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SAP EWM Modules | A Complete Guide on SAP EWM Modules


What is SAP EWM (Extended Warehouse Management) 

It is one of the functional modules which is used to manage warehouse inventory and supports the processing of goods movements. The SAP EWM also allows organizations to control both inbound and outbound delivery process delivery. and movements in the warehouse. The main purpose to use EWM is to manage the outbound and inbound delivery process, maintain goods receipts, solve goods issues, fulfill customer orders, and goods distributions.

*Note: the SAP EWM is quite different from warehouse management (mostly used in supply chain management) as it offers many advanced features like picking up of goods, RF frameworks, warehouse structure, and flexible enough to manage the warehouse management functions.

Become a master of SAP EWM by going through this HKR SAP EWM Online Training!

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Salient features of SAP EWM :

SAP EWM signifies the major key features which are considered so important in any organization; Let us explain one by one;

  • With the help of SAP EWM, users can control the various warehouse activities such as picking, posting, managing storage, and good sales document types.
  • The SAP EWM helps you to set the alert before the goods receipt transfer from EWM to the SAP ERP system along with this feature, users are also able to perform corrections, reversal, and inbound delivery split from the SAP EWM to the SAP ERP system.
  • Users can also perform deconsolidation of the handling of various units that contain product details and their storage locations.
  • Users can also determine the storage concepts like product slotting, and optimize the goods arrangements for the warehouse automatically.
  • The SAP EWM functional module allows users to perform various tasks like work packaging, and also monitor the warehouse activities which are performed by the warehouse employees.
  • The SAP EWM also helps organizations to keep track of the vehicles, and other transportation units (it consists of a yard-in check-in and yard-out checkout) activities.
  • SAP EWM also comprises storage and handling of various hazardous substances (such as SAP environmental health, and safety EHS).
  • SAP EWM allows organizations to store the labor time, and resource usage effectively( managing the resources effectively).
  • The SAP EWM cockpit allows users to perform the transportation of products to various warehouse centers.

SAP EWM modules :

Here we come to the actual topic of the post, the SAP EWM supports a lot of different functional modules. Let’s start learning them one by one;

In this blog, we are going to concentrate only on the functional modules and customer existing transactions. Each functional module is combined with the transactions to create a simple screen or to enhance the current available functional module to meet the specific customer’s requirements.

Processing TRs(transfer requirements) using the functional module :

This type of functional module allows users to create or change the transfer requirements in the warehouse management. You can make use of these types of functional modules instead of using batch input processes this improves the performance of batch input processing.

To perform this action, the following are the important functional modules available:

  • L _TR_CREATE_CHECK ->this functional module helps to perform plausibility checks.
  • L_TR_CREATE_UPDATE -> this functional module helps to database updated according to plausibility checks.
  • L_TR_CREATE -> perform plausibility checks and database updates.
  • L_TR_CANCEL -> cancel plausibility checks and database updates.

Processing TOs using the functional module :

In warehouse management, users can create, confirm, and change the transfer order using the various functional modules. Let us make a list of them;

  • Report SAPML03T -> this Report SAPML03T consists of the screens and tasks necessary to process external documents.
  • Function group LO34 -> this function group contains the essential internal data for creating and confirming the transfer orders and calls up the update program. The function modules from group L034 are for internal use and are therefore not released to customers.
  • Function group L03B -> this function group L03B contains the functional modules that you should use instead of batch input or CALL transaction using since they are considerably easier to manage.
  • L_TO_CREATE_SINGLE -> create a transfer order (TO) within a single item.
  • L_TO_CREATE_MULTIPLE -> create a transfer order with two or more items.
  • L_TO_CREATE_MOVE_SU -> create a transfer order to move a storage unit.
  • L_TO_CREATE_MOVE_LSR -> initiate a stock transfer of storage units from an external system.
  • L_TO_CREATE_TR -> create a transfer order for transfer requirements.
  • L_TO_CREATE_DN -> create a transfer order for delivery.
    L_TO_CONFIRM -> confirm a transfer order.
  • L_TO_CONFIRM_SU -> confirm a transfer order for a storage unit.
  • L_TO_CANCEL -> cancel a transfer order.
  • L_REF_CREATE -> create a transfer order using multiple processing.
  • L_TO_CREATE_2_STEP_PICKING -> create a transfer order for 2 step picking.
  • L_TO_CREATE_POSTING_CHANGE -> create transfer order for posting changes.

