The documents in this section support the Illumina MiSeq i100 Series Integrations. These integrations are compatible with Illumina cloud-hosted Clarity LIMS only.
MiSeq i100 v1.1.0
The integration includes the following:
New MiSeq i100 Series Sequencing v2.0 workflow that maps to lab protocols and instrument runs. The workflow is available in Illumina Preset Protocols v2.11 and consists of the following steps:
Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v2.0)
Make Bulk Pool (MiSeq i100 Sequencing v2.0)
Load to Dry Cartridge (MiSeq i100 Series Sequencing v2.0)
AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v2.0)
AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v2.0)
Automatic validation of run setup information before sample sheet generation or planned run creation.
Automated creation of planned run with or without analysis and generation of sample sheet. Generated sample sheet is attached to the Load to Dry Cartridge step.
Automated tracking of the MiSeq i100 Series sequencing run and parsing of run and lane metrics into Clarity LIMS.
Automated tracking of Analysis run
MiSeq i100 v1.0.0
The integration includes the following features:
New MiSeq i100 Series Sequencing v1.0 workflow that maps to lab protocols and instrument runs. The workflow is available in Illumina Preset Protocols v2.10 and consists of the following steps:
Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v1.0)
Make Bulk Pool (MiSeq i100 Sequencing v1.0)
Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0)
AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0)
AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0)
Automatic validation of run setup information before sample sheet generation or planned run creation.
Automated creation of planned run and generation of sample sheet. Generated sample sheet is attached to the Load to Dry Cartridge step.
Automated tracking of the MiSeq i100 Series sequencing run and parsing of run metrics into Clarity LIMS.
Support for configuration of secondary analyses with library prep kits (LPKs) and index adapter kits (IAKs) for the planned run using Analysis Configuration Template. The analysis is either performed by ICA in Cloud run mode or by DRAGEN on-premise in Hybrid run mode.
[Optional] Preconfigured Library Prep Validation v2.3.5 workflow used for validation purposes only. The workflow contains a single-step protocol that models the library prep required to produce libraries that are ready for the MiSeq i100 Series Sequencing v1.0 workflow. For more information, refer to MiSeq i100 Series Integration v1.0.0 User Interaction, Validation and Troubleshooting.
[Optional] Clarity LIMS Product Analytics (CLPA) integration that can be used with ICA. The CLPA integration installation and configuration is required. For more information, refer to Clarity LIMS Product Analytics Integration v1.4 Configuration.
Release Notes
Last Updated: December 2024
Release Date: December 2024
These release notes describe the key changes to software components for the Clarity LIMS MiSeq i100 Series Integration Package v1.0.0.
Compatibility
Refer to Compatibility under Instruments & Integrations.
New Features
Provides integration between the MiSeq i100 Series instrument and Illumina cloud-hosted Clarity LIMS.
Supports creation of planned run with secondary analysis configuration and generation of v2 sample sheet for Cloud and Hybrid run modes via Illumina Connected Analytics (ICA).
Supports automated tracking of the sequencing run and parsing of run metrics to Illumina cloud-hosted Clarity LIMS.
Known Limitations
The Assign Analysis Configuration Template step does not support pooled libraries.
For local analysis (Hybrid run mode), custom library prep and index adapter kits selected in the ACT must also be installed or created in the Illumina Run Manager.
Release Notes
Release Date: November 2025
These Release Notes describe the key changes to software components for the Clarity LIMS MiSeq i100 Series Integration Package version 1.1.0.
Compatibility
Refer to Compatibility under Instruments & Integrations.
New Features
Create planned runs without analysis (Generate BCLs only)
Added support for MiSeq i100 50M and 100M flow cell types.
Added support for MiSeq i100 2 x 500 bp kit for 25M flow cell.
Enhancement
Both indexed and pooled libraries are now supported as input for the MiSeq i100 v2.0 sequencing protocol.
The Make Bulk Pool and Calculate Volumes automation scripts have been updated to align with the latest MiSeq i100 Series System Sequencing Protocol.
Integration now tracks sequencing and analysis steps by protocol step name regex, improving flexibility.
Known Limitations
Tracks only the analysis configured with the planned run. Does not track analysis requeue or analysis triggered externally with the same planned run.
The integration does not support pools with samples assigned with Analysis Configuration Templates from different instruments.
Known Issues
On the Make Bulk Pool step, the log displays a warning when the Calculate Volume automation is triggered and at least one pool consists of multiple inputs. This issue is caused by the output custom field being reset multiple times at the end of the automation. This issue does not affect the Calculate Volume automation functionality.
Supports automated tracking of analysis for analysis status and demultiplexing results. The analysis is either performed by ICA in Cloud run mode or by DRAGEN on-premise in Hybrid run mode.
New MiSeq i100 Series Sequencing v1.0 workflow available from Illumina Preset Protocol v2.10.
Sequencing run metrics are now displayed per-run and per-lane in the AUTOMATED - Sequencing Run step.
Removed the application property integration.miseqi100series.v1.automatedAnalysisStepNames and replaced with integration.miseqi100series.v1.automatedAnalysisStepNameRegex.
Removed the application property integration.miseqi100series.v1.automatedSequencingStepNames and replaced with integration.miseqi100series.v1.automatedSequencingStepNameRegex.
When configurations of existing planned runs are updated, apply updates to existing planned runs instead of creating new planned runs with updated configurations.
User Interaction, Validation and Troubleshooting
This section explains how to validate the installation of the Illumina MiSeq i100 Series Integration Package v1.0.0.
The validation process involves the following actions:
Running samples through the Library Prep Validation v2.3.5 workflow.
The workflow contains a single-step protocol that models the library prep required to produce libraries tagged with index sequences. At the end of the step, these libraries are routed to MiSeq i100 Series Sequencing v1.0 workflow.
Running libraries through the MiSeq i100 Series Sequencing v1.0 workflow validates the following items:
Successful sequential step advancement of samples through the steps of the workflow.
Automated creation of a planned run. The control software retrieves the planned run for both Cloud and Hybrid run modes. Sample sheet is automatically generated and attached to Load to Dry Cartridge step.
The validation steps assume that the following conditions have been met:
The MiSeq i100 Series Integration v1.0.0 has a valid BaseSpace Sequence Hub account with an Enterprise or Professional subscription.
MiSeq i100 Series Integration Package v1.0.0 is installed and you have imported the default Clarity LIMS configuration.
