This post provides essential commands for navigating directories on Ubuntu/Linux, making directory navigation easier. The post includes commands for searching for specific patterns within files, filtering by file type, and excluding certain directories. Each command is accompanied by a brief explanation and example. This valuable resource can greatly enhance your Linux command line skills.
Read More FIND AND GREPThe ‘ps’ command in Linux shows information about active processes. Options include displaying processes for the current shell, showing all processes on the system, providing full or long-format listings, showing processes not attached to a terminal, displaying all threads for a process, allowing custom formatting, sorting the output, and more. For further details, type ‘man ps’ on bash.
Read More ps – ?This article by Yashwanth Naidu Tikkisetty provides a comprehensive list of gdb commands for debugging. It covers functions like info, set, watch, stepi, disassemble, and more, essential for efficient debugging in embedded systems. The post also emphasizes the importance of inspecting memory maps and displaying directory paths. For more details, visit the LinkedIn post.
Read More GDB COMMANDSIn embedded systems, optimizing code size is critical. Including only necessary function declarations can reduce memory usage and improve build times. However, this approach may impact code readability, portability, and error risk. Striking a balance and prioritizing clear documentation is key for successful implementation in resource-limited environments.
Read More πΊππππππππ ππππππππ π«ππππππππππ ππππ ππππ ππππ ππ ππππππππππThe gcc commands cover optimizations, profiling, security, and low-level operations, essential for embedded systems and performance-critical applications. Techniques include Link-Time Optimizations, dependency file generation, controlling inline functions, architecture-specific optimizations, and static analysis. These techniques prioritize efficient, secure, and compact code in memory-constrained embedded systems.
Read More GCC – ?The Therac-25 incident serves as a stark reminder of the ethical and technical responsibilities in embedded engineering. This state-of-the-art medical device’s software race condition led to catastrophic consequences, emphasizing engineers’ duty to design with care and respect for end users. It highlights the profound impact of engineering work on real people and urges a cautious, responsible approach.
Read More π»πππππ ππ – π΄π¨π³ππΌπ΅πͺπ»π°πΆπ΅ ππThis post demonstrates a deadlock scenario using two FIFOs and a client-server model. The deadlock occurs when both the server and client wait for each other to send a message, resulting in a standstill. The article also outlines steps to avoid deadlock by following a specific sequence of actions.
Read More π«πππ ππππ πππππ ππππNamed pipes, also known as FIFOs, are essential in inter-process communication. They embody the “First In, First Out” concept, serving as intermediaries between processes. Positioned within the file system, they enable seamless communication and offer persistence and flexibility. Understanding named pipes is key to fully appreciate Linux’s capabilities and empower your programming endeavors.
Read More πΎπππ ππ π ππ°ππΆ?Unix Pipes allow one-way communication, but Duplex Communication enables two processes to chat back and forth simultaneously. Using two pipes, data can flow both ways between parent and child processes. By coordinating the reading and writing ends, full duplex communication is achieved, despite not guaranteeing simultaneous data exchange.
Read More π¬ππππππππ πππ π»ππ-πΎππ πΊππππππ ππ π³ππππ: π«πππππ πͺππππππππππππ ππππ π·ππππ π£οΈUnix Pipes are the OGs of Inter-Process Communication on Unix systems. They facilitate seamless data flow between processes, like family messengers connecting parent and child processes. Operating like a one-lane road, they ensure a one-way data flow with a capacity limit. With simple functions, they enable sharing of notes between processes.
Read More π«πππππ ππππ πΌπππ π·ππππ: π¨ πππ π±ππππππ π