diff --git a/doc/Glossary.md b/doc/Glossary.md
index af16de2b1..e11fe25cf 100644
--- a/doc/Glossary.md
+++ b/doc/Glossary.md
@@ -22,7 +22,7 @@ A system to record PV values and reinstate them on startup of an IOC.
 
 ## [Axis](/specific_iocs/motor_extensions/Axis)
 
-In IBEX, the term axis refers to a degree-of-freedom within an experimental system.  See [Axes in IBEX](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Glossary/Axes%20in%20IBEX%20V1R0M0.pdf) for more detail.
+In IBEX, the term axis refers to a degree-of-freedom within an experimental system.  See [Axes in IBEX](https://stfc365.sharepoint.com/sites/IBEXSAG/Shared%20Documents/Forms/AllItems.aspx?id=%2Fsites%2FIBEXSAG%2FShared%20Documents%2FAxes%20in%20IBEX%20V1R0M0%2Epdf&parent=%2Fsites%2FIBEXSAG%2FShared%20Documents) for more detail.
 
 ## Backdoor
 
diff --git a/doc/client/misc/Designing-for-Colour-Blindness.md b/doc/client/misc/Designing-for-Colour-Blindness.md
index 31f52a347..ccf8c095a 100644
--- a/doc/client/misc/Designing-for-Colour-Blindness.md
+++ b/doc/client/misc/Designing-for-Colour-Blindness.md
@@ -7,7 +7,7 @@ This page provides some tips on designing displays that are suitable for people
 1. Don't rely on colour alone to distinguish between elements of the display.  Combine colours with different shapes (with outlines, in black, say) or text.
 1. In graphs, combine colours with line styles (solid lines, dashed lines, alternative dots-dashes, etc.).
 1. Avoid colour combinations that colour-blind people find difficult to distinguish.
-   1. [Colour Combinations](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Colour_Combinations.pptx) illustrates some poor and some good colour combinations.
+   1. [Colour Combinations](https://stfc365.sharepoint.com/:p:/r/sites/ISISExperimentControls/ICP%20Discussions/Colour_Combinations.pptx?d=w29a6418cd1da43ee94002e06267c7df4&csf=1&web=1&e=gwfSBH) illustrates some poor and some good colour combinations.
    1. As a simple rule (for red-green colour blindness): replace red with magenta or green with turquoise.
 1. Download the [ColorOracle](http://colororacle.org/index.html) tool.  It temporarily changes the colour balance of your screen to show how it appears to a colour blind person.  Use it when designing displays & graphs. NOTE: when running the ColorOracle exe file, a small icon will appear on your taskbar (next to the date and time); if it's not there, check your hidden icons.
 1. The [ColorOracle](http://colororacle.org/design.html) site has more comprehensive design advice.
\ No newline at end of file
diff --git a/doc/overview/Links-and-Resources.md b/doc/overview/Links-and-Resources.md
index 92d8f2d6a..5d6d431fc 100644
--- a/doc/overview/Links-and-Resources.md
+++ b/doc/overview/Links-and-Resources.md
@@ -2,17 +2,17 @@
 
 ## Training material
 
-- [IBEX Training Material](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FTraining&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View={F2C33C51-70E6-4343-B937-2C59A2568306})
+- [IBEX Training Material](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FTraining&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3)
 
 - There is a settings branch called NDXTRAIN with the setup for the training PCs (excluding machine specific files)
 
-- [IBEX scripting and Configuration Workshop slide](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IBEX%20Scripting%20and%20Configurations%20Workshop.pptx)
+- [IBEX scripting and Configuration Workshop slide](https://stfc365.sharepoint.com/:p:/r/sites/ISISExperimentControls/ICP%20Discussions/IBEX%20Scripting%20and%20Configurations%20Workshop.pptx?d=wa827b6c1ff6b48db978ddb3e3c695ce8&csf=1&web=1&e=lioSaC)
 
-- [IBEX general intro slides (work in progress)](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IBEX_Update.pptx)
+- [IBEX general intro slides (work in progress)](https://stfc365.sharepoint.com/:p:/r/sites/ISISExperimentControls/ICP%20Discussions/IBEX_Update.pptx?d=w9caf2dc7223f4bcb8b3fffe950f043a5&csf=1&web=1&e=HdEFu7)
 
-- [Sharepoint discussion site](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions)
+- [Sharepoint discussion site](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3)
 
-- [Instrument sharepoint site](http://www.facilities.rl.ac.uk/isis/computing/instruments/Instrument%20Documents/Forms/AllItems.aspx) contains passwords and instrument definition 
+- [Instrument sharepoint site](https://stfc365.sharepoint.com/sites/ISISExperimentControls/Instrument%20Documents/Forms/AllItems.aspx) contains passwords and instrument definition 
 
 - [EPICS Channel access explained](http://www.aps.anl.gov/epics/docs/CAproto.html)
 - [EPICS Channel access explained 2 (presentation)](https://epics.anl.gov/docs/APS2014/08-Database-Principles.pdf): nice bit on `NMS`, `MS`, `MSS`, `MSI`
diff --git a/doc/overview/New-Starters.md b/doc/overview/New-Starters.md
index 00eb70906..94e04cd70 100644
--- a/doc/overview/New-Starters.md
+++ b/doc/overview/New-Starters.md
@@ -61,7 +61,7 @@ These can be found in `C:\Instrument\Apps\EPICS`.
 
 ### Office Admin Links
 
-As a new starter you should add your name and picture to the training [slides](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FTraining&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View=%7BF2C33C51-70E6-4343-B937-2C59A2568306%7D).
+As a new starter you should add your name and picture to the training slides in `<shares>\ISIS_Experiment_Controls_Public\training`. If you do not know where this share is, please ask.
 
 - [ISIS Sharepoint](https://stfc365.sharepoint.com/sites/isis-hub/) - Shared ISIS documents, manuals, meeting minutes etc
 - [Oracle Login](https://portal.ssc.rcuk.ac.uk/) - Book leave, create timesheets
@@ -89,7 +89,7 @@ Ironically, to get a well-explained overview of what IBEX is, and how to interac
 
 There are some training materials available that we use to train scientists on IBEX, which is also a nice way to get started:
 
-- [IBEX training](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FTraining&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View=%7BF2C33C51-70E6-4343-B937-2C59A2568306%7D)
+- IBEX training: `<shares>\ISIS_Experiment_Controls_Public\training` (if you do not know where the share is, please ask)
 
 ### Components and Technical Concepts
 
diff --git a/doc/processes/dev_processes/Understanding-Java-Licensing.md b/doc/processes/dev_processes/Understanding-Java-Licensing.md
index f2980cd9b..9fa664110 100644
--- a/doc/processes/dev_processes/Understanding-Java-Licensing.md
+++ b/doc/processes/dev_processes/Understanding-Java-Licensing.md
@@ -85,6 +85,6 @@ This information is left here for completeness only.
 > The ``-XX:+UnlockCommercialFeatures`` command line option is **not** a feature of either batch file. Given that the Apache SF is dedicated to the provision of open-source software, it seems highly unlikely that they will ever use 
 > the ``-XX:+UnlockCommercialFeatures`` command line option.
 > ## Reference Material
-> * [Java Licensing](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FJava%20Licensing&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View={F2C33C51-70E6-4343-B937-2C59A2568306}) folder on ICP Discussions site.
+> * [Java Licensing](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FJava%20Licensing) folder on ICP Discussions site.
 > * [Oracle Binary Code License Agreement for the JAVA SE Platform Products (02-April-2013)](http://www.oracle.com/technetwork/java/javase/documentation/otn-bcl-02april2013-1966219.pdf)
 > * [Ticket: #1915](https://github.com/ISISComputingGroup/IBEX/issues/1915)
\ No newline at end of file
diff --git a/doc/processes/instrument_details/ALF-Instrument-Details.md b/doc/processes/instrument_details/ALF-Instrument-Details.md
index a327bea2e..72429815e 100644
--- a/doc/processes/instrument_details/ALF-Instrument-Details.md
+++ b/doc/processes/instrument_details/ALF-Instrument-Details.md
@@ -26,18 +26,18 @@ DAE-2
 {#alf_noteGalil}
 ##### Note: Galil #####
 Model: [DMC2280](http://www.galilmc.com/products/dmc-22x0.php).<br>
-Photograph of [ALF Galil Crate](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/ALF/ALF_Galil_Crate.jpg).<br>
+Photograph of [ALF Galil Crate](https://stfc365.sharepoint.com/:i:/r/sites/ISISExperimentControls/ICP%20Discussions/ALF/ALF_Galil_Crate.jpg?csf=1&web=1&e=tteUae).<br>
 Note that GALIL_02 had trouble communicating asynchronously so Freddie switched it to synchronous (done by making the third argument of `GalilCreateController("Galil", "$(GALILADDR02)", 20)` negative in `galil2.cmd`).
 
 {#alf_noteJaws}
 ##### Note: Jaws #####
 Location: various<br>
 Driven by [Galils](#alf_noteGalil).<br>
-Photograph of [ALF Slits/Jaws](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/ALF/ALF_Slits.jpg).
+Photograph of [ALF Slits/Jaws](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FALF%2FALF%5FSlits%2Ejpg&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3&parent=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FALF).
 
 {#alf_noteGoniometer}
 ##### Note: Goniometer #####
 Model: 6-axis Goniometer, unknown model & manufacturer.<br>
 Driven by [Galils](#alf_noteGalil).<br>
 See [ALF Goniometer Axes](/specific_iocs/motor_extensions/ALF-Goniometer-Axes) for details of how the Goniometer is set up and configured.<br>
-Photographs of [ALF Goniometer (1)](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/ALF/ALF_Goniometer_1.jpg) and [ALF Goniometer (2)](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/ALF/ALF_Goniometer_2.jpg).
+Photographs of [ALF Goniometer (1)](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FALF%2FALF%5FGoniometer%5F1%2Ejpg&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3&parent=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FALF) and [ALF Goniometer (2)](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FALF%2FALF%5FGoniometer%5F2%2Ejpg&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3&parent=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FALF).
diff --git a/doc/processes/instrument_details/CHIPIR-Instrument-Details.md b/doc/processes/instrument_details/CHIPIR-Instrument-Details.md
index c4bc62759..d51205b58 100644
--- a/doc/processes/instrument_details/CHIPIR-Instrument-Details.md
+++ b/doc/processes/instrument_details/CHIPIR-Instrument-Details.md
@@ -91,7 +91,7 @@ Agilent has spun-off its electronic measurement business, which now trades as [K
 {#chipir_note-super-logics}
 ##### Note: SuperLogics #####
 1. [8017/18/19 series - 8 Channel Analog Input Module, 16-Bit A/D Converter](https://www.superlogics.com/data-acquisition-99/data-acq-analog-input/analog-input-rs485/8017.html).<br>
-Copy of manual for [8017/18/19 series](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Chipir/Manuals%20for%20Equipment/Superlogics_8019R.pdf).
+Copy of manual for [8017/18/19 series](https://stfc365.sharepoint.com/:b:/r/sites/ISISExperimentControls/ICP%20Discussions/Chipir/Manuals%20for%20Equipment/Superlogics_8019R.pdf?csf=1&web=1&e=EV4XiD).
 
 {#chipir_note-camera}
 ##### Note: Camera #####
diff --git a/doc/processes/instrument_details/CRISP-Instrument-Details.md b/doc/processes/instrument_details/CRISP-Instrument-Details.md
index 383d5a54b..0a6f04fd4 100644
--- a/doc/processes/instrument_details/CRISP-Instrument-Details.md
+++ b/doc/processes/instrument_details/CRISP-Instrument-Details.md
@@ -57,7 +57,7 @@ TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/I
 
 {#crisp_noteEurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/CRISP/CRISP_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 {#crisp_noteOxfordInstruments}
 ##### Note: Oxford Instruments #####
@@ -66,7 +66,7 @@ TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/I
 
 {#crisp_noteCCR}
 ##### Note: Closed Cycle Refrigerators #####
-   1. [CCR](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/CRISP/CRISP_CCR.jpg) is the most frequently used low-temperature device used in on CRISP.
+   1. CCR is the most frequently used low-temperature device used in on CRISP.
 [CCRs](https://www.isis.stfc.ac.uk/Pages/Closed-Cycle-refrigerators,-CCRs.aspx). Not directly computer-controlled  - controlled via Eurotherm.
 
