=====
DDMRP
=====
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Demand Driven Material Requirements Planning is a formal multi-echelon
planning and execution method developed by Ms. Carol Ptak and Mr. Chad Smith.
DDMRP combines blended aspects of Material Requirements Planning (MRP),
Distribution Requirements Planning (DRP) with the pull and visibility
emphases found in Lean and the Theory of Constraints and the variability
reduction emphasis of Six Sigma.
This method has five sequential components:
#. *Strategic Inventory Positioning*. Answers the question "Given our system
and environment, where should we place inventory to have the best
protection?" and determines where should decoupling points of inventory be
placed.
#. *Buffer Profiles and Levels*. Determine the amount of protection at those
decoupling points.
#. *Dynamic Adjustments*. Allow the company to adapt buffers to group and
individual part trait changes over time through the use of several types
of adjustments.
#. *Demand Driven Planning*. Allow to launch purchase orders (POs),
manufacturing orders (MOs) and Transfer Orders (TOs) based on the priority
dictated by the buffers.
#. *Visible and Collaborative Execution*. These POs, MOs and TOs have to be
effectively managed to synchronize with the changes that often occur within
the "execution horizon."
These five components work together to greatly dampen, if not eliminate,
the nervousness of traditional MRP systems and the bullwhip effect in
complex and challenging environments.
This approach provides real information about those parts that are
truly at risk of negatively impacting the planned availability of inventory.
DDMRP sorts the significant few items that require attention from
the many parts that are being managed. Under the DDMRP approach,
fewer planners can make better decisions more quickly. That means companies
will be better able to leverage their working and human capital.
Demand Driven Material Requirements Planning is quickly being adopted
by a wide variety of leading companies across the world.
Some of the benefits reported by the DDMRP method include:
* High fill rate performance
* Lead time reductions
* Inventory reductions, while improving customer service
* Eliminate costs related to expedite
* Planners see priorities instead of constantly fighting the conflicting
messages of MRP
It is highly recommended to read the book 'Demand Driven Material
Requirements Planning (DDMRP)' by Carol Ptak and Chad Smith.
**Table of contents**
.. contents::
:local:
Installation
============
We strongly recommend to **uninstall** ``procurement_jit`` (so deliveries
related to Sales Orders aren't automatically reserved) and to avoid to
reserve stock for specific moves, buffers are in fact a reservation of stock.
However, while **reservation is discouraged**, it is still available to be
used, in case of reserved stock be aware that the buffer will be blind to this
transfers and stock and you are bypassing the DDMRP reordering flow.
Configuration
=============
Scheduled actions
~~~~~~~~~~~~~~~~~
* Go to *Settings > Technical*.
* 'DDMRP Buffer ADU calculation'. Computes the Average Daily Usage for all
Buffers.
* 'Reordering Rule DDMRP calculation'. Computes the Qualified Demand, Net
Flow Position, Planning and Execution priorities for all Buffers.
Decoupled Lead Time computation
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The DLT is automatically computed by the system.
For manufactured products' buffers just remember to provide and
set properly the following information:
* The *Manufacturing Lead Time* for the manufactured product. It can be found
at the product form view under the tab *Sales*.
* The *Delivery Lead Time* for the preferred vendor of a product. This is
important for the products which are purchased and are components in any
Bill of Materials.
For purchased/distributed products' buffers the logic is simpler.
* In the first place the system will look if there are Vendors for the product,
if so it will use the *Delivery Lead Time* of the preferred one.
* In case of absence of vendors, the *Lead Time* at the bottom of the Buffer
form view will be used.
Usage
=====
To easily identify were are you maintaining buffers in your Bill of
Materials, you will need to first provide location information on the Bills
of Materials.
* Go to *Manufacturing / Products / Bill of Materials* and update the
'Location' in all the Bill of Materials and associated lines,
indicating where will the parts be placed/used during the manufacturing
process.
* Print the report 'BOM Structure' to display where in your BOM are you
maintaining buffers, and to identify the Lead Time (LT) of each product, and
Decouple Lead Time (DLT).