Analysis configuration templates (ACTs) are created in BaseSpace Sequence Hub (BaseSpace Sequence Hub) for your run.
Analysis Configuration Template Creation in BaseSpace Sequence Hub
You must create the Analysis Configuration Templates (ACTs) that are required for configuring secondary analysis in the MiSeq i100 Series Sequencing v1.0 workflows. Create and delete ACTs in BaseSpace Sequence Hub. For instructions, refer to the BaseSpace Sequence Hub Online Help on the .
Activate Workflow, Create Project, Add and Assign Samples
The following steps set up Clarity LIMS in preparation for running samples through the Library Prep Validation v2.3.5 and MiSeq i100 Series Sequencing v1.0 workflows.
On the Configuration tab, under Workflows, activate both the Library Prep Validation v2.3.5 and MiSeq i100 Series Sequencing v1.0 workflows.
On the Projects and Samples screen, create a project and add samples to it.
âš Sample and library names must use only alphanumeric, dash, or underscore characters. Invalid characters can cause a sample sheet validation failure in the Load to Dry Cartridge step.
Library Prep Protocol
This single-step protocol models the library prep required to produce libraries tagged with index sequences that are ready for the MiSeq i100 Series Sequencing v1.0 workflow.
Follow the steps in to run the Library Prep Validation workflow with the following:
Label Group = same as the Index Adapter Kit selected in the ACT that is being used
Sequencing Instrument = MiSeq i100 Series
On exit from the step, the Routing Script automation is triggered. This automation assigns samples to the first step of the MiSeq i100 Series Sequencing v1.0 workflow, Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v1.0).
Protocol: MiSeq i100 Series Sequencing v1.0
The MiSeq i100 Series Sequencing v1.0 protocol consists of the following steps:
Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v1.0)
Make Bulk Pool (MiSeq i100 Series Sequencing v1.0)
Load To Dry Cartridge (MiSeq i100 Series Sequencing v1.0)
Each step contains an optional script to register the start time (upon step entry) and the time that the step is completed (upon step exit). This information is published to CLPA through ICA. These scripts are used only for CLPA support and can be incorporated as part of an automation that performs other functions.
In Lab View, locate the MiSeq i100 Series Sequencing v1.0 protocol. The samples are queued for the Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v1.0) step.
Add the samples to the Ice Bucket and select View Ice Bucket.
On the Ice Bucket screen, select Begin Work to start the Validate Sample Names and Retrieve Analysis Configuration Template List and Register Step Started automation.
Step 2: Make Bulk Pool (MiSeq i100 Series Sequencing v1.0)
In Lab View, locate the MiSeq i100 Series Sequencing v1.0 protocol. The samples are queued for the Make Bulk Pool (MiSeq i100 Series Sequencing v1.0) step.
Add the samples to the Ice Bucket and select View Ice Bucket.
On the Ice Bucket screen, select Begin Work.
Select Next Steps to trigger the Set Next Step automation.
This automation sets the next step for samples to ADVANCE, which moves them to the Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) step.
Select Finish Step.
Step 4: Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0)
In Lab View, locate the MiSeq i100 Series Sequencing v1.0 protocol. The pool of samples are queued for the Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) step.
Add the pools to the Ice Bucket and select View Ice Bucket.
On the Ice Bucket screen, select the destination container type:
For more information on how to start the sequencing run for different run modes, refer to .
For subsequent steps to successfully track the sequencing and analysis run, the Load to Dry Cartridge step must be completed and samples must be queued to the AUTOMATED - Sequencing Run step before starting the sequencing run on the instrument.
Step 5: AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0)
Do not add samples to the Ice Bucket or start or complete the AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step. The integration does this automatically.
The integration starts the step automatically and data from the run is parsed back into Clarity LIMS. User interaction is not required, but you can review the stages of the step in Clarity LIMS.
Review Run Data
Read summary metrics are recorded for the library pool. After the run is complete, open the step and review these metrics in the Step Details section and the Sample Details table.
Step Details Section
The following values populate the master step fields:
Run Name
Run Status
Sample Details Table
Summary metrics populate the following global custom fields:
% Bases >=Q30 R1
% Bases >=Q30 R2
Step 6: AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0)
This protocol contains the AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0) step. This step is fully automated.
Do not add samples to the Ice Bucket or start or complete the AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0) step. The integration does this automatically.
The integration starts the step automatically and parses run data from BaseSpace Sequence Hub back into Clarity LIMS. User interaction is not required, but you can review the stages of the step in Clarity LIMS. If the run analysis is successful, the integration completes the step automatically.
Review Analysis Data
After the analysis run is complete, open the step and review the following values in the Step Details section:
Analysis Status
Analysis Result Location
Log
After the analysis is complete, download the demultiplexing results from the file placeholders. Retrieve detailed analysis results from ICA.
The demultiplexing results file contains the following demultiplexing statistics for each sample:
Number of reads
Number of perfect index reads
Number of mismatch index reads
At this point, the entire MiSeq i100 Series Integration workflow is fully validated.
Troubleshooting
If an automation trigger does not appear to run its corresponding scripts, refer to the Troubleshooting Automation section in the .
The Validate Analysis Configuration automation check is in the Make Bulk Pool (upon pooling) step. If a failure happens, an error message displays and the step can be aborted, or you might be prevented from continuing the step.
This check can fail for the following reasons:
ACTs of samples in the same pool or planned run must have the same analysis mode (Local or Cloud).
Resolve this error as follows.
Abort the step and remove samples with ACTs that have conflicting run modes from the Ice Bucket.
Error When Creating Planned Runs
If you receive an error when creating a planned run, check the log message in the Load to Dry Cartridge step to identify the issue. If you cannot correct the issue, contact Illumina Support.
Incompatible Analyses in a Planned Run
Only compatible analysis versions should be combined in a single planned run. When incompatible analysis versions are combined, an error log message displays. An example of the error log message is shown below.
To resolve this error, check the ACTs that were used for the run and only select the ACTs that are compatible with the planned run.
Automated Step Does Not Start
If the AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step does not start, Clarity LIMS is likely not receiving sequencing run events from BaseSpace Sequence Hub correctly. Check for the following issues:
Make sure that the MiSeq i100 Control Software is configured properly as follows.
Before you start the run, in the MiSeq i100 Control Software, select the appropriate BaseSpace Sequence Hub region in the Hosting location drop-down list.
Under Run Settings, check the boxes next to Cloud run monitoring and Cloud run storage.