 {#crisp_noteWaterBath}
diff --git a/doc/processes/instrument_details/EMMA-Instrument-Details.md b/doc/processes/instrument_details/EMMA-Instrument-Details.md
index b06b63696..dfa24a0d4 100644
--- a/doc/processes/instrument_details/EMMA-Instrument-Details.md
+++ b/doc/processes/instrument_details/EMMA-Instrument-Details.md
@@ -51,23 +51,23 @@ One T0 chopper.<br>
 Chopper is ISIS Mk2 chopper.  Mk2 choppers have a serial interface (not Ethernet like Mk3).
 See [#2130](https://github.com/ISISComputingGroup/IBEX/issues/2130) for IOC & OPI for Mk2 chopper.<br>
 The front panel of the Mk2 chopper control crate (located in the EMMA rack) looks like this:
-* [wide angle view](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_T0_Chopper_Front_Panel_(wide)_2017_06_05.jpg)
-* [zoomed-in view](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_T0_Chopper_Front_Panel_(zoom)_2017_06_05.jpg)
+* [wide angle view](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FEMMA%2FEMMA%5FT0%5FChopper%5FFront%5FPanel%5F%28wide%29%5F2017%5F06%5F05%2Ejpg&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3&parent=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FEMMA)
+* [zoomed-in view](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FEMMA%2FEMMA%5FT0%5FChopper%5FFront%5FPanel%5F%28zoom%29%5F2017%5F06%5F05%2Ejpg&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3&parent=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FEMMA)
 
 {#emma_noteFermiChopper}
 ##### Note: Fermi Chopper #####
 EMMA has a single Fermi chopper (manufactured by SKF).<br>
-Link to [Manual](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/Mirrortron-SKF%20892-0053%20MB350PC_R%20Rev%20C.pdf)<br>
+Link to [Manual](https://stfc365.sharepoint.com/:b:/r/sites/ISISExperimentControls/ICP%20Discussions/EMMA/Mirrortron-SKF%20892-0053%20MB350PC_R%20Rev%20C.pdf?csf=1&web=1&e=hctyNH)<br>
 The Fermi chopper control crates (located in the EMMA rack) look like this:
-* [Front View (upper & lower crates)](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_SKF_FermiChopper_Controller_Front_Upper_Lower_2017_06_05.jpg)
-* [Rear View (upper crate)](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_SKF_FermiChopper_Controller_Rear_Upper_2017_06_05.jpg)
-* [Rear View (lower crate)](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_SKF_FermiChopper_Controller_Rear_Lower_2017_06_05.jpg)
+* [Front View (upper & lower crates)](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FEMMA%2FEMMA%5FSKF%5FFermiChopper%5FController%5FFront%5FUpper%5FLower%5F2017%5F06%5F05%2Ejpg&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3&parent=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FEMMA)
+* [Rear View (upper crate)](https://stfc365.sharepoint.com/:i:/r/sites/ISISExperimentControls/ICP%20Discussions/EMMA/EMMA_SKF_FermiChopper_Controller_Rear_Upper_2017_06_05.jpg?csf=1&web=1&e=GzrImg)
+* [Rear View (lower crate)](https://stfc365.sharepoint.com/:i:/r/sites/ISISExperimentControls/ICP%20Discussions/EMMA/EMMA_SKF_FermiChopper_Controller_Rear_Lower_2017_06_05.jpg?csf=1&web=1&e=qJrYiI)
 
 {#emma_noteFermiChopperLift}
 ##### Note: Fermi Chopper Lift #####
 The Fermi chopper is lifted into position by a Galil controlled motor.<br>
 The Fermi chopper must not be operated when it is not in the beam (i.e. in the parked/upper position)
-There is a hardware interlock to prevent the Fermi chopper from being operated in the parked position.  This interlock is implemented in the Galil controller, via a Galil program (described in the [EMMA chopper lifter - Handover](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA%20chopper%20lifter%20-%20Handover.docx) document).  In SECI a simple VI is used to provide a GUI, which passes parameters to the Galil program, so that the user can control the Fermi Chopper lift.  IBEX should provide a similar capability via an IOC and OPI.
+There is a hardware interlock to prevent the Fermi chopper from being operated in the parked position.  This interlock is implemented in the Galil controller, via a Galil program (described in the [EMMA chopper lifter - Handover](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/ICP%20Discussions/EMMA/EMMA%20chopper%20lifter%20-%20Handover.docx?d=wafc19324e3354636b5ab702a140668aa&csf=1&web=1&e=A6BnDe) document).  In SECI a simple VI is used to provide a GUI, which passes parameters to the Galil program, so that the user can control the Fermi Chopper lift.  IBEX should provide a similar capability via an IOC and OPI.
 
 {#emma_noteJaws}
 ##### Note: Jaws #####
@@ -76,23 +76,23 @@ Jaw set is manufactured by Advanced Design Consultancy.
 
 {#emma_noteVacuum}
 ##### Note: Vacuum System #####
-The vacuum system ([TPG300](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_TPG300_2017_06_05.jpg)) on EMMA is currently (06/03/2017) not operational.  Outside possibility that it may be operational by cycle 2017/02.
+The vacuum system ([TPG300](https://stfc365.sharepoint.com/:i:/r/sites/ISISExperimentControls/ICP%20Discussions/EMMA/EMMA_TPG300_2017_06_05.jpg?csf=1&web=1&e=k6q5ew)) on EMMA is currently (06/03/2017) not operational.  Outside possibility that it may be operational by cycle 2017/02.
 
 {#emma_noteYZTable}
 ##### Note: Y-Z Table #####
 Driven by Galil controlled motors.
 In SECI, Y-Z Table has its own GUI.  No particular reason for this; it could be merged with the Rotation Stage UI.<br>
-[Photograph of Y-Z table](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_Y_Z_Table_2017_06_05.jpg).
+[Photograph of Y-Z table](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/EMMA/EMMA_Y_Z_Table_2017_06_05.jpg).
 
 {#emma_noteRotationStage}
 ##### Note: Rotation Stage #####
 Driven by Galil controlled motors.
 In SECI, Rotation Stage has its own GUI.  No particular reason for this; it could be merged with the Y-Z Table UI.<br>
-[Photograph of Rotation Stage](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_Rotation_Stage_2017_06_05.jpg).  It sits on top of the Y-Z table when in use.
+[Photograph of Rotation Stage](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/EMMA/EMMA_Rotation_Stage_2017_06_05.jpg).  It sits on top of the Y-Z table when in use.
 
 {#emma_noteCAENHT}
 ##### Note: CAEN HT #####
-CAEN high-voltage system is a [SYS2527](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMMA/EMMA_CAEN_HV_PSU_2017_06_05.jpg) (see tickets: #212, #241, #320, #419, #424)
+CAEN high-voltage system is a [SYS2527](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/EMMA/EMMA_CAEN_HV_PSU_2017_06_05.jpg) (see tickets: #212, #241, #320, #419, #424)
 
 {#emma_noteCAENDigitiser}
 ##### Note: CAEN Digitiser #####
diff --git a/doc/processes/instrument_details/EMU-Instrument-Details.md b/doc/processes/instrument_details/EMU-Instrument-Details.md
index 9318740bd..687ce0e1e 100644
--- a/doc/processes/instrument_details/EMU-Instrument-Details.md
+++ b/doc/processes/instrument_details/EMU-Instrument-Details.md
@@ -45,7 +45,7 @@ Muon instruments do not have choppers.
 Provide information about EMU jaws.
 
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/EMU/EMU_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 ##### Note: Water Baths #####
 EMU uses Julabo water baths
@@ -80,12 +80,12 @@ LabVIEW client can be found at : `C:\LabVIEW Modules\Drivers\ICEOxford\ICECube\I
 ##### Note: Danfysik #####
 Need to check which model of Danfysik is used on EMU.
 1. [Danfysik Power Supplies](http://www.danfysik.com/en/products/power-supplies/): model 8000 appears to have been superseded by model 8500.
-1. [User and Software Manuals](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FPower%20Supplies&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View={F2C33C51-70E6-4343-B937-2C59A2568306}&InitialTabId=Ribbon%2EDocument&VisibilityContext=WSSTabPersistence) for System 8500.
+1. [User and Software Manuals](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FPower%20Supplies) for System 8500.
 1. See [#1208](https://github.com/ISISComputingGroup/IBEX/issues/1208) for comms settings.
 
 ##### Note: Genesys #####
 1. [TDK Lambda Genesys Power Supplies](https://uk.tdk-lambda.com/products/programmable-power-supplies/).
-1. [Safety, User and Programming Manuals](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FPower%20Supplies&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View={F2C33C51-70E6-4343-B937-2C59A2568306}&InitialTabId=Ribbon%2EDocument&VisibilityContext=WSSTabPersistence) for System 8500.
+1. [Safety, User and Programming Manuals](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FPower%20Supplies) for System 8500.
 1. See also [#983](https://github.com/ISISComputingGroup/IBEX/issues/983), [#2276](https://github.com/ISISComputingGroup/IBEX/issues/2276), [#2458](https://github.com/ISISComputingGroup/IBEX/issues/2458)
 
 ##### Note: Kepco #####
diff --git a/doc/processes/instrument_details/ENGIN-X-Instrument-Details.md b/doc/processes/instrument_details/ENGIN-X-Instrument-Details.md
index a50b9159f..cef1c1f4f 100644
--- a/doc/processes/instrument_details/ENGIN-X-Instrument-Details.md
+++ b/doc/processes/instrument_details/ENGIN-X-Instrument-Details.md
@@ -117,7 +117,7 @@ There are 3 Eurotherm devices on ENGIN-X, arranged in a single crate.  Typically
 {#enginx_noteStressRig}
 ##### Note: Stress Rig #####
 Used to put stress on samples under test on ENGIN-X.  This device is shared between IMAT and ENGIN-X.
-The ICP discussion site contains [Stress Rig documentation](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FInstron%20Stress%20Rig&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View={F2C33C51-70E6-4343-B937-2C59A2568306}).<br>
+The ICP discussion site contains [Stress Rig documentation](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FInstron%20Stress%20Rig).<br>
 **Note:** Stress Rig uses GPIB communications protocol.<br>
 The Stress Rig is driven from its own PC (fitted with a GPIB card).  IBEX communicates with the Stress Rig PC via the GPIB card.  See [#2338](https://github.com/ISISComputingGroup/IBEX/issues/2338) for ideas on how to test the Stress Rig IOC.
 
diff --git a/doc/processes/instrument_details/IMAT-Instrument-Details.md b/doc/processes/instrument_details/IMAT-Instrument-Details.md
index 8ee53aeaa..3e333143b 100644
--- a/doc/processes/instrument_details/IMAT-Instrument-Details.md
+++ b/doc/processes/instrument_details/IMAT-Instrument-Details.md
@@ -2,17 +2,17 @@
 
 This page collects information that will be useful for the implementation of the new control system on IMAT.
 ## Background & Timeline ##
-The [IMAT](http://www.isis.stfc.ac.uk/instruments/imat/imat8259.html) web page describes the background to the instrument.  Additional material is also available on the [IMAT sharepoint](http://www.facilities.rl.ac.uk/isis/projects/ts2/phase2instruments/IMAT/Forms/AllItems.aspx).
+The [IMAT](http://www.isis.stfc.ac.uk/instruments/imat/imat8259.html) web page describes the background to the instrument.  Additional material is also available on the [IMAT sharepoint](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FIMAT&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3).
 