Buffers
~~~~~~~
To list the list of inventory buffers, go to one of the following:
* *Inventory / Master Data / Stock Buffer Planning*
* *Inventory / Master Data / Reordering Rules*
Buffer Profiles
~~~~~~~~~~~~~~~
Buffer profiles make maintenance of buffers easier by grouping them in
profiles. Changes applied to the profiles will be applicable in the
associated buffer calculations.
* Go to *Inventory / Configuration / Buffer Profiles*.
The Buffer Profile Lead Time Factor influences the size of the Buffer Green
zone. Items with longer lead times will usually have smaller green zones, which
will translate in more frequent supply order generation.
* Go to *Inventory / Configuration / Buffer Profile Lead Time Factor* to
chan
The Buffer Profile Variability Factor influences the size of the Buffer Red
Safety zone. Items with longer lead times will usually have smaller green
zones, which will translate in more frequent supply order generation.
* Go to *Inventory / Configuration / Buffer Profile Lead Time Factor*.
Usual factors should range from 0.2 (long lead time) to 0.8 (short lead time).
Product attributes
~~~~~~~~~~~~~~~~~~
* For manufactured products, go to *Manufacturing / Products* and
update the 'Manufacturing Lead Time' field, available in the tab *Inventory*.
* For purchased products, go to go to *Purchasing / Products* and update the
*Delivery Lead Time* for each vendor, available in tab *Purchase* and section
*Vendors*.
ADU Calculation Methods
~~~~~~~~~~~~~~~~~~~~~~~
The Average Daily Usage (ADU) defines the frequency of demand of a product in a
certain location. It can be computed in different ways, which you can configure
with ADU calculation methods as follows:
#. Go to *Inventory / Configuration / DDMRP / ADU calculation methods*.
#. Indicate a name, a calculation method (fixed, past-looking,
future-looking or blended).
#. Fill the corresponding period (past, future or both for blended method) to
specify the length of period consideration (in days).
#. Indicate the source of information: stock moves or demand estimates.
#. If you use the blended method fill also the *Past Factor* and
*Future Factor*.
If you do not have prior history of stock moves in your system, it is advised
to use fixed method or start to work on future estimates. If you have
past-history of stock moves, best use past-looking method or blended method.
The ADU is computed every day by default in a background job independently
from the other buffer fields. This computation can be done with less frequency
but it is not recommended to run it less than weekly or more than daily.
Circumstantially, If you need to force the calculation of the ADU go to
*Inventory / Configuration / DDMRP / Run DDMRP* and click on
*Run ADU calculation*.
Known issues / Roadmap
======================
The DDMRP `roadmap <https://github.com/OCA/ddmrp/issues?q=is%3Aopen+is%3Aissue+label%3Aenhancement>`_
and `known issues <https://github.com/OCA/ddmrp/issues?q=is%3Aopen+is%3Aissue+label%3Abug>`_ can
be found on GitHub.
Changelog
=========
13.0.1.1.0 (2020-07-01)
~~~~~~~~~~~~~~~~~~~~~~~
**Features**
- - New setting *Update NFP on Stock Buffers on relevant events*.
- New dedicated settings block. (`#50 <https://github.com/OCA/ddmrp/issues/50>`_)
13.0.1.0.0 (2020-06-11)
~~~~~~~~~~~~~~~~~~~~~~~
* [MIG/REF] Migration of module to v13 and refactor (added new dedicated model
for stock buffer).
11.0.1.3.0 (2019-02-21)
~~~~~~~~~~~~~~~~~~~~~~~
* [ADD] New chart that depict information about the supply and demand (
displaying also de order spike threshold and horizon) for a buffer.
(`#40 <https://github.com/OCA/ddmrp/pull/40>`_)
11.0.1.2.0 (2019-01-29)
~~~~~~~~~~~~~~~~~~~~~~~
* [IMP] Performance improvement of execution priority calculation and ADU.
(`#36 <https://github.com/OCA/ddmrp/pull/36>`_)
* [IMP] Use the minimum quantity to adjust the procure recommendation.
