#System Engineering Concepts

Top 12 System Design Concepts Every Software Engineer Should Know 🚀 If you want to design scalable, reliable systems or crack backend/system design interviews, you must understand these core concepts: • Load Balancing • Caching • API Gateway • Service Discovery • Rate Limiting • Auto Scaling • CDN (Content Delivery Network) • Message Queue • Circuit Breaker Pattern • Database Sharding • Consistent Hashing • Publish–Subscribe Pattern These concepts power real-world systems used by companies like Netflix, Uber, Amazon, and Google. Understanding them will help you build high-performance distributed systems. 💾 Save this post for your System Design learning journey. 👇 Comment “SYSTEM” and I’ll share a complete System Design learning roadmap. #systemdesign #backenddeveloper #softwareengineering #java #springboot

New series!! Lmk what y’all think #technology #engineering #arduinoproject

Comment “sys” For A FULL GUIDE If you’re preparing for cloud or backend job interviews, these concepts show up again and again; not as theory, but as how you think at scale. From API design and rate limiting, to message queues that handle traffic spikes, and finally how microservices talk to each other without breaking everything, this is the backbone of modern systems. If you understand why these exist and when to use them, you’re already ahead of most candidates. What should I break down next in detail? Let me know in the comments! . . [system design interview, cloud interview prep, backend system design, microservices architecture, caching strategies, database scaling, rest api, what is api, cloud engineering concepts, bytebytego system design, system design case studies, backend interview, interview questions, system design for job interview, lld, hld, devops, cloud tutorial, women in tech, system design for faang]

Comment "SYSTEM" to get links! 🚀 Want to learn system design in a way that actually sticks? This quick roadmap takes you from beginner concepts to real world architecture thinking for interviews and building scalable apps. 🎓 Microservices K8s Start here if you want the big picture of modern backend architecture. You will learn what microservices are, how services communicate, and how Kubernetes fits into deployment and scaling. Great for understanding real production patterns like service discovery, config, observability, and reliability basics. 📘 8 SysDesign Concepts Now build your fundamentals fast. This one helps you understand the core system design ideas companies expect you to know, like scalability, latency, throughput, caching, databases, consistency, queues, and load balancing. Perfect for forming a strong mental model before diving into case studies. 💻 SysDesign Beginner Time to connect everything with beginner friendly explanations. You will learn how to approach system design problems, how to think in components, and how to reason about tradeoffs like SQL vs NoSQL, cache vs database, sync vs async, and monolith vs microservices. 💡 With these system design resources you will: Learn how to break down any system design interview question Understand microservices, APIs, caching, queues, and scaling strategies Build real architecture intuition to design reliable backend systems If you are serious about backend engineering, software architecture, or system design interviews, this roadmap will save you months. 📌 Save this post so you do not lose the roadmap. 💬 Comment "SYSTEM" and I will send you all the links. 👉 Follow for more content on system design, microservices, and backend engineering.

A little structural engineering lesson! Jettying is where upper level walls are shifted out beyond the area of the floor below. Beams supporting these walls have to be cantilevered out past the lower level walls. When a structure utilizes jettying - a negative bending moment is created which causes the beam to bend upwards. The positive bending moment from regular floor load is counteracted by the negative moment from the wall supported at the end of the cantilever. This can drastically reduce the depth of beams needed for floor framing! (Yes I know this is technically not a propped cantilever - it’s more like a cantilever with a back span!) #lego #structuralengineering #brickgineer

System Design is boring until.. 1. Engineering Digest 2. Gaurav Sen #coding #programming #developer #tech #systemdesign

Full wave rectifier #physics #jee #neet #ncert #physics12 #semiconductor #doctor #engineering #instagram #animation

How American Engineers Stop Bridges From Rotating Under Eccentric Loads 🌉🤯 #bridge #engineering #architecture #3danimation #fyp

Did you know you can build a drum sequencer with just a shift register, a diode, a button, and one resistor? By routing the chip’s last output back into its input, it can record rhythms and play them back. No microcontroller, no code necessary. It’s the foundation for our DIY Drum Sequencer kit, which takes the idea further with step deletion, dynamic accents, and even melodic patterns. Check out the full breakdown on YouTube – or grab the kit and build the circuit yourself.
.
.
. #synthdiy #diysynth #electricalengineering #electronics #synthesizers #modular #ericasynths

Participants design earthquake-resistant buildings and test them against simulated seismic forces to determine which structures can truly endure. The goal is to drive innovation in earthquake-proof design, where every tremor becomes a lesson in resilience and precision. The model shown here is tested on an RTDG shake table, a device that replicates real earthquake movements. Widely used in civil engineering labs, these tables help students and professionals evaluate how well structures can withstand seismic shocks. Follow @aidisruptor for the latest in AI and tech innovation. Credit: Dasktürkiye on YT

@cad_designer_mk #solidworks #engineering #mechanical #caddesign #tranding

Control systems run everything from thermostats to rockets. Stan explains the difference between open and closed loop systems and why feedback makes machines smart. #MechanicalStan #StanExplains #ControlSystems #FeedbackLoop #OpenLoop #ClosedLoop #PIDController #EngineeringBasics #AutomationEngineering #AskStan #STEMContent #SystemDynamics