Khaos
30 Nov 2008, 11:39pm
There have been a couple of articles looking at the power requirements of Core i7 processors using various frequencies and VCore settings, but none of them have broken down the results into simple W/Clk and W/VCore factors. That's what I set out to do here in order to give a very general assessment of the Core i7's power requirements, and thus thermal properties.
As the basis for my analysis, I used the power draw results from this article (http://enthusiast.hardocp.com/article.html?art=MTU4NSwxLCxoZW50aHVzaWFzdA==) on HardOCP.
This table shows some figures I was able to extrapolate from their results:
http://icrontic.com/forum/attachment.php?attachmentid=26391&d=1228084746
The values that I feel are most important are highlighted, and they are the average wattage delta per frequency Mhz (0.0366) and per VCore Volt (329.66) constants.
These values represent ballpark wattage deltas for a given Core i7 frequency and vcore on an ASUS Rampage II Extreme.
Using the values, we can assert the following function for overclocked TDP:
OC_TDP = BASE_TDP + (ASUS_EFFICIENCY * ((FREQ_DELTA * 0.0366) + (VCORE_DELTA * 329.66)))
So... Next order of business: How efficient is the PWM circuit of an ASUS Rampage II Extreme running at 100% load? Once that bit is plugged in, we should have ourselves a reasonably accurate Core i7 TDP calculator for any platform.
One additional note:
Technically, processors become less efficient the higher their internal frequency. The wattage/Mhz deltas in the spreadsheet illustrate this, and any final model should take into account the compounding loss in efficiency as frequency increases. The spreadsheet does do this currently for projecting the (d)W/(d)Mhz factor for the 1.35V-3.8Ghz data item.
If you are curious as to particulars, you can download the spreadsheets (attached). I commented a lot of the cells to explain my methodology.
Let me know if you guys spot any errors, or if anybody knows the Rampage II PWM efficiency figure.
As the basis for my analysis, I used the power draw results from this article (http://enthusiast.hardocp.com/article.html?art=MTU4NSwxLCxoZW50aHVzaWFzdA==) on HardOCP.
This table shows some figures I was able to extrapolate from their results:
http://icrontic.com/forum/attachment.php?attachmentid=26391&d=1228084746
The values that I feel are most important are highlighted, and they are the average wattage delta per frequency Mhz (0.0366) and per VCore Volt (329.66) constants.
These values represent ballpark wattage deltas for a given Core i7 frequency and vcore on an ASUS Rampage II Extreme.
Using the values, we can assert the following function for overclocked TDP:
OC_TDP = BASE_TDP + (ASUS_EFFICIENCY * ((FREQ_DELTA * 0.0366) + (VCORE_DELTA * 329.66)))
So... Next order of business: How efficient is the PWM circuit of an ASUS Rampage II Extreme running at 100% load? Once that bit is plugged in, we should have ourselves a reasonably accurate Core i7 TDP calculator for any platform.
One additional note:
Technically, processors become less efficient the higher their internal frequency. The wattage/Mhz deltas in the spreadsheet illustrate this, and any final model should take into account the compounding loss in efficiency as frequency increases. The spreadsheet does do this currently for projecting the (d)W/(d)Mhz factor for the 1.35V-3.8Ghz data item.
If you are curious as to particulars, you can download the spreadsheets (attached). I commented a lot of the cells to explain my methodology.
Let me know if you guys spot any errors, or if anybody knows the Rampage II PWM efficiency figure.