Welcome
Using
1.
Getting Started
2.
Analyzing ldmx-sw Event Files
2.1.
Using Python (Efficiently)
2.2.
Using ldmx-sw Directly
3.
Running and Configuring fire
3.1.
Config File Basics
3.2.
Structure of Event Processors
3.3.
Drop Keep Rules
3.4.
Event Skimming
3.5.
Tips and Tricks
4.
Generating Simulation Samples
4.1.
Which SimParticles are saved?
4.2.
Configuring the Simulation
4.3.
Re-Simulation
4.4.
Alternative photo-nuclear models
5.
Dark Brem Signal Samples
5.1.
How to Run
5.2.
Legacy Instructions
6.
Batch Computing
Physics Guides
7.
Statistics and Calculations
7.1.
Averages
7.2.
Resolution
7.3.
Multi-Bin Exclusion with Combine
8.
ECal
8.1.
Layer Weights
Developing
9.
Getting Started
9.1.
Quick Switch to denv and just
10.
Building and Installing ldmx-sw
10.1.
Shared Computing Clusting
10.2.
Updating ldmx-sw
11.
Framework Structure
12.
Transition to ldmx-sw v4
13.
Tracking Performance of ldmx-sw
14.
Container-Software Compatibility
15.
Contributing
15.1.
PRs in ldmx-sw
15.2.
Coding rules
15.3.
Unit Testing
16.
Logging
17.
Container-less Building (not recommended)
18.
Creating a new Event Bus Object
19.
Creating your own production image
20.
What the F.A.Q.?
21.
Why this workflow?
Reference
22.
C++ Doxygen Manual
23.
Python Config Manual
24.
Development Image Manual
Light
Rust
Coal
Navy
Ayu
LDMX Software
ECal
Software-related physics topics for the LDMX Electromagnetic Calorimeter (ECal).