboard
Support For K9A2 Platinum V2
Intel® Xeon® Platinum L Processor (M Cache, GHz) Product Specifications
New materials for thermoelements?
Scientists working for the military in North Carolina have discovered an efficient new way of thermoregulation that could make refrigerators obsolete.
The basis of the new method is the well-known Peltier effect, which ensures a stable temperature difference between two semiconductors through which an electric current flows. A new technology that scientists have come up with makes it possible to compose a Peltier element from many thousands of p or n type semiconductors.
According to theory, with the help of such systems it is possible to cool or heat (depending on the direction of the current) anything 20,000 times faster than we do now. The maximum heating temperature for such a device is not high, but it has great prospects in cooling. In addition, new materials can be used in the conversion of thermal energy into electrical energy, and, moreover, their efficiency should be much higher than what we have now.
I don’t know how far from reality it is, but the prospects are really bright.
P.S. It seems that in the presence of a cooler made of such a Peltier element, processor design engineers will have to worry less about the heat dissipation of their designs. 🙂
Source: Office of Naval Research