| Status | Approved |
|---|---|
| Owner | BAJAJ-ext, Manoj |
| Stakeholders | PILLAY-ext, Lawrence |
Purpose
The purpose of this document is to define the conversion approach to create conversion for Object 1184 – Security Class for Treasury related transactions
in S/4 HANA.
The security class is a grouping of similar securities. It defines the general characteristics of a group of similar securities. It is a standardised way of maintaining, managing and processing securities with shared properties. E.g. Bonds which may include corporate bonds, Government Bonds etc. Some of the common characteristics could be instrument type, currency, interest method, Nominal value type, interest calculation method, payment frequency, settlement type, interest method, product category etc.
The security class controls on how transactions for these types of instruments are valuated, settled, reported and accounted. The security class has close integration with market risk analyser, accounting, portfolio analyser and market data.
Key tables and fields:
There are three tables involved in S4 with respect to the maintenance of the Security Class Data and these are:
- TWX2 – This table stores the security index class data. It has the security class, Index class and secondary index number information.
- VWPANLA – This table stores the asset master data related to securities. Some of the key information stored are Security class ID number, Product category, status, Product Type, Security type etc.
- VWPANLE – This table stores data related to interest bearing securities. It contains information on Security ID number, Product category, classification, Nominal value of the security, Issue start and end date etc.
- VZZKOKO – This table stores “Table condition header data”. It contains fields that hold specific information or linking keys about table condition header data such as company code, product category, key part and date condition effective from.
- VZZKOPO - This table stores “Table condition items”. The table is essential for managing and organising data related to table condition items.
- VWPBONO - This table stores data related to securities listing.
Table: TWX2 is the central table for defining security class in SAP S/4HANA Treasury and Risk Management (TRM). It holds information on security class, index class and secondary index number. The key fields of TWX2 table are:
- RANL – The security class ID number is used for the unique identification of a security class. It can, for example, correspond to an official security ID number. The Class ID number can be assigned by user which can be ISIN or other identifier. It acts as the link with table VWPANLA
- VVRANLWX – Secondary indexes can be maintained for securities in addition to the ID number. It helps to identify the security in external data source. Field RANL (ID Number) is used as a link between 2 tables VWPANLA and TWX2
Table: VWPANLA is the table in SAP S/4HANA TRM that stores the asset master data for securities. Some of the key information stored are Security class ID number, Product category, status, Product Type, Security type etc.
The key fields of VWPANLA are:
- RANL – The security class ID number is used for the unique identification of a security class. It can, for example, correspond to an official security ID number. The Class ID number can be assigned by user which can be ISIN or other identifier.
- SANLF - The product category is an internal key that controls processing of the objects defined by the product type. When defining the product types in Customizing, you assign a specific product category to each product type. The available product categories are predefined in the system.
- GSART - The product type allows you to subdivide a product category. For example, stocks can be grouped into domestic stocks and foreign stocks; bonds can be divided into fixed-interest bonds, variable-interest bonds, and zero bonds.
- XALKZ - The short text for the master record.
- XALLB - The long text for the master record.
- SROLEXT - Indicator to classify the security class. The values can be adapted by the user and classify all securities for evaluation purposes independently of system settings, such as product type or product category. Below is the list of Classification:
- 01 Money market fund
- 02 Bond
- 03 Stock
- 04 Shareholdings
- 05 Subscription rights
- 06 Asset-Backed Securities
- REPKE - Name or number of the issuer Business Partner. BP must exist in BP Role Issuer TR0150
- REWHR - The currency in which the security was issued.
- PEMKURS - It is value at which the security was issued. It must in %
- SNOTI - The indicator specifies whether the security is unit-quoted or percentage-quoted.
- Percentage Quoted
- Unit Quoted
- SWERTTYP - Indicator for the security type according to the form of transfer (e.g. bearer security).
- Bear Security
- Reg Non-Traded Security
- Registered Security
- SBOERNOT- Indicates whether or not the price of a security is determined at an exchange (listing).
Table: VWPANLE – This table stores data related to interest bearing securities. It contains information on Security ID number, Product category, classification, Nominal value of the security, Issue start and end date etc.
The key fields of VWPANLE are:
- RANL – The security class ID number is used for the unique identification of a security class. It can, for example, correspond to an official security ID number. The Class ID number can be assigned by user which can be ISIN or other identifier. It acts as the link with table VWPANLA.