Automated Step Starts, But Does Not Complete
If the AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step starts, but does not complete, do as follows.
Log in to the default user account and use one of the following methods to open the in progress step in Clarity LIMS:
In Lab View, find the step in the Recent Activities pane.
Search for the step in Clarity LIMS using the library tube strip barcode as the search term.
Automated tracking of the MiSeq i100 Series sequencing run and parsing of run metrics from BaseSpace Sequence Hub to Clarity LIMS.
Automated tracking of the MiSeq i100 Series analysis run from BaseSpace Sequence Hub to Clarity LIMS.
The index adapter kit label group in the selected ACT is created in Clarity LIMS and used in the Run Library Prep Validation v2.3.5 step to index the samples.
For more information on creating a reagent label group, refer to Add and Configure Labels and Label Groups in the Clarity LIMS (Clarity & LabLink Reference Guide) documentation. For the adapter sequences for your library prep kits, refer to Illumina Adapter Sequences.
Assign the samples to the Library Prep Validation workflow.
AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0)
AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0)
The automation does the following:
checks that the sample names do not use restricted characters and are within character limits,
populates the Analysis Configuration Template dropdown options,
registers the start time of the step by publishing messages to CLPA through ICA. The part of the script for start time registration is used only for CLPA support.
Select the applicable ACT to assign to the samples. The index adapter kit specified by the ACT must correspond with the label group used in Library Prep Protocol.
[Optional] In Step Details, select Retrieve ACT Information to trigger the Retrieve ACT Information automation.
This automation retrieves ACT information (e.g., Library Prep Kit, Index Adapter Kit, Reference Genome, and so on) and populates the fields in Clarity LIMS. These details are saved to the ACTMetadata.csv file that you can download to view details of the selected ACT.
Select Next Steps to assign the ACT to the samples.
This action triggers the Validate Reagent Labels and Apply Selected ACT to Samples and Set Next Step automation which does the following:
validates that the indexes applied to the libraries are valid for the selected ACT
assigns samples to the selected ACT
Select Finish Step.
Create a pool of samples as follows.
On the Pooling screen, create a pool by dragging samples into the Pool Creator.
Enter a name for your pool or accept the default name (Pool #1).
[Optional] If multiple pools are required, select the plus sign (+) next to Pool Creator to create a pool.
ℹ Only a single pool is allowed in the Load to Dry Cartridge step for each run. Create multiple pools if required for subsequent runs.
[Optional] To remove a pool, select the X in the top right corner of the pool.
Select Record Details to trigger the Validate Analysis Configurations automation.
This automation performs the following checks on the analysis configuration for each pool:
Pooled samples are within the maximum configuration limit.
Pooled samples have the sample type of analysis (Cloud or Local).
Pooled samples that have the same secondary analysis also have the same analysis version and settings.
On the Record Details screen, navigate to the Reagent Lot Tracking section to track the lot information used in the step.
[Optional] Create a new lot. For more information, refer to Add and Configure Reagent Kits and Lots in the Clarity LIMS (Clarity & LabLink Reference Guide) documentation.
In the Step Details area, complete the following required fields:
% PhiX (100pM) Spike-In — The percentage of PhiX spike-in.
Final Loading Concentration (pM) — The final loading concentration of the pool in the flow cell.
Final Loading Volume (ul) — The final loading volume of the pool in the flow cell.
Bulk Pool Volume (ul) — The bulk pool volume is used in the Calculate Volumes script to determine RSB volumes required for pooling.
Minimum Per Sample Volume (ul) — The minimum volume for each sample. This field is prepopulated with the configured default value (2 µl) and can be edited. If the per sample volume is below the value set in this field, the Calculate Volumes script applies a rounding factor to affected samples so that the volume reaches the minimum volume.
Flowcell Type — The flow cell type that the run uses. Select from the following options:
5M
25M
Select Calculate Volumes to trigger the Calculate Volumes automation.
This automation calculates the volumes required for each library to form a pool that has the concentration and volume specified in the Step Details field. It also generates the calculation file in a CSV format and attaches it to the step. Select the file name to download it.
[Optional] In the Sample Details table, select the pool next to the sample name to view details on the pool composition.
MiSeq i100 Series Dry Cartridge
Select Begin Work to trigger the Validate Single Pool and Register Step Started automations.
The Validate Single Pool automation ensures that only one pool is selected for loading to the dry cartridge in this step.
The Register Step Started automation also registers the start time of the step by publishing messages to CLPA through ICA. The portion of the script used for start time registration is used only for CLPA support.
On the Placement screen, do as follows.
Drag the pool into the Placed Samples area on the right.
Scan or type the barcode of the dry cartridge into the container name field.
Select Record Details.
After exiting the Placement screen, the Validate Dry Cartridge Barcode automation makes sure that the dry cartridge barcode conforms to the barcode mask. The barcode mask is SC[0-9]{7}-SC3.
The fields displayed on the Record Details screen are used to create the planned run and generate the sample sheet.
The analysis related information for the planned run is from the ACT associated with the samples and no further analysis configuration is required. Refer to the following table for details.
Fields Displayed on Record Details Screen of Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) Step
Field
Description
Run Name
Experiment name.
Only alphanumeric characters, dashes, periods, spaces and underscores are permitted.
Maximum of 255 characters
¹ Planned run is created and available on BaseSpace Sequence Hub. This configuration is downloaded to the MiSeq i100 Series instrument to start the run. The downstream secondary analysis is done in the cloud.
² Planned run is created and available on BaseSpace Sequence Hub. This configuration is downloaded to the MiSeq i100 Series instrument to start the run. The downstream secondary analysis is done using the on-premise DRAGEN module.
³ The custom value must correspond to the longest index sequence of the samples in the pools in the library tube strip.
Select Validate Run Setup and Create Planned Run to trigger the automation script. The script performs the following actions:
Validates the parameters entered on the Record Details screen.
Creates the planned run.
Generates the sample sheet and attaches it to the placeholder in the Files area on the Record Details screen.
Select Next Steps.
Select Finish Step to advance the pooled samples to the AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step.
Make sure that all remaining samples in the Ice Bucket have ACTs with the same run modes.
Select Begin Work to continue the step.
ACTs of samples in the same pool or planned run that have the same secondary analysis must have the same analysis version.
Resolve this error as follows.
If the error occurs on the Make Bulk Pool step, pool the samples again. Make sure that samples with the same secondary analysis, but conflicting analysis versions, are in different pools.