-Slides sets from IMAT operational review of 21st May 2014 are available: [Intro](http://www.facilities.rl.ac.uk/isis/projects/ts2/phase2instruments/IMAT/Reviews/IMAT%20Operational%20Review%20intro.pdf), [Science](http://www.facilities.rl.ac.uk/isis/projects/ts2/phase2instruments/IMAT/Reviews/IMAT%20Operational%20Review%20-Science.pdf), [Engineering](http://www.facilities.rl.ac.uk/isis/projects/ts2/phase2instruments/IMAT/Reviews/IMAT%20Operational%20Review%20-%20Main.pdf).
+Slides sets from IMAT operational review of 21st May 2014 are available: [Intro](https://stfc365.sharepoint.com/:w:/r/sites/ISISProjects-1015/_layouts/15/Doc.aspx?sourcedoc=%7B7EEAE7AB-97CF-4796-A748-005A427C927D%7D&file=IMAT%20Operational%20Review%2021%20May%202014.docx&action=default&mobileredirect=true&DefaultItemOpen=1), [Science](https://stfc365.sharepoint.com/sites/ISISProjects-1015/IMAT/Forms/AllItems.aspx?id=%2Fsites%2FISISProjects%2D1015%2FIMAT%2FReviews%2FIMAT%20Operational%20Review%20%2DScience%2Epdf&parent=%2Fsites%2FISISProjects%2D1015%2FIMAT%2FReviews), [Engineering](https://stfc365.sharepoint.com/sites/ISISProjects-1015/IMAT/Forms/AllItems.aspx?id=%2Fsites%2FISISProjects%2D1015%2FIMAT%2FReviews%2FIMAT%20engineering%20review%2Epdf&parent=%2Fsites%2FISISProjects%2D1015%2FIMAT%2FReviews).
 
-The presentation [IMAT Overview](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Computing_Overview.pptx) provides an overview of the IMAT system from a computing/control perspective.
+The presentation [IMAT Overview](https://stfc365.sharepoint.com/:p:/r/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Computing_Overview.pptx?d=w0f26c96b0f5c498990bdbc63d2725812&csf=1&web=1&e=vHDNlm) provides an overview of the IMAT system from a computing/control perspective.
 
 ## Control System ##
 IMAT will use the IBEX control system.
 
 ## Data Collection ##
-Discussions regarding IMAT data collection requirements are documented in [Minutes (15/10/2014)](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_DataCollection_Storage_Minutes_15Oct2014.pdf) and [Minutes (28/04/2015)](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_DataCollection_CCDcamera_28April2015_Notes.docx). The [proposed file formats](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_DataCollection_Format_proposal_v2.docx) are also documented.
+Discussions regarding IMAT data collection requirements are documented in [Minutes (15/10/2014)](https://stfc365.sharepoint.com/:b:/r/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_DataCollection_Storage_Minutes_15Oct2014.pdf?csf=1&web=1&e=ZIstol) and [Minutes (28/04/2015)](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_DataCollection_CCDcamera_28April2015_Notes.docx?d=w38c062e894a94d608ee83c21b6b6ec83&csf=1&web=1&e=AGkdRi). The [proposed file formats](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_DataCollection_Format_proposal_v2.docx?d=w2ab02b5738a943f0bf194238b2f7347c&csf=1&web=1&e=ZVcvj2) are also documented.
 
 ## IMAT Equipment ##
 The equipment listed below is used on IMAT. Please add new information (e.g. new items of equipment, new notes, information about drivers, etc. to this table).
@@ -42,11 +42,11 @@ Newport | [M-ILS50PP](https://web.archive.org/web/20130828020800/http://search.n
 
 {#imat_noteSKFChoppers}
 ##### Note: SKF Choppers #####
-IMAT will have three sets of choppers: a double-disk chopper, a T0 chopper and a second double-disk chopper.  All three SKF choppers use the same control system: see [SKF Modbus/TCP interface](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/892-0117%20Rev%20B%20modbus%20(Updated%202014-10-17).pdf) for details.  Instrument scientists would like to control choppers as 5 independent disks.  There is also a need to "park" the choppers in the open position (to allow white beam imaging).
+IMAT will have three sets of choppers: a double-disk chopper, a T0 chopper and a second double-disk chopper.  All three SKF choppers use the same control system: see [SKF Modbus/TCP interface](https://stfc365.sharepoint.com/:b:/r/sites/ISISExperimentControls/ICP%20Discussions/IMAT/892-0117%20Rev%20B%20modbus%20(Updated%202014-10-17).pdf?csf=1&web=1&e=2hiGdW) for details.  Instrument scientists would like to control choppers as 5 independent disks.  There is also a need to "park" the choppers in the open position (to allow white beam imaging).
 
 {#imat_noteBeamAttenuator}
 ##### Note: Beam Attenuator #####
-The purpose of beam attenuator is to protect the sample & camera while either is being positioned.  The time taken to open/close the beam attenuator is about 1s.  Driven by pneumatic actuator between limits (2 limit switches).  Position is In/Out. Must communicate with sample positioner - needs both automatic operation and manual control.  Also communicate with data acquisition (c.f. Pause/resume on SANS2D) and camera system.  See [IMAT Fast Shutter](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Computing_FastShutter.pptx) for a diagram. **Note:** the beam attenuator was originally known as the "fast shutter", but this name is now deprecated. See also: [IMAT Sample Attenuator Minutes](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_SampleAttenuator_M5_computing_minutes_29Oct2014.docx).
+The purpose of beam attenuator is to protect the sample & camera while either is being positioned.  The time taken to open/close the beam attenuator is about 1s.  Driven by pneumatic actuator between limits (2 limit switches).  Position is In/Out. Must communicate with sample positioner - needs both automatic operation and manual control.  Also communicate with data acquisition (c.f. Pause/resume on SANS2D) and camera system.  See [IMAT Fast Shutter](https://stfc365.sharepoint.com/:p:/r/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Computing_FastShutter.pptx?d=wa2a41cf369f64b1fa274a4e0eb70ea3b&csf=1&web=1&e=sW7eR2) for a diagram. **Note:** the beam attenuator was originally known as the "fast shutter", but this name is now deprecated. See also: [IMAT Sample Attenuator Minutes](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_SampleAttenuator_M5_computing_minutes_29Oct2014.docx?d=wae51b8bfd12a4250ba5fb820de96d8b3&csf=1&web=1&e=IK30Xl).
 
 {#imat_noteOMRONplc}
 ##### Note: OMRON PLC #####
@@ -54,15 +54,15 @@ The OMRON PLC will be used to control gate valves and instrument vacuum.  It wil
 
 {#imat_notePinhole}
 ##### Note: Pinhole Selector #####
-The Pinhole Selector is a wheel containing mounts for 6 pinhole apertures - set positions for each.  Single axis motion control (stepper motor). Controlled by Galil.  See [IMAT Pin Hole Selector](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Computing_PinHoleSelector.pptx) for a diagram.  See also: [IMAT Pin Hole Selector Details](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/PinholeSelector_2014.pdf) and [IMAT Pin Hole Selector Minutes](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_PinholeSelector_Computing_minutes_28Nov2014.docx).
+The Pinhole Selector is a wheel containing mounts for 6 pinhole apertures - set positions for each.  Single axis motion control (stepper motor). Controlled by Galil.  See [IMAT Pin Hole Selector](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Computing_PinHoleSelector.pptx) for a diagram.  See also: [IMAT Pin Hole Selector Details](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/PinholeSelector_2014.pdf) and [IMAT Pin Hole Selector Minutes](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_PinholeSelector_Computing_minutes_28Nov2014.docx).
 
 {#imat_noteJaws}
 ##### Note: Jaws #####
-5 x beam-collimating jaw-sets, controlled by Galil. <br>See [IMAT Jaws & Collimating Slits](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Computing_Jaws_Collimating_Slits.pptx) for a diagram.  See also: [IMAT Jaws/Slits Minutes](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Jaws-Slits_computing_minutes_17Nov2014.docx)
+5 x beam-collimating jaw-sets, controlled by Galil. <br>See [IMAT Jaws & Collimating Slits](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Computing_Jaws_Collimating_Slits.pptx) for a diagram.  See also: [IMAT Jaws/Slits Minutes](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Jaws-Slits_computing_minutes_17Nov2014.docx)
 
 {#imat_noteSlits}
 ##### Note: Slits #####
-X-Y slits (2 linear translations), controlled by Galil. <br>See [IMAT Jaws & Collimating Slits](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Computing_Jaws_Collimating_Slits.pptx) for a diagram.
+X-Y slits (2 linear translations), controlled by Galil. <br>See [IMAT Jaws & Collimating Slits](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Computing_Jaws_Collimating_Slits.pptx) for a diagram.
 
 {#imat_noteMonitors}
 ##### Note: Monitors #####
@@ -72,7 +72,7 @@ X-Y slits (2 linear translations), controlled by Galil. <br>See [IMAT Jaws & Col
 2. M2 is positioned immediately upstream of the second double-disk chopper.
 3. M3 is positioned immediately downstream of the second double-disk chopper.
 4. M4 is positioned immediately downstream of the pin-hole selector.
-5. M5 is positioned immediately downstream of the beam attenuator.  See [IMAT M5 Monitor](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Computing_M5Monitor.pptx) for a diagram of the M5 monitor.
+5. M5 is positioned immediately downstream of the beam attenuator.  See [IMAT M5 Monitor](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Computing_M5Monitor.pptx) for a diagram of the M5 monitor.
 6. M6 position - to be communicated. 
 
 {#imat_noteSampleStack}
@@ -82,15 +82,15 @@ Lower stack has X, Y & Z translational degrees of freedom, plus rotational degre
 Upper stack will be an "off-the-shelf" tomography stack (3 rotational degrees of freedom). Most axes motors will be controlled by Galil (using Galil 4400 firmware).<br>
 Some axes motors will be controlled by a Beckhoff system (further details required).<br>
 Sample stack needs to communicate with fast shutter.<br>
-See [IMAT Sample Positioning System](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Computing_SamplePositioning.pptx) for a diagram. 
+See [IMAT Sample Positioning System](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Computing_SamplePositioning.pptx) for a diagram. 
 
 {#imat_noteSampleEnvironment}
 ##### Note: Sample Environment #####
-For information about the IMAT sample environment see: [​IMAT Sample Environment](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_SampleEnvironment_Dec2014.pdf) and [IMAT Sample Environment Minutes](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_SampleEnvironment_Minutes_17Dec2014.docx). 
+For information about the IMAT sample environment see: [​IMAT Sample Environment](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_SampleEnvironment_Dec2014.pdf) and [IMAT Sample Environment Minutes](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_SampleEnvironment_Minutes_17Dec2014.docx). 
 
 {#imat_noteCameraRobot}
 ##### Note: Camera Positioning Robot #####
-Details of robot positioning system are yet to be decided.  In practice, control of the camera positioning robot may be handled separately from the instrument control system.  See [IMAT Camera](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_Computing_Camera.pptx) for a illustration of the concept. 
+Details of robot positioning system are yet to be decided.  In practice, control of the camera positioning robot may be handled separately from the instrument control system.  See [IMAT Camera](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_Computing_Camera.pptx) for a illustration of the concept. 
 
 {#imat_noteBerkeleyCamera}
 ##### Note: Berkeley Camera #####
@@ -98,8 +98,8 @@ Medium resolution CCD Imaging Camera.  The camera is being manufactured by UC(Be
 
 {#imat_noteMessinaCamera}
 ##### Note: Messina Camera #####
-High resolution CCD Imaging Camera.  The camera is being manufactured by CNR (University of Messina). Camera is being manufactured by CNR. Control of Andor i334T is via USB 2.0 connector. Camera will have its own control PC. See [IMAT Camera Autofocussing System​](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/RevSciInstrum_84_093701_IMAT%20Camera.pdf) for more details.<br>
-Focussing of camera is performed using a 1 x linear motor, controlled by Newport. See [IMAT Camera Autofocussing System​](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/RevSciInstrum_84_093701_IMAT%20Camera.pdf)​ for more details.  2 x motors to control mirror tilt.  Further details in the ​[camera handbook](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_CCD_camera_handbook.pdf) and [​camera electronics](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_CCD_camera_electronics_handbook.pdf) handbook.
+High resolution CCD Imaging Camera.  The camera is being manufactured by CNR (University of Messina). Camera is being manufactured by CNR. Control of Andor i334T is via USB 2.0 connector. Camera will have its own control PC. See [IMAT Camera Autofocussing System​](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/RevSciInstrum_84_093701_IMAT%20Camera.pdf) for more details.<br>
+Focussing of camera is performed using a 1 x linear motor, controlled by Newport. See [IMAT Camera Autofocussing System​](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/RevSciInstrum_84_093701_IMAT%20Camera.pdf)​ for more details.  2 x motors to control mirror tilt.  Further details in the ​[camera handbook](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_CCD_camera_handbook.pdf) and [​camera electronics](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_CCD_camera_electronics_handbook.pdf) handbook.
 
