openSCADA is a Supervisory Control And Data Acquisition System. It is platform independent and based on a modern system design that provides security and flexibility at the same time. It is flexible. It is not an out of the box solution, but a set of tools that can be combined in many different ways. It provides development libraries, interface applications, mass configuration tools, and front-end and back-end applications. It is used 24/7 in several installations around this world. Support is available from IBH SYSTEMS GmbH.
J7Z is an alternative 7-Zip GUI. 7-Zip is a high-compression file archiver designed by Igor Pavlov. Use J7Z if you want to: update existing archives quickly; backup multiple folders to a storage location; create or extract protected archives; and lessen effort by using archiving profiles and lists.
Project Utgard is a sub-project of the openSCADA project. It's focused on creating a completely Java and open source OPC interface for the openSCADA project. In order to create clean interfaces between both worlds, a separate project was created which only covers OPC specific functionality which can also be used outside openSCADA to create OPC software.
radare2 aims to create a complete, portable, multi-architecture, Unix-like toolchain for reverse engineering. It is composed of a hexadecimal editor (radare) with a wrapped I/O layer supporting multiple backends for local/remote files, debugger (OS X, BSD, Linux, W32), stream analyzer, assembler/disassembler (rasm) for x86, ARM, PPC, m68k, Java, MSIL, and SPARC, code analysis modules, and scripting facilities. It also has a bindiffer named radiff, base converter (rax), a shellcode development helper (rasc), a binary information extractor supporting PE, Mach0, ELF, class, etc. named rabin, and a block-based hash utility called rahash. Radare was rewritten as radare2, and the old version is only maintained for bugfixes.
MetricsAnalytics is a Sonar plugin that analyzes the Total Quality related to your Java code. Using this plugin you can visualize your Java code from different points of view: Architecture Quality (normalized distance from main sequence, cycle number, etc.); Design Quality (CBO, DIT, NOC, RFC, etc.); Code Quality (comment, duplicated line, complexity cyclomatic, etc.); Test Quality (code coverage, test failed number, etc.); and Total Quality. MetricsAnalytics helps you to re-factorize your code and check your test coverage. It improves the maintainability, reliability, and efficiency of your project in running time. It tries to unify the concepts of XRadar in the Sonar World with some adaptations to get the Total Quality Indicator. It adds new domains and metrics in Sonar and an extension point in the dashboard: the "Design" domain with the class metrics of Ckjm, and the "Architecture" domain with the package metrics of JDepend.
RiskMNGT is a Redmine plugin that allows you to manage risks and incidents in your projects. You can define a risk or incident from its description, type, impact, probability, exposure level, owner, mitigation strategy, and contingency strategy. You can control the traceability between your risks and new requests for change, tasks and your code. In conjunction with the RequMNGT Redmine requirement management plugin, you could relate the risks to the different artifacts of your software project: feature, requirement, use case, classes, test case, etc. A database of risks and incidents can be defined for reusing best practice mitigation strategies.
The Tinyserial library is a space-saving alternative to the Arduino software distribution's libraries for reading and writing characters and strings to the USART0 serial port on the Atmel ATmega168 and ATmega328p MCUs found on Arduino Diecimilla and Duemilanove boards. While the Arduino software distribution's libraries provide interrupt-driven serial I/O with far more features and support more MCUs, the Tinyserial library provides only the most basic polling-based serial I/O. However, the Tinyserial library uses far less Flash and SRAM, thereby giving you room to implement larger and more complicated applications on your boards. The Tinyserial library respects the GNU libc ABI, so you can call into it from C and C++ programs.
ContiPerf is a lightweight testing utility to easily leverage JUnit 4 test cases as performance tests, e.g. for continuous performance testing. It is inspired by JUnit 4's easy test configuration with annotations, and by JUnitPerf's idea of wrapping Unit tests for performance testing, but is more powerful and easier to use. It uses Java annotations for defining test execution characteristics and performance requirements. You can mark a test to run a certain number of times, or to be repeatedly executed for a certain amount of time. Performance requirements can be maximum, average, medium, or any percentile execution time. You can run tests in two different modes, using them as simple unit tests or performance tests. Easy integration with Eclipse and Maven. Export of an execution summary to a CSV file. A small library without external dependencies (only JUnit).