If the error occurs on the Load to Library Tube step, reorganize the samples for the planned run. Make sure that samples with the same secondary analysis, but conflicting analysis versions, are in different runs.
ACTs of samples in the same pool or planned run that have the same secondary analysis must have the same analysis settings. The analysis setting fields can differ for a different secondary analysis and are configured in BaseSpace Sequence Hub when the ACT is created.
Resolve this error as follows.
Pool the samples again. Make sure that samples with the same secondary analysis, but conflicting analysis settings, are in different pools.
If there are issues after using the configuration settings on the MiSeq i100 Control Software, contact Illumina Support.
On the Record Details screen, the Sequencing Log multiline text field contains logging information.
If unable to reach the Record Details screen, or if the Sequencing Log field does not contain enough information to resolve the issue, contact Illumina Support. Provide the relevant information from the troubleshooting steps already performed.
âš The selected Run Mode must correspond to the ACT type.
Read 1 Cycles
Presets
151
101
51
ℹ Allows custom entry
Read 2 Cycles
Presets
151
101
51
ℹ Allows custom entry
Index 1 Cycles
Presets
0
6
8
ℹ Allows custom entry³
Index 2 Cycles
Presets
0
6
8
ℹ Allows custom entry³
Configuration
This integration supports the integration of Clarity LIMS to Illumina MiSeq i100 series instruments.
The configuration provided in this integration has been established to support MiSeq i100 Series lab processes. Any configuration changes to protocols or workflows (including renaming protocols, steps, and fields) could break the integration.
Prerequisites and Assumptions
The MiSeq i100 Series Integration v1.0.0 requires a valid BaseSpace Sequence Hub account with an Enterprise or Professional subscription.
Analysis Configuration Template
The MiSeq i100 Series Sequencing v1.0 workflow uses analysis configuration templates (ACTs), created on BaseSpace Sequence Hub, to configure secondary analysis for planned runs.
The index adapter kit configured in the ACT must be created as label group in Clarity LIMS and used in the library preparation step for indexing the samples.
For more information, refer to .
ACT names created in BaseSpace Sequence Hub must not have leading or trailing spaces.
Samples
Samples must go through the library preparation and quantification process before they enter the MiSeq i100 Series Sequencing v1.0 workflow. It is assumed that the following steps have completed before samples are assigned to the workflow:
Samples have been accessioned into Clarity LIMS.
Samples have been run through QC and library prep.
Samples have the Molarity (nM) global field set to a value.
This value is required for the Calculate Volumes automation in the Make Bulk Pool step.
Sample and library names must use only alphanumeric, dash, or underscore characters.
For more information on sample accessioning, refer to Sample Accessioning and Upload and Modify Samples in the Getting Started section of the .
You can assign samples to workflows automatically, using a routing script, or manually—from the Projects & Samples dashboard. Refer to Assign and Process Samples in the .
Workflows, Protocols, and Steps
The MiSeq i100 Series Integration Package v1.0.0 includes the following workflows:
MiSeq i100 Series Sequencing v1.0
Library Prep Validation v2.3.5 (optional, but recommended for validation purposes)
The following describes the protocols and steps included in these workflows.
Library Prep Validation v2.3.5 Workflow
Protocol 1: Library Prep Validation v2.3.5
Purpose:
Included for validation purposes only, this protocol models the library prep steps required to advance samples to the MiSeq i100 Series Sequencing v1.0 workflow.
âš The label group (index adapter kit) used for library preparation must be the same as the index adapter kit specified in the ACT that is being used. For more information, refer to
MiSeq i100 Series Sequencing v1.0 Workflow
Protocol 1: MiSeq i100 Series Sequencing v1.0
Purpose:
This protocol models the lab processes of run setup for starting a MiSeq i100 Series sequencing and secondary analysis run.
Steps:
Validation Workflow
The Library Prep Validation v2.3.5 workflow allows for validation of the system after installation is complete. This workflow can be replaced by other custom library preparation workflows.
Configure a custom library preparation workflow as follows.
Select Configuration, then select Lab Work.
Add a Routing Script automation to the last Master Step of the library preparation workflow.
This step uses ACTs to configure secondary analysis for samples. Each ACT contains details related to the secondary analysis (e.g., index adapter kit to use, reference genome setting, and so on). You can select an ACT from a list and assign samples to it.
Validate Sample Names and Retrieve Analysis Configuration Template List and Register Step Started Automation¹
Automatically triggered on entry to the step, this automation completes the following actions:
Checks that submitted sample names contain only alphanumeric, dash, and underscore characters.
Retrieve ACT Information Automation
Triggered when you select Retrieve ACT Information on the Record Details screen, this automation completes the following actions:
Retrieves the details of the selected ACT and populates the step custom fields (e.g., Analysis Version, Library Prep Kit, and so on).
Validate Reagent Labels and Apply Selected ACT to Samples and Set Next Step Automation
Automatically triggered on exit of the Record Details screen, this automation completes the following actions:
Checks that the molarity of all samples is specified.
Register Step Completed Automation²
Automatically triggered on exit of the step, this automation registers completion time of the step by publishing messages to CLPA through ICA.
¹ These automations are required for the MiSeq i100 Series Sequencing v1.0 workflows and contain additional logic needed for CLPA support. If you would like to remove support for CLPA, contact Illumina Support.
² These automations are required for CLPA support only.
Master Step Fields
The following table lists the configuration details for fields that are defined on the Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v1.0) step.
¹ The ACT entered must correspond to a valid ACT in BaseSpace Sequence Hub.
Global Fields
The following table lists the global custom fields that are configured to display on the Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v1.0) step.
Global Field Configuration (Derived Sample)
Step 2: Make Bulk Pool (MiSeq i100 Series Sequencing v1.0)
Samples are pooled in the Make Bulk Pool (MiSeq i100 Series Sequencing v1.0) step. You can manually create working pools based on the final loading concentration required.
Register Step Started Automation¹
Automatically triggered on entry to the step, this automation registers the start time of the step. This automation completes this action by publishing messages to CLPA through ICA.
Validate Analysis Configurations Automation
Automatically triggered on exit of the Pooling screen, this automation performs analysis configuration validity and checks each pool for the following characteristics:
Pooled samples are within the maximum configuration limit.
Calculate Volumes Automation
Automatically triggered when you select Calculate Volumes on the Record Details screen, this automation completes the following actions:
Proceeds if the sample has molarity values.
Computes the number of samples in pool.