 This camera has its own control PC that runs the IOCs. The hostname can be found in the `globals.txt`.
 
@@ -115,4 +115,4 @@ Used to measure load on IMAT sample stack .
 ##### Note: Newport Motor #####
 Newport Linear Stepper Motor. 50mm linear travel. Used to focus CNR camera.
 Does this motor have its own controller h/w, or does it need a separate controller?
-Further details in the [camera handbook](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_CCD_camera_handbook.pdf) and [​camera electronics](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IMAT/IMAT_CCD_camera_electronics_handbook.pdf) handbook.
+Further details in the [camera handbook](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_CCD_camera_handbook.pdf) and [​camera electronics](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IMAT/IMAT_CCD_camera_electronics_handbook.pdf) handbook.
diff --git a/doc/processes/instrument_details/INES-Instrument-Details.md b/doc/processes/instrument_details/INES-Instrument-Details.md
index 7b12013b0..846a05b3f 100644
--- a/doc/processes/instrument_details/INES-Instrument-Details.md
+++ b/doc/processes/instrument_details/INES-Instrument-Details.md
@@ -52,7 +52,7 @@ The vacuum is monitored using a TPG300 pressure gauge.  TPG300 support is implem
 
 {#ines_noteEurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/INES/INES_Eurotherms.jpg) are used to control temperature in the vacuum tank.
+Eurotherms are used to control temperature in the vacuum tank.
 
 {#ines_noteKeithley}
 ##### Note: Keithley #####
diff --git a/doc/processes/instrument_details/INTER-Instrument-Details.md b/doc/processes/instrument_details/INTER-Instrument-Details.md
index 88d22133e..a1af8c197 100644
--- a/doc/processes/instrument_details/INTER-Instrument-Details.md
+++ b/doc/processes/instrument_details/INTER-Instrument-Details.md
@@ -62,7 +62,7 @@ TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/I
 
 {#inter_note-eurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/INTER/INTER_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 {#inter_note-water-baths}
 ##### Note: Water Baths #####
@@ -169,7 +169,7 @@ Thurlby EX355P PSU - see [#155](https://github.com/ISISComputingGroup/IBEX/issue
    * Is the vacuum chamber related to the INTER High Voltage VI (listed below)?
 
 ## INTER Mirror Guides ##
-INTER is due to get new mirror guides (prior to Cycle 2019/01).  These will be operational (under SECI) before INTER is migrated to IBEX.  There is a [sketch showing the three mirror guide sections](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/INTER/Defined%20Axis%20and%20Rotations.pdf) (MG1 - MG3).  MG1 is fixed; it requires no control.  MG2 and MG3 are moveable and, therefore, do require control.
+INTER is due to get new mirror guides (prior to Cycle 2019/01).  These will be operational (under SECI) before INTER is migrated to IBEX.  There is a [sketch showing the three mirror guide sections](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/INTER/Defined%20Axis%20and%20Rotations.pdf) (MG1 - MG3).  MG1 is fixed; it requires no control.  MG2 and MG3 are moveable and, therefore, do require control.
 
 There will be, essentially, 3 modes of operation:
    1. **no bounce:** all three sections centred in height around the incident beam height  to allow straight through beam on sample
@@ -178,7 +178,7 @@ There will be, essentially, 3 modes of operation:
 
 In modes 2 and 3 several beamline components need to track: intermediate slit (S1b), slit 2, sample monitor, sample height, slit 3 and detector.
 
-In May 2019, SECI was updated to handle the new mirror guides.  IBEX will need to replicate the new functionality in SECI.  The is a document [describing the SECI changes](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/INTER/INTER%20SECI%20changes.docx).
+In May 2019, SECI was updated to handle the new mirror guides.  IBEX will need to replicate the new functionality in SECI.  The is a document [describing the SECI changes](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/INTER/INTER%20SECI%20changes.docx).
 
 ## INTER SECI Configs ##
 Document information about INTER SECI configs here.
diff --git a/doc/processes/instrument_details/IRIS-Instrument-Details.md b/doc/processes/instrument_details/IRIS-Instrument-Details.md
index e00b0f70b..097b170d9 100644
--- a/doc/processes/instrument_details/IRIS-Instrument-Details.md
+++ b/doc/processes/instrument_details/IRIS-Instrument-Details.md
@@ -63,7 +63,7 @@ The homing behaviour for the McLennans is currently under review. The McLennan I
 
 {#iris_noteSampleChanger}
 ##### Note: Sample Changer #####
-The Sample Changer is driven by the McLennan motor (i.e. it raises/lowers sample cans attached to the sample changer).  There is a photograph of the [Sample Changer](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IRIS/IRIS_Sample_Changer.jpg), which shows the sample cans attached to the bottom of the sample changer.  There is also a [diagram](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IRIS/IRIS_Sample_Changer_Diagram(log%20book).JPG) showing the dimensions of the Sample Changer (the diagram is taken from the instrument scientist's notebook - it is a sketch, not an engineering drawing (just to set your expectations :-) ).
+The Sample Changer is driven by the McLennan motor (i.e. it raises/lowers sample cans attached to the sample changer).  There is a photograph of the [Sample Changer](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IRIS/IRIS_Sample_Changer.jpg), which shows the sample cans attached to the bottom of the sample changer.  There is also a [diagram](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IRIS/IRIS_Sample_Changer_Diagram(log%20book).JPG) showing the dimensions of the Sample Changer (the diagram is taken from the instrument scientist's notebook - it is a sketch, not an engineering drawing (just to set your expectations :-) ).
 
 {#iris_noteLeybold}
 ##### Note: Leybold #####
@@ -86,7 +86,7 @@ Orange Cryostat: [models](http://www.isis.stfc.ac.uk/sample-environment/low-temp
 {#iris_noteEurotherm}
 ##### Note: Eurotherm #####
 Used to control temperature of top-loading CCRs, Be Filter, Furnace, Orange Cryostat devices.
-There are at least 6 Eurotherm devices on IRIS, arranged in two crates of 3, as illustrated in the photograph of the [Eurotherm Crate](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IRIS/IRIS_Eurotherm_Triple_Crate.jpg).
+There are at least 6 Eurotherm devices on IRIS, arranged in two crates of 3, as illustrated in the photograph of the [Eurotherm Crate](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IRIS/IRIS_Eurotherm_Triple_Crate.jpg).
 
 {#iris_noteLakeshore}
 ##### Note: LakeShore #####
@@ -97,7 +97,7 @@ There are at least 6 Eurotherm devices on IRIS, arranged in two crates of 3, as
 
 There are [EPICS drivers](http://www.aps.anl.gov/epics/modules/manufacturer.php#Lakeshore) for a variety of Lakeshore temperature controllers.
 
-The Lakeshore 336 on IRIS is shown in the linked [photograph](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/IRIS/IRIS_Lakeshore_336.jpg).
+The Lakeshore 336 on IRIS is shown in the linked [photograph](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/IRIS/IRIS_Lakeshore_336.jpg).
 
 Documentation on the Lakeshore 336 IOC setup can be found [here](/specific_iocs/temp_controllers/Lakeshore336).
 
diff --git a/doc/processes/instrument_details/LARMOR-Instrument-Details.md b/doc/processes/instrument_details/LARMOR-Instrument-Details.md
index 29665af7d..c3f52aa64 100644
--- a/doc/processes/instrument_details/LARMOR-Instrument-Details.md
+++ b/doc/processes/instrument_details/LARMOR-Instrument-Details.md
@@ -3,8 +3,8 @@
 This page collects information that will be useful for the implementation of the new control system on LARMOR.
 
 ## Background & Timeline ##
-The [Larmor](http://www.isis.stfc.ac.uk/instruments/larmor/larmor8239.html) web page describes the background to the instrument. The layout of the LARMOR beamline is shown in [this diagram](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Larmor/LARMOR_Beamline_Diagram.pdf).
-The proposed architecture for the LARMOR control system is described [here](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Larmor/Larmor%20Architecture.ppt).  We also have a list of LARMOR's [motion control components](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Larmor/LARMOR%20Beam%20Line%20-%20Motion%20Control%20Components.docx).
+The [Larmor](http://www.isis.stfc.ac.uk/instruments/larmor/larmor8239.html) web page describes the background to the instrument. The layout of the LARMOR beamline is shown in [this diagram](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FLarmor%2FLARMOR%5FBeamline%5FDiagram%2Epdf&viewid=45d81cb9%2D9571%2D4a80%2Da5cc%2D2cb4871703a3&parent=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FLarmor).
+The proposed architecture for the LARMOR control system is described [here](https://stfc365.sharepoint.com/:p:/r/sites/ISISExperimentControls/ICP%20Discussions/Larmor/Larmor%20Architecture.ppt?d=w3585d74556004cb78678c947da892098&csf=1&web=1&e=C3nCRw).  We also have a list of LARMOR's [motion control components](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/ICP%20Discussions/Larmor/LARMOR%20Beam%20Line%20-%20Motion%20Control%20Components.docx?d=wfd6d77e31a414b76b3a00a4ebc60204b&csf=1&web=1&e=PZGpIv).
 
 ## Control System ##
 Larmor is currently using the IBEX control system.
@@ -17,7 +17,7 @@ Manufacturer | Model | Type | Connection | Driver | Notes
 ISIS |Mk3 Chopper | CHOPPER | Ethernet/.NET | #170 |[see ISIS Mk3 Chopper note](#larmor_noteMk3Chopper)
  |  | Spin Flipper | |  |[see SpinFlipper note](#larmor_noteSpinFlipper)
 Delft | Spin Echo| Spin Echo control system| TBD | TBD |[see Spin Echo System note](#larmor_noteSpinEcho)
-[JJ XRAY](http://www.jjxray.dk/) | [7-axis Sample Stack](http://www.jjxray.dk/products/positioning/multi-axis-stages/sample-stacks) [Manual](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Larmor/LARMOR%20JJXRAY%20SAMPLE%20STACK.pdf) | Sample Stack | | #304 |[see JJ X-Ray note](#larmor_noteJJXray)
+[JJ XRAY](http://www.jjxray.dk/) | [7-axis Sample Stack](http://www.jjxray.dk/products/positioning/multi-axis-stages/sample-stacks) [Manual](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Larmor/LARMOR%20JJXRAY%20SAMPLE%20STACK.pdf) | Sample Stack | | #304 |[see JJ X-Ray note](#larmor_noteJJXray)
 ISIS | [Two Tier](https://github.com/ISISComputingGroup/IBEX/wiki/TwoTierSampleChanger) | Sample Changer || |[see SampleChanger note](#larmor_noteSampleChanger)
  |  | In/Out Monitor | | #267 |[see Monitor note](#larmor_noteMonitor)
 ISIS | DAE 3 | Detector Electronics | Ethernet | #219 |[see DAE note](#larmor_noteDAE)
@@ -60,12 +60,12 @@ Driven by [Galils](#larmor_noteGalil)
 
 {#larmor_noteSpinEcho}
 ##### Note: Spin Echo System #####
-[Delft RF Flipper Manual](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Larmor/Delft_RF_Flipper_Manual.pdf)<br>
+[Delft RF Flipper Manual](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Larmor/Delft_RF_Flipper_Manual.pdf)<br>
 
 {#larmor_noteJJXray}
 ##### Note: JJ X-Ray #####
 [7-axis sample stack](http://www.jjxray.dk/products/positioning/multi-axis-stages/sample-stacks)<br>
-[Manual](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Larmor/LARMOR%20JJXRAY%20SAMPLE%20STACK.pdf)
+[Manual](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Larmor/LARMOR%20JJXRAY%20SAMPLE%20STACK.pdf)
 
 {#larmor_noteSampleStack}
 ##### Note: SampleStack #####
diff --git a/doc/processes/instrument_details/LOQ-Instrument-Details.md b/doc/processes/instrument_details/LOQ-Instrument-Details.md
index ae7b5b4b4..be4ed19dd 100644
--- a/doc/processes/instrument_details/LOQ-Instrument-Details.md
+++ b/doc/processes/instrument_details/LOQ-Instrument-Details.md
@@ -101,7 +101,7 @@ Both the OMEGA™ iBTHX and OMEGA™ PAC devices (see above) have proved unrelia
 
 {#loq_note-eurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/LOQ/LOQ_Eurotherms.jpg) are used to control the temperature of Orange Cryostats, CCRs and Furnace devices. And also to measure voltages from other sensors.
+Eurotherms are used to control the temperature of Orange Cryostats, CCRs and Furnace devices. And also to measure voltages from other sensors.
 