(`#37 <https://github.com/OCA/ddmrp/pull/37>`_)
11.0.1.1.0 (2018-08-31)
~~~~~~~~~~~~~~~~~~~~~~~
* [IMP] Implemented Blended ADU calculation method.
(`#23 <https://github.com/OCA/ddmrp/pull/23>`_)
11.0.1.0.0 (2018-07-16)
~~~~~~~~~~~~~~~~~~~~~~~
* Start of the history
Bug Tracker
===========
Bugs are tracked on `GitHub Issues <https://github.com/OCA/ddmrp/issues>`_.
In case of trouble, please check there if your issue has already been reported.
If you spotted it first, help us to smash it by providing a detailed and welcomed
`feedback <https://github.com/OCA/ddmrp/issues/new?body=module:%20ddmrp%0Aversion:%2014.0%0A%0A**Steps%20to%20reproduce**%0A-%20...%0A%0A**Current%20behavior**%0A%0A**Expected%20behavior**>`_.
Do not contact contributors directly about support or help with technical issues.
Credits
=======
Authors
~~~~~~~
* ForgeFlow
Contributors
~~~~~~~~~~~~
* Jordi Ballester Alomar <jordi.ballester@forgeflow.com>
* Lois Rilo Antelo <lois.rilo@forgeflow.com>
* Guewen Baconnier <guewen.baconnier@camptocamp.com>
* Adria Gil Sorribes <adria.gil@forgeflow.com>
Other credits
~~~~~~~~~~~~~
The initial development of this module has been financially supported by:
* Aleph Objects, Inc.
Maintainers
~~~~~~~~~~~
This module is maintained by the OCA.
.. image:: https://odoo-community.org/logo.png
:alt: Odoo Community Association
:target: https://odoo-community.org
OCA, or the Odoo Community Association, is a nonprofit organization whose
mission is to support the collaborative development of Odoo features and
promote its widespread use.
.. |maintainer-JordiBForgeFlow| image:: https://github.com/JordiBForgeFlow.png?size=40px
:target: https://github.com/JordiBForgeFlow
:alt: JordiBForgeFlow
.. |maintainer-LoisRForgeFlow| image:: https://github.com/LoisRForgeFlow.png?size=40px
:target: https://github.com/LoisRForgeFlow
:alt: LoisRForgeFlow
Current `maintainers <https://odoo-community.org/page/maintainer-role>`__:
|maintainer-JordiBForgeFlow| |maintainer-LoisRForgeFlow|
This module is part of the `OCA/ddmrp <https://github.com/OCA/ddmrp/tree/14.0/ddmrp>`_ project on GitHub.
You are welcome to contribute. To learn how please visit https://odoo-community.org/page/Contribute.
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"description": "=====\nDDMRP\n=====\n\n.. \n !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n !! This file is generated by oca-gen-addon-readme !!\n !! changes will be overwritten. !!\n !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n !! source digest: sha256:81c9f86d5d94033c4e599e426d7a95628e63ebcb642deff966a8e49a5b951476\n !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n\n.. |badge1| image:: https://img.shields.io/badge/maturity-Beta-yellow.png\n :target: https://odoo-community.org/page/development-status\n :alt: Beta\n.. |badge2| image:: https://img.shields.io/badge/licence-LGPL--3-blue.png\n :target: http://www.gnu.org/licenses/lgpl-3.0-standalone.html\n :alt: License: LGPL-3\n.. |badge3| image:: https://img.shields.io/badge/github-OCA%2Fddmrp-lightgray.png?logo=github\n :target: https://github.com/OCA/ddmrp/tree/14.0/ddmrp\n :alt: OCA/ddmrp\n.. |badge4| image:: https://img.shields.io/badge/weblate-Translate%20me-F47D42.png\n :target: https://translation.odoo-community.org/projects/ddmrp-14-0/ddmrp-14-0-ddmrp\n :alt: Translate me on Weblate\n.. |badge5| image:: https://img.shields.io/badge/runboat-Try%20me-875A7B.png\n :target: https://runboat.odoo-community.org/builds?repo=OCA/ddmrp&target_branch=14.0\n :alt: Try me on Runboat\n\n|badge1| |badge2| |badge3| |badge4| |badge5|\n\nDemand Driven Material Requirements Planning is a formal multi-echelon\nplanning and execution method developed by Ms. Carol Ptak and Mr. Chad Smith.