Set Next Step Automation
Automatically triggered on exit of the Record Details screen, this automation completes the following actions:
Proceeds only if the sample has a molarity value.
Copies the Run Mode from input to output.
Register Pools and Register Step Completed Automation¹
Automatically triggered on exit of the step, this automation completes the following actions:
Registers the pool and library information used by the Clarity LIMS workflow. Samples in the pool are assumed to have gone through library preparation.
¹These automations are required for CLPA support only.
All remaining automations are required for the MiSeq i100 Series Sequencing v1.0 workflows.
Master Step Fields
The following table lists configuration details for the fields that are defined on the Make Bulk Pool (MiSeq i100 Series Sequencing v1.0) step.
Make Bulk Pool (MiSeq i100 Series Sequencing v1.0) Master Step Field Configuration
Global Fields
The following table lists the global custom fields that are configured to display on the Make Bulk Pool (MiSeq i100 Series Sequencing v1.0) step.
Global Custom Fields Configuration (Derived Sample)
Step 3: Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0)
The Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) step requires you to enter or scan in the dry cartridge barcode into Clarity LIMS. Then, you can place the working pool into the dry cartridge used in the MiSeq i100 Series run. This step also does the following actions:
Validates the run setup and analysis information.
Generates the sample sheet file.
Creates a planned run.
Validate Single Pool and Register Step Started Automation¹
Automatically triggered on entry to the step, this automation completes the following actions:
Checks that the input is a single pool.
Validate Dry Cartridge Barcode Automation
Automatically triggered on the Placement screen, this automation validates the dry cartridge barcode to make sure that it conforms to the barcode mask SC[0-9]{7}-SC3.
Validate Run Setup and Create Planned Run Automation
Automatically triggered when you select Validate Run Setup and Create Planned Run on the Record Details screen, this automation completes the following actions:
Validates the parameters entered on the Record Details screen. These parameters are used to set up the run, generate the sample sheet file, and create the planned run in ICA, depending on the run mode.
Set Next Step Automation
Automatically triggered on exit of the Record Details screen, this automation completes the following actions:
Copies the Run Mode from input to output.
Sets the next step for samples to ADVANCE, advancing them to the AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step.
Register Step Completed Automation²
Automatically triggered on exit of the step, this automation registers the completion time of the step by publishing messages to CLPA through ICA.
¹ These automations are required for the MiSeq i100 Series Sequencing v1.0 workflows and contain additional logic needed for CLPA support. If you would like to remove support for CLPA, contact Illumina Support.
² These automations are required for CLPA support only.
All remaining automations are required for the MiSeq i100 Series Sequencing v1.0 workflows.
Master Step Fields
The following table shows the master step fields that are configured on the Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) step. These fields are required for sample sheet generation and planned run creation in ICA.
Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) Master Step Field Configuration
Step 4: AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0)
The AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step is fully automated. The integration starts the step, adds samples to the Ice Bucket, and completes the step. Data from the run is parsed back to Clarity LIMS. In this step, pooled samples in the dry cartridge are sequenced on the MiSeq i100 Series instrument.
Do not add samples to the Ice Bucket or start and complete the AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step. The integration does this automatically.
Register Step Started and Register MiSeq i100 Series Run and Register MiSeq i100 Series Run Association and Register MiSeq i100 Series RunStarted Automation¹
Automatically triggered at the beginning of the step, this automation completes the following actions:
Registers the start time of the step.
Register MiSeq i100 Series RunCompleted and Register Step Completed Automation¹
Automatically triggered on exit of the step, this automation completes the following actions:
Registers the sequencing run completion time, run status, and run metrics. This script requires the Planned Run ID custom field from the Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) step.
¹ These automations are required for CLPA support only.
Master Step Fields
The following tables show the master step fields that are configured on the AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step. These fields are updated by the integration service.
Global Fields
The following global custom fields are used to capture the run metrics in Clarity LIMS:
% Bases >=Q30 R1
% Bases >=Q30 R2
% Error Rate R1
% Error Rate R2
At the end of the step, the pools of samples automatically advances to the next step when the sequencing run is successfully completed.
Step 6: AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0)
The AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0) step is fully automated. The integration starts and completes the step automatically. In this step, the secondary analysis configured using the Analysis Configuration Template (ACT) is performed in Illumina Connected Analytics (ICA). The local analysis status and results are uploaded to BaseSpace Sequence Hub which in turns passes back the data to Clarity LIMS.
There are no automations associated with this step.
Do not add samples to the Ice Bucket or start and complete the AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) step. The integration does this automatically.
Master Step Fields
The following tables show the master step fields that are configured on the AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0) step.
Do not modify the names of the master step fields. Modifications cause the integration to break.
AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0) Master Step Field Information
How the Integration Works
The following information summarizes how the MiSeq i100 Series integration works.
After the Validate Run Setup and Create Planned Run automation is triggered on the Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) step, validation of the run and analysis configuration occurs. When the validation fails, Clarity LIMS displays an error message. Otherwise, a cloud-planned run is created and available on BaseSpace Sequence Hub. The v2 sample sheet is also generated.
The planned run contains the run and analysis configuration information required to start the run on the instrument. The sample sheet is generated and stored in Clarity LIMS for reference purposes.
In Cloud run mode, analysis is performed in Illumina Connected Analytics (ICA). In Hybrid run mode, analysis is performed on-premise.
If a planned run with the same sample name and project name (case-insensitive) has been created previously, the sample sheet generated from the Validate Run Setup and Create Planned Run automation can reflect the original case of the previous sample name. This can cause validation errors for analysis configurations with sample-level settings. To resolve this issue, change the sample name or the project name on Clarity LIMS and run the automation again.
Start a Sequencing Run on MiSeq i100 Series Instrument
The following sections outline the steps to start a Clarity LIMS cloud or hybrid run on the MiSeq i100 Series instrument.
Run Mode Configuration
In the MiSeq i100 Series Control Software, log in to the instrument using an account that has permissions for configuring settings.
On the menu, select Settings, then select Cloud settings.
Start a Planned Run (Cloud Run or Hybrid Run Modes)
Refer to information on .
Enabling Planned Run Generation for Samples Having Duplicate Name with Different Indexes
The library preparation workflow of the samples must be before routing the samples through the library preparation workflow.
Components Installed
The following sections describe the components (files, properties, reagent categories / label groups, reagent kits, and containers) that are installed by default as part of this integration.