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Delivery functional modules:

These delivery functional modules enable users to deliver the output or sales-related documentation. Let us know them one by one;

  • BAPI_OUTB_DELIVERY_CHANGE ->Logistics execution of BAPI functions.
  • BAPI_PO_CHANGE -> change purchase order.
  • BAPI_TRANSACTION_COMMIT ->execute external commit when using BA PIs.
  • BAPI_PO_CREATE1 -> Create a purchase order.
  • BAPI_GOODSMVT_CREATE ->  post goods movements with MB_CREATE_GOODS_MOVEMENT.
  • WS_DELIVERY_UPDATE -> update about the warehouse goods delivery.
  • GN_DELIVERY_CREATE -> defines the sales document basic functions.
  • L_TO_CONFIRM -> confirm transfer order.
  • BAPI_SAG_CHANGE -> change scheduling agreements.
  • BAPI_SCHEDULE_MAINTAIN -> maintenance of scheduling agreement and delivery schedule lines.
  • BAPI_SAG_GETDETAIL -> read out details from the scheduling agreement.
  • BAPI_OUTB_DELIVERY_REJECT -> rejection of delivery changes from WME.
  • GUI_UPLOAD -> Upload for the data provider.
  • BAPI _DELIVERYPROCESSING_EXEC -> Logistic delivery processing execution.
  • WS_DELIVERY_UPDATE2 ->sales documents functionalities.
  • CHANGE_DOCUMENT_READ_POSITIONS ->change document read change documents item. 
  • BAPI_CONTRACT_CREATE ->BAPI to create a purchase contract.
  • RV_DELIVERY_CREATE -> create the delivery documents.
  • L_TO_CREATE_DN -> create a transfer order for a delivery note.
  • BAPI_INB_DELIVERY_CHANGE -> inbound processing delivery change.
  • BBP_OUTB_DELIVERY_SPLIT_DEC -> BAPI for subsequent outbound-delivery split from a decentralized system.
  • BAPI_HU_PACK -> BAPI for packing an item into an HU.
  • BAPI_INCOMINGINVOICE_CHANGE -> invoice verification: change provisional invoice.
  • BAPI_OUTB_DFELIVERY _SAVEREPLICA -> BAPI function module for replication of outbound deliveries.
  • WS_REVERSE_GOODS_ISSUE -> this functional module will help you to resolve the issues related to the warehouse goods.
  • BAPI_INB_DELIVERY_SAVEREPLICA ->BAPI function module for replication of inbound deliveries.
  • IDOC_INPUT_INVOICE_FI -> EDI: Invoice receipt (Invoice).

frequently asked SAP EWM Interview Questions and Answers

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A customer exits functional module for TR selection:

Below are a few major customers exits functional module that permits you to create customer-specific projects used to select the transfer requirements for the automatic creation of transfer orders.

  • MWMTOAU1 -> this task allows you to influence the section of transfer requirements for the automatic creation of the transfer orders.
  • MWMTOAU2 ->this task allows you to influence the selection of transfer requirements for the automatic creation of the multiple transfer orders using groups.

Customer exits for creating and confirming TOs:

The following functional modules define the customer-specified logics that permit you to involve in the storage bin search process, and afterward to update the customer data using creating and confirming the transfer orders.