\n\nDDMRP combines blended aspects of Material Requirements Planning (MRP),\nDistribution Requirements Planning (DRP) with the pull and visibility\nemphases found in Lean and the Theory of Constraints and the variability\nreduction emphasis of Six Sigma.\n\nThis method has five sequential components:\n\n#. *Strategic Inventory Positioning*. Answers the question \"Given our system\n and environment, where should we place inventory to have the best\n protection?\" and determines where should decoupling points of inventory be\n placed.\n\n#. *Buffer Profiles and Levels*. Determine the amount of protection at those\n decoupling points.\n\n#. *Dynamic Adjustments*. Allow the company to adapt buffers to group and\n individual part trait changes over time through the use of several types\n of adjustments.\n\n#. *Demand Driven Planning*. Allow to launch purchase orders (POs),\n manufacturing orders (MOs) and Transfer Orders (TOs) based on the priority\n dictated by the buffers.\n\n#. *Visible and Collaborative Execution*. These POs, MOs and TOs have to be\n effectively managed to synchronize with the changes that often occur within\n the \"execution horizon.\"\n\nThese five components work together to greatly dampen, if not eliminate,\nthe nervousness of traditional MRP systems and the bullwhip effect in\ncomplex and challenging environments.\n\nThis approach provides real information about those parts that are\ntruly at risk of negatively impacting the planned availability of inventory.\n\nDDMRP sorts the significant few items that require attention from\nthe many parts that are being managed. Under the DDMRP approach,\nfewer planners can make better decisions more quickly. That means companies\nwill be better able to leverage their working and human capital.\n\nDemand Driven Material Requirements Planning is quickly being adopted\nby a wide variety of leading companies across the world.\n\nSome of the benefits reported by the DDMRP method include:\n\n* High fill rate performance\n* Lead time reductions\n* Inventory reductions, while improving customer service\n* Eliminate costs related to expedite\n* Planners see priorities instead of constantly fighting the conflicting\n messages of MRP\n\nIt is highly recommended to read the book 'Demand Driven Material\nRequirements Planning (DDMRP)' by Carol Ptak and Chad Smith.\n\n**Table of contents**\n\n.. contents::\n :local:\n\nInstallation\n============\n\nWe strongly recommend to **uninstall** ``procurement_jit`` (so deliveries\nrelated to Sales Orders aren't automatically reserved) and to avoid to\nreserve stock for specific moves, buffers are in fact a reservation of stock.\nHowever, while **reservation is discouraged**, it is still available to be\nused, in case of reserved stock be aware that the buffer will be blind to this\ntransfers and stock and you are bypassing the DDMRP reordering flow.\n\nConfiguration\n=============\n\nScheduled actions\n~~~~~~~~~~~~~~~~~\n\n* Go to *Settings > Technical*.\n* 'DDMRP Buffer ADU calculation'. Computes the Average Daily Usage for all\n Buffers.\n* 'Reordering Rule DDMRP calculation'. Computes the Qualified Demand, Net\n Flow Position, Planning and Execution priorities for all Buffers.\n\nDecoupled Lead Time computation\n~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n\nThe DLT is automatically computed by the system.\n\nFor manufactured products' buffers just remember to provide and\nset properly the following information:\n\n* The *Manufacturing Lead Time* for the manufactured product. It can be found\n at the product form view under the tab *Sales*.