Quote:
Originally Posted by arbitrabbit
Okay, I have done some extensive calculations and base voltage is 0.6v (VDD1 OFF) and each increment after that is equal to 0.0125V. So 0x1e equates to 0.975v
|
if this is correct and current = approx frequency * voltage^2 then
Code:
stock:
1e = 0.975V x 125 MHz = 119
26 = 1.075V x 250 MHz = 289
30 = 1.200V x 500 MHz = 720
36 = 1.275V x 550 MHz = 894
3c = 1.350V x 600 MHz = 1094
3c = 1.350V x 720 MHz = 1312
overclocked:
3c = 1.350V x 750 MHz = 1367
3c = 1.350V x 810 MHz = 1476
3c = 1.350V x 850 MHz = 1549
3c = 1.350V x 900 MHz = 1640
3c = 1.350V x 950 MHz = 1731
ideal kernel:
1e = 0.975V x 500 MHz = 475
21 = 1.012V x 550 MHz = 564
26 = 1.075V x 600 MHz = 693
2d = 1.163V x 700 MHz = 946
2d = 1.163V x 750 MHz = 1014
30 = 1.200V x 810 MHz = 1166
30 = 1.200V x 850 MHz = 1224
36 = 1.275V x 900 MHz = 1463
36 = 1.275V x 950 MHz = 1544
3c = 1.350V x 1000 MHz = 1823
43 = 1.438V x 1100 MHz = 2273
48 = 1.500V x 1150 MHz = 2588
so 810@ideal approx 600@stock