  • MWMTO001 -> this module update the own data after creating transfer orders.
  • MWMTO002 -> this module updates its own data after confirming transfer orders.
  • MWMTO003-> customer-defined putaway strategy, this task allows you to create and implement your own putaway strategies.
  • MWMTO004 -> customer-defined picking strategy, and also allows you to create and implement your own picking strategy.
  • MWMTO005 -> TO-related underdelivery.
  • MWMTO006 -> storage bin related over delivery.
  • MWMTO007 -> palletization and storage type search for putaway.
  • MWMTO008 -> storage type search for picking. This task also allows you to create your own storage type search strategy for stock picking.
  • MWMTO009 -> prevents deletion of TO items, this task makes it possible to prevent the deletion of the transfer order items.

Creating/confirming TOs online or through update programs:

For warehouse management, the update programs for creating or confirming transfer orders can be controlled through a separate parameter. Updates for the normal transactions are carried out through the update programs. To perform this task, change the program ML03TPAR.

  • DEF_VERBU_CREATE -> this functional module helps you to create default transfer orders with the values “x” for update via the update program and “ “ for update without changing the online process.
  • DEF_VERBU_CONFIRM -> default value for the confirming transfer orders with the value “X” for update without changing the online processes.
  • COMMIT_WORK -> this functional module allows you to post data in the system without running.
  • SET UPDATE TASK LOCAL -> the system posts the data synchronization data updates with the help of this functional module.

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Final words:
In this SAP EWM module blog, we have listed out major functional modules and tried to provide a description of each module. Our main aim to develop these core topics is to adhere or guide many SAP communities around the globe to enhance the skills with respect to the modules. Keep on updating yourself to recent trends or technologies to accelerate your SAP career.

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Power BI Matrix | How to Visualize Data in a Matrix in Power BI


What is the Power BI Matrix?

The visual of the matrix is identical to that of a table. The data in a table is flat, which ensures that duplicate values are shown and not aggregated. A matrix supports a stepped structure, which makes it easier to view data meaningfully across multiple dimensions. The matrix aggregates the data for you and helps you to dig down into it. 

Power BI Matrix

Why Power BI Matrix?

The matrix aggregates the data automatically and allows for drill-down. In Power BI Desktop reports, you can create matrix visuals and highlight elements inside the matrix with other visuals on the same report page. You may, for instance, cross-highlight rows, columns, and even individual cells. Individual cells, as well as different cell selections, can be copied and pasted into other applications.

Understanding the Data: 

We will use the Matrix visual as an example to illustrate some interesting techniques. The example data is a list of numbers drawn from the Maltese lotto. Each record is one number from a drawing, and each drawing has five records, one for each of the five numbers.The numbers for each drawing can be displayed as a single line using the Matrix visualisation, as shown in this figure. 

single line using the Matrix visualisation

The goal is to have a slicer that filters rows based on the number or numbers selected. If you choose 5 and 10, for example, the rows that contain those numbers will be displayed:

numbers selected

You can also use conditional formatting to make the selected numbers glow in a colour of your choosing.

conditional formatting

Each row in the table represents a single number drawn in a single lotto drawing. Since each drawing has five numbers, the table includes five records for each drawing. Lotto is the name of the table, and the following fields are the most important in this example:

DrawNo: The number of the drawing

DrawOrder: The order of the drawn number

Number: The drawn number

Begin by creating a new Power BI dashboard and then importing the csv file. You can also use the MatrixSimpleStart.pbix file included in the zip file as a starting point.

Matrix Creation

There are three fields to configure in the Matrix visual: the field for the rows, the field for the columns, and the values’ field. A single drawing with the five numbers should be shown on each line of the visual. As a result, the DrawNo field will be used to aggregate the drawings on each row.

How do you show five records on each line when each drawing has five records, the five drawn numbers? The columns’ title will be decided by the content of the field you select as a column field. The best choice is easy: “DrawOrder”. Each row shows the “DrawNo”. Each column has the “DrawOrder” as a title and will show the drawn “Number” as a value in the column.

