Trend functions, in contrast to history functions, use trend data for calculations.
Trends store hourly aggregate values. Trend functions use these hourly averages, and thus are useful for long-term analysis.
Trend function results are cached so multiple calls to the same function with the same parameters fetch info from the database only once. The trend function cache is controlled by the TrendCacheSize server parameter.
Triggers that reference trend functions only are evaluated once per the smallest time period in the expression. For instance, a trigger like
will be evaluated once per day. If the trigger contains both trend and history (or time-based) functions, it is calculated in accordance with the usual principles.
All functions listed here are supported in:
The functions are listed without additional information. Click on the function to see the full details.
Function | Description |
---|---|
baselinedev | Returns the number of deviations (by stddevpop algorithm) between the last data period and the same data periods in preceding seasons. |
baselinewma | Calculates the baseline by averaging data from the same timeframe in multiple equal time periods ('seasons') using the weighted moving average algorithm. |
trendavg | The average of trend values within the defined time period. |
trendcount | The number of successfully retrieved trend values within the defined time period. |
trendmax | The maximum in trend values within the defined time period. |
trendmin | The minimum in trend values within the defined time period. |
trendstl | Returns the rate of anomalies during the detection period - a decimal value between 0 and 1 that is ((the number of anomaly values)/(total number of values)) . |
trendsum | The sum of trend values within the defined time period. |
/host/key
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הוא פרמטר שני נפוץ, שבו:
Some general notes on function parameters:
<
>
/host/key
and time period:time shift
parameters must never be quotedReturns the number of deviations (by stddevpop algorithm) between the last data period and the same data periods in preceding seasons.
Parameters:
N
- the number of time unitstime unit
- h (hour), d (day), w (week), M (month) or y (year), must be equal to or less than seasonExamples:
baselinedev(/host/key,1d:now/d,"M",6) #calculating the number of standard deviations (population) between the previous day and the same day in the previous 6 months. If the date doesn't exist in a previous month, the last day of the month will be used (Jul,31 will be analysed against Jan,31, Feb, 28,... June, 30)
baselinedev(/host/key,1h:now/h,"d",10) #calculating the number of standard deviations (population) between the previous hour and the same hours over the period of ten days before yesterday
Calculates the baseline by averaging data from the same timeframe in multiple equal time periods ('seasons') using the weighted moving average algorithm.
Parameters:
N
- the number of time unitstime unit
- h (hour), d (day), w (week), M (month) or y (year), must be equal to or less than seasonExamples:
baselinewma(/host/key,1h:now/h,"d",3) #calculating the baseline based on the last full hour within a 3-day period that ended yesterday. If "now" is Monday 13:30, the data for 12:00-12:59 on Friday, Saturday, and Sunday will be analyzed
baselinewma(/host/key,2h:now/h,"d",3) #calculating the baseline based on the last two hours within a 3-day period that ended yesterday. If "now" is Monday 13:30, the data for 10:00-11:59 on Friday, Saturday, and Sunday will be analyzed
baselinewma(/host/key,1d:now/d,"M",4) #calculating the baseline based on the same day of month as 'yesterday' in the 4 months preceding the last full month. If the required date doesn't exist, the last day of month is taken. If today is September 1st, the data for July 31st, June 30th, May 31st, April 30th will be analyzed.
The average of trend values within the defined time period.
Parameters:
Examples:
trendavg(/host/key,1h:now/h) #the average for the previous hour (e.g. 12:00-13:00)
trendavg(/host/key,1h:now/h-1h) #the average for two hours ago (11:00-12:00)
trendavg(/host/key,1h:now/h-2h) #the average for three hours ago (10:00-11:00)
trendavg(/host/key,1M:now/M-1y) #the average for the previous month a year ago
The number of successfully retrieved trend values within the defined time period.