 {#loq_note-water-baths}
 ##### Note: Water Baths #####
@@ -141,7 +141,7 @@ The Thar Pressure Cell normally just integrates with the Eurotherm controller.
 1. : Currently a Danfysik Model 8000 controller is integrated into an ageing GEC power supply, but the GEC unit is due to be replaced in the near future as part of ISIS-wide obsolescence. It will most likely be replaced by a Danfysik power supply. Richard Hale may be able to advise what model.
    1. There is a possibility that the GEC power supply will be replaced prior to December 2018.  The replacement power supply will be a Danfysik 8500 Model 859.
 2. [Danfysik Power Supplies](http://www.danfysik.com/en/products/power-supplies/)
-3. [User and Software Manuals](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FPower%20Supplies&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View={F2C33C51-70E6-4343-B937-2C59A2568306}&InitialTabId=Ribbon%2EDocument&VisibilityContext=WSSTabPersistence) for System 8500.
+3. [User and Software Manuals](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/Allhttps://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FPower%20Supplies) for System 8500.
 4. See [#1208](https://github.com/ISISComputingGroup/IBEX/issues/1208) for comms settings.
 
 {#loq_note-rheometer}
diff --git a/doc/processes/instrument_details/MARI-Instrument-Details.md b/doc/processes/instrument_details/MARI-Instrument-Details.md
index 98e562e7c..31c92e751 100644
--- a/doc/processes/instrument_details/MARI-Instrument-Details.md
+++ b/doc/processes/instrument_details/MARI-Instrument-Details.md
@@ -39,7 +39,7 @@ MARI has two ISIS MK3 disk choppers.  User needs the ability to change speed & p
 Ideally, the two choppers should seen as a single pair by visiting scientists; instrument scientists need the ability to control the two choppers independently (e.g. for diagnostic purposes).
 
 ##### Note: MARI Fermi Chopper #####
-The fermi chopper is a Jülich model (FZJ - Forschungszentrum Jülich) - custom built for ISIS (therefore unique, although very similar to models installed on MAPS and MERLIN).  A copy of the communications manual (PDF) is [here](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/MERLIN/Fermi%20Chopper%20Communications%20Protocol.pdf) and the operating manual [here](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/MERLIN/Fermi%20Chopper%20Operating%20Manual.pdf).<br>
+The fermi chopper is a Jülich model (FZJ - Forschungszentrum Jülich) - custom built for ISIS (therefore unique, although very similar to models installed on MAPS and MERLIN).  A copy of the communications manual (PDF) is [here](https://stfc365.sharepoint.com/:b:/r/sites/ISISExperimentControls/ICP%20Discussions/MAPS/Fermi%20Chopper%20Communications%20Protocol.pdf?csf=1&web=1&e=DXEcym) and the operating manual [here](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FMERLIN).<br>
 The control program will need to include various safety-critical condition monitoring routines (e.g. overspeed, bearing voltage out-of-range).  There are some aspects of the control system which are specific to MARI and will need to be incorporated into the IOC.  Ideally, they would be modular (e.g. macro, configuration file) so that the main program would be compatible between the three systems (MERLIN, MAPS, MARI).<br>
 David Keymer wrote the original VIs, which are a useful reference.<br>
 The Fermi chopper on MARI is primarily controlled via scripts.  Scripts are used to calculate the frequency & phase, based on the energy (longer-term this calculation could be folded into IOC).  The OPI should merely display the frequency & phase, not allow the user to change them. <br>
@@ -77,7 +77,7 @@ The changer is driven by an instrument script which has the rotation angle corre
 The script will also perform a home scan on request. This is usual done when samples are mounted.<br>
 The changer should only be rotated in one direction, otherwise there is a risk the head will unscrew itself. The instrument script knows and enforces this condition.<br>
 The temperature control will be handled by a Eurotherm.<br>
-[Project Details](http://www.facilities.rl.ac.uk/isis/projects/_layouts/listform.aspx?PageType=4&ListId={EB0AB6DD-0B50-4DBD-8C95-E45C95069C26}&ID=541&ContentTypeID=0x01000DF6FB717D3FBD47809FF94DE29BBBC4) and 
+[Project Details](https://stfc365.sharepoint.com/sites/ISISProject-1122) and 
 [Project Plan](https://tasks.office.com/stfc365.onmicrosoft.com/en-US/Home/PlanViews/8bdu_4UTBUeZwF_PB8SLIpYAESGr)
 
 ## MARI SECI Configs ##
diff --git a/doc/processes/instrument_details/MERLIN-Instrument-Details.md b/doc/processes/instrument_details/MERLIN-Instrument-Details.md
index 1446b3408..2eeac3d5c 100644
--- a/doc/processes/instrument_details/MERLIN-Instrument-Details.md
+++ b/doc/processes/instrument_details/MERLIN-Instrument-Details.md
@@ -50,7 +50,7 @@ We believe this "button" is the local vs computer-control switch.  If set to loc
 
 {#merlin_noteFermiChopper}
 ##### Note: MERLIN Fermi Chopper #####
-The fermi chopper is a Jülich model (FZJ - Forschungszentrum Jülich) - custom built for ISIS (therefore unique, although very similar to models installed on MAPS and MARI).  A copy of the communications manual (PDF) is [here](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/MERLIN/Fermi%20Chopper%20Communications%20Protocol.pdf) and the operating manual [here](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/MERLIN/Fermi%20Chopper%20Operating%20Manual.pdf).<br>
+The fermi chopper is a Jülich model (FZJ - Forschungszentrum Jülich) - custom built for ISIS (therefore unique, although very similar to models installed on MAPS and MARI).  A copy of the communications manual (PDF) is [here](https://stfc365.sharepoint.com/:b:/r/sites/ISISExperimentControls/ICP%20Discussions/MAPS/Fermi%20Chopper%20Communications%20Protocol.pdf?csf=1&web=1&e=Y55Yzp) and the operating manual [here](https://stfc365.sharepoint.com/:b:/r/sites/ISISExperimentControls/ICP%20Discussions/MERLIN/MERLIN%20Fermi%20Chopper%20Operating%20Manual%20Oct05.pdf?csf=1&web=1&e=5Rzsb8).<br>
 The control program will need to include various safety-critical condition monitoring routines (e.g. overspeed, bearing voltage out-of-range).  There are some aspects of the control system which are specific to MERLIN and will need to be incorporated into the IOC.  Ideally, they would be modular (e.g. macro, configuration file) so that the main program would be compatible between the three systems (MERLIN, MAPS, MARI).  David Keymer wrote the original VIs, which are a useful reference.<br>
 The Fermi chopper on MERLIN is primarily controlled via scripts.  Scripts are used to calculate the frequency & phase, based on the energy (longer-term this calculation could be folded into IOC).  The OPI should merely display the frequency & phase, not allow the user to change them. <br>
 Current system exhibits odd behaviour at 600Hz - see if we can fix this when migrating to IBEX.<br>
diff --git a/doc/processes/instrument_details/MUSR-Instrument-Details.md b/doc/processes/instrument_details/MUSR-Instrument-Details.md
index 159c045b8..42238f858 100644
--- a/doc/processes/instrument_details/MUSR-Instrument-Details.md
+++ b/doc/processes/instrument_details/MUSR-Instrument-Details.md
@@ -43,7 +43,7 @@ Provide information about MUSR jaws.
 
 {#musr_note-eurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/MUSR/EMU_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 {#musr_note-Oxford-ICE-Cube}
 ##### Note: Oxford ICE Cube #####
@@ -89,7 +89,7 @@ The [CAEN V895](http://www.caen.it/csite/CaenProd.jsp?parent=11&idmod=49) is a 1
 ##### Note: Danfysik #####
 Need to check if MUSR does use Danfysik 8000 or a different model of PSU.
 1. [Danfysik Power Supplies](http://www.danfysik.com/en/products/power-supplies/): model 8000 appears to have been superseded by model 8500.
-1. [User and Software Manuals](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FPower%20Supplies&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View={F2C33C51-70E6-4343-B937-2C59A2568306}&InitialTabId=Ribbon%2EDocument&VisibilityContext=WSSTabPersistence) for System 8500.
+1. [User and Software Manuals](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FPower%20Supplies) for System 8500.
 1. See [#1208](https://github.com/ISISComputingGroup/IBEX/issues/1208) for comms settings.
 
 {#musr_note-gossen}
diff --git a/doc/processes/instrument_details/NIMROD-Instrument-Details.md b/doc/processes/instrument_details/NIMROD-Instrument-Details.md
index 92d28386f..335bcea37 100644
--- a/doc/processes/instrument_details/NIMROD-Instrument-Details.md
+++ b/doc/processes/instrument_details/NIMROD-Instrument-Details.md
@@ -46,12 +46,12 @@ TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/I
 
 {#nimrod_note-vacuum-pump}
 ##### Note: Vacuum Pump #####
-NIMROD uses a [vacuum pump](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/NIMROD/NIMROD_Turbo_Pump.jpg) (in conjunction with CCRs).  A TPG26x is used to measure the pressure.
+NIMROD uses a vacuum pump (in conjunction with CCRs).  A TPG26x is used to measure the pressure.
 TPG26x support was originally implemented via [#1411](https://github.com/ISISComputingGroup/IBEX/issues/1411), [#2379](https://github.com/ISISComputingGroup/IBEX/issues/2379) and [#2578](https://github.com/ISISComputingGroup/IBEX/issues/2578)
 
 {#nimrod_note-eurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANS2D/SANS2D_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 {#nimrod_note-nimrod-sample-changer}
 ##### Note: NIMROD Sample Changer #####
@@ -61,7 +61,7 @@ As of July 2023, the lower limit for the vertical axis is not physically working
 
 {#nimrod_note-water-bath}
 ##### Note: Water Bath #####
-NIMROD uses two types of water bath, both Julabo models: FP-50 and [FP-52](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/NIMROD/NIMROD_Julabo_FP52.jpg).  
+NIMROD uses two types of water bath, both Julabo models: FP-50 and FP-52.  
 See [supported Julabo models](/specific_iocs/temp_controllers/Julabo) for more details.
 NIMROD uses the FP-52 model of Julabo most frequently (+90%), used in conjunction with the [Sample Changer](#nimrod_note-nimrod-sample-changer).  Sometimes NIMROD uses water as the coolant/heating medium; sometimes it uses oil or glycol as the coolant/heating medium (Julabo/Presto A40 device).
 
diff --git a/doc/processes/instrument_details/OSIRIS-Instrument-Details.md b/doc/processes/instrument_details/OSIRIS-Instrument-Details.md
index 4a616e390..7dd5168cb 100644
--- a/doc/processes/instrument_details/OSIRIS-Instrument-Details.md
+++ b/doc/processes/instrument_details/OSIRIS-Instrument-Details.md
@@ -48,18 +48,18 @@ Two controllers each with four active channels.
 
 ##### Note: Eurotherm #####
 Used to control temperature of top-loading CCRs, Furnace, Orange Cryostat devices.
-OSIRIS has 3 Eurotherm devices, arranged in a single crate, as illustrated in the photograph of the [Eurotherm Crate](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/OSIRIS/OSIRIS_3x_Eurotherm.jpg).
+OSIRIS has 3 Eurotherm devices, arranged in a single crate, as illustrated in the photograph of the [Eurotherm Crate](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/OSIRIS/OSIRIS_3x_Eurotherm.jpg).
 
 ##### Note: LakeShore #####
 Three model 218 temperature controllers in total, each with 8 active channels.  Two monitor the temperature of the Analyser and one the beryllium filter.
-1. [Model 218](http://www.lakeshore.com/products/Cryogenic-Temperature-Monitors/Model-218/Pages/Overview.aspx).  The [3 LakeShore devices](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/OSIRIS/OSIRIS_3x_LakeShore_218.jpg), are mounted in the OSIRIS rack.
+1. [Model 218](http://www.lakeshore.com/products/Cryogenic-Temperature-Monitors/Model-218/Pages/Overview.aspx).  The [3 LakeShore devices](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/OSIRIS/OSIRIS_3x_LakeShore_218.jpg), are mounted in the OSIRIS rack.
 
