Hi All,
In response to the discussion about power savings with memory regions features following measurements are done.
Title: On a system with 2GB memory , 1GB is static and the other 1GB in various power states.
Brief environment description: Samsung smdk-exynos board is used for this work and full board level power consumption is measured that comprises of cpu and other components. It has 2 DMC's(Dynamic memory controller) with each supporting 1 GB DDR3 memory. Power characteristics of DMC0 controlled memory remain same but memory controlled by DMC1 is changed to 4 different power states. The following numbers describe the maximum power savings measured after executing the software from DMC0 controlled memory which changes the power states of DMC1 controlled memory. Here the actual numbers are not mentioned but the percentage power savings is shown in reference to the change in overall power consumption. The memory region patches are expected to facilitate transition of memory into into one of the following low power states.
1) Percentage power savings when DMC1(1GB) moved to self refresh mode from idle/unaccess mode= 2.69% 2) Percentage power savings when DMC1(1GB) moved to precharge mode from idle/unaccess mode= 3.23% 3) Percentage power savings when DMC1(1GB) clock is gated = 6.32%
The above power savings is indicative of the benefits that memory regions could provide in this platform.
Thanks & Regards, Amit Daniel Kachhap Samsung India s/w operations, Bangalore
On Sat, May 28, 2011 at 1:26 PM, Andrew Morton akpm@linux-foundation.org wrote:
On Fri, 27 May 2011 18:01:28 +0530 Ankita Garg ankita@in.ibm.com wrote:
This patchset proposes a generic memory regions infrastructure that can be used to tag boundaries of memory blocks which belongs to a specific memory power management domain and further enable exploitation of platform memory power management capabilities.
A couple of quick thoughts...
I'm seeing no estimate of how much energy we might save when this work is completed. But saving energy is the entire point of the entire patchset! So please spend some time thinking about that and update and maintain the [patch 0/n] description so others can get some idea of the benefit we might get from all of this. That estimate should include an estimate of what proportion of machines are likely to have hardware which can use this feature and in what timeframe.
IOW, if it saves one microwatt on 0.001% of machines, not interested ;)
Also, all this code appears to be enabled on all machines? So machines which don't have the requisite hardware still carry any additional overhead which is added here. I can see that ifdeffing a feature like this would be ghastly but please also have a think about the implications of this and add that discussion also.
If possible, it would be good to think up some microbenchmarks which probe the worst-case performance impact and describe those and present the results. So others can gain an understanding of the runtime costs.
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