Parameters:
Examples:
trendcount(/host/key,1h:now/h) #the value count for the previous hour (e.g. 12:00-13:00)
trendcount(/host/key,1h:now/h-1h) #the value count for two hours ago (11:00-12:00)
trendcount(/host/key,1h:now/h-2h) #the value count for three hours ago (10:00-11:00)
trendcount(/host/key,1M:now/M-1y) #the value count for the previous month a year ago
The maximum in trend values within the defined time period.
Parameters:
Examples:
trendmax(/host/key,1h:now/h) #the maximum for the previous hour (e.g. 12:00-13:00)
trendmax(/host/key,1h:now/h) - trendmin(/host/key,1h:now/h) → calculate the difference between the maximum and minimum values (trend delta) for the previous hour (12:00-13:00)
trendmax(/host/key,1h:now/h-1h) #the maximum for two hours ago (11:00-12:00)
trendmax(/host/key,1h:now/h-2h) #the maximum for three hours ago (10:00-11:00)
trendmax(/host/key,1M:now/M-1y) #the maximum for the previous month a year ago
The minimum in trend values within the defined time period.
Parameters:
Examples:
trendmin(/host/key,1h:now/h) #the minimum for the previous hour (e.g. 12:00-13:00)
trendmax(/host/key,1h:now/h) - trendmin(/host/key,1h:now/h) → calculate the difference between the maximum and minimum values (trend delta) for the previous hour (12:00-13:00)
trendmin(/host/key,1h:now/h-1h) #the minimum for two hours ago (11:00-12:00)
trendmin(/host/key,1h:now/h-2h) #the minimum for three hours ago (10:00-11:00)
trendmin(/host/key,1M:now/M-1y) #the minimum for the previous month a year ago
Returns the rate of anomalies during the detection period - a decimal value between 0 and 1 that is ((the number of anomaly values)/(total number of values))
.
Parameters:
N
- the number of time unitstime unit
- h (hour), d (day), w (week), M (month) or y (year)N
- the number of time unitstime unit
- h (hour), d (day), w (week)N
- the number of time unitstime unit
- h (hour), d (day), w (week)Examples:
trendstl(/host/key,100h:now/h,10h,2h) #analyse the last 100 hours of trend data, find the anomaly rate for the last 10 hours of that period, expecting the periodicity to be 2h, the remainder series values of the evaluation period are considered anomalies if they reach the value of 3 deviations of the MAD of that remainder series
trendstl(/host/key,100h:now/h-10h,100h,2h,2.1,"mad") #analyse the period of 100 hours of trend data, up to 10 hours ago, find the anomaly rate for that entire period expecting the periodicity to be 2h, the remainder series values of the evaluation period are considered anomalies if they reach the value of 2,1 deviations of the MAD of that remainder series
trendstl(/host/key,100d:now/d-1d,10d,1d,4,,10) #analyse 100 days of trend data up to a day ago, find the anomaly rate for the period of last 10d of that period, expecting the periodicity to be 1d, the remainder series values of the evaluation period are considered anomalies if they reach the value of 4 deviations of the MAD of that remainder series, overriding the default span of the loess window for seasonal extraction of "10 * number of entries in eval period + 1" with the span of 10 lags
trendstl(/host/key,1M:now/M-1y,1d,2h,,"stddevsamp") #analyse the previous month a year ago, find the anomaly rate of the last day of that period expecting the periodicity to be 2h, the remainder series values of the evaluation period are considered anomalies if they reach the value of 3 deviation of the sample standard deviation of that remainder series
The sum of trend values within the defined time period.
Parameters:
Examples:
trendsum(/host/key,1h:now/h) #the sum for the previous hour (e.g. 12:00-13:00)
trendsum(/host/key,1h:now/h-1h) #the sum for two hours ago (11:00-12:00)
trendsum(/host/key,1h:now/h-2h) #the sum for three hours ago (10:00-11:00)
trendsum(/host/key,1M:now/M-1y) #the sum for the previous month a year ago