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Kathy Barthelt
/ Categories: Infor LN & Baan Tips

Infor LN & Baan Tip: Performance improvement by setting the First Free Number Cache (tcmcs0651m000)

Many transactions in all kinds of modules use order numbers or serial numbers. These order numbers are most often automatically generated. In the Number Groups (tcmcs0151m000) session you can define groups of order numbers used for dedicated areas. A Number Group is a group of the first free number series that you can assign to a specific use. All the numbers that Infor LN generates in the number groups that are dedicated to the same purpose are unique.

All the first free numbers are stored in the table tcmcs050.

As many different processes can request a free number from the number groups, we often see delays in the performance, due to locking on the first free number records. This locking issue can have a severe impact on the performance of huge batch-type transactions, but also on the performance perceived by individual users in many areas in LN.

For example:

  • Processing warehouse transactions. Single or in-batch
  • Completing / closing orders
  • Backflushing of production orders
  • Generate Order Planning
  • Cost calculation and warehouse revaluation


How this performance can be improved?

Resolution

In the Number Groups (tcmcs0151m000) session you can open the details of a specific Number Group (tcmcs0651m000) or start the session stand-alone.

In the Number Group, you define the Series with the related First Free Numbers. Per Serie in the First Free Number, you have the option to define the Cache Size.

This Cache size is defaulted on a value of 0 (zero). A cache size of zero means No Cache. How does the First Free Number caching works:

  • When the Cache Size is zero: With this setting a process requests a Free Number from the Serie and the first free number is issued to the process. But the first free number record is not updated yet. At the moment the requesting process is finished, without errors, it reports back that the number is used and the first free number record is updated. All the time that the process is working on the transactions the first free number record is locked. If another process is requesting a free number from the same series, it must wait (retries) until the record is updated and released by the previous process. This is the locking which is causing delays in the other processes.  
  • Setting the Cache Size to a higher value then zero activates the caching. When the Cache Size is set to 1 or higher, the requested free number is sent to the requesting process, the first free number is updated, with the number as defined in the Cache size, and the record is saved. It does not wait until the requesting process has reported back that is finished, with or without errors. In this way the record is immediately released and no locking will occur. If another process is requesting a free number, it does not need to wait until the free number record is released by the earlier process. If the process is ended with errors and therefor the number is not used, this number from the series is lost. This can result in gaps in the numbering. When the cache size is greater than 1, for example it is set to 5, the requesting process receives 5 free numbers. Even if it only needs less than 5. In this way the process only has to request for a new free number after it has used the first 5 numbers from the cache. This will also speedup the process in case of large batch transactions. For ‘warehouse integration users’, like for example Factory Track or WMS users we advise to set the cache size to 5.  

Note that financial documents are not based on number group series / first free numbers. Instead they are based on transaction type series, for which the caching functionality does not exist. Financial documents, like sales invoices, bank transactions, are thus not cached.

The caching is especially important to improve the performance of all logistical processes.

It is strongly recommended (mandatory) to set the Cache Size for all Number Groups to a minimum of 1.

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Kathy Barthelt

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Tips:  LX | BPCS | M3

EGLi provides Infor LX Configurable Enterprise Accounting (CEA) functionality including Advanced Transaction Processing (ATP), a configurable ledger, and batch transaction processing in the IDF architecture.

EGLi is a complete replacement for CEA. Infor LX applications integrate with EGLi, and subsystem transactions generated in Infor LX are used to create journal entries in EGLi. The Infor LX integration system parameters allow you to specify whether CEA or EGLi is your primary financial product.

We recommend that you select CEA while you test the integration. The primary financial product flag and the CEA migration programs are designed to assist existing CEA clients with their implementation of EGLi. Journals are produced in both GL systems so you can verify that the data in both GL systems are the same. This integration includes migration programs that copy your existing CEA files to corresponding EGLi files. After you run the migration programs, EGLi should be configured and ready to use. If you are already running IDF via Ming.le or SiW, before you install EGLi, you will need to see the Ming.le integration guide for instructions on how to export EGLi tasks from IDF to SiW/Ming.le.

Learn More > Infor LX Integration Guide for Enterprise General Ledger

  • Control Date Lead Times – LX provides five separate Control Date Lead Time fields so you can specify additional lead time values for Shop Orders, Purchase Orders and Planned and Firm Planned orders. Each Control Lead Time Date represents additional time (days) required at each step in the process that needs more time (Quarantine, Stabilize), that is to say, when a component is due, and when it can be used. (working with an aerospace  precision bearing manufacturer, I had to account for the QA requirement that no measurements could be taken until the parts had been “soaked” (stored) in an atmospheric controlled environment (72 degrees, and controlled humidity) for 24 hours. This requirement added one full day of lead time between each machining operation) The MPS/MRP Generation program, as well as programs that Shop Order Material Allocation records use the five control date lead times to adjust component required dates to function in the same way as the BOM Offset Lead Time.
     
  • All programs that create MRP Planned Orders, MRP Firm Planned Orders, Shop Orders, and Purchase Orders call the Control Date Calculation program (MRP515B) to establish all five control dates. A Control Lead Time Date is used to adjust the component Required Dates data in the Material Requirements file (KMR), based on planned orders for a parent, and the FMA Required Dates data, based on shop order release dates for a parent.
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Tips: LN | Baan

All actions required for converting, validating, matching, and posting electronically received bank statements can be performed within a single session:

  • Bank Statement Workbench (tfcmg5610m100)
  • Bank Statement (tfcmg5610m000)

Alternatively, you can use the sequence of electronic bank statement sessions outlined below.

Steps to Process Electronic Bank Statements:

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