- SWPKLASS - Indicates the type of bond. These values allow you to classify bonds for evaluation purposes. Below are the bond Classification:
- 901 Supranational bonds
- 902 Sovereign bonds
- 903 non-sovereign government bonds
- 904 Quasi-government (agency) bonds
- 905 Financial company bonds
- 906 non-financial company bonds
- 907 Other bonds
- 911 Senior Secured
- 912 Senior Unsecured
- 913 Junior Subordinated
- 915 Mortgage-backed Securities
- 916 Collateralized Debt Obligation
- 917 Non-Mortgage ABS
Use the field RANL (ID Number) as a link between 2 tables VWPANLA and WPANLE
- BNOMS – The Original Nominal Amount field refers to the nominal amount on the bond certificate and not to the nominal amount of the entire issue (the global certificate). It is the smallest trading unit for the bond at the market.
- DEBEG – Issue date of the Security.
- CALC_BEGIN – Defines the start date of a calculation period in date format.
- DELFZ - Final Due Date of the security for maturity purpose.
Table: VZZKOKO – This table stores “Table condition header data”. It contains fields that hold specific information or linking keys about table condition header data such as company code, product category, key part and date condition effective from. The key fields of VZZKOKO table are:
- SINCL – If you set this indicator, the final maturity date is included in the interest calculation. It will be a checkbox. Value will be X for inclusive and no value for not inclusive
- RKEY1 – It acts as the linkage to table VWPANLA where VWPANLA-RANL=VZZKOKO-RKEY1
- STILGART - Indicates which repayment type is used.
- 1 Maturity
- 2 Instalment Repayment
- 3 annuity Repayment
- 4 Perpetual Bond
- SZBMETH – This field specifies the procedure for counting the days for the interest calculation.
- SEFFMETH - Single-digit, numeric value that uniquely defines a method of calculating the effective interest rate in the system.
Table: VZZKOPO - This table stores “Table condition items”. The table is essential for managing and organising data related to table condition items.. The key fields of VZZKOPO table are:
- RKEY1 – It acts as the linkage to table VWPANLA where VWPANLA-RANL=VZZKOPO-RKEY1
- DGUEL_KP - Determines the effective period of a condition item in conjunction with the Effective to date.
- SKOART - Condition Type determines if the conditions belong to maturity payment, interest, interest rate adjustment etc.
- JEXPOZINS - Specifies the type of interest calculation within an interest period. Interest periods are subdivided into calculation periods by split events. The type of interest calculation specifies how interest amounts are calculated within the calculation periods. It also determines how the calculation base amount is adjusted between the calculation periods. The following options are available for interest calculation:
- Linear interest calculation
- Exponential interest calculation.
It will update as X in table if selected Exponential Interest, else blank
- SZBMETH - Specifies the procedure for counting the days for the interest calculation.
- PKOND - Percentage rate of the condition item.
- SWHRKOND - Currency in which a payment is made or received, according to the condition type.
- SKALID - Specifies the ID of the factory calendar used for the working day shift.
- SKALID2 - Specifies the ID of the factory calendar used for the working day shift. If more than 1 calendar is used for working date shift calculation then maintain here
- SKALID3 - Specifies the ID of the factory calendar used for the working day shift. If more than 2 calendar is used for working date shift calculation then maintain here
- AMMRHY - The frequency specifies after how many months or calendar days a certain deadline is to be repeated. Quarterly, for example, is understood to be a frequency of 3 months.
- ATTRHY - The frequency specifies after how many months or calendar days a certain deadline is to be repeated. Quarterly, for example, is understood to be a frequency of 3 months.
- DVALUT - Date that represents the end of a calculation period for interest calculation.
- SVULT - You can use the month-end indicator to control the results of updates made on a regular basis.
- SINCL - If this field is flagged, the calculation date belongs to the calculation period.
- SVWERK - Specifies how to handle the calculation date if it falls on a day that is not a working day according to the settings in the Customizing activity Maintain Calendar.
- 0 - No Shift
- 1 - Next Working Day
- 2 - Next Working Day Modified
- AFGSTAGEVZ - Adds or deducts the number of working days
- AVGSTAGE - Specifies how to handle the calculation date if it falls on a day that is not a working day according to the settings in the Customizing activity Maintain Calendar.
- DFAELL - Date within a period on which a payment is due.
- SFULT - You can use the month-end indicator to control the results of updates made on a regular basis.
- SFWERK - Specifies how to handle the due date if it falls on a day that is not a working day according to the settings in the Customizing activity Maintain Calendar.
- 0 - No Shift
- 1 - Next Working Day
- 2 - Next Working Day Modified
- AFGSTAGEVZ - Adds or deducts the number of working days
- AFGSTAGE - Specifies how to handle the due date if it falls on a day that is not a working day according to the settings in the Customizing activity Maintain Calendar.