 ##### Note: Neocera #####
 1. [Neocera LTC-21 Manual](http://www.submm.caltech.edu/~sharc/technical/LTC-21%20manual.pdf)
 1. See also [#1828](https://github.com/ISISComputingGroup/IBEX/issues/1828)
 
 ##### Note: CryoValve Controller #####
-1. Implemented on IRIS - see [#1405](https://github.com/ISISComputingGroup/IBEX/issues/1405).  The [CryoValve Controller](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/OSIRIS/OSIRIS_CryoValve.jpg) sits on the OSIRIS rack.
+1. Implemented on IRIS - see [#1405](https://github.com/ISISComputingGroup/IBEX/issues/1405).  The [CryoValve Controller](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/OSIRIS/OSIRIS_CryoValve.jpg) sits on the OSIRIS rack.
 
 ## OSIRIS Notes ##
 #### Specialist Panels/Systems ####
diff --git a/doc/processes/instrument_details/POLREF-Instrument-Details.md b/doc/processes/instrument_details/POLREF-Instrument-Details.md
index 596171406..50b00fa61 100644
--- a/doc/processes/instrument_details/POLREF-Instrument-Details.md
+++ b/doc/processes/instrument_details/POLREF-Instrument-Details.md
@@ -70,7 +70,7 @@ Support for McLennan devices is well established (see [#1099](https://github.com
 TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/IBEX/issues/216) and [#2063](https://github.com/ISISComputingGroup/IBEX/issues/2063)
 
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/POLREF/POLREF_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 ##### Note: Water Baths #####
 1. Julabo Water Bath (apparently the following Julabos: WB23 )
diff --git a/doc/processes/instrument_details/SANDALS-Instrument-Details.md b/doc/processes/instrument_details/SANDALS-Instrument-Details.md
index c374ac136..f99ee4b8d 100644
--- a/doc/processes/instrument_details/SANDALS-Instrument-Details.md
+++ b/doc/processes/instrument_details/SANDALS-Instrument-Details.md
@@ -45,18 +45,18 @@ _**Note:**_ NIMROD does not have choppers either.
 
 {#sandals_noteJaws}
 ##### Note: Jaws #####
-SANDALS has a single set of jaws controlled by a [Parker controller](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANDALS/SANDALS_Parker_Controller.jpg), which is not currently controlled by SECI.  There is no requirement to support the Parker system in IBEX, although it would be very convenient if such a thing were possible.
+SANDALS has a single set of jaws controlled by a [Parker controller](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANDALS/SANDALS_Parker_Controller.jpg), which is not currently controlled by SECI.  There is no requirement to support the Parker system in IBEX, although it would be very convenient if such a thing were possible.
 
 It is proposed to replace the Parker controller with a Galil DMC4040 controller (see [#3259](https://github.com/ISISComputingGroup/IBEX/issues/3259)).
 
 {#sandals_noteVacuum}
 ##### Note: Vacuum System #####
-The vacuum pressure on SANDALS is the pressure in the SANDALS tank/chamber itself.  SANDALS only needs to monitor the vacuum pressure; scientists do not want to control the vacuum system from IBEX.  The vacuum pressure is also displayed on [a gauge mounted on the "fence"](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANDALS/SANDALS_fence.jpg) that surrounds SANDALS.
+The vacuum pressure on SANDALS is the pressure in the SANDALS tank/chamber itself.  SANDALS only needs to monitor the vacuum pressure; scientists do not want to control the vacuum system from IBEX.  The vacuum pressure is also displayed on [a gauge mounted on the "fence"](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANDALS/SANDALS_fence.jpg) that surrounds SANDALS.
 TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/IBEX/issues/216) and [#2063](https://github.com/ISISComputingGroup/IBEX/issues/2063)
 
 {#sandals_noteVacuumPump}
 ##### Note: Vacuum Pump #####
-SANDALS uses a [vacuum pump](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANDALS/SANDALS_Turbo_Pump.jpg) (in conjunction with CCRs).  A TPG26x is used to measure the pressure.
+SANDALS uses a [vacuum pump](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANDALS/SANDALS_Turbo_Pump.jpg) (in conjunction with CCRs).  A TPG26x is used to measure the pressure.
 TPG26x support was originally implemented via [#1411](https://github.com/ISISComputingGroup/IBEX/issues/1411), [#2379](https://github.com/ISISComputingGroup/IBEX/issues/2379) and [#2578](https://github.com/ISISComputingGroup/IBEX/issues/2578)
 
 {#sandals_notePLC}
@@ -65,7 +65,7 @@ SANDALS has an [Omron PLC](/specific_iocs/plcs/Omron-FINS) to control two gate v
 
 {#sandals_noteEurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANDALS/SANDALS_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 {#sandals_noteOxfordInstruments}
 ##### Note: Oxford Instruments #####
@@ -80,7 +80,7 @@ SANDALS has an [Omron PLC](/specific_iocs/plcs/Omron-FINS) to control two gate v
 
 {#sandals_noteCCR}
 ##### Note: Closed Cycle Refrigerators #####
-   1. [CCR](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANDALS/SANDALS_CCR.jpg) is the most frequently used low-temperature device used in on SANDALS.
+   1. [CCR](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANDALS/SANDALS_CCR.jpg) is the most frequently used low-temperature device used in on SANDALS.
 [CCRs](https://www.isis.stfc.ac.uk/Pages/Closed-Cycle-refrigerators,-CCRs.aspx). Not directly computer-controlled  - controlled via Eurotherm.
 
 {#sandals_noteISISFurnaces}
@@ -89,11 +89,11 @@ More information on [IRIS Furnaces](https://www.isis.stfc.ac.uk/Pages/High-tempe
 
 {#sandals_noteSampleChanger}
 ##### Note: SANDALS Sample Changer #####
-The [SANDALS sample changer](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANDALS/SANDALS_Sample_Changer_bottom.jpg) can hold up to 15 samples.  It has recently been upgraded to use a [Beckhoff PLC](/specific_iocs/motors/Beckhoff) which controls the jaws as well. 
+The [SANDALS sample changer](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANDALS/SANDALS_Sample_Changer_bottom.jpg) can hold up to 15 samples.  It has recently been upgraded to use a [Beckhoff PLC](/specific_iocs/motors/Beckhoff) which controls the jaws as well. 
 
 {#sandals_noteWaterBath}
 ##### Note: Water Bath #####
-SANDALS uses two types of water bath, both Julabo models: FP-50 and [FP-52](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANDALS/SANDALS_Julabo_FP52.jpg).  
+SANDALS uses two types of water bath, both Julabo models: FP-50 and [FP-52](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANDALS/SANDALS_Julabo_FP52.jpg).  
 See [supported Julabo models](/specific_iocs/temp_controllers/Julabo) for more details.
 SANDALS uses the FP-52 model of Julabo most frequently (used in conjunction with the [Sample Changer](#sandals_noteSampleChanger)).  Sometimes SANDALS uses water as the coolant/heating medium; sometimes it uses oil or glycol as the coolant/heating medium (Julabo/Presto A40 device).  SANDALS has also used Haake water bath in the past, but none of the current instrument scientists know anything about this (so it might have been a one-off).
 
diff --git a/doc/processes/instrument_details/SANS2D-Instrument-Details.md b/doc/processes/instrument_details/SANS2D-Instrument-Details.md
index 554a24972..8d3ca4a8e 100644
--- a/doc/processes/instrument_details/SANS2D-Instrument-Details.md
+++ b/doc/processes/instrument_details/SANS2D-Instrument-Details.md
@@ -2,11 +2,11 @@
 
 This page collects information that will be useful for the implementation of the IBEX control system on SANS2D.
 ## Background & Timeline ##
-SANS2D is a Time-of-Flight Small-Angle Neutron Scattering instrument, on TS2. The [SANS2D](https://www.isis.stfc.ac.uk/Pages/SANS2D.aspx) web page describes the background to the instrument.  Information about the [construction of SANS2D](https://www.facilities.rl.ac.uk/isis/projects/ts2/ts2construction/Instruments/Forms/AllItems.aspx?Paged=TRUE&PagedPrev=TRUE&p_SortBehavior=0&p_FileLeafRef=SaP%20warrant%203%20%28sans2d%20e2-e3%20platform%29%2edoc&p_ID=1829&RootFolder=%2fisis%2fprojects%2fts2%2fts2construction%2fInstruments%2fSANS2D&PageFirstRow=181&&View={776499AB-B00F-4B98-9619-3125F112A0C8}), which is useful background for understanding the operation of the instrument, is also available.
+SANS2D is a Time-of-Flight Small-Angle Neutron Scattering instrument, on TS2. The [SANS2D](https://www.isis.stfc.ac.uk/Pages/SANS2D.aspx) web page describes the background to the instrument.  Information about the [construction of SANS2D](https://stfc365.sharepoint.com/sites/ISISProjects-Archive/TS2%20Construction/Forms/AllItems.aspx?FolderCTID=0x012000B3C16B2D4C3C4D48AAFC5C89840FE109&id=%2Fsites%2FISISProjects%2DArchive%2FTS2%20Construction%2FInstruments%20%28WBS%208%2E0%29%2FSANS2D), which is useful background for understanding the operation of the instrument, is also available.
 
 Images of SANS2D equipment can be found here [SANS2D equipment](https://github.com/ISISComputingGroup/IBEX/wiki/SANS2D-equipment-Images-GIF).
 
-The SANS2D instrument scientists have provided a description of the [instrument beamline](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANS2D/Beam_line_descriptors(Sarah%20and%20Najet).docx) and some [schematic drawings](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANS2D/Sans2d_drawing_for%20_IBEX(Sarah%20and%20Najet).pptx).
+The SANS2D instrument scientists have provided a description of the [instrument beamline](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANS2D/Beam_line_descriptors(Sarah%20and%20Najet).docx) and some [schematic drawings](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANS2D/Sans2d_drawing_for%20_IBEX(Sarah%20and%20Najet).pptx).
 
 ## Mini-IBEX on SANS2D ##
 This section contains relating to the mini-IBEX server on SANS2D.  This information can be deleted once SANS2D has migrated to a full IBEX server.
@@ -25,7 +25,7 @@ SANS2D will migrate from the SECI control system to the IBEX control system in M
 ## SANS2D Equipment ##
 The equipment listed below is used on SANS2D. Please add new information (e.g. new items of equipment, new notes, information about drivers, etc. to this table).
 
-See also [SANS2D Migration Notes](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANS2D/SANS2D%20Migration%20to%20IBEX%20Notes.docx)
+See also [SANS2D Migration Notes](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/SANS2D/SANS2D%20Migration%20to%20IBEX%20Notes.docx)
 
 Manufacturer | Model | Type | Connection | Driver | Notes |
 ------------ | ------------- | ------------- | ------------- | ------------- | -------------------------------------------
@@ -139,7 +139,7 @@ The vacuum system on SANS2D is controlled by a FINS PLC.  IBEX does not control
 TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/IBEX/issues/216) and [#2063](https://github.com/ISISComputingGroup/IBEX/issues/2063)
 
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SANS2D/SANS2D_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 ##### Note: Water Baths #####
 1. Julabo Water Bath (apparently the following Julabos: WB15, WB16 )
diff --git a/doc/processes/instrument_details/SURF-Instrument-Details.md b/doc/processes/instrument_details/SURF-Instrument-Details.md
index 24c886dcc..f88d60bf2 100644
--- a/doc/processes/instrument_details/SURF-Instrument-Details.md
+++ b/doc/processes/instrument_details/SURF-Instrument-Details.md
@@ -55,7 +55,7 @@ Provide information about SURF jaws.
 TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/IBEX/issues/216) and [#2063](https://github.com/ISISComputingGroup/IBEX/issues/2063)
 
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SURF/SURF_Eurotherms.jpg) are used to control temperature.
+Eurotherms are used to control temperature.
 
