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exSILentia On-line Version 3 - 12 Month License
exSILentia® 3.0 integrates a suite of tools for the most important aspects relating to functional safety compliance.
With exSILentia® you are able to install exida’s years of functional safety experience on your computer. You will be able to define a project comprising of one or more Safety Instrumented Functions. All project documentation will be managed with easy report generation in Microsoft Word and Microsoft Excel. Sharing data for multi-person projects or for independent review is easy using the exSILentia® proprietary exi file format.
Our price: $5495.00
exSILentia On-line Version 3 - 3 Month License
exSILentia® 3.0 integrates a suite of tools for the most important aspects relating to functional safety compliance.
With exSILentia® you are able to install exida’s years of functional safety experience on your computer. You will be able to define a project comprising of one or more Safety Instrumented Functions. All project documentation will be managed with easy report generation in Microsoft Word and Microsoft Excel. Sharing data for multi-person projects or for independent review is easy using the exSILentia® proprietary exi file format.
Our price: $2925.00
exSILentia On-line Version 3 - 6 Month License
exSILentia® 3.0 integrates a suite of tools for the most important aspects relating to functional safety compliance.
With exSILentia® you are able to install exida’s years of functional safety experience on your computer. You will be able to define a project comprising of one or more Safety Instrumented Functions. All project documentation will be managed with easy report generation in Microsoft Word and Microsoft Excel. Sharing data for multi-person projects or for independent review is easy using the exSILentia® proprietary exi file format.
Our price: $3665.00
PHAx™ Online (12 Month License)
Conduct efficient PHA using exida’s PHAx tool
The main objective of a Process Hazard Analysis is to determine the hazards and hazardous events of the process and associated equipment. This first step in the functional safety lifecycle is critical, as adequate protection measures cannot be implemented for hazards that are not identified or not identified correctly.
The HAZOP (Hazard and Operability study) methodology in the industry has been widely accepted as a structured and thorough evaluation approach to identify hazards and hazardous events, combined with the sequence of events leading to the hazardous event.
PHAx guides users through the HAZOP process, effectively focusing the user on the task at hand, identifying hazards, hazardous events, and associated sequence of events, using a non-traditional approach. PHAx allows the user to document the relevant and important facts.
With PHAx, users can assign attributes to safeguards and recommendations that identify them as potential SIFs or Alarms. This will allow for a simplified transition between the PHA phase in the safety lifecycle to the SIL selection and Alarm rationalization phases with direct data exchange with the exida exSILentia® and SILAlarm tools.
The main objective of a Process Hazard Analysis is to determine the hazards and hazardous events of the process and associated equipment. This first step in the functional safety lifecycle is critical, as adequate protection measures cannot be implemented for hazards that are not identified or not identified correctly.
The HAZOP (Hazard and Operability study) methodology in the industry has been widely accepted as a structured and thorough evaluation approach to identify hazards and hazardous events, combined with the sequence of events leading to the hazardous event.
PHAx guides users through the HAZOP process, effectively focusing the user on the task at hand, identifying hazards, hazardous events, and associated sequence of events, using a non-traditional approach. PHAx allows the user to document the relevant and important facts.
With PHAx, users can assign attributes to safeguards and recommendations that identify them as potential SIFs or Alarms. This will allow for a simplified transition between the PHA phase in the safety lifecycle to the SIL selection and Alarm rationalization phases with direct data exchange with the exida exSILentia® and SILAlarm tools.
Our price: $2195.00
PHAx™ Online (3 Month License)
Conduct efficient PHA using exida’s PHAx tool
The main objective of a Process Hazard Analysis is to determine the hazards and hazardous events of the process and associated equipment. This first step in the functional safety lifecycle is critical, as adequate protection measures cannot be implemented for hazards that are not identified or not identified correctly.
The HAZOP (Hazard and Operability study) methodology in the industry has been widely accepted as a structured and thorough evaluation approach to identify hazards and hazardous events, combined with the sequence of events leading to the hazardous event.