Follow a quick sequence of steps to configure the Matrix visual once you’ve opened the file MatrixSampleStart.pbix or imported the csv file. You’ll be working in Report view.

a. Add a “Matrix” visual to the report from the “Visualizations” pane.

Matrix

b. Drag the three fields, “DrawNo”, “DrawOrder”, and “Number”, to the appropriate slots in the “Fields Pane”.

DrawOrder

The Matrix will look like this after you’ve placed all of the fields in the correct spots:

correct spots

c. In the “Visualizations Pane”, with the matrix selected, click the “Format” button and disable the subtotals for rows and columns as they are not needed.

Visualizations Pane

Format

d. While still in the “Format” tab, under the “Style” option, change the style of the matrix. You can choose any available style; I suggest “Bold Header”.

style of the matrix

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e. Still in the “Format” tab, change the font size under these three different options: “Row Headers”, “Column Headers”, and “Values”. I like to use 12 as font size.

Row Headers

The completed Matrix should look like this:

completed Matrix

Creating a Slicer and Filtering the Matrix

Since the matrix includes numbers from lotto drawings, filtering the drawn numbers and only displaying the drawings with the selected drawn numbers is the right choice for a slicer.

There are three possible approaches to create a slicer:

  • Build a slicer based on the table’s original fields (Lotto).
  • Build a slicer based on a new measured table by transforming the original table into a new one using a DAX expression.
  • Make a slicer based on a What-If condition.

Note that DAX is an expression language used in tabular models, such as the Power BI model, to allow for calculations to be done on the model.

The first two options maintain a connection to the original table (Lotto). Although this relationship does not affect the outcome, it does cause a minor bug. The slicer must be placed before the matrix on the page. Some slicer configurations will be unavailable if the slicer is inserted after the matrix. First, the slicer must be inserted.

Creating a Slicer from the Same Table

The simplest way to add a slicer is from a table field. Unfortunately, in this case, it does not quite provide the answer. To see how to add a slicer based on the table, follow these steps:
a. Drop the matrix.
b. In the “Fields Pane”, select the “Number” field in the Lotto table.
c. In the “Visualizations” Pane, change the visual to “Slicer”.

Slicer

d. Change the slicer format to “List” in the slicer style option within the slicer.

slicer style option

e. Select the slicer in the Visualizations Pane and press the “Format” button. Disable the “Single Select” option in the “Selection Control” options to enable multiple number selection.

Format

f. Repeat the steps in the “Create the Matrix” section to recreate the matrix.

Select two numbers in the slicer, such as 5 and 10, and look at the result in the matrix to evaluate this solution. You’ll note two issues:

  • Instead of showing all of the numbers from the chosen draws, the draws are filtered to display only the selected numbers. This isn’t the best outcome for this problem.
  • The multiple choices act as an OR rather than an AND. Only one of the two chosen numbers appears in the drawings.

Create the Matrix

Fixing the Selection

A different approach to this problem is needed to address the range. The model and visual engine in Power BI build the filter automatically, displaying only the selected numbers. To display all of the chosen draws’ numbers, you’ll need to disable the automatic filter and construct a DAX formula to decide which ones should be displayed.

This takes us back to the decision on how to design the slicer: building the slicer directly from the draws table (Lotto) establishes an inevitable relationship. The only slicer option that won’t work is this one. The relationship to the source table (Lotto) can be managed if you construct the slicer from a calculated table or What-If parameter, avoiding the filtering.

You can construct a DAX formula to filter the drawings if the slicer does not directly filter the matrix. The expression would compare the numbers on the current drawing row to the slicer’s chosen numbers to decide whether the row should be displayed.

Next, you’ll see two alternate ways to render the slicer, both of which include the use of a helper table. You have the choice of using either method.

Creating the Slicer – Calculated Table

An essential DAX expression can be used to build this table. A button named “New Table” can be found on the top menu, “Modeling” tab. After you click this button, space expands in which you can type in the DAX expression for this table.

