Alarm Master Database (Exaquantum/AMD)

The Problem
Poor alarm management is one of the leading causes of downtime and has contributed to some of the worst recorded industrial accidents.

Changes to alarm limits through lack of alarm management can potentially lead to safety failures, lost production and equipment damage. Engineering time can also be lost due to poor or incorrect record keeping.

The Solution
Exaquantum/AMD (hereafter known as 'AMD') is Yokogawa's Master Alarm Database solution. Based on ANSI/ISA-18.2-2009 and EEMUA 191, AMD assists managers and supervisors in monitoring, assessing and auditing the behaviour of alarm setpoints as part of an alarm documentation and rationalization program.

Yokogawa releases Exaquantum/AMD R3.40 (Jul. 2022)

Additional Web Browser Support

  • Microsoft Edge (Internet Explorer compatible mode)
  • Google Chrome

Support for latest Software Operating Environment

  • Windows Server 2022 Standard (64-bit)
  • Windows 11 (Enterprise and Pro 64-bit)

Exaquantum/AMD R3.35 (Jan. 2022)

  • Support for UACS (Unified Alarm and Conditions Server)
    Exaquantum/ARA and Exaquantum/AMD confirm their position as the most effective and complete solution for Yokogawa customers, further enhancing the coverage of the CENTUM alarm system architecture. ARA and AMD have been modified to support UACS (Unified Alarms and Conditions Server) in addition to the already existing support for CAMS (Consolidated Alarm Management Server) for HIS.
  • CAMS & UACS Integration - AMD has been generalized to support both CAMS and UACS, updating the web application and reports to remove ‘CAMS’ specific references. An updated AMD Configuration Agent enables the reading and writing of alarm configuration to either CAMS or UACS.



Service Description Yokogawa Deliverables
Alarm & Event Analysis ✓ Report of current state of Alarm
✓ Statistics of Alarm & Events
✓ Statistics of manual interventions
✓ Top 5 Bad actors for Alarms
Alarm Philosophy ✓ Alarm Philosophy document compliant with ISA 18.2 standards
Fundamental Nuisance Alarm Reduction ✓ Report of the Nuisance alarms in the plant
✓ Root cause for the Nuisance alarms
✓ Countermeasures to prevent alarming for the Nuisance alarms
✓ Report containing the before and after improvements from this service
ISA 18.2/EEMUA 191 based Alarm System Design(Consultation & Training) ✓ Report of the current Alarm state and the gaps in design compared to standards
✓ Support in the design of the new Alarm system as per standards
✓ Training on conducting Documentation & Rationalization exercise
ISA 18.2/EEMUA 191 based Alarm System Design(Software & Training) ✓ Installation, commissioning and training of Exaquantum\AMD to establish Alarm Master design database
Operation State based Alarm Management
(Consultation & Training)
✓ Report of the current state of Alarm set points for various operation conditions in the plant
✓ Design of the new Dynamic Alarm Management
Operation State based Alarm Management
(Software & Training)
✓ Installation, Commissioning and training of AAASuite/Exapilot for Dynamic Alarm Management
Alarm Monitoring & Improvisation
✓ Report of current state of Alarm
✓ Statistics of Alarm & Events
✓ Statistics of Manual Interventions
✓ Areas of improvisation based on current state of Alarms
Alarm Monitoring & Improvisation
(Software & Training)
✓ Installation, Commissioning and training of Exaquantum\ARA for Alarm monitoring and reporting


  • Standardizes Alarm configurations to reduce errors
  • Improves employee efficiency by providing web access to information held in one central database
  • Confidence is enhanced by ensuring all changes are correct and consistent
  • Regulatory compliance is supported by the availability of a detailed audit trail
  • Low engineering configuration time required due to the ability of AMD to import the configuration from files, Distributed Control Systems (DCS), Consolidated Alarm Management System (CAMS), Unified Alarms and Conditions Server (UACS) and other systems
  • Lower insurance premiums

