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authorDaniel Friesel <derf@finalrewind.org>2019-09-20 10:20:45 +0200
committerDaniel Friesel <derf@finalrewind.org>2019-09-20 10:20:45 +0200
commit74fc0f76ea194a7042d6e01dd2bad6a1c1a913d0 (patch)
treeff59a56adcf60df7c0bd7d87bf119ff5a9ddb072
parentff259baf121fd32c3618f8c660e86b9d1ed269ad (diff)
MIMOSA: Documentation, log errors
-rwxr-xr-xlib/dfatool.py199
1 files changed, 121 insertions, 78 deletions
diff --git a/lib/dfatool.py b/lib/dfatool.py
index 340a6e5..7d6d5c9 100755
--- a/lib/dfatool.py
+++ b/lib/dfatool.py
@@ -360,7 +360,9 @@ def _preprocess_measurement(measurement):
'triggers' : len(trigidx),
'first_trig' : trigidx[0] * 10,
'calibration' : caldata,
- 'trace' : mim.analyze_states(charges, trigidx, vcalfunc)
+ 'trace' : mim.analyze_states(charges, trigidx, vcalfunc),
+ 'has_mimosa_error' : mim.is_error,
+ 'mimosa_errors' : mim.errors,
}
return processed_data
@@ -585,6 +587,8 @@ class RawData:
Each filename element corresponds to a measurement run. It must be a tar archive with the following contents:
+ Version 0:
+
* `setup.json`: measurement setup. Must contain the keys `state_duration` (how long each state is active, in ms),
`mimosa_voltage` (voltage applied to dut, in V), and `mimosa_shunt` (shunt value, in Ohm)
* `src/apps/DriverEval/DriverLog.json`: PTA traces and parameters for this benchmark.
@@ -1827,33 +1831,53 @@ class MIMOSA:
MIMOSA log loader for DFA traces with auto-calibration.
Expects a MIMOSA log file generated via dfatool and a dfatool-generated
- benchmark: There is an automatic calibration step at the start and the
- trigger pin is high iff a transition is active. The resulting data
- is a list of state/transition/state/transition/... measurements.
+ benchmark. A MIMOSA log consists of a series of measurements. Each measurement
+ gives the total charge (in pJ) and binary buzzer/trigger value during a 10µs interval.
+
+ There must be a calibration run consisting of at least two seconds with disconnected DUT,
+ two seconds with 1 kOhm (984 Ohm), and two seconds with 100 kOhm (99013 Ohm) resistor at
+ the start. The first ten seconds of data are reserved for calbiration and must not contain
+ measurements, as trigger/buzzer signals are ignored in this time range.
+
+ Resulting data is a list of state/transition/state/transition/... measurements.
"""
- def __init__(self, voltage, shunt, verbose = True):
+ def __init__(self, voltage: float, shunt: int, verbose = True):
"""
Initialize MIMOSA loader for a specific voltage and shunt setting.
- arguments:
- voltage -- MIMOSA voltage used for measurements
- shunt -- Shunt value in Ohms
- verbose -- notify about invalid data and the likes
+ :param voltage: MIMOSA DUT supply voltage (V)
+ :para mshunt: MIMOSA Shunt (Ohms)
+ :param verbose: print notices about invalid data on STDOUT?
"""
self.voltage = voltage
self.shunt = shunt
self.verbose = verbose
self.r1 = 984 # "1k"
self.r2 = 99013 # "100k"
+ self.is_error = False
+ self.errors = list()
def charge_to_current_nocal(self, charge):
- u"""Convert charge per 10µs to mean currents without accounting for calibration."""
+ u"""
+ Convert charge per 10µs (in pJ) to mean currents (in µA) without accounting for calibration.
+
+ :param charge: numpy array of charges (pJ per 10µs) as returned by `load_data` or `load_file`
+
+ :returns: numpy array of mean currents (µA per 10µs)
+ """
ua_max = 1.836 / self.shunt * 1000000
ua_step = ua_max / 65535
return charge * ua_step
def _load_tf(self, tf):
+ u"""
+ Load MIMOSA log data from an open `tarfile` instance.
+
+ :param tf: `tarfile` instance
+
+ :returns: (numpy array of charges (pJ per 10µs), numpy array of triggers (0/1 int, per 10µs))
+ """
num_bytes = tf.getmember('/tmp/mimosa//mimosa_scale_1.tmp').size
charges = np.ndarray(shape=(int(num_bytes / 4)), dtype=np.int32)
triggers = np.ndarray(shape=(int(num_bytes / 4)), dtype=np.int8)
@@ -1868,19 +1892,37 @@ class MIMOSA:
return charges, triggers
- def load_data(self, raw_data):
- """Load a MIMOSA log archive from a raw bytestring."""