PHAx guides users through the HAZOP process, effectively focusing the user on the task at hand, identifying hazards, hazardous events, and associated sequence of events, using a non-traditional approach. PHAx allows the user to document the relevant and important facts.
With PHAx, users can assign attributes to safeguards and recommendations that identify them as potential SIFs or Alarms. This will allow for a simplified transition between the PHA phase in the safety lifecycle to the SIL selection and Alarm rationalization phases with direct data exchange with the exida exSILentia® and SILAlarm tools.
The main objective of a Process Hazard Analysis is to determine the hazards and hazardous events of the process and associated equipment. This first step in the functional safety lifecycle is critical, as adequate protection measures cannot be implemented for hazards that are not identified or not identified correctly.
The HAZOP (Hazard and Operability study) methodology in the industry has been widely accepted as a structured and thorough evaluation approach to identify hazards and hazardous events, combined with the sequence of events leading to the hazardous event.
PHAx guides users through the HAZOP process, effectively focusing the user on the task at hand, identifying hazards, hazardous events, and associated sequence of events, using a non-traditional approach. PHAx allows the user to document the relevant and important facts.
With PHAx, users can assign attributes to safeguards and recommendations that identify them as potential SIFs or Alarms. This will allow for a simplified transition between the PHA phase in the safety lifecycle to the SIL selection and Alarm rationalization phases with direct data exchange with the exida exSILentia® and SILAlarm tools.
Our price: $1170.00
PHAx™ Online (6 Month License)
Conduct efficient PHA using exida’s PHAx tool
The main objective of a Process Hazard Analysis is to determine the hazards and hazardous events of the process and associated equipment. This first step in the functional safety lifecycle is critical, as adequate protection measures cannot be implemented for hazards that are not identified or not identified correctly.
The HAZOP (Hazard and Operability study) methodology in the industry has been widely accepted as a structured and thorough evaluation approach to identify hazards and hazardous events, combined with the sequence of events leading to the hazardous event.
PHAx guides users through the HAZOP process, effectively focusing the user on the task at hand, identifying hazards, hazardous events, and associated sequence of events, using a non-traditional approach. PHAx allows the user to document the relevant and important facts.
With PHAx, users can assign attributes to safeguards and recommendations that identify them as potential SIFs or Alarms. This will allow for a simplified transition between the PHA phase in the safety lifecycle to the SIL selection and Alarm rationalization phases with direct data exchange with the exida exSILentia® and SILAlarm tools.
The main objective of a Process Hazard Analysis is to determine the hazards and hazardous events of the process and associated equipment. This first step in the functional safety lifecycle is critical, as adequate protection measures cannot be implemented for hazards that are not identified or not identified correctly.
The HAZOP (Hazard and Operability study) methodology in the industry has been widely accepted as a structured and thorough evaluation approach to identify hazards and hazardous events, combined with the sequence of events leading to the hazardous event.
PHAx guides users through the HAZOP process, effectively focusing the user on the task at hand, identifying hazards, hazardous events, and associated sequence of events, using a non-traditional approach. PHAx allows the user to document the relevant and important facts.
With PHAx, users can assign attributes to safeguards and recommendations that identify them as potential SIFs or Alarms. This will allow for a simplified transition between the PHA phase in the safety lifecycle to the SIL selection and Alarm rationalization phases with direct data exchange with the exida exSILentia® and SILAlarm tools.
Our price: $1465.00
Renew ExSILentia Standalone Safety Equipment Database Subscription For 1 Year
Renew ExSILentia Standalone Safety Equipment Database Subscription For 1 Year.
You will receive a file that is one year from when the database last expired.
You will receive a file that is one year from when the database last expired.
Our price: $1395.00
Renew ExSILentia Standalone Safety Equipment Database Subscription For 2 Years
Renew ExSILentia Standalone Safety Equipment Database Subscription For 2 Years
You will receive a file that is one year from when the database last expired.
You will receive a file that is one year from when the database last expired.
Our price: $2495.00
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