Fixing Missing Performance Counters from Server Manager


You are attempting to configure Windows Server 2012 Performance Monitor to collect data in order to analyze CPU and memory load performance of a SharePoint 2013 web front end.  In Performance Monitor, you select the default Server Manager Performance data collector set, and then click the Start button.  You then experience the error message:

When attempting to start the Data Collector Set the following system error occurred: The task is disabled.


  1. Launch Task Scheduler using an account having local Administrator permissions.
  2. In the left task pane, expand the tree like so: Task Scheduler Library > Microsoft > Windows > PLA.
  3. Select the PLA group.  Note that the status of the Server Manager Performance Monitor is Disabled.
  4. In the right Results pane, right-click Server Manager Performance Monitor.  A menu appears
  5. Click Enable.  Note that now the status of the Server Manager Performance Monitor item is Ready:

Linux Laptop Power Tuning with Powertop

There’s an easy way to reduce power usage on Linux laptops using Intel’s Powertop utility.

Powertop polls your existing power usage and recommends tunings for your hardware. I’ll show you how to quickly make the most of your battery life using this tool as well as tuned and cpufreq.


Install Powertop
I’m using Fedora for these examples, but most distributions will have this available – adjust as needed.

dnf install powertop -y

Note Normal Pre-tune Power Usage
Run powertop to see normal power usage, make sure you are not connected to a power source.



Poll Usage and Record
Next you’ll want to run powertop with the –calibrate and –html flag while not connected to a power source. Note that –calibrate will disconnect you from wifi temporarily and you might see some screen flickering.

powertop --calibrate
powertop --html

You’ll see some output like below, when it’s completed you’ll have a powertop.html file wherever you ran the program.

Loaded 750 prior measurements
 RAPL device for cpu 0
 RAPL Using PowerCap Sysfs : Domain Mask f
 RAPL device for cpu 0
 RAPL Using PowerCap Sysfs : Domain Mask f
 RAPL device for cpu 0
 RAPL Using PowerCap Sysfs : Domain Mask f
 Devfreq not enabled
 Preparing to take measurements
 unknown op '{'
 Taking 1 measurement(s) for a duration of 20 second(s) each.
 PowerTOP outputing using base filename powertop.html

Output and Recommendations
Point a browser to the powertop.html file and you’ll see things like status, power usage, processes using the most power and lastly tuning. The tuning tab is what we’ll focus on.



Apply Tuning Recommendations
There’s several options you can pursue here. You can either manually copy/paste the tuning recommendations from the generated HTML tunings above or you can use lynx and a bit of sed to spit them out and apply them all. Lastly, you can just set powertop to use the –auto-tune feature (though you’ll need to run it at boot everytime). It’s best to review them all prior.

Note: you might want to forgo any USB suspend options if you use an external keyboard or mouse as USB is always slow to resume and this causes issues for some people.

Option #1 – Apply Tuning Recommendations Permanently

In this example I’ll show all tunings in an easy, copy/paste fashion to make the most of your time.

Convert HTML to TXT

lynx -dump -width 200 powertop.html > powertop.txt

Strip out Recommended Power Tunings

cat powertop.txt | sed 's/^.*echo/echo/' | \
sed 's/^.*ethtool/ethtool/' | egrep -B3 "echo|ethtool|hdparm" \
| egrep -v "Software|Description|Script" > /tmp/tuning.txt

Now review what’s been captured, you can paste these them all to apply them or choose individually as you prefer.

cat /tmp/tuning.txt | less

Note the tuning recommendations..

echo '1500' > '/proc/sys/vm/dirty_writeback_centisecs';
echo '1' > '/sys/module/snd_hda_intel/parameters/power_save';
echo '0' > '/proc/sys/kernel/nmi_watchdog';
echo 'auto' > '/sys/bus/i2c/devices/i2c-3/device/power/control';
echo 'auto' > '/sys/bus/i2c/devices/i2c-4/device/power/control';
echo 'auto' > '/sys/bus/i2c/devices/i2c-1/device/power/control';
echo 'auto' > '/sys/bus/i2c/devices/i2c-2/device/power/control';
echo 'auto' > '/sys/bus/i2c/devices/i2c-0/device/power/control';
echo 'auto' > '/sys/bus/usb/devices/8-1/power/control';
echo 'auto' > '/sys/bus/usb/devices/3-2/power/control';
-- snip --

Review the tunings.
If you like how this looks, you can also make a script to apply it all instead of pasting it.

echo '#!/bin/bash' > /tmp/
cat powertop.txt | sed 's/^.*echo/echo/' | sed \
's/^.*ethtool/ethtool/' | egrep -B3 "echo|ethtool|hdparm" \
| egrep -v "Software|Description|Script" >> /tmp/

Run the Script

chmod +x /tmp/
sh /tmp/

Option #2 – Auto Tune
Powertop provides the option to simply apply all the recommended settings for you, but they will be lost on boot.

powertop --auto-tune

Persist after boot
You can use the following systemd unit file to simply make powertop a systemd-controlled service

cat > /etc/systemd/system/powertop.service << EOF
Description=Powertop tunings

ExecStart=/usr/bin/powertop --auto-tune

systemctl enable powertop

Running Powertop
You can run powertop manually at any time to get a feeling for your battery usage. It might be a good idea to see before/after improvement. For comparison I get an average of 6 to 8W of power usage under a normal workload on my Lenovo x240 running Fedora 22 on Kernel 4.2.7. I believe I average around 6-9W, down from 10-12W with no tuning – quite an improvement!


