CV

My CV, available as both PDF and as this webpage. Simply click the pdf icon to download it.

Basics

Name Siddharth Sule
Label PhD Student, Particle Physics
Email siddharthsule@outlook.com
Url https://siddharthsule.com
Summary PhD Student in Particle Physics at the University of Manchester. Working on simulation software for particle collisions at the Large Hadron Collider using Monte Carlo Methods, called Herwig. Specialising in NLL-accurate parton showers and event generation on GPUs using CUDA.

Education

  • 2022.09 - Present

    Manchester, United Kingdom

    PhD
    The University of Manchester
    Particle Physics
  • 2018.09 - 2022.06

    Manchester, United Kingdom

    MPhys (Hons)
    The University of Manchester
    Physics
    • Quantum Field Theory and the Standard Model
    • Genereal Relativity and Cosmology
    • Advanced Statistical Physics
    • Computational Physics

Publications

  • 2024.03.12
    An Algorithm to Parallelise Parton Showers on a GPU
    SciPost Physics Codebases
    The Single Instruction, Multiple Thread (SIMT) paradigm of GPU programming does not support the branching nature of a parton shower algorithm by definition. However, modern GPUs are designed to schedule threads with diverging processes independently, allowing them to handle such branches. With regular thread synchronisation and careful treatment of the individual steps, one can simulate a parton shower on a GPU. We present a Sudakov veto algorithm designed to simulate parton branching on multiple events in parallel. We also release a CUDA C++ program that generates matrix elements, showers partons and computes jet rates and event shapes for LEP at 91.2 GeV on a GPU. To benchmark its performance, we also provide a near-identical C++ program designed to simulate events serially on a CPU. While the consequences of branching are not absent, we demonstrate that a GPU can provide the throughput of a many-core CPU. As an example, we show that the time taken to shower 10^6 events on one NVIDIA TESLA V100 GPU is equivalent to that of 295 Intel Xeon E5-2620 CPU cores.

Skills

Particle Physics, Collider Phenomenology
Monte Carlo Techniques
Object Oriented Programming
C++, CUDA, Python
Data Analysis
Project Leadership
Communication

Languages

English
Fluent
Hindi
Native
Marathi
Native

Interests

Physics
Precision QCD Physics
GPUs and Parallel Computing

References

Professor Michael H. Seymour
Famous for generalised NLO-QCD calculations, Parton Showers, Super-Leading Logarithms, and Monte Carlo Event Generators. PhD Supervisor.