 ##### Note: Water Baths #####
 1. Julabo Water Bath (apparently the following Julabos: WB7, WB30 )
diff --git a/doc/processes/instrument_details/SXD-Instrument-Details.md b/doc/processes/instrument_details/SXD-Instrument-Details.md
index 2b3b10fe7..d2cd740f1 100644
--- a/doc/processes/instrument_details/SXD-Instrument-Details.md
+++ b/doc/processes/instrument_details/SXD-Instrument-Details.md
@@ -59,7 +59,7 @@ TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/I
 
 {#sxd_note-eurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/SXD/SXD_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 {#sxd_note-keithley}
 ##### Note: Keithley #####
diff --git a/doc/processes/instrument_details/TOSCA-Instrument-Details.md b/doc/processes/instrument_details/TOSCA-Instrument-Details.md
index 66694ae43..8cde22272 100644
--- a/doc/processes/instrument_details/TOSCA-Instrument-Details.md
+++ b/doc/processes/instrument_details/TOSCA-Instrument-Details.md
@@ -40,7 +40,7 @@ As of 2018-11-15, TOSCA uses only one McLennan motor, which is for the sample ch
 
 {#tosca_noteSamplePositioner}
 ##### Note: Sample Positioner #####
-The Sample Positioner is driven by a McLennan motor (i.e. it raises/lowers sample plates attached to a chain drive, driven by the McLennan).  Here are 3 photograph of the Sample Positioner: [One](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/TOSCA/TOSCA_Sample_Changer_1.jpg), [Two](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/TOSCA/TOSCA_Sample_Changer_2.jpg), [Three](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/TOSCA/TOSCA_Sample_Changer_3.jpg).
+The Sample Positioner is driven by a McLennan motor (i.e. it raises/lowers sample plates attached to a chain drive, driven by the McLennan).  Here are 3 photograph of the Sample Positioner: [One](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/TOSCA/TOSCA_Sample_Changer_1.jpg), [Two](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/TOSCA/TOSCA_Sample_Changer_2.jpg), [Three](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/TOSCA/TOSCA_Sample_Changer_3.jpg).
 
 {#tosca_noteJaws}
 ##### Note: Jaws #####
@@ -52,7 +52,7 @@ TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/I
 
 {#tosca_noteEurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/TOSCA/TOSCA_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 {#tosca_noteLakeshore}
 ##### Note: LakeShore #####
diff --git a/doc/processes/instrument_details/WISH-Instrument-Details.md b/doc/processes/instrument_details/WISH-Instrument-Details.md
index ec1c6352e..95e04c2f7 100644
--- a/doc/processes/instrument_details/WISH-Instrument-Details.md
+++ b/doc/processes/instrument_details/WISH-Instrument-Details.md
@@ -59,7 +59,7 @@ TPG300 support is implemented via [#216](https://github.com/ISISComputingGroup/I
 
 {#wish_note-eurotherm}
 ##### Note: Eurotherm #####
-[Eurotherms](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/WISH/HIFI_Eurotherms.jpg) are used to control temperature Orange Cryostat, CCR and Furnace devices.
+Eurotherms are used to control temperature Orange Cryostat, CCR and Furnace devices.
 
 {#wish_note-lakeshore}
 ##### Note: LakeShore #####
@@ -105,7 +105,7 @@ There are [EPICS drivers](http://www.aps.anl.gov/epics/modules/manufacturer.php#
 ##### Note: Keithley #####
 1. [Keithley 6500 Series Electrometers](https://uk.tek.com/keithley-low-level-sensitive-and-specialty-instruments/keithley-high-resistance-low-current-electrom).
    * [Keithley 6517B DataSheet](https://uk.tek.com/datasheet/high-resistance-low-current-electrometers-series-6500-6430/model-6517b-electrometer-high-r)
-   * See also [Keithley 6517B Reference Manual](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FKeithley&FolderCTID=0x01200027AD8F05966A2748B3B04C98BB5B442B&View={F2C33C51-70E6-4343-B937-2C59A2568306}&InitialTabId=Ribbon%2EDocument&VisibilityContext=WSSTabPersistence)
+   * See also [Keithley 6517B Reference Manual](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?FolderCTID=0x0120005C4AD37BB338BE469E2247B9E5E1C301&id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FKeithley)
 1. There are existing [EPICS drivers](https://epics-controls.org/resources-and-support/modules/hardware-support/) for similar Keithley devices (but not for model 6517B).
 
 {#wish_note-razorbill}
diff --git a/doc/processes/instrument_details/ZOOM-Instrument-Details.md b/doc/processes/instrument_details/ZOOM-Instrument-Details.md
index d172425bb..687665da9 100644
--- a/doc/processes/instrument_details/ZOOM-Instrument-Details.md
+++ b/doc/processes/instrument_details/ZOOM-Instrument-Details.md
@@ -2,7 +2,7 @@
 
 This page collects information that will be useful for the implementation of the new control system on ZOOM.
 ## Background & Timeline ##
-The [ZOOM](http://www.isis.stfc.ac.uk/instruments/zoom/zoom8060.html) web page describes the background to the instrument. Additional material is also available on the [ZOOM sharepoint](http://www.facilities.rl.ac.uk/isis/projects/ts2/phase2instruments/ZOOM/Forms/AllItems.aspx).  ZOOM is expected to have 36 motion axes.
+The [ZOOM](http://www.isis.stfc.ac.uk/instruments/zoom/zoom8060.html) web page describes the background to the instrument. Additional material is also available on the [ZOOM sharepoint](https://stfc365.sharepoint.com/sites/ISISProjects-1015/ZOOM/Forms/AllItems.aspx).  ZOOM is expected to have 36 motion axes.
 
 The ZOOM shutter is due to open in February 2017 (see Zoom plan 28th May 2016). 
 
@@ -23,7 +23,7 @@ ISIS |  | Spin Flipper | | #1234 |[see SpinFlipper note](#zoom_noteSpinFlipper)
  |  | JAWS | | #179, #180 |
  |  | Alignment Laser | |  |[see Alignment Laser note](#zoom_noteLaser)
  |  | JAWS | | #179, #180 |
-[JJ XRAY](http://www.jjxray.dk/) | [7-axis Sample Stack](http://www.jjxray.dk/products/positioning/multi-axis-stages/sample-stacks) [Manual](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Larmor/LARMOR%20JJXRAY%20SAMPLE%20STACK.pdf) | Sample Stack | | #304, #1238 |[see JJ X-Ray note](#zoom_noteJJXray)
+[JJ XRAY](http://www.jjxray.dk/) | [7-axis Sample Stack](http://www.jjxray.dk/products/positioning/multi-axis-stages/sample-stacks) [Manual](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Larmor/LARMOR%20JJXRAY%20SAMPLE%20STACK.pdf) | Sample Stack | | #304, #1238 |[see JJ X-Ray note](#zoom_noteJJXray)
  | Translation (across beam) | Sample Stack | | #1238 |[see SampleStack note](#zoom_noteSampleStack)
 ISIS | Translation (along beam) | Sample Stack || #1238 |Driven by [Beckhoff](#zoom_noteBeckhoff)
 ISIS | Two Tier sample changer | Sample Changer || |[see SampleChanger note](#zoom_noteSampleChanger)
@@ -115,7 +115,7 @@ No control of the alignment laser is required, other than the ability to move it
 ##### Note: JJ X-Ray 7-axis Sample Stack #####
 Location: Blockhouse<br>
 Due: Day 1<br>
-[7-axis Sample Stack Manual](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Larmor/LARMOR%20JJXRAY%20SAMPLE%20STACK.pdf)<br>
+[7-axis Sample Stack Manual](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Larmor/LARMOR%20JJXRAY%20SAMPLE%20STACK.pdf)<br>
 See also [LARMOR](LARMOR-Instrument-Details)<br>
 
 {#zoom_noteSampleStack}
@@ -126,7 +126,7 @@ The [JJ X-Ray sample stack](#zoom_noteJJXray) will sit on rails to allow the ent
 
   1. Across beam (i.e. perpendicular to the rails): Alignment stage for reproducibility.
   2. Along beam (i.e. along the rails): Monitoring only, no control required.<br>
-See [ZOOM_Sample_Stack_Schematic](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/ZOOM/ZOOM_Sample_Stack_Schematic.pptx)
+See [ZOOM_Sample_Stack_Schematic](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/ZOOM/ZOOM_Sample_Stack_Schematic.pptx)
 
 {#zoom_notePneumaticShutter}
 ##### Note: Pneumatic Shutter #####
diff --git a/doc/specific_iocs/cryogenics/HLM-General.md b/doc/specific_iocs/cryogenics/HLM-General.md
index e768ba2f7..ec13b51ec 100644
--- a/doc/specific_iocs/cryogenics/HLM-General.md
+++ b/doc/specific_iocs/cryogenics/HLM-General.md
@@ -25,7 +25,7 @@ hlm/*
 * [HLM PV Import Wiki](https://github.com/ISISNeutronMuon/HLM_PV_Import/wiki)
 * [HLM GAM Database](https://github.com/SampleEnvironment/He-Management/wiki#helium-level-monitoring-database) - the gas management database PV values are being imported into as object measurements
 * [Helium Recovery PLC](../plcs/Helium-Recovery-PLC) - [FINS PLC](../plcs/Omron-FINS) used for monitoring various parameters related to the helium gas recovery system
-* [HLM Project Sharepoint](http://www.facilities.rl.ac.uk/isis/projects/heliummgmt/_layouts/viewlsts.aspx?BaseType=1) - project management docs and other useful info
+* [HLM Project Sharepoint](https://stfc365.sharepoint.com/sites/ISISProjects-721/) - project management docs and other useful info
 * [HLM View](https://github.com/ISISNeutronMuon/HLM_View) - data display website repo
 