Creating the Slicer – Calculated Table

Call the table “Selector”. The expression is very simple:

Selector = VALUES (Lotto[Number] )

Selector, the newly created table, would be unrelated to the original. The only impact would be the strange visual action that allows the slicer to be generated before the matrix, considering the fact that it was created from Lotto rows.

Lotto rows

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You must perform the following steps if you chose this choice for the “Selector” table:

  1. Drop the slicer.
  2. Drop the matrix.
  3. Create the slicer again using the steps from the “Creating a Slicer from the Same Table” section but use the “Number” field from the “Selector” table.
  4. Create the matrix again.

The slicer will not filter the data at this point. Please keep reading to figure out how to make it sort the matrix.

Creating the Slicer from the What-if Parameter

It would be best to create a “What-if” parameter instead of creating the “Selector” table based on the Lotto table. This is a new table with no relationship to the Lotto table. If you used the table in the previous section to build the Selector, delete it before proceeding.

a. Delete the matrix

b. To open the “What-if Parameter” window, go to the top menu, “Modeling” tab, and press the “Create Parameter” button.

Create Parameter

2. Click “OK” once the properties have been filled in.

DAX Formula

Behind the scenes, the following DAX formula is generated:

Selector = GENERATESERIES ( 1, 99, 1 )

In the Fields pane, you’ll find a new measure:

 

GENERATESERIES

As you can see in the image above, this option varies slightly from the previous one in that the area generated within the the “Selector” table is now called “Selector” rather than Number.

You should rename the “Selector” field to “Number” to make all options the same. It’s not necessary, but if you don’t, the following expressions would need to use Selector[Selector] instead of Selector[Number] to apply to this field.

The steps to rename this field:

  1. Click the ‘…’ (More Options) button in the “Fields” pane, next to the “Selector” field, under the “Selector” table.
  2. In the context menu that appears, select the “Rename” menu item.
  3. Change the name of the area to “Number”.

Follow these steps to complete the slicer

  1. To format the new slicer that will be automatically added to the report, repeat the formatting (steps 4 and 5 in “Creating a Slicer from the Same Table”).
  2. Recreate the matrix as described in the section “Creating the Matrix.”

Continue learning how to get the slicer to work filtering the matrix if you choose this method for the slicer.

Discriminating Measures and Calculated Columns

Before moving on, it’s essential to consider why you should build measures rather than calculated columns. DAX expressions are accepted in both measures and calculated columns. They do, though, vary in a few respects. Measures are used on aggregations row by row while the calculated column expression is analysed in the row context.

Another crucial distinction, and generally the most simple one to remember when making a decision, is when the calculation is performed. As the table is processed, the calculated column expressions are evaluated, and the result is preserved in the Power BI file. They can’t rely on any contact with the visuals because they’ve already been calculated.

This simplifies the decision: you’ll need steps that respond to the slicer range as the consumer makes it. Another explanation is that these measures would be calculated on each line of the matrix, essentially an aggregate of five records.

Creating the Measures for Filtering

To sort the rows depending on the chosen numbers, you’ll need to build a single measure to see if each row on the slicer has the specified numbers. It’s a boolean variable that can return true or false, but here’s the trick: Since boolean measurements for filtering don’t fit well in Power BI, you’ll need to build it as a numeric measure that returns 1 or 0.
Another problem with this formula is that it shows all rows while the slicer has no selection. In this case, the test should return 1 for all rows, implying that it is displayed.

This calculation will be determined for each row of the matrix, which is made up of five numbers. The slicer, on the other hand, would have a series of numbers that you don’t know how many there are.The result should be 1 (show the line) if any of the slicer’s numbers are contained in the drawing numbers in the row, otherwise 0.