+ def load_data(self, raw_data, first_is_state = True):
+ u"""
+ Load MIMOSA log data from a MIMOSA log file passed as raw byte string
+
+ :param raw_data: MIMOSA log file, passed as raw byte string
+
+ :returns: (numpy array of charges (pJ per 10µs), numpy array of triggers (0/1 int, per 10µs))
+ """
+ self.first_is_state = first_is_state
with io.BytesIO(raw_data) as data_object:
with tarfile.open(fileobj = data_object) as tf:
return self._load_tf(tf)
def load_file(self, filename):
- """Load a MIMOSA log archive from a filename."""
+ u"""
+ Load MIMOSA log data from a MIMOSA log file
+
+ :param filename: MIMOSA log file
+
+ :returns: (numpy array of charges (pJ per 10µs), numpy array of triggers (0/1 int, per 10µs))
+ """
with tarfile.open(filename) as tf:
return self._load_tf(tf)
def currents_nocal(self, charges):
- u"""Convert charge per 10µs to mean currents without accounting for calibration."""
+ u"""
+ Convert charges (pJ per 10µs) to mean currents without accounting for calibration.
+
+ :param charges: numpy array of charges (pJ per 10µs)
+
+ :returns: numpy array of currents (mean µA per 10µs)"""
ua_max = 1.836 / self.shunt * 1000000
ua_step = ua_max / 65535
return charges.astype(np.double) * ua_step
@@ -1889,41 +1931,45 @@ class MIMOSA:
"""
Return indexes of trigger edges (both 0->1 and 1->0) in log data.
- arguments:
- triggers -- trigger array as returned by load_data
-
Ignores the first 10 seconds, which are used for calibration and may
- contain bogus triggers due to DUT resets. Returns a list of int.
+ contain bogus triggers due to DUT resets.
+
+ :param triggers: trigger array (int, 0/1) as returned by load_data
+
+ :returns: list of int (trigger indices, e.g. [2000000, ...] means the first trigger appears in charges/currents interval 2000000 -> 20s after start of measurements. Keep in mind that each interval is 10µs long, not 1µs, so index values are not µs timestamps)
"""
trigidx = []
- prevtrig = triggers[0]
+ prevtrig = triggers[999999]
+
+ # if the first trigger is high (i.e., trigger/buzzer pin is active before the benchmark starts),
+ # something went wrong and are unable to determine when the first
+ # transition starts.
+ if prevtrig != 0:
+ self.is_error = True
+ self.errors.append('Unable to find start of first transition (log starts with trigger == {} != 0)'.format(prevtrig))
+
# the device is reset for MIMOSA calibration in the first 10s and may
# send bogus interrupts -> bogus triggers
for i in range(1000000, triggers.shape[0]):
trig = triggers[i]
if trig != prevtrig:
- # Due to MIMOSA's integrate-read-reset cycle, the trigger
- # appears two points (20µs) before the corresponding data
+ # Due to MIMOSA's integrate-read-reset cycle, the charge/current
+ # interval belonging to this trigger comes two intervals (20µs) later
trigidx.append(i+2)
prevtrig = trig
return trigidx
def calibration_edges(self, currents):
- """
+ u"""
Return start/stop indexes of calibration measurements.
- arguments:
- currents -- uncalibrated currents as reported by MIMOSA. For best results,
+ :param currents: uncalibrated currents as reported by MIMOSA. For best results,
it may help to use a running mean, like so:
- currents = running_mean(currents_nocal(..., 10))
-
- Returns six indexes:
- - Disconnected start
- - Disconnected stop
- - R1 (1 kOhm) start
- - R1 (1 kOhm) stop
- - R2 (100 kOhm) start
- - R2 (100 kOhm) stop
+ `currents = running_mean(currents_nocal(..., 10))`
+
+ :returns: indices of calibration events in MIMOSA data:
+ (disconnect start, disconnect stop, R1 (1k) start, R1 (1k) stop, R2 (100k) start, R2 (100k) stop)
+ indices refer to charges/currents arrays, so 0 refers to the first 10µs interval, 1 to the second, and so on.
"""
r1idx = 0
r2idx = 0
@@ -1940,30 +1986,29 @@ class MIMOSA:
def calibration_function(self, charges, cal_edges):
u"""
- Calculate calibration function from previously determined calibration phase.
-
- arguments:
- charges -- raw charges from MIMOSA
- cal_edges -- calibration edges as returned by calibration_edges
-
- returns (calibration_function, calibration_data):
- calibration_function -- charge in pJ (float) -> current in uA (float).
