Design, development, and maintenance of gateways that provide connectivity to various exchanges in EU and US:

• BrokerTec US Treasury [1]
  (Project Lead);
• Xontro FIX Trading Interface [2]
  (Project Lead);
• Xitaro (Börse Stuttgart) FIX Trading Interface [3]
  (Project Lead);
• BrokerTec EU Repo [4] and Government Bonds [5]
  (Developer);
• Major upgrade of infrastructure and EU gateways for the MiFID II support [6]
  (Developer);
• Xetra T7 Enhanced Trading Interface (ETI) Release 5.0 [7]
  (Project Lead);
• Major upgrade to resiliency and deployment flexibility of the whole internal market data connectivity infrastructure
  (Top Contributor; in cooperation with the US office);
• Eurex T7 Enhanced Trading Interface (ETI) Release 4.0 [8]
  (Major Developer);
• Bats/Chi-X Europe FIX Trading Interface [9]
  (Developer);
• In-house Generic Protocol Generator
  (Contributor);
• In-house Exchange Gateway SDK
  (Contributor);
• In-house FIX Engine
  (Contributor).

Precise Code Interaction Coupling Environment (preCICE) [1, 2]

Advanced Scientific Computing Development Toolkit (ASCoDT) [1, 2]

Comprehensive System for Management of Educational and Administrative Activities of University

GPA: 1.6 (passed with merit)
Thesis: A Fully Parallel Process-to-Process Intercommunication Technique for preCICE [1, 2, 3, 4]

The goal of my Master’s thesis at TUM [3, 4] was design, development, and verification of a fully parallel distributed intercommunication technique between the processes of coupled intraparallel (MPI) multiphysics solvers that focuses on performance and transparently supports both, the TCP/IP (through Boost.Asio) and the MPI, network communication standards on the Europe’s fastest supercomputer, SuperMUC [5].

GPA: 4.95 (passed with first-class honors)
Thesis: The Lattice Boltzmann Method for Parallel Hydrodynamic Simulation and Visualization [1, 2]

GPA: 4.97 (passed with first-class honors)
Thesis: Subsystem for Compilation and 3D Visualization of Terrain

Advanced audit script for security hardening features in ELF binaries.

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C++98-compatible, RTTI-free, safe, portable, and header-only API to access arbitrary private function and object members of classes along with compile-time introspection of class members now a reality!

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A flexible cross-platform C++11 framework to manage external programs (processes) that is an alternative to Java's java.lang.Runtime and java.lang.Process, .NET's System.Diagnostics.Process, and Python's subprocess.

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C++11-compatible, RTTI-free, safe, portable, generic, and header-only implementation of the Compiler Firewall Idiom (also known as Pointer to Implementation Idiom or Cheshire Cat) with out-of-the-box support for the C++11 smart pointers (std::shared_ptr and std::unique_ptr) and the Boost smart pointers (boost::shared_ptr and boost::movelib::unique_ptr).

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State of the art Git hooks implemented as highly portable POSIX-compliant shell scripts.

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Implementation of the 3D Lattice Boltzmann method (LBM), a popular class of computational fluid dynamics (CFD) methods for fluid simulation.

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I like to keep the basic system stuff in order: Arch Linux FTW or GTFO!

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A set of robust (even paths containing spaces are fully supported) and configurable Make scripts which constitute a convenient front end to tedious project management manipulations over CMake, Git, Python Virtual Environment, and more.

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Highly configurable and feature-rich CMake framework that simplifies organization and maintenance of new C/C++ projects and provides out-of-the-box integration with popular development tools, e.g. Clang-Format, Clang-Tidy, Include What You Use, Valgrind, etc.

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A simple CLI tool to automate tedious tasks of HDD partitioning, backup, and deployment that allows for easy one-to-one migration of Arch Linux installation across different hardware.

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C++ data binding implementation for Qt inspired by Eclipse.

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This paper examines numerical solution of the one-dimensional shallow water equations using the flux-based wave decomposition approach. Furthermore, the bathymetry treatment is also covered in details as it is shown how to seamlessly incorporate the source term using this approach. The efficiency of this approach is verified with an open-source implementation which supplements this paper. The theory leading to the development of this approach is addressed briefly as well, but there is extensive referencing to the relevant sources with more information. Finally, the comparison with classical methods such as Roe linearization is included.

NOTE
This paper is supplemented with presentation [1].

Precise Code Interaction Coupling Environment (preCICE) [1, 2] is a modern code coupling library for partitioned simulations of multiphysics scenarios that was initially developed by Bernhard Gatzhammer at the Technische Universität München (TUM). It is already successfully used to couple and drive (partitioned) simulations of fluid–fluid interaction (FFI), fluid–structure interaction (FSI), and some other scenarios.

The goal of this work was design, development, and verification of a fully parallel distributed intercommunication technique between the processes of coupled intraparallel (MPI) multiphysics solvers that focuses on performance and transparently supports both, the TCP/IP (through Boost.Asio) and the MPI, network communication standards. The ideal strong scaling performance achievements have been verified and confirmed at least up to 32768 processes overall by profiling various scalability benchmarks and application scenarios on the Europe’s fastest supercomputer, SuperMUC [3].

A flexible cross-platform C++11 framework to manage external programs (processes) that is an alternative to Java's java.lang.Runtime and java.lang.Process, .NET's System.Diagnostics.Process, and Python's subprocess.

Author Maintainer

C++11-compatible, RTTI-free, safe, portable, generic, and header-only implementation of the Compiler Firewall Idiom (also known as Pointer to Implementation Idiom or Cheshire Cat) with out-of-the-box support for the C++11 smart pointers (std::shared_ptr and std::unique_ptr) and the Boost smart pointers (boost::shared_ptr and boost::movelib::unique_ptr).

Author Maintainer

C++98-compatible, RTTI-free, safe, portable, and header-only API to access arbitrary private function and object members of classes along with compile-time introspection of class members now a reality!

Author Maintainer

This project is an open-source implementation of the 3D Lattice Boltzmann method (LBM), a popular class of computational fluid dynamics (CFD) methods for fluid simulation. The implementation takes advantage of OpenGL to provide high-quality hardware-accelerated visualization and OpenCL to perform heavy computations associated with the method on graphics processing unit (GPU). Although, the algorithm of LBM has many variations, in general it inherently possesses very good parallelization properties which fit into the computational model offered by OpenCL specification very well. This project aims to exploit these properties in order to achieve real-time in both visualization and computation aspects.

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