Tuned: Further Savings
You can also use a tuned profile to provide additional power management savings.

Install tuned and Profiles

dnf install tuned-profiles-compat tuned -y

Enable Tuned and Set Profile

systemctl enable tuned.service
systemctl start tuned.service
tuned-adm profile laptop-battery-powersave

You can list other profiles available and see what works best, just “powersave” is good too.

tuned-adm list

Alternative to tuned profiles – there is also a command called powertop2tuned that will generate a tuned profile based directly on your powertop –html output, you can specify an existing html file or run it without options and it will create one. I just use the laptop-battery-powersave tuned profile instead. Below is an example where powertop-settings is the new tuned profile you’d want to use.

powertop2tuned powertop-settings
Running PowerTOP, please wait...
Generating shell script /etc/tuned/powertop-settings/
Generating Tuned config file /etc/tuned/powertop-settings/tuned.conf

Now apply the tuned profile based on powertop settings, you’d use what you named it above.
More info can be found here.

tuned-adm profile powertop-settings

Cpufreq – Further Tuning
Lastly, you will want to enable cpufreq so you can have CPU frequency scale up and down based on demand – this will save a noticable amount of power basd on the powersave profile.

Install cpufreq-utils

dnf install cpufreq-utils -y

Use Powersave Options

cpupower frequency-set -g powersave

Check your settings

cpupower frequency-info
analyzing CPU 0:
  driver: intel_pstate
  CPUs which run at the same hardware frequency: 0
  CPUs which need to have their frequency set by software: 0
  maximum transition latency: 0.97 ms.
  hardware limits: 800 MHz - 3.30 GHz
  available cpufreq governors: performance, powersave
  current policy: frequency should be within 800 MHz and 3.30 GHz.
                  The governor "powersave" may decide speed to use
                  within this range.
  current CPU frequency is 800 MHz (asserted by call to hardware).
  boost state support:
    Supported: yes
    Active: yes

Kernel GPU Savings Options (NOTE i915 chipset only)
I also use the following kernel options for my laptop, a Lenovo x240 using the Intel i915 chipset. These settings won’t work for everyone so research them before applying. If you’re not sure skip over this part.

  • file: /etc/default/grub
  • Note: this is a snippet, so make sure to append this only to your existing grub settings.
--snip append to your grub entry --
GRUB_CMDLINE_LINUX="drm.debug=0 drm.vblankoffdelay=1 
i915.semaphores=1 i915.modeset=1 i915.use_mmio_flip=1 
i915.powersave=1 i915.enable_ips=1 i915.disable_power_well=1 
i915.enable_hangcheck=1 i915.enable_cmd_parser=1 i915.fastboot=0 
i915.enable_ppgtt=1 i915.reset=0 i915.lvds_use_ssc=0 
i915.enable_psr=0 vblank_mode=0 i915.i915_enable_rc6=1"
--snip append to your grub entry --

Like usual, to apply grub changes run the following command and reboot:

grub2-mkconfig -o /boot/grub2/grub.cfg

Additional i915 Only Tunings (Lenovo x240 or similiar)
You can also pre-blacklist some modules not really needed often and force some power savings i915 kernel module options like below. These seem to further help power savings for the GPU. Note some of these are duplicated in the above kernel boot options, but we’ll force them anyways for modprobe as well for good measure.

cat > /etc/modprobe.d/x240-i915.conf << EOF
options i915 i915_enable_rc6=1 i915_enable_fbc=1 lvds_downclock=1
options iwl_wifi power_save=1 power_level=3 bt_coex_active=0 11ndisable=1

blacklist sierra_net
blacklist cdc_mbim
blacklist cdc_ncm
blacklist btusb

Further Power Savings Tips
In general the following tips apply to conserving battery:

  • Don’t use max brightness, this seems to usurp a lot of battery power.
  • Unplug your laptop when it’s fully charged, in general this prolongs the battery lifetime.
  • Use a blank screensaver.
  • Disable your ethernet kernel module if you don’t use it often, I do this via rc.local:
touch /etc/rc.d/rc.local
echo '#!/bin/bash' >> /etc/rc.d/rc.local
chmod +x /etc/rc.d/rc.local
echo 'rmmod e1000e' >> /etc/rc.local
systemctl enable rc-local.service

Some readers over at the r/linux subreddit have pointed out that TLP is a good alternative tool to, or to be used in conjunction with powertop. I’ve not tried it yet, being happy with my power savings from the above approach but please post in comments if you have any suggestions and I’m happy to merge them here. Both TLP and powertop will make the same settings, but I prefer to use the powertop approach as it’s usually best to understand/review everything you’re changing before making any changes to the system.



Installing MATE on CentOS/SL 7 from the command line

Run MATE on Centos/SL 7, I'd suggest opting for the "minimal" package option during initial installation (or at least not selecting an alternative desktop environment).

  1. Install the epel repository:
    [root@localhost ~]# yum install epel-release
  2. Install the X Window System:
    [root@localhost ~]# yum groupinstall "X Window system"
  3. Install the MATE desktop:
    [root@localhost ~]# yum groupinstall "MATE Desktop"
  4. Change systemd to
    [root@localhost ~]# ln -sf /lib/systemd/system/ /etc/systemd/system/
  5. Switch to your new desktop environment:
    [root@localhost ~]# systemctl isolate