- Converts the amount of charge in a 10 µs interval to the
- mean current during the same interval.
- calibration_data -- dict containing the following keys:
- edges -- calibration points in the log file, in µs
- offset -- ...
- offset2 -- ...
- slope_low -- ...
- slope_high -- ...
- add_low -- ...
- add_high -- ..
- r0_err_uW -- mean error of uncalibrated data at "∞ Ohm" in µW
- r0_std_uW -- standard deviation of uncalibrated data at "∞ Ohm" in µW
- r1_err_uW -- mean error of uncalibrated data at 1 kOhm
- r1_std_uW -- stddev at 1 kOhm
- r2_err_uW -- mean error at 100 kOhm
- r2_std_uW -- stddev at 100 kOhm
+ Calculate calibration function from previously determined calibration edges.
+
+ :param charges: raw charges from MIMOSA
+ :param cal_edges: calibration edges as returned by calibration_edges
+
+ :returns: (calibration_function, calibration_data):
+ calibration_function -- charge in pJ (float) -> current in uA (float).
+ Converts the amount of charge in a 10 µs interval to the
+ mean current during the same interval.
+ calibration_data -- dict containing the following keys:
+ edges -- calibration points in the log file, in µs
+ offset -- ...
+ offset2 -- ...
+ slope_low -- ...
+ slope_high -- ...
+ add_low -- ...
+ add_high -- ..
+ r0_err_uW -- mean error of uncalibrated data at "∞ Ohm" in µW
+ r0_std_uW -- standard deviation of uncalibrated data at "∞ Ohm" in µW
+ r1_err_uW -- mean error of uncalibrated data at 1 kOhm
+ r1_std_uW -- stddev at 1 kOhm
+ r2_err_uW -- mean error at 100 kOhm
+ r2_std_uW -- stddev at 100 kOhm
"""
dis_start, dis_end, r1_start, r1_end, r2_start, r2_end = cal_edges
if dis_start < 0:
@@ -2073,27 +2118,25 @@ class MIMOSA:
def analyze_states(self, charges, trigidx, ua_func):
u"""
- Split log data into states and transitions and return mean power and duration for each element.
-
- arguments:
- charges -- raw charges (each element describes the charge transferred during 10 µs)
- trigidx -- "charges" indexes corresponding to a trigger edge
- ua_func -- charge -> current function as returned by calibration_function
-
- returns a list of (alternating) states and transitions.
- Each element is a dict containing:
- - isa: 'state' oder 'transition'
- - clip_rate: range(0..1) Anteil an Clipping im Energieverbrauch
- - raw_mean: Mittelwert der Rohwerte
- - raw_std: Standardabweichung der Rohwerte
- - uW_mean: Mittelwert der (kalibrierten) Leistungsaufnahme
- - uW_std: Standardabweichung der (kalibrierten) Leistungsaufnahme
- - us: Dauer
-
- Nur falls isa == 'transition':
- - timeout: Dauer des vorherigen Zustands
- - uW_mean_delta_prev: Differenz zwischen uW_mean und uW_mean des vorherigen Zustands
- - uW_mean_delta_next: Differenz zwischen uW_mean und uW_mean des Folgezustands
+ Split log data into states and transitions and return duration, energy, and mean power for each element.
+
+ :param charges: raw charges (each element describes the charge in pJ transferred during 10 µs)
+ :param trigidx: "charges" indexes corresponding to a trigger edge, see `trigger_edges`
+ :param ua_func: charge(pJ) -> current(µA) function as returned by `calibration_function`
+
+ :returns: list of states and transitions, starting with a state and ending with a transition.
+ Each element is a dict containing:
+ * `isa`: 'state' or 'transition'
+ * `clip_rate`: range(0..1) Anteil an Clipping im Energieverbrauch
+ * `raw_mean`: Mittelwert der Rohwerte
+ * `raw_std`: Standardabweichung der Rohwerte
+ * `uW_mean`: Mittelwert der (kalibrierten) Leistungsaufnahme
+ * `uW_std`: Standardabweichung der (kalibrierten) Leistungsaufnahme
+ * `us`: Dauer
+ if isa == 'transition, it also contains:
+ * `timeout`: Dauer des vorherigen Zustands
+ * `uW_mean_delta_prev`: Differenz zwischen uW_mean und uW_mean des vorherigen Zustands
+ * `uW_mean_delta_next`: Differenz zwischen uW_mean und uW_mean des Folgezustands
"""
previdx = 0
is_state = True