Tinderbox Power: Difference between revisions

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The laptops used for [[Tinderbox_Testing|Tinderbox]] have been instrumented with a number of small value resistors inserted into crucial locations in the power distribution network. By measuring the time average of the voltage across these resistor using a very accurate voltmeter, we obtain a snapshot of the power consumption of the laptop at a particular time.
The laptops used for [[Tinderbox_Testing|Tinderbox]] have been instrumented with a number of small value resistors inserted into crucial locations in the power distribution network. By measuring the time average of the voltage across these resistor using a very accurate voltmeter, we obtain a snapshot of the power consumption of the laptop at a particular time.


Each laptop has a different set of locations wired for measurement. We currently have two laptops wired up: a B3 build and a C2 production build. Diagrams of their power distribution networks and the measurement points are available ([[Media:Tinderbox_B3.pdf|B3]], [[Media:Tinderbox_C2.pdf|C2]]). A configuration file is used to represent this information in a manner which the measurement script can utilize.
Each laptop has a different set of locations wired for measurement. A configuration file is used to represent this information in a manner which the measurement script can utilize. For example:
* [[XO1.75_Tinderbox_Power|XO-1.75 Tinderbox]]
* [[Media:Tinderbox_B3.pdf|XO-1 B3 build]] ([http://dev.laptop.org/git/projects/tinderbox/tree/power/tinderboxB3.csv configuration])
* [[Media:Tinderbox_C2.pdf|XO-1 C2 build]] ([http://dev.laptop.org/git/projects/tinderbox/tree/power/tinderboxC2.csv configuration])


== Configuration File Format ==
== Configuration File Format ==

Revision as of 22:33, 3 April 2012

This page describes the instrumentation of the Tinderbox laptops to measure power, and the scripts used to measure and interpret this information.

Instrumentation

The laptops used for Tinderbox have been instrumented with a number of small value resistors inserted into crucial locations in the power distribution network. By measuring the time average of the voltage across these resistor using a very accurate voltmeter, we obtain a snapshot of the power consumption of the laptop at a particular time.

Each laptop has a different set of locations wired for measurement. A configuration file is used to represent this information in a manner which the measurement script can utilize. For example:

Configuration File Format

A laptop is described to the measurement script using a comma separated values (CSV) file describing the instrumentation.

Newer file format

This file format was introduced to support the generation of power distribution trees. It may also be used with older software.

There are five basic measurements, each described by a single line in the configuration file:

  • power measurement - Measures the power passing a particular point in the power distribution system
  • voltage measurement - Measures a voltage (useful in calculating power of a variable voltage power supply.)
  • remaining power in a rail - This calculates what all the other power sinks on a rail must be consuming.
  • inefficiency of a rail (fixed) - This calculates the power wasted by a linear voltage regulator
  • inefficiency of a rail (calculated) - This calculates the power wasted by a switching power regulator, given that both the input and output power is known.

Each line in the configuration file has a format of:

channel, name, resistance, rail_voltage, rail, parent_chan, type

channel

For real measurements (power and voltage), this is the channel number on the voltmeter.

For virtual measurements (remaining power or inefficiencies), this is a unique negative number.

name

This is the comma delimited ASCII string used to represent a measurement in reports

group

This is the logical grouping in which this measurement should be included. Typical names are: none (voltage measurement or waste), cpu, net, display, and rail (supplies multiple groups).

resistance

For power measurements, this is the sense resistance across which the voltage is being measured. For voltage measurements, remaining power, or inefficiency measurements, this should be 1.

rail_voltage

This indicates the voltage which should be used for calculating power measurements. This may be a static value (such as 3.3 or 1.8), or it may be 0, indicating that it is a dynamic (measured) value (indicated by the rail field).

For voltage measurements, remaining power, and dynamic inefficiencies, this field is zero.

For static inefficiencies, this is a floating point number representing the ratio of power wasted to power measured by another channel (indicated by rail).

rail

If this is a power measurement using a dynamic rail voltage, this field indicates the channel number of a voltage. If this is a power measurement using a static voltage, a remaining power or dynamic inefficiency measurement, this field is zero.

If this is a static inefficiency measurement, the rail field indicates the channel number of the power measurement the static inefficiency is tracking.

A negative one (-1) indicates that this is a voltage measurement.

parent_chan

This indicates which channel measures the power from which this channel's power is derived.

If 0, indicates that this is the root channel of system, typically the power input.

For voltage measurements, this field is optional.

type

This field is used to differentiate between power, remaining power, dynamic and static inefficiency measurements.

  • 0 - Power measurement
  • 1 - Remaining power measurement
  • 2 - Static inefficiency measurement
  • 3 - Dynamic inefficiency measurement

For voltage measurements, this field is optional.

Older file format

This file format may only be used with read_tinderbox.py. It has a format of:

channel, name, group, resistance, rail_voltage, rail

where

  • channel is the voltmeter channel (absolute, e.g. 2010, 3020, etc.)
  • name is the name associated with this channel
  • group is a group of measurements
  • resistance is the resistance of the current sense resistor, in ohms
  • rail_voltage is the voltage at the high side of the current sense res., in volts
  • rail indicates that a voltage varies, and is measured by another channel. If rail is:
    • 0 - indicates rail_voltage is static and should be used
    • positive number - indicates which rail should be used
    • negative number - indicates that this is a rail voltage

See the example configuration files for the existing B3 and C2 setups.

Measurement

Tree-Based Output

A Python script (tree-tinderbox.py) is provided which makes a set of measurements over the network and output a web page showing a graphical representation of the power distribution network in the laptop.

Table-Based Output

A Python script (read-tinderbox.py) is provided which connects to the voltmeter over the network and makes one or more sets of measurements. The measurements may be output in XHTML, CSV, Python print, or pretty print formats.

This script takes the following options:

  • -f CHANNEL_FILENAME, --file=CHANNEL_FILENAME Filename of tinderbox channel descriptors
  • -a MEASURE_HOST, --addr=MEASURE_HOST DNS name or IP addr of voltmeter
  • -l NUM_LOOPS, --loop=NUM_LOOPS Number of times to loop, taking measurements
  • -c CHANNEL, --channel=CHANNEL Channel to read. For mutiple channels, use x-y,z
  • -H, --html Print out measurements with XHTML markup
  • -R, --raw Print out measurements in raw Python format
  • -C, --csv Print out measurements in comma separated format with header
  • -P, --pwr Print out measurements in comma separated format for rsmith
  • -n NPLC, --nplc=NPLC Time to wait (in 16mS units) between measuring channels
  • -h, --help Show this help message and exit

Typical usage is:

read_tinderbox.py --html -f tinderboxC2.csv

A subset of the channels specified in the configuration file may be measured using the -c option:

read_tinderbox.py -f tinderboxB3.csv -c 2018
read_tinderbox.py -f tinderboxC2.csv -c 3004-3007
read_tinderbox.py -f tinderboxB3.csv -c 2000,2004-2010,2025

The XHTML markup is suitable either for direct viewing with a browser or further manipulation using XSL.