Overclocking the Xeon 5440 processor on the Ga-EP35-DS3L motherboard

Overclocking the Xeon 5440 processor on the Ga-EP35-DS3L motherboard.

Help overclock the xeon 5440 processor - on the Ga-EP35-DS3L motherboard.

I searched the entire Internet, but there was still no overclocking on such a motherboard, maybe someone already did this, or they can tell you how to

Overclocking the Xeon 5440 processor on the Ga-EP35-DS3L motherboard

Immediately I want to warn ACCELERATION YOU DO AT YOURSELF AND RISK !!!!

on this mother, the e5450 took 3.6 GHz from me, the x5470 took 4.0 GHz

conditions replacement of a radiator on a chipset, radiators on mosfets of power circuits, and DDR2 800 memory modules, processor cooling not lower than 160-200 watts, a good power supply unit depends on the video card as well. (to me with 750ti 550watt 12V 38 A was enough for the eyes)

the factor is left native in this case x8.5

set the processor bus frequency to 400 MHz

PCI e frequency 100 MHz

we set the memory to 667 (it will automatically rise to 400 with the processor bus and the memory will be 800)

CPU and memory voltage do not touch enough runoff values.

total 3.4 ghz

The architecture of server processors is aimed at managing network resources as efficiently as possible and exchanging data with server equipment (network cards, disks, RAID controllers, etc.). Desktop / laptop processors are designed more for "household" multitasking - to run many programs and browsers / tabs at the same time. They are also designed to move data (slowly) from a variety of low-speed peripherals: keyboards, mice, USB devices, external hard drives, CD and DVD and BluRay drives and more. These processors are designed to do different things or a lot of small things for one user, hence the name personal computer.

Four cores diluted with Hyper-Threading almost always turn out to be more effective in games than eight low-frequency “pots” in Xeon, which cannot even be overclocked (locked multiplier, near-zero bus overclocking). And after all, “Zions” have advantages by which they compensate for their multi-core slowness in games! For example, the ability to block multiprocessor configurations with which video / music / photo encoding and CAD modeling is much faster than in the top-end Core i7 Extreme. Support for register memory with ECC, for example, allows you to fix errors "on the fly", and this comes in handy with a large uptime (the server!). Support for horse-drawn RAM and a huge number of cores will also come to the court, when the server needs to process incoming connections as quickly as possible. But all this is almost useless in a home PC.