Table VWPBONO - This table stores data related to securities listing. The key fields of VWPBONO table are:
- RHANDPL - Name or short text for the stock exchange where the security is listed.
The treasury function in legacy is carried out in the Quantum system and therefore for the conversion of this object, the data/details need to be sourced from Quantum and transformed as applicable for S4HANA in Syniti and load using LTMC for Security Class in S4HANA
Conversion Scope
The scope of this document covers the approach for converting active from Legacy Source Systems into S/4HANA following the Master Data Design Standard.
The data from legacy system includes:
The data from legacy system excludes:
| Source | Scope | Source Approx No. of Records | Target System | Target Approx No. of Records |
|---|---|---|---|---|
Additional Information
Multi-language Requirement
Document Management
Legal Requirement
Special Requirements
Target Design
The technical design of the target for this conversion approach.
| Table | Field | Data Element | Field Description | Data Type | Length | Requirement |
|---|---|---|---|---|---|---|
Data Cleansing
| ID | Criticality | Error Message/Report Description | Rule | Output | Source System |
|---|---|---|---|---|---|
Conversion Process
The high-level process is represented by the diagram below:
Data Privacy and Sensitivity
Extraction
Extract data from a source into . There are 2 possibilities:
- The data exists. connects to the source and loads the data into . There are 3 methods:
- Perform full data extraction from relevant tables in the source system(s).
- Perform extraction through the application layer.
- Only if ; cannot connect to the source, data is loaded to the repository from the provided source system extract/report.
- The data does not exist (or cannot be converted from its current state). The data is manually collected by the business directly in . This is to be conducted using DCT (Data Collection Template) in
The agreed Relevancy criteria is applied to the extracted records to identify the records that are applicable for the Target loads
Extraction Run Sheet
| Req # | Requirement Description | Team Responsible |
|---|---|---|
Selection Screen
| Selection Ref Screen | Parameter Name | Selection Type | Requirement | Value to be entered/set |
|---|---|---|---|---|
Data Collection Template (DCT)
Target Ready Data Collection Template will be created for data with exception of some fields which require transformation as mentioned in the transformation rule.DCT Rules
| Field Name | Field Description | Rule |
|---|---|---|
Extraction Dependencies
| Item # | Step Description | Team Responsible |
|---|---|---|
Transformation
The Target fields are mapped to the applicable Legacy field that will be its source, this is a 3-way activity involving the Business, Functional team and Data team. This identifies the transformation activity required to allow to make the data Target ready:
- Perform value mapping and data transformation rules.
- Legacy values are mapped to the to-be values (this could include a default value)
- Values are transformed according to the rules defined in
- Prepare target-ready data in the structure and format that is required for loading via prescribed Load Tool. This step also produces the load data ready for business to perform Pre-load Data Validation
Transformation Run Sheet
| Item # | Step Description | Team Responsible |
|---|---|---|
Transformation Rules
| Rule # | Source system | Source Table | Source Field | Source Description | Target System | Target Table | Target Field | Target Description | Transformation Logic |
|---|---|---|---|---|---|---|---|---|---|
Transformation Mapping
| Mapping Table Name | Mapping Table Description |
|---|---|
Transformation Dependencies
List the steps that need to occur before transformation can commence| Item # | Step Description | Team Responsible |
|---|---|---|
Pre-Load Validation
Project Team
Completeness
| Task | Action |
|---|---|
Accuracy
| Task | Action |
|---|---|
Business
Completeness
| Task | Action |
|---|---|
Accuracy
| Task | Action |
|---|---|
Load
The load process includes:
- Execute the automated data load into target system using load tool or product the load file if the load must be done manually
- Once the data is loaded to the target system, it will be extracted and prepared for Post Load Data Validation
Load Run Sheet
| Item # | Step Description | Team Responsible |
|---|---|---|
Load Phase and Dependencies
Configuration
| Item # | Configuration Item |
|---|---|
Conversion Objects
| Object # | Preceding Object Conversion Approach |
|---|---|
| list the exact title of the conversion object of only the immediate predecessor – this will then confirm the DDD (Data Dependency Diagram) | |
Error Handling
| Error Type | Error Description | Action Taken |
|---|---|---|
Post-Load Validation
Project Team
Completeness
| Task | Action |
|---|---|
Accuracy
| Task | Action |
|---|---|
Business
Completeness
| Task | Action |
|---|---|
Accuracy
| Task | Action |
|---|---|
Key Assumptions
- Master Data Standard is up to date as on the date of documenting this conversion approach and data load.
- is in scope based on data design and any exception requested by business.