Key Features

  • Supports the ISA-18.2 Alarm Rationalization objectives for Management of Change (MOC)
  • MOC through version control and audit history
  • Notification of alarm setpoint changes to ensure approved setpoint values are enforced
  • Mode based alarm setpoint enforcement and monitoring
  • Manual or automatic enforcement of alarm setpoints
  • Storage and versioning of important alarm design and philosophy documents
  • Each alarm setpoint can have a percentage deadband which is used during the monitoring process to determine whether an enforcement should be raised
  • Remote management of DCS alarm setpoints and CAMS and UACS alarm attributes
  • Reports differences in configuration between AMD, DCS, CAMS and UACS
  • Set of filtered alarm reports based on search criteria such as the rationalization status or alarm priority
  • Configuration import and export enabling integration between disparate systems
  • Centralized repository to record all stakeholder requests and comments as an input to the MOC Process
  • Custom alarm attributes cater for numerous system configurations
  • Process setpoints are supported
  • Alarm dashboard provides an overview of the key configuration and processes allowing users to quickly diagnose problem areas


There is an increasing move to adopt the CCR (Central Control Room) operations concept largely due to staff rationalization and the need to improve decision making.

AMD has been designed to meet the requirement of providing secure support within single or geographically distributed facilities.

Alarm Management Support

Alarm management packages can struggle to meet the needs of a full alarm lifecycle. In particular, users often conduct their Alarm Objective Analysis (AOA) process on a greenfield site well before the control system configuration has begun.

Typically many specialists are involved during the AOA process, both internal and external consultants such as Yokogawa engineers. This is the key period when a large amount of information is created but, due to the lack of tools, much of this information is lost or buried in different documentation stores.

AMD fully supports the Management of Change (MOC) process by providing a number of features to store information into a centralized location and reduce the effort required to conduct each MOC cycle.

Exaquantum/AMD Alarm Details Page


The Plant Hierachy and Security
Alarm setpoints and tag assignments are stored within a hierarchical structure that is totally configurable to reflect one or more production plants (DCSs). Access permissions may be assigned for different hierarchy levels to provide or restrict access to an area of the hierarchy based on user roles.Documents can also be associated with any level.

Multiple Setpoints and the Master Setpoint
A setpoint is a value that has been approved for each alarm limit (such as HH, H, L and LL). This setpoint value represents the alarm limit, which if exceeded, will cause an alarm to be raised. For each alarm in AMD, multiple setpoints can be configured providing the ability to cater for varying plant operations and modes. One of the setpoints will be designated as the 'master' setpoint which is the value that is written to the DCS if enforcement is required.

Alarm Rationalization Status
Each alarm configured in AMD has a 'Rationalization Status' property. This is used primarily during the AOA or Alarm Rationalization process to track the progress of alarm updates.

The Alarm Rationalization statuses are displayed on the AMD Dashboard to provide users with an overall display of the AMD process status.

Alarm Versions
Alarms in AMD can be modified and the changes saved numerous times before being versioned. After theses saved changes have been reviewed they can either be committed resulting in a new alarm version or discarded resulting in the alarm returning to its previous 'committed' state. AMD keeps a versioned record of all committed alarm changes. These Alarm Versions can be viewed in an 'Audit' report on demand or scheduled for emailing.

Once an action has been created, other users can add their comments.

Exaquantum/AMD Audit Report Page

Alarm Actions

AMD provides a mechanism to record requests or tasks against individual alarms. These are created as a way to record the outstanding actions for an alarm, such as required alarm modifications, additions or deletions.

Multiple actions can be created per alarm limit and multiple comments can be made for each action. These actions can then be used during the MOC review process to decide what actions need to be taken for each alarm.

AMD also provides (either on demand or via a scheduled email) an 'Alarm Actions' report, which displays a summary of alarms actions and comments.

