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 # Project Description
 
 The goal of the CernFIP project is to provide a radiation tolerant
-FPGA-based replacement for the MicroFIP chip, a WorldFIP agent.
+FPGA-based replacement for Alstom's WorldFIP agent, the MicroFIP chip.  
+This replacement is called nanoFIP.
 
-https://www.ohwr.org/607 This FPGA
-replacement is called
-https://www.ohwr.org/608
+-----
 
-\- \> nanoFIP is a **flash-based FPGA** component implementing the
-[WorldFIP](WorldFIP) protocol that can be used in field devices.
+The https://www.ohwr.org/609 is a rad-tol
+FPGA that acts as an agent in the communication over the WorldFIP
+fieldbus. https://www.ohwr.org/607
 
-\- \> It is designed to be **radiation tolerant** by using different
-single event upset mitigation techniques such as  
-Triple Module Redundancy and fail-safe state machines.
+\-\> It implements a minimal **subset of the WorldFIP services**.
 
-\-\> nanoFIP implements a minimal **subset of the WorldFIP services**.
+\- \> It is designed to be **radiation tolerant** by using different SEU
+mitigation techniques such as TMR and fail-safe state machines.
 
-\- \> The device is used in conjunction with a [FielDrive](FielDrive)
-driver chip and [FieldTR](FieldTR) insulating transformer,  
-both available from the company ALSTOM.
+\- \> It is used in conjunction with a [FielDrive](FielDrive) driver
+chip and [FieldTR](FieldTR) insulating transformer, both available from
+the company ALSTOM.
 
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