 ## Jenkins
diff --git a/doc/specific_iocs/dae/DAE-Trouble-Shooting.md b/doc/specific_iocs/dae/DAE-Trouble-Shooting.md
index bd3045fe2..9648548da 100644
--- a/doc/specific_iocs/dae/DAE-Trouble-Shooting.md
+++ b/doc/specific_iocs/dae/DAE-Trouble-Shooting.md
@@ -52,7 +52,7 @@ On a DAE3 machine a vendor network library is used rather than NI Visa and the e
 Qxtrm_channel::RDMARead failed rdma2 address 0x40010 nbytes 4(Quixtream: The timeout period on this channel expired before the transfer commenced. Channel status: Transfer failed. Data packet not received before timeout. )
 ```
 
-In general if you see an error like this or starting with `NIVISA` you should restart the DAE, then [contact electronics](https://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Contact%20details%20for%20other%20groups.docx).
+In general if you see an error like this or starting with `NIVISA` you should restart the DAE, then [contact electronics](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Contact%20details%20for%20other%20groups.docx).
 
 ### No log files are produced in `c:\data` even though blocks are set to log.
 The reason may be because the isisicp program that writes the datafile hasn't been configured to read values from MySQL for EPICS - the old SECI program used a different route. This is a one off change needed for SECI -> IBEX migration. In `C:\LabVIEW Modules\dae\isisicp.properties` set `isisicp.epicsdb.use = true` to enable this. You will need to restart the `isisicp` process for this to take effect. To do this, just end the `isisicp` process in task manager. 
diff --git a/doc/specific_iocs/daq/Muon-Separator-Power-Supply.md b/doc/specific_iocs/daq/Muon-Separator-Power-Supply.md
index 96146189a..0abb66f1e 100644
--- a/doc/specific_iocs/daq/Muon-Separator-Power-Supply.md
+++ b/doc/specific_iocs/daq/Muon-Separator-Power-Supply.md
@@ -1,6 +1,6 @@
 # Muon Separator Power Supply
 
-The Muon Separator Power Supply is controlled by a National Instruments DAQ-Mx, since IBEX cannot communicate directly with the Separator PSU. The configuration for the DAQ is done in `EPICS\ioc\master\SEPRTR\iocBoot\iocSEPRTR-IOC-01\st-daq.cmd` There is further documentation on how the separator works [here](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Muon%20FE/Supporting%20the%20Muon%20Separator.pptx).
+The Muon Separator Power Supply is controlled by a National Instruments DAQ-Mx, since IBEX cannot communicate directly with the Separator PSU. The configuration for the DAQ is done in `EPICS\ioc\master\SEPRTR\iocBoot\iocSEPRTR-IOC-01\st-daq.cmd` There is further documentation on how the separator works [here](https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Muon%20FE/Supporting%20the%20Muon%20Separator.pptx).
 
 
 The DAQ uses 4 AI ports and 4 AO ports used as such:
diff --git a/doc/specific_iocs/magnets/RIKEN-Power-Supplies.md b/doc/specific_iocs/magnets/RIKEN-Power-Supplies.md
index b8c5be9fe..0b9d83085 100644
--- a/doc/specific_iocs/magnets/RIKEN-Power-Supplies.md
+++ b/doc/specific_iocs/magnets/RIKEN-Power-Supplies.md
@@ -8,7 +8,7 @@ See the `RIKENFE MOXA NPort Devices and IOCs` spreadsheet in the documentation a
 
 ## Documentation
 
-The SharePoint site [`Computing -> ICPdiscussions -> RIKEN FE`](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/RIKEN%20FE) contains documentation relating to the refurbishment project.
+The SharePoint site [`Computing -> ICPdiscussions -> RIKEN FE`](http://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/RIKEN%20FE) contains documentation relating to the refurbishment project.
 
 The original documentation on the physical setup is at `\\...\shares\ISIS_Experiment_Controls\Manuals\RIKEN_power_supplies\` with some schematics in `riken psu controls - issue C.ppt`.  Most of the information in this area is now out-of-date, particularly that which describes the daisy-chain serial connections to the power supplies.  The remote _changeover_ system (configuring RB2 magnet mode to direct beam to specific instruments), has now been removed entirely.
 
diff --git a/doc/specific_iocs/motor_extensions/ALF-Goniometer-Axes.md b/doc/specific_iocs/motor_extensions/ALF-Goniometer-Axes.md
index b151e27ea..1a1c99cc8 100644
--- a/doc/specific_iocs/motor_extensions/ALF-Goniometer-Axes.md
+++ b/doc/specific_iocs/motor_extensions/ALF-Goniometer-Axes.md
@@ -3,7 +3,7 @@
 The ALF Goniometer is a 6-axis goniometer. There is no specific logic required in controlling it, all that is required is the standard movement across the whole range with appropriate encoder/motor counts, and an ability to home all axes to a known position.
 
 ## Axes Conventions
-The numbering of the axes below corresponds to the number of the axes on the [annotated diagram](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/ALF/ALF_Gonio_annotated.png) of the ALF goniometer.
+The numbering of the axes below corresponds to the number of the axes on the [annotated diagram](http://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/ALF/ALF_Gonio_annotated.png) of the ALF goniometer.
 
 1. `Z-axis`
 1. `theta` (a.k.a. `Rrot`)
diff --git a/doc/specific_iocs/motor_extensions/Fermi-Chopper-Lifter.md b/doc/specific_iocs/motor_extensions/Fermi-Chopper-Lifter.md
index 3e7725260..67bef5857 100644
--- a/doc/specific_iocs/motor_extensions/Fermi-Chopper-Lifter.md
+++ b/doc/specific_iocs/motor_extensions/Fermi-Chopper-Lifter.md
@@ -6,4 +6,4 @@ A bi-directional interlock exists between the chopper controller (an [SKF MB5150
 
 There is further documentation in the Motion Control Group's SharePoint site: Beamline Motion -> IDD Motion Control -> Technical Files -> EMMA -> EMMA chopper lifter - Handover.docx
 
-[Direct link to document](http://www.facilities.rl.ac.uk/isis/Motion/TestDocuments/EMMA%20chopper%20lifter%20-%20Handover.docx)
+[Direct link to document](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/_layouts/15/Doc.aspx?sourcedoc=%7BAFC19324-E335-4636-B5AB-702A140668AA%7D&file=EMMA%20chopper%20lifter%20-%20Handover.docx&action=default&mobileredirect=true&DefaultItemOpen=1)
diff --git a/doc/specific_iocs/motor_extensions/jaws/Polaris-Jaws.md b/doc/specific_iocs/motor_extensions/jaws/Polaris-Jaws.md
index cc29aabdb..fbe75aa2b 100644
--- a/doc/specific_iocs/motor_extensions/jaws/Polaris-Jaws.md
+++ b/doc/specific_iocs/motor_extensions/jaws/Polaris-Jaws.md
@@ -1,6 +1,6 @@
 # POLARIS Jaws
 
-Polaris jaws are a set of 5 jaws which work in concert to limit the beam of neutrons reaching the sample (see [Jaws Manager](Jaws-Managers)). Jaws 1-4 are instrument user controlled and work together in a pyramid shape to reduce the beam size in stages. The gap in each jaw set is set based on its distance from the sample. There are documents stored in [sharepoint](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/POLARIS/polarisCalculations.zip). The 5 jaws are ordered 1 nearest the beam and 5 nearest the sample. 
+Polaris jaws are a set of 5 jaws which work in concert to limit the beam of neutrons reaching the sample (see [Jaws Manager](Jaws-Managers)). Jaws 1-4 are instrument user controlled and work together in a pyramid shape to reduce the beam size in stages. The gap in each jaw set is set based on its distance from the sample. There are documents stored in [sharepoint](http://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/POLARIS/polarisCalculations.zip). The 5 jaws are ordered 1 nearest the beam and 5 nearest the sample. 
 Jaw set 5 is under on instrument scientist control. To change these settings the user must put the GUI into management mode. 
 
 The parameters are (with reference to the diagram in [Jaws Manager](Jaws-Managers)):
diff --git a/doc/specific_iocs/plcs/RIKEN-PLC.md b/doc/specific_iocs/plcs/RIKEN-PLC.md
index fb58c1549..cfb0948a7 100644
--- a/doc/specific_iocs/plcs/RIKEN-PLC.md
+++ b/doc/specific_iocs/plcs/RIKEN-PLC.md
@@ -6,7 +6,7 @@ The main PLC on RIKEN is a "Schneider Electric M580" and is responsible for cont
 
 ## Registers and Variables
 
-The groups of variables and their associated registers are defined in the document [`RIKEN PLC IBEX Specification`](http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/RIKEN%20FE/RIKEN%20PLC%20IBEX%20Specification%20-%20Issue%20G_TC.docx) (which can be found in the RIKEN FE ICP Discussions area of SharePoint) and are as follows: (all are read-only, apart from the vacuum valve controls, see below)
+The groups of variables and their associated registers are defined in the document [`RIKEN PLC IBEX Specification`](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/ICP%20Discussions/RIKEN%20FE/RIKEN%20PLC%20IBEX%20Specification%20-%20Issue%20G_TC.docx?d=w277cb25c4cbc4e4ba988f52e49c1eb29&csf=1&web=1&e=zbhcoa) (which can be found in the RIKEN FE ICP Discussions area of SharePoint) and are as follows: (all are read-only, apart from the vacuum valve controls, see below)
 
 - Separator vacuum status
 - Solenoid status
diff --git a/doc/system_components/labview/Complexity-of-LabVIEW-Drivers.md b/doc/system_components/labview/Complexity-of-LabVIEW-Drivers.md
index f2f5c82af..b48ca7db7 100644
--- a/doc/system_components/labview/Complexity-of-LabVIEW-Drivers.md
+++ b/doc/system_components/labview/Complexity-of-LabVIEW-Drivers.md
@@ -4,7 +4,7 @@ One indicator as to how easy or difficult an IOC might be would be the existing
 
 This will only be an indicator and is not guaranteed to reflect the actual complexity of the device.
 
-There is a spreadsheet available at http://www.facilities.rl.ac.uk/isis/computing/ICPdiscussions/Forms/AllItems.aspx?RootFolder=%2Fisis%2Fcomputing%2FICPdiscussions%2FLabVIEW%20Modules%20Analysis, which has a set of results that can be consulted. The best sorting at the option seems to be Max Complexity * Max Nodes.
+There is a spreadsheet available at https://stfc365.sharepoint.com/sites/ISISExperimentControls/ICP%20Discussions/Forms/AllItems.aspx?FolderCTID=0x0120005C4AD37BB338BE469E2247B9E5E1C301&id=%2Fsites%2FISISExperimentControls%2FICP%20Discussions%2FLabVIEW%20Modules%20Analysis, which has a set of results that can be consulted. The best sorting at the option seems to be Max Complexity * Max Nodes.
 
 In that same folder are the LabVIEW 2017 VIs and the analyser configuration to reproduce the tests. Note that this is not nice LabVIEW code, it is quick and dirty, and the first 5 tabs in the spreadsheet is a copy and paste from the results file created by each case at the front of `analyze and write.vi`. Copying the LabVIEW folders into the same location on a computer running LabVIEW 2017 should allow you to re-run the tests, provided the folders are all in the standard locations.
 
diff --git a/doc/systems/Nagios.md b/doc/systems/Nagios.md
index c47afa293..f87f6b327 100644
--- a/doc/systems/Nagios.md
+++ b/doc/systems/Nagios.md
@@ -1,6 +1,6 @@
 # Nagios
 
-For information about the setup of the nagios server see https://www.facilities.rl.ac.uk/isis/computing/instruments/Instrument%20Documents/nagios_server.docx
+For information about the setup of the nagios server see [here](https://stfc365.sharepoint.com/sites/ISISExperimentControls/_layouts/15/Doc.aspx?sourcedoc=%7BA6F9D67A-4FC8-493C-9834-995CF4044F27%7D&file=nagios_server.docx&action=default&mobileredirect=true&DefaultItemOpen=1).
 
 
 ```{toctree}
diff --git a/doc/systems/control-svcs.md b/doc/systems/control-svcs.md
index 1bca1f201..d81582761 100644
--- a/doc/systems/control-svcs.md
+++ b/doc/systems/control-svcs.md
@@ -26,7 +26,7 @@ Depending on what you need to do, you may need to modify system init scripts to
 
 ### Whole VM is down
 
-The best bet at diagnosing/fixing this is to [download VM Manager console](http://www.facilities.rl.ac.uk/isis/computing/instruments/Instrument%20Documents/vmm%20console.docx) - ask Facilities IT if you have problems. The machine has appeared to be down in the past (unable to ping etc.) but has actually been running OK (access via VM console) - this seems to happen if the VM is "live migrated" to a new node on the cluster. Facilities IT are now aware of this and should inform us first, after the migration we may need to reboot to restore network connectivity.   
+The best bet at diagnosing/fixing this is to [download VM Manager console](https://stfc365.sharepoint.com/sites/ISISExperimentControls/_layouts/15/Doc.aspx?sourcedoc=%7B289EA683-832D-4CC5-936B-A409AB379AF7%7D&file=vmm%20console.docx&action=default&mobileredirect=true&DefaultItemOpen=1) - ask Facilities IT if you have problems. The machine has appeared to be down in the past (unable to ping etc.) but has actually been running OK (access via VM console) - this seems to happen if the VM is "live migrated" to a new node on the cluster. Facilities IT are now aware of this and should inform us first, after the migration we may need to reboot to restore network connectivity.   
 
 ### Webserver is down
 
diff --git a/doc/webdashboard/MCR-News-in-Teams.md b/doc/webdashboard/MCR-News-in-Teams.md
index 8cab784a3..bb216a96b 100644
--- a/doc/webdashboard/MCR-News-in-Teams.md
+++ b/doc/webdashboard/MCR-News-in-Teams.md
@@ -2,5 +2,5 @@
 
 MCR news and beam information is available in Microsoft teams for isis staff
 
-* [ISIS Staff Details](http://www.facilities.rl.ac.uk/isis/computing/itservicedesk/Documentation/MCR%20News%20and%20Beam%20information%20in%20Microsoft%20Teams.docx)
-* [Developer support details](http://www.facilities.rl.ac.uk/isis/computing/itservicedesk/Documentation/MCR%20News%20Teams%20support.docx)
+* ISIS Staff Details [word](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/ICP%20Discussions/MCR%20News%20and%20Beam%20information%20in%20Microsoft%20Teams.docx?d=w79783f105d7945aabf33501408768a27&csf=1&web=1&e=cjl8XE) [pdf](https://control-svcs.isis.cclrc.ac.uk/msteams.pdf)
+* [Developer support details](https://stfc365.sharepoint.com/:w:/r/sites/ISISExperimentControls/ICP%20Discussions/MCR%20News%20Teams%20support.docx?d=w33ffb5d1fccd42fa8a0f9c531af306f2&csf=1&web=1&e=eZTeLE)