System Audit
The Cross Reference Report allows an audit to be performed that will list any inconsistencies with the alarm information held in AMD when compared to the information held in the DCS(s) and CAMS for HIS(s) (if present).

This report should be examined on a regular basis to locate and reconcile discrepancies.

AMD constantly monitors the DCS(s) events for changes to the alarm setpoints. Each DCS setpoint change is compared with the alarm setpoint(s) held in AMD. If a matching setpoint value exists in AMD then no enforcement action will be raised.

AMD can be configured to alert a preconfigured set of users if the DCS changed setpoint value is unauthorized, i.e. AMD does not contain a matching setpoint. AMD users can then review the alarm setpoint change and choose to either ignore the change or 'enforce' the authorized AMD setpoint value back to the DCS.

Enforcement and notification settings can be configured for each level in the plant hierarchy. Different areas of a plant may therefore be assigned to different user groups, and have different enforcement and notification settings.

AMD also provides an 'Enforcement' report on demand or scheduled for emailing.

Exaquantum/AMD Enforcement Report Page

Versioning is provided so that any changes to a document results in a new version with an associated reason for the change.

Document Management
AMD provides the facility to upload and store multiple documents against each plant hierarchy level. This allows documents detailing alarm philosophies to be uploaded to higher levels in the hierarchy while alarm definitions can be uploaded to an alarm.

The previous document version can be accessed from the document history allowing past document versions to be accessed.

Import and Export
AMD provides a mechanism for importing and exporting alarm and tag configuration data. Alarm setpoint values and attributes can be imported from, or exported to CSV files, OPC Servers, CAMS and UACS systems, Tag Reference Data can also be imported from CENTUM via an OPC server. Importing and exporting CSV files can be used as a quick way to make bulk modifications to the alarm configuration and to integrate disparate systems.

DCS and CAMS for HIS Integration
The DCS is the primary source for the alarm setpoint values held in AMD. CAMS and UACS provide a source for the alarm attributes held in AMD. The alarm attributes are those fields such as the priority, severity, consequence, etc.

Installation Scenarios

AMD can be either installed at a site that has no pre-existing control system or an existing site where one or more control systems are operational.

Greenfield Site
At a Greenfield site, AMD provides a key area to create and store the alarm configuration where the Alarm Systems have not yet been installed. The AMD master alarm setpoints can then be downloaded to the control systems and alarm attributes downloaded to CAMS or UACS making the configuration simple, fast and error free.

Existing DCS(s)
At a site where one or more DCSs are present, AMD can be used to obtain the alarm setpoints from each DCS. The plant hierarchy and alarm attributes can be provided by CAMS, UACS, or from an imported file. The DCS team may choose to conduct a review of these settings once a DCS has been configured to decide if any changes are required.

Non-Yokogawa Systems
AMD has been designed to interface with third party control systems, CAMS and UACS (if present). Please contact your local Yokogawa office for assistance.

Exaquantum/AMD Lifecycle

AMD Capabilities for Supported Phases

  • Document Management
  • Alarm Rationalization Status
  • Import and Export of alarm details
  • DCS and CAMS for HIS Integration
  • Creation and Management of Alarms details

AMD Capabilities for Key Phases

  • State based setpoints and the master setpoint
  • Enforcement of setpoint values
  • Alarm Versions
  • System Audit
  • Document Management
  • DCS, CAMS and UACS Integration
  • Alarm Actions



Alarm management is not just a project that has a start and end date; it's a continuous cycle. Once the alarm system has been reviewed and improvements have been identified, we must check that controls are in place to ensure the alarm system remains functional. The key is to ensure that the system is continuously monitored and any changes are fully documented. There are seven key steps for alarm management. Rationalization is one of those critical steps.



Product Overview

Implement an effective alarm system with Yokogawa’s Alarm Management Software, to help ensure the smooth running of operations throughout the lifecycle for safer and more reliable plants.

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