Reagent Kits
MiSeq i100 Series Dry Cartridge
MiSeq i100 Series Library Denature (KLD)
MiSeq i100 Series Wet Cartridge
Container Types
MiSeq i100 Series Dry Cartridge
Tube
Rules and Constraints
The workflow configuration contains several validation checks. To make sure that the calculations work properly, it is important that you do not disable any of this validation logic. Refer to the individual validation checks for details.
All submitted samples must have an associated secondary analysis that is configured using the analysis configuration template (ACT). The ACT must be configured on BaseSpace Sequence Hub before starting the Assign Analysis Configuration Template step. The ACT names must be unique.
The dry cartridge barcode must be unique. There must not be multiple dry cartridges with the same name in the system.
.
The protocol contains a single step - Library Prep Validation v2.3.5. After this step, a routing script sends the samples to the first step of the MiSeq i100 Series Sequencing v1.0 workflow (Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v1.0)).
Steps:
Library Prep Validation v2.3.5
Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v1.0)
The secondary analysis of samples is configured using the ACT.
The labels applied to the samples are validated against the selected ACT.
Make Bulk Pool (MiSeq i100 Series Sequencing v1.0)
The Calculate Volume script assists with pooling samples and adding resuspension buffers and reagents.
The Validate Analysis Configurations automation validates the ACT of pooled samples to make sure that the secondary analysis configurations remain valid after pooling.
Load To Dry Cartridge (MiSeq i100 Series Sequencing v1.0)
The library pool from step 2 is ready to be loaded to the MiSeq i100 Series dry cartridge.
Validates run and analysis configuration.
Generates the sample sheet and creates the planned run, depending on the run mode.
AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0)
The step is fully automated and starts and completes automatically after the sequencing run is started and completed in BaseSpace Sequence Hub.
The sequencing run metadata (e.g., run configuration, primary run metrics, etc.) are recorded automatically.
AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0)
The step is fully automated and starts and completes automatically after the analysis run is started and completed in ICA.
The analysis run metadata (e.g., status and demultiplexing stats file) are recorded automatically.
Create a new Routing Script automation and update it as follows.
For Channel Name, enter limsserver.
For Command Line, enter the following script:
For Automation Use, select the custom library preparation workflow.
Retrieves the list of ACTs that were created in BaseSpace Sequence Hub.
Registers the start time of the step by publishing messages to CLPA through the ICA.
Saves the details into a file that is available to download. This file is stored in the Analysis Configuration Metadata file placeholder.
Checks that all samples are indexed and for invalid indexes. The indexes applied are the same as the selected ACT.
Assigns the selected ACT to all samples in the step.
Sets the next step for samples to ADVANCE, which advances them to the next step in the protocol (Make Bulk Pool (MiSeq i100 Series Sequencing v1.0)).
Text
Read Only
Reference Genome
Text
Read Only
Secondary Analysis Mode
Text
Read Only
Pooled samples have the same type of analysis (e.g., Cloud or Local).
Pooled samples assigned with the same secondary analysis application must have the same analysis version (e.g. v3.8.4) and settings (e.g. Map/Align Output Format = CRAM).
Uses the Final Loading Concentration (pM) and Final Loading Volume (ul) to calculate the required volumes for the 4 nM intermediate library pools.
Copies the Final Loading Concentration (pM) and Flowcell Type from the step inputs to the step outputs.
Calculates the per sample volume required for each library to make a 4 nM intermediate library pool
Copies the Bulk Pool Volume (ul) from the step input to the step output.
Sets the total sample volume to zero.
Computes the PhiX (100 pM) Spike-In required based on the the percentage specified. The PhiX Volume is saved to the file in the Calculation File placeholder in the Files section.
Calculates the adjusted per sample volume for the pools.
Uses the Total Sample Volume (ul), Bulk Pool Volume (ul) and Required Bulk Pool Volume (ul) to calculate the RSB volume (ul) required to top up the pools that are needed to create the intermediate library pools. Computes the KLD volume required. The RSB and KLD volumes are saved to the file in the Calculation File placeholder in the Files section.
Uses the MiSeqi100Series_Bulk_Pool1.csv, MiSeqi100Series_Bulk_Pool2 and MiSeqi100Series_Bulk_Pool3.csv template files to generate a single CSV file. This file contains information about the pools and the samples that they contain. The generated file is stored in the Calculation File placeholder in the Files section.
Resets the Number of Samples in Pool before exiting the step.
Sets the next step for samples to ADVANCE, which advances them to the Load to Dry Cartridge (MiSeq i100 Series Sequencing v1.0) step.
Registers the completion time of the step.
This automation completes this action by publishing messages to CLPA through ICA.
Final Loading Volume (ul)
Numeric
Required Field
Default = 250
Decimal places displayed: 2
Flowcell Type
Text Dropdown
Required Field
Dropdown Items
5M
25M
Minimum Per Sample Volume (ul)
Numeric
Required Field
Decimal places displayed: 2
Default: 2
RSB Volume for Intermediate Pool (ul)
Numeric
Read Only
Decimal places displayed: 1
RSB Volume (ul)
Numeric
Read Only
Decimal places displayed: 2
Registers the start time of the step by publishing messages to CLPA through ICA.
Run Name can only contain alphanumeric, dash, underscore, or period characters. Do not use spaces.
Run Name cannot exceed 255 characters.
Checks the Index 1 Cycles and Index 2 Cycles field values. If Index 2 Cycles is greater than 0, the Index 1 Cycles value must be greater than 0 or an error can occur.
Generates the sample sheet and creates the planned run in ICA. The sample sheet is attached to the step.
There is a backend validation of the sample sheet content in ICA. This validation makes sure that the sample sheet is valid to set up a Cloud or Hybrid mode run and that it is ready for use with DRAGEN applications.
Read 1 Cycles
Numeric Dropdown
Required Field
Custom Entries
Range = 1–301
Presets
101
Read 2 Cycles
Numeric Dropdown
Required Field
Custom Entries
Range = 0–301
Presets
101
Run Mode
Text Dropdown
Required Field
Presets
Cloud
Hybrid
Run Name
Text
Required Field
Registers the MiSeq i100 Series sequencing run configuration.
Registers the association of the sequencing run with the samples by linking the Instrument Run ID with the sample ID.
Registers the time that the sequencing run started.
This automation completes these actions by publishing messages to CLPA through ICA.
Registers the completion time of the step.
This automation completes these actions by publishing messages to CLPA through ICA.
Output folder containing the run data.
Run End Time
Run completion time.