\n* The *Delivery Lead Time* for the preferred vendor of a product. This is\n important for the products which are purchased and are components in any\n Bill of Materials.\n\nFor purchased/distributed products' buffers the logic is simpler.\n\n* In the first place the system will look if there are Vendors for the product,\n if so it will use the *Delivery Lead Time* of the preferred one.\n* In case of absence of vendors, the *Lead Time* at the bottom of the Buffer\n form view will be used.\n\nUsage\n=====\n\nTo easily identify were are you maintaining buffers in your Bill of\nMaterials, you will need to first provide location information on the Bills\nof Materials.\n\n* Go to *Manufacturing / Products / Bill of Materials* and update the\n 'Location' in all the Bill of Materials and associated lines,\n indicating where will the parts be placed/used during the manufacturing\n process.\n\n* Print the report 'BOM Structure' to display where in your BOM are you\n maintaining buffers, and to identify the Lead Time (LT) of each product, and\n Decouple Lead Time (DLT).\n\n\nBuffers\n~~~~~~~\n\nTo list the list of inventory buffers, go to one of the following:\n* *Inventory / Master Data / Stock Buffer Planning*\n* *Inventory / Master Data / Reordering Rules*\n\n\nBuffer Profiles\n~~~~~~~~~~~~~~~\nBuffer profiles make maintenance of buffers easier by grouping them in\nprofiles. Changes applied to the profiles will be applicable in the\nassociated buffer calculations.\n\n* Go to *Inventory / Configuration / Buffer Profiles*.\n\nThe Buffer Profile Lead Time Factor influences the size of the Buffer Green\nzone. Items with longer lead times will usually have smaller green zones, which\nwill translate in more frequent supply order generation.\n\n* Go to *Inventory / Configuration / Buffer Profile Lead Time Factor* to\n chan\n\nThe Buffer Profile Variability Factor influences the size of the Buffer Red\nSafety zone. Items with longer lead times will usually have smaller green\nzones, which will translate in more frequent supply order generation.\n\n* Go to *Inventory / Configuration / Buffer Profile Lead Time Factor*.\n\nUsual factors should range from 0.2 (long lead time) to 0.8 (short lead time).\n\n\nProduct attributes\n~~~~~~~~~~~~~~~~~~\n\n* For manufactured products, go to *Manufacturing / Products* and\n update the 'Manufacturing Lead Time' field, available in the tab *Inventory*.\n* For purchased products, go to go to *Purchasing / Products* and update the\n *Delivery Lead Time* for each vendor, available in tab *Purchase* and section\n *Vendors*.\n\n\nADU Calculation Methods\n~~~~~~~~~~~~~~~~~~~~~~~\n\nThe Average Daily Usage (ADU) defines the frequency of demand of a product in a\ncertain location. It can be computed in different ways, which you can configure\nwith ADU calculation methods as follows:\n\n#. Go to *Inventory / Configuration / DDMRP / ADU calculation methods*.\n#. Indicate a name, a calculation method (fixed, past-looking,\n future-looking or blended).\n#. Fill the corresponding period (past, future or both for blended method) to\n specify the length of period consideration (in days).\n#. Indicate the source of information: stock moves or demand estimates.\n#. If you use the blended method fill also the *Past Factor* and\n *Future Factor*.\n\nIf you do not have prior history of stock moves in your system, it is advised\nto use fixed method or start to work on future estimates. If you have\npast-history of stock moves, best use past-looking method or blended method.\n\nThe ADU is computed every day by default in a background job independently\nfrom the other buffer fields. This computation can be done with less frequency\nbut it is not recommended to run it less than weekly or more than daily.