You will use a DAX expression to build variables within the expression, which you can use to solve this problem. Here’s where the expression starts:

LineFilter =

VAR tab =   VALUES (Selector[Number] )

VAR tab2 =  VALUES ( Lotto[Number] )

VAR common =  INTERSECT ( tab, tab2 )

VAR rowsCommon =  COUNTROWS ( common )

VAR rowsSelected =  COUNTROWS ( tab )

It’s vital to consider the context in which this expression was processed. Since the expression will be analysed on each line of the matrix, the Values function over the Selector table will return either the numbers chosen on the slicer or all the numbers, while the Values function over the Lotto table will return only the numbers over the current drawing line.

If the rowsCommon variable is equal to the rowsSelected variable in the final part of the expression, all numbers selected on the slicer are on this drawing, and the result is 1.Otherwise, it will be 0.However, you should consider whether the slicer is filtered at all. You can use the ISFILTERED DAX function for this.

The full DAX expression is:

LineFilter =

VAR tab =   VALUES ( Selector[Number] )

VAR tab2 =  VALUES ( Lotto[Number] )

VAR common =  INTERSECT ( tab, tab2 )

VAR rowsCommon =  COUNTROWS ( common )

VAR rowsSelected =  COUNTROWS ( tab )

RETURN
    IF (
        OR ( rowsCommon = rowsSelected, 
          NOT ( ISFILTERED ( Selector[Number] ) ) );
        1,
        0
    )

The steps to use this expression are the following:

a. In the “Fields” pane, Click the ‘…’ (More Options) button close to the “Lotto” table.

b. Click the “New Measure” menu option in the context menu that will appear.

New Measure

a. Paste the entire expression, including the measure name, in the formula bar.

measure name

a. Drag the newly generated measure to the matrix configuration’s filter area.

b. Change the comparison expression Show items when the value to is

c. Fill the value expression with 1.

matrix configuration's

d. Click Apply Filter

The filter will be operational after you’ve finished these steps. When you use the slicer to choose multiple numbers, you’ll just see the draws that include all of the numbers you’ve chosen.

multiple numbers

Conditional Formatting

The conditional format is the “cherry on top” of this solution. You can not only filter the drawings, but you can also use a different color to highlight the numbers chosen on the slicer inside each line.

The slicer’s numbers can show in red or whatever color you choose. For conditional formatting, this is too complex. As a result, you’ll need a new metric that tells you whether or not each number in the drawing is chosen.

This calculation will be processed for each number rather than collections of numbers, so it will only be used for conditional filtering. However, since it’s a metric, you’ll need to use an aggregation function on the “Number” field, which can be as simple as SUM.

The final measure will look like this:

NumFilter =

VAR tab = VALUES (Selector[Number] )

RETURN

IF ( SUM ( Lotto[Number] ) IN tab, 1, 0 )

The steps to complete the conditional formatting are:

a. In the “Fields” pane, click the ‘…’ (More Options) button close to the Lotto table.

b. Click the “New Measure” menu option in the context menu that will appear.

c. Paste the entire expression, including the measure name, in the formula bar.

New Measure

b. In the “Visualizations” pane, with the matrix selected, click the “Format” button.

IMG27

Visualizations

a. In the “Visualizations” pane, open “Conditional formatting”.

b. Under the “Conditional Formatting” element, enable “Font color” option.

Conditional Formatting

a. Click on the “Advanced Controls” link that will appear below the “Font color” option.

b. In the “Font color” window, on the “Format by” dropdown box, select “Rules”.

Font color

On the “Based on field” dropdown box, select the measure, “NumFilter”.

Based on field

a. On the “If value” dropdown box select the “is” option.

If value

1. Type 1 in the textbox besides the previous dropdown.

2. Select “Red” in the color picker, if not selected already.

3. Click “Ok”.

Once you’ve finished the steps, the chosen numbers should light up in red or the colour you choose.

colour you choose

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Conclusion: 

Each line of a matrix may be filtered according to a slicer using some sophisticated DAX expressions. Furthermore, the numbers chosen may be highlighted. By using the Matrix visual, you can apply the expressions presented here to  your challenges.

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