Run Name
Name of the current run.
Dry Cartridge Barcode Serial Number
Serial number of the dry cartridge.
Dry Cartridge Expiration Date
Expiration date of the dry cartridge.
Wet Cartridge Expiration Date
Expiration date of the wet cartridge.
Wet Cartridge Serial Number
Serial number of the wet cartridge.
Run Status
Status of the run.
Sequencing Log
Log of the sequencing run.
BaseSpace Run ID
ID of the run in BaseSpace Sequence Hub.
ICA Project ID
ID of the project in Illumina Connected Analytics.
Instrument Run ID
ID of the run on the instrument.
Cloud Run ID
ID of the run in Illumina Connected Analytics.
Run Start Time
Run start time.
Yield (Gb) R1
Yield (Gb) R2
Reads PF
% PF
% Aligned R1
% Aligned R2
% Occupied
% Phasing R1
% Phasing R2
% Prephasing R1
% Prephasing R2
Intensity Cycle 1 R1
Intensity Cycle 1 R2
When the integration is configured with BaseSpace Sequence Hub storage and monitoring, the integration tracks the sequencing and analysis events. You can view the analysis result files in BaseSpace Sequence Hub.
In Run Settings, select the Cloud run storage checkbox.
For Hosting location, select the applicable location from the drop-down options.
[Optional] For Private domain name, enter the domain name according to the workgroup that was configured with the MiSeq i100 Series integration package.
Select Save.
Resuspension Buffer (RSB)
Reagent labels, or indexes, must be unique.
Only one library pool can be added to be Load to Dry Cartridge step.
The AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v1.0) and AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v1.0) steps must not be manually started or completed. These steps are fully automated and the sequencing service does not update samples correctly if they have been manually started.
For the automated run to start successfully, you must select Validate Run Setup and Create Planned Run in the Load to Dry Cartridge step. The Load to Dry Cartridge step must be completed and libraries must be queued to the AUTOMATED - Sequencing Run step.
Field Name
Field Type
Options
Analysis Configuration Template
Text Dropdown
Required Field
Custom Entries¹
Application
Text
Read Only
Application Version
Text
Read Only
Index Adapter Kit
Text
Read Only
Field Name
Field Type
Options
Additional Options and Dropdown Items
Molarity (nM)
Numeric
Decimal places displayed = 2
ACT Name
Text
Read Only
Field Name
Field Type
Options
Additional Options and Dropdown Items
% PhiX (100pM) Spike-In
Numeric
Range from 0 to 100
Decimal places displayed: 0
Bulk Pool Volume (ul)
Numeric
Required Field
Decimal places displayed: 1
Final Loading Concentration (pM)
Numeric Dropdown
Required Field
Custom Entries
Dropdown Items
60
70
80
90
100
110
120
130
140
150
160
170
180
Field Name
Field Type
Options
Additional Options and Dropdown Items
Final Loading Concentration (pM)
Numeric Dropdown
Required Field
Custom Entries
Decimal places displayed: 0
Dropdown Items
225
400
KLD Volume (ul)
Numeric
Read Only
Decimal places displayed: 1
MiSeq i100 Series Flowcell Type
Text Dropdown
Required Field
Read Only
Dropdown Items
5M
25M
Field Name
Field Type
Options
Additional Options and Dropdown Items
Planned Run ID
Text
Read Only
Hidden
ℹ Used for storing the planned run ID.
Index 1 Cycles
Numeric Dropdown
Required Field
Custom Entries
Range = 0–18
Presets
0
6
8
Index 2 Cycles
Numeric Dropdown
Required Field
Custom Entries
Range = 0–18
Presets
0
6
8
Field Name
Description
Current Cycle
Completed cycles of current run.
Current Read
Completed reads of current run.
Flow Cell ID
ID of the flow cell.
Flow Cell Type
Type of flow cell.
Instrument Control Software Version
Control software version installed on the instrument.
Instrument Type
Instrument type.
Field Name
Description
Analysis Status
Status of the analysis run.
Analysis Result Location
BaseSpace Sequence Hub link to analysis run data.
App Session ID
BaseSpace Sequence Hub session ID for the analysis run.
script:evaluateDynamicExpression \
-exp 'output.::Number of Samples in Pool:: = ::::;' -t true \
if (!step.::Run Name::.matches(::[a-zA-Z0-9-_]+[a-zA-Z0-9-_. ]*::)) { fail(::Run Name contains prohibited characters. Please check to make sure Run Name only contains alphanumeric characters, spaces, dashes and underscores. Run Name must start with alphanumeric, a dash or an underscore::);}
if (step.::Run Name::.length() > 255) { fail(::Run Name shall not exceed 255 characters.::); };
if (step.::Index 2 Cycles:: > 0 && step.::Index 1 Cycles:: == 0) { fail(::Index 1 Cycles cannot be zero if Index 2 Cycles is non-zero::); };
This integration supports the integration of Clarity LIMS to Illumina MiSeq i100 series instruments.
The configuration provided in this integration has been established to support MiSeq i100 Series lab processes. Any configuration changes to protocols or workflows (including renaming protocols, steps, and fields) could break the integration.
Prerequisites and Assumptions
The MiSeq i100 Series Integration v1.1.0 requires a valid BaseSpace Sequence Hub account with an Enterprise or Professional subscription.
Analysis Configuration Template
The MiSeq i100 Series Sequencing v2.0 workflow uses analysis configuration templates (ACTs), created on BaseSpace Sequence Hub, to configure secondary analysis for planned runs.
The index adapter kit configured in the ACT must be created as label group in Clarity LIMS and used in the library preparation step for indexing the samples.
For more information, refer to .
ACT names created in BaseSpace Sequence Hub must not have leading or trailing spaces.
Samples
Samples must go through the library preparation and quantification process before they enter the MiSeq i100 Series Sequencing v2.0 workflow. It is assumed that the following steps have completed before samples are assigned to the workflow:
Samples have been accessioned into Clarity LIMS.
Samples have been run through QC and library prep.
Samples have the Molarity (nM) global field set to a value.
This value is required for the Calculate Volumes automation in the Make Bulk Pool step.
Sample and library names must use only alphanumeric, dash, or underscore characters.
For more information on sample accessioning, refer to Sample Accessioning and Upload and Modify Samples in the Getting Started section of the .
You can assign samples to workflows automatically, using a routing script, or manually—from the Projects & Samples dashboard. Refer to Assign and Process Samples in the .