\nCircumstantially, If you need to force the calculation of the ADU go to\n*Inventory / Configuration / DDMRP / Run DDMRP* and click on\n*Run ADU calculation*.\n\nKnown issues / Roadmap\n======================\n\nThe DDMRP `roadmap <https://github.com/OCA/ddmrp/issues?q=is%3Aopen+is%3Aissue+label%3Aenhancement>`_\nand `known issues <https://github.com/OCA/ddmrp/issues?q=is%3Aopen+is%3Aissue+label%3Abug>`_ can\nbe found on GitHub.\n\nChangelog\n=========\n\n13.0.1.1.0 (2020-07-01)\n~~~~~~~~~~~~~~~~~~~~~~~\n\n**Features**\n\n- - New setting *Update NFP on Stock Buffers on relevant events*.\n - New dedicated settings block. (`#50 <https://github.com/OCA/ddmrp/issues/50>`_)\n\n\n13.0.1.0.0 (2020-06-11)\n~~~~~~~~~~~~~~~~~~~~~~~\n\n* [MIG/REF] Migration of module to v13 and refactor (added new dedicated model\n for stock buffer).\n\n11.0.1.3.0 (2019-02-21)\n~~~~~~~~~~~~~~~~~~~~~~~\n\n* [ADD] New chart that depict information about the supply and demand (\n displaying also de order spike threshold and horizon) for a buffer.\n (`#40 <https://github.com/OCA/ddmrp/pull/40>`_)\n\n11.0.1.2.0 (2019-01-29)\n~~~~~~~~~~~~~~~~~~~~~~~\n\n* [IMP] Performance improvement of execution priority calculation and ADU.\n (`#36 <https://github.com/OCA/ddmrp/pull/36>`_)\n* [IMP] Use the minimum quantity to adjust the procure recommendation.\n (`#37 <https://github.com/OCA/ddmrp/pull/37>`_)\n\n11.0.1.1.0 (2018-08-31)\n~~~~~~~~~~~~~~~~~~~~~~~\n\n* [IMP] Implemented Blended ADU calculation method.\n (`#23 <https://github.com/OCA/ddmrp/pull/23>`_)\n\n11.0.1.0.0 (2018-07-16)\n~~~~~~~~~~~~~~~~~~~~~~~\n\n* Start of the history\n\nBug Tracker\n===========\n\nBugs are tracked on `GitHub Issues <https://github.com/OCA/ddmrp/issues>`_.\nIn case of trouble, please check there if your issue has already been reported.\nIf you spotted it first, help us to smash it by providing a detailed and welcomed\n`feedback <https://github.com/OCA/ddmrp/issues/new?body=module:%20ddmrp%0Aversion:%2014.0%0A%0A**Steps%20to%20reproduce**%0A-%20...%0A%0A**Current%20behavior**%0A%0A**Expected%20behavior**>`_.\n\nDo not contact contributors directly about support or help with technical issues.\n\nCredits\n=======\n\nAuthors\n~~~~~~~\n\n* ForgeFlow\n\nContributors\n~~~~~~~~~~~~\n\n* Jordi Ballester Alomar <jordi.ballester@forgeflow.com>\n* Lois Rilo Antelo <lois.rilo@forgeflow.com>\n* Guewen Baconnier <guewen.baconnier@camptocamp.com>\n* Adria Gil Sorribes <adria.gil@forgeflow.com>\n\nOther credits\n~~~~~~~~~~~~~\n\nThe initial development of this module has been financially supported by:\n\n* Aleph Objects, Inc.\n\nMaintainers\n~~~~~~~~~~~\n\nThis module is maintained by the OCA.\n\n.. image:: https://odoo-community.org/logo.png\n :alt: Odoo Community Association\n :target: https://odoo-community.org\n\nOCA, or the Odoo Community Association, is a nonprofit organization whose\nmission is to support the collaborative development of Odoo features and\npromote its widespread use.\n\n.. |maintainer-JordiBForgeFlow| image:: https://github.com/JordiBForgeFlow.png?size=40px\n :target: https://github.com/JordiBForgeFlow\n :alt: JordiBForgeFlow\n.. |maintainer-LoisRForgeFlow| image:: https://github.com/LoisRForgeFlow.png?size=40px\n :target: https://github.com/LoisRForgeFlow\n :alt: LoisRForgeFlow\n\nCurrent `maintainers <https://odoo-community.org/page/maintainer-role>`__:\n\n|maintainer-JordiBForgeFlow| |maintainer-LoisRForgeFlow| \n\nThis module is part of the `OCA/ddmrp <https://github.com/OCA/ddmrp/tree/14.0/ddmrp>`_ project on GitHub.\n\nYou are welcome to contribute. To learn how please visit https://odoo-community.org/page/Contribute.\n\n\n",
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