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I have followed this guide https://www.daxpatterns.com/abc-classification-dynamic/ in order to create a dynamic ABC model to illustrate our spend by supplier (Slightly modified code below)
I can now line up the ABC class, and group by supplier region (from supplier dimension table) and get the spend amount no problem.
I can however not get a distinct count of the suppliers within each ABC class, it appears I need some sort of relation as the result is the same for each category.
SupplierABC = var MinLowerBoundary = MIN ( ABC_Classification[Lower]) var MaxUpperBoundary = Max ( ABC_Classification[Upper]) RETURN CALCULATE ( [Spend]; VALUES ( Dim_Supplier[Supplier_Key] ); FILTER ( CALCULATETABLE ( ADDCOLUMNS ( ADDCOLUMNS ( VALUES ( Dim_Supplier[Supplier_Key] ); "OuterValue"; [Spend] ); "CumulatedSalesPercentage"; DIVIDE ( SUMX ( FILTER ( ADDCOLUMNS ( VALUES ( Dim_Supplier[Supplier_Key] ); "InnerValue"; [Spend] ); [InnerValue] >= [OuterValue] ); [InnerValue] ); CALCULATE ( [Spend]; VALUES ( Dim_Supplier[Supplier_Key] ) ) ) ); ALL ( 'Dim_Supplier' ) ); [CumulatedSalesPercentage] > MinLowerBoundary && [CumulatedSalesPercentage] <= MaxUpperBoundary ) )
Any ideas?
Solved! Go to Solution.
It didn't quite work
This solution however did.
SupplierABC = var MinLowerBoundary = MIN ( ABC_Classification[Lower]) var MaxUpperBoundary = Max ( ABC_Classification[Upper]) RETURN CALCULATE ( COUNTDISTINCT(Dim_Supplier[Supplier_Key]); VALUES ( Dim_Supplier[Supplier_Key] ); FILTER ( CALCULATETABLE ( ADDCOLUMNS ( ADDCOLUMNS ( VALUES ( Dim_Supplier[Supplier_Key] ); "OuterValue"; [Spend] ); "CumulatedSalesPercentage"; DIVIDE ( SUMX ( FILTER ( ADDCOLUMNS ( VALUES ( Dim_Supplier[Supplier_Key] ); "InnerValue"; [Spend] ); [InnerValue] >= [OuterValue] ); [InnerValue] ); CALCULATE ( [Spend]; VALUES ( Dim_Supplier[Supplier_Key] ) ) ) ); ALL ( 'Dim_Supplier' ) ); [CumulatedSalesPercentage] > MinLowerBoundary && [CumulatedSalesPercentage] <= MaxUpperBoundary ) )
Hi,
Does this work?
SupplierABC = var MinLowerBoundary = MIN ( ABC_Classification[Lower]) var MaxUpperBoundary = Max ( ABC_Classification[Upper]) RETURN COUNTROWS ( VALUES ( Dim_Supplier[Supplier_Key] ); FILTER ( CALCULATETABLE ( ADDCOLUMNS ( ADDCOLUMNS ( VALUES ( Dim_Supplier[Supplier_Key] ); "OuterValue"; [Spend] ); "CumulatedSalesPercentage"; DIVIDE ( SUMX ( FILTER ( ADDCOLUMNS ( VALUES ( Dim_Supplier[Supplier_Key] ); "InnerValue"; [Spend] ); [InnerValue] >= [OuterValue] ); [InnerValue] ); CALCULATE ( [Spend]; VALUES ( Dim_Supplier[Supplier_Key] ) ) ) ); ALL ( 'Dim_Supplier' ) ); [CumulatedSalesPercentage] > MinLowerBoundary && [CumulatedSalesPercentage] <= MaxUpperBoundary))
If not, then share a dataset and show the expected result.
It didn't quite work
This solution however did.
SupplierABC = var MinLowerBoundary = MIN ( ABC_Classification[Lower]) var MaxUpperBoundary = Max ( ABC_Classification[Upper]) RETURN CALCULATE ( COUNTDISTINCT(Dim_Supplier[Supplier_Key]); VALUES ( Dim_Supplier[Supplier_Key] ); FILTER ( CALCULATETABLE ( ADDCOLUMNS ( ADDCOLUMNS ( VALUES ( Dim_Supplier[Supplier_Key] ); "OuterValue"; [Spend] ); "CumulatedSalesPercentage"; DIVIDE ( SUMX ( FILTER ( ADDCOLUMNS ( VALUES ( Dim_Supplier[Supplier_Key] ); "InnerValue"; [Spend] ); [InnerValue] >= [OuterValue] ); [InnerValue] ); CALCULATE ( [Spend]; VALUES ( Dim_Supplier[Supplier_Key] ) ) ) ); ALL ( 'Dim_Supplier' ) ); [CumulatedSalesPercentage] > MinLowerBoundary && [CumulatedSalesPercentage] <= MaxUpperBoundary ) )
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