PySTDF is a Python module which makes it easy to work with STDF (Teradyne's Standard Test Data Format). STDF is a commonly-used file format in semiconductor tests. Automated test equipment (ATE) from such vendors as Teradyne, Verigy, LTX, Credence, and others supports this format. PySTDF provides event-based stream parsing of STDF version 4, indexers that help structure the data into a more useful tabular form, and the ability to generate missing summary records or new types of derivative records. The parser architecture is very flexible and can easily be extended to support STDF version 3 and custom record types.
Pyspice is an easily extendable SPICE pre-processor written in Python to reduce simulation times with little loss in accuracy. It was inspired by John Sheahan's spicepp and developed as a modular and extensible method of pre-processing netlists. Primarily, it has been used to reduce netlists from the output of layout extraction tools. It combines parallel MOSFETs and capacitors, and optionally drops small capacitors. Planned improvements include a hierarchical namespace (e.g. .subckt/.ends and .alter blocks), more devices, and .include/.model support. Unlike other pre-processors, comments and blank lines are preserved in their relative positions. This keeps the output netlist readable for subsequent editing or processing.
The QConsole class is a custom widget that implements a basic console, written in C++ and relying on Qt. It implements several features and is intended to be inherited from in order to have a "real" console for a specific scripting language, shell, etc. Example implementations for TCL and Python are included.
The Distributed Real-time Embedded Analysis Method (DREAM) is a tool and method for the real-time verification and performance estimation of distributed real-time embedded (DRE) systems. It focuses on the practical application of formal verification and timing analysis to real-time middleware.
LayoutEditor is an IC/MEMS layout editor. It features all angle elements, a font generator, macros, Boolean operations, drc, netlist-driven layout, LVS, and cross-platform compatibility. Supported formats include Calma GDSII, OASIS (Open Artwork System Interchange Standard), DXF, CIF (Caltech Intermediate Form), Gerber, DEF/LEF, and many others.
To allow for identification, resistors are usually marked with colored bands. Often referred to as color codes, these markings are indicative of their resistance, tolerance, and temperature coefficient. gResistror is a great program that will help you translate resistor color codes into a readable value. All you have to do is watch the colors on the resistor and then enter them in the program. As you enter, you'll see that the resistor value is changing according to the selected color.