Workflows, Protocols, and Steps
The MiSeq i100 Series Integration Package v1.1.0 includes the following workflows:
Library Prep Validation v2.3.6 (optional, but recommended for validation purposes)
The following describes the protocols and steps included in these workflows.
Library Prep Validation v2.3.6 Workflow
Protocol 1: Library Prep Validation v2.3.6
Purpose:
Included for validation purposes only, this protocol models the library prep steps required to advance samples to the MiSeq i100 Series Sequencing v2.0 workflow.
âš The label group (index adapter kit) used for library preparation must be the same as the index adapter kit specified in the ACT that is being used. For more information, refer to
MiSeq i100 Series Sequencing v2.0 Workflow
Protocol 1: MiSeq i100 Series Sequencing v2.0
Purpose:
This protocol models the lab processes of run setup for starting a MiSeq i100 Series sequencing and secondary analysis run.
Steps:
Validation Workflow
The Library Prep Validation v2.3.6 workflow allows for validation of the system after installation is complete. This workflow can be replaced by other custom library preparation workflows.
Configure a custom library preparation workflow as follows.
Select Configuration, then select Lab Work.
Add a Routing Script automation to the last Master Step of the library preparation workflow.
Select Configuration, then select Automation.
How the Integration Works
The following information summarizes how the MiSeq i100 Series integration works.
After the Validate Run Setup and Create Planned Run automation is triggered on the Load to Dry Cartridge (MiSeq i100 Series Sequencing v2.0) step, validation of the run and analysis configuration occurs. When the validation fails, Clarity LIMS displays an error message. Otherwise, a cloud-planned run is created and available on BaseSpace Sequence Hub. The v2 sample sheet is also generated.
The planned run contains the run and analysis configuration information required to start the run on the instrument. The sample sheet is generated and stored in Clarity LIMS for reference purposes.
In Cloud run mode, analysis is performed in Illumina Connected Analytics (ICA). In Hybrid run mode, analysis is performed on-premise.
If a planned run with the same sample name and project name (case-insensitive) has been created previously, the sample sheet generated from the Validate Run Setup and Create Planned Run automation can reflect the original case of the previous sample name. This can cause validation errors for analysis configurations with sample-level settings. To resolve this issue, change the sample name or the project name on Clarity LIMS and run the automation again.
Start a Sequencing Run on MiSeq i100 Series Instrument
The following sections outline the steps to start a Clarity LIMS cloud or hybrid run on the MiSeq i100 Series instrument.
Run Mode Configuration
In the MiSeq i100 Series Control Software, log in to the instrument using an account that has permissions for configuring settings.
On the menu, select Settings, then select Cloud settings.
Start a Planned Run (Cloud Run or Hybrid Run Modes)
Refer to information on .
Enabling Planned Run Generation for Samples Having Duplicate Name with Different Indexes
The library preparation workflow of the samples must be before routing the samples through the library preparation workflow.
Components Installed
The following sections describe the components (files, properties, reagent categories / label groups, reagent kits, and containers) that are installed by default as part of this integration.
Reagent Kits
MiSeq i100 Series Dry Cartridge
MiSeq i100 Series Library Denature (KLD)
MiSeq i100 Series Wet Cartridge
Container Types
MiSeq i100 Series Dry Cartridge
Tube
Rules and Constraints
The workflow configuration contains several validation checks. To make sure that the calculations work properly, it is important that you do not disable any of this validation logic. Refer to the individual validation checks for details.
For all submitted samples that require analysis, they must have an associated secondary analysis that is configured using the analysis configuration template (ACT). The ACT must be configured on BaseSpace Sequence Hub before starting the Assign Analysis Configuration Template step. The ACT names must be unique.
The dry cartridge barcode must be unique. There must not be multiple dry cartridges with the same name in the system.
.
The protocol contains a single step - Library Prep Validation v2.3.6. After this step, a routing script sends the samples to the first step of the MiSeq i100 Series Sequencing v2.0 workflow (Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v2.0)).
Steps:
Library Prep Validation v2.3.6
Assign Analysis Configuration Template (MiSeq i100 Series Sequencing v2.0)
The secondary analysis of samples is configured using the ACT.
The labels applied to the samples are validated against the selected ACT.
Make Bulk Pool (MiSeq i100 Series Sequencing v2.0)
The Calculate Volume script assists with pooling samples and adding resuspension buffers and reagents.
The Validate Analysis Configurations automation validates the ACT of pooled samples to make sure that the secondary analysis configurations remain valid after pooling.
Load To Dry Cartridge (MiSeq i100 Series Sequencing v2.0)
The library pool from step 2 is ready to be loaded to the MiSeq i100 Series dry cartridge.
Validates run and analysis configuration.
Generates the sample sheet and creates the planned run, depending on the run mode.
AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v2.0)
The step is fully automated and starts and completes automatically after the sequencing run is started and completed in BaseSpace Sequence Hub.
The sequencing run metadata (e.g., run configuration, primary run metrics, etc.) are recorded automatically.
AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v2.0)
The step is fully automated and starts and completes automatically after the analysis run is started and completed in ICA.
The analysis run metadata (e.g., status and demultiplexing stats file) are recorded automatically.
Create a new Routing Script automation and update it as follows.
For Channel Name, enter limsserver.
For Command Line, enter the following script:
For Automation Use, select the custom library preparation workflow.
When the integration is configured with BaseSpace Sequence Hub storage and monitoring, the integration tracks the sequencing and analysis events. You can view the analysis result files in BaseSpace Sequence Hub.
In Run Settings, select the Cloud run storage checkbox.
For Hosting location, select the applicable location from the drop-down options.
[Optional] For Private domain name, enter the domain name according to the workgroup that was configured with the MiSeq i100 Series integration package.
Select Save.
Resuspension Buffer (RSB)
Reagent labels, or indexes, must be unique in a single sequencing run.
Only one library pool can be added to be Load to Dry Cartridge step.
The AUTOMATED - Sequencing Run (MiSeq i100 Series Sequencing v2.0) and AUTOMATED - Analysis Run (MiSeq i100 Series Sequencing v2.0) steps must not be manually started or completed. These steps are fully automated and the sequencing service does not update samples correctly if they have been manually started.
For the automated run to start successfully, you must select Validate Run Setup and Create Planned Run in the Load to Dry Cartridge step. The Load to Dry Cartridge step must be completed and libraries must be queued to the AUTOMATED - Sequencing Run step.
