Intel Power Consumption Then and Now

By Patrick Schmid
published

Core 2 Duo E6850

Core 2 Duo E6850 is Intel's current dual core top model. It is based on the Core microarchitecture, which was released to the desktop space in the summer of 2006. At 3.0 GHz core clock speed, utilizing two processing cores and featuring 4 MB shared L2 cache as well as a FSB1333 bus speed, it provides high performance and an adequate power requirement that stays within the 65 W power envelope. You cannot upgrade an existing Pentium D or Pentium 4 system with a Core 2 Duo processor, so you will have to purchase a new motherboard supporting the new processors, as well as DDR2 or DDR3 memory.

Core 2 processors will reduce their multiplier to 6x in idle mode with Enhanced SpeedStep enabled. In the case of a 333 MHz interface speed (FSB1333) this results in 2.0 GHz idle clock speed. Both Core 2 Duo E6850 and Core 2 Extreme QX6850 finished the complete SYSmark 2007 run within one hour and ten minutes, but the dual core processor required significantly less power - 106 watt-hours versus 131 watt-hours for the quad core, which ran at the same core clock speed.

Patrick Schmid
3 Comments Comment from the forums
  • hkazemi
    The 'SYSmark Performance per Watt' can be misleading when comparing the dual and quad core processors, particularly when looking at other types of loads that make better use of the additional cores. In particular, look at x264 encoding, where a quad-core processor offers nearly double performance. See the graysky's articles on TechARP for actual charts and tables:
    http://www.techarp.com/showarticle.aspx?artno=442
    http://www.techarp.com/showarticle.aspx?artno=520

    For a load that will use all processors, I believe that testing will show better performance per watt for a quad core compared to a dual (or even single) core because there is little or no additional overhead from the motherboard or powersupply or hard drives when adding an additional core.

    It may be easier to understand this by comparing running 2 separate PCs with dual core CPUs in them vs. running a single PC with a quad core CPU. The quad core system won't need another motherboard, power supply, fans, drives, etc. so all those items are areas of power savings.

    From the published tests above, the 2 extra cores consume 195-132=63 watts at max load and 94-77=17 watts at idle. That is in contrast to adding a 2nd system identical to the E6850 testbox which used 132 watts at max and 77 at idle.

    A simplistic scaling using a spreadsheet, and assuming that performance doubles going from dual to quad cores (reasonable for x264 encodes), shows that:

    state cores watts perf/watt perf perf/core perf ratio
    Idle 2 77 1.46 112.42 56.21 1
    Idle 4 94 2.391914894 224.84 56.21 1.638
    Avg 2 90 1.46 131.4 65.7 1
    Avg 4 112 2.346428571 262.8 65.7 1.607
    Max 2 132 1.46 192.72 96.36 1
    Max 4 195 1.976615385 385.44 96.36 1.354

    In other words, using the system power numbers given, the quad core can be 35% to 64% more efficient than using a dual core, if given an appropriate load. A look at the Sysmark benchmark scores will show you that it did not scale up very much going from dual to quad.
    Reply
  • archp2008
    You said, "You cannot upgrade an existing Pentium D or Pentium 4 system with a Core 2 Duo processor, so you will have to purchase a new motherboard supporting the new processors, as well as DDR2 or DDR3 memory." My wife's P4d is on a Fox 45cmx mobo. The E6850 is listed on the support list. I was thinking of upgrading to the E6850 dual core.
    Reply
  • you sure about pentium D 3.00 GHz having TDP of 215 Watt
    Reply