Embedded Systems Course For Beginners

Embedded systems have permeated nearly every aspect of modern technology. From the smartphones we use to the cars we drive, embedded systems are responsible for powering many of the devices we rely on daily. If you're looking to gain an understanding of embedded course in Bangalore and how to work with them, you might want to consider taking a beginner's course at the Indian Institute of Embedded Systems (IIES).

Introduction

Embedded systems are integrated computer systems designed to perform specific tasks without human intervention. They are widely used in industries such as automotive, healthcare, home automation, and more, and are becoming increasingly popular as the Internet of Things (IoT) continues to grow. A beginner's course at IIES is an excellent way to get started with embedded systems and learn about the fundamental concepts, tools, and techniques used in the industry.

Why Take a Beginner's Course on Embedded Systems?

Taking a beginner's course on embedded systems has several benefits, including:

Understanding the Fundamentals

A beginner's course at IIES can help you understand the foundational concepts of embedded systems, including hardware and software components, communication protocols, and programming languages commonly used in the industry.

Developing Practical Skills

The course is designed to provide a hands-on approach to learning, allowing you to work with real-world hardware and software platforms, including the Arduino and Raspberry Pi. This practical experience will give you the confidence and skills you need to build embedded systems on your own.

Career Opportunities

As the use of embedded systems continues to grow, so does the demand for professionals in the field. Completing a beginner's course at IIES can open the door to a wide range of career opportunities, including embedded system engineer, IoT developer, and more.

Course Curriculum

The beginner's course offered at IIES covers a comprehensive range of topics, including:

Introduction to Embedded Systems

This section provides a comprehensive overview of embedded systems. It covers the basics of hardware and software components, communication protocols, and programming languages.

Microcontrollers and Microprocessors

Learn about the various microcontrollers and microprocessors used in the industry, including AVR, ARM, and PIC microcontrollers.

Programming Languages

Gain an understanding of the programming languages used in embedded systems development, including C and Python in embedded system.

Real-time Operating Systems

This section covers the basics of real-time operating systems, including scheduling algorithms, task management, and inter-task communication.

Hardware Interfacing and Peripheral Control

Learn how to interface with various hardware components, such as sensors, motors, and displays, and control them using programming languages and microcontrollers.

Projects and Workshops

The course offers several practical workshops and projects that allow students to work with real-world projects and gain hands-on experience.

Indian Institute of Embedded Systems (IIES)

IIES is one of the most reputed institutes for embedded systems training in India. The institute offers a wide range of certificate and diploma programs in embedded systems, including the beginner's course mentioned above.

Expert Trainers

IIES has a team of experienced trainers who are experts in their field. They provide practical training sessions, enabling students to gain skills that are relevant to industry standards.

Industry Partnerships

Keeping up with the current industry trends is essential to gaining expertise in a field; IIES has partnered with various companies such as Altair, Tiempo Labs, and many more reputed firms. This collaboration helps to keep the students updated about industry trends and expectations.

Advanced Facilities

IIES has cutting-edge infrastructure and world-class facilities, providing students with access to the latest hardware and software technologies and practical hands-on learning experiences.

Course Duration and Cost

The beginner's course offered by IIES is of 3 months' duration and offers flexible batch timings. The fee structure is reasonable and affordable, making it accessible to anyone interested in learning about embedded systems.

Conclusion

A beginner's course on embedded systems offered by IIES can be an excellent way to learn about this fascinating field. The program provides a comprehensive overview of embedded system concepts, tools, and techniques while also offering practical hands-on learning experiences. Completing the course can be a great career opportunity in a field where the demand for professionals continues to grow. And with IIES's expert trainers and state-of-the-art facilities, you can be confident that you're learning from the best. So, enroll today and start your journey into the exciting world of embedded systems!

i've gotta program something soon...

Why Choose Voler Systems for Your Next Electronics Product Design?

Voler Systems specializes in electronic product design that’s tailored to each client’s unique needs, from medical devices to IoT and wearable tech. Their expert engineers focus on bringing both creative vision and practical functionality to every project. By balancing cutting-edge design with manufacturability, they reduce production costs, minimize revisions, and help clients get their products to market faster and more efficiently.

Embedded Systems Software Engineering Course

Embedded systems are at the heart of modern technology, powering devices ranging from smartphones to industrial machines. If you're a BE or B. Tech students looking to master this fascinating field, an Embedded Systems Software Engineering Course is the perfect choice. This course equips you with the knowledge and practical skills to design, develop, and deploy embedded software solutions.

Training in embedded systems focuses on the integration of hardware and software to create efficient, reliable systems. In locations such as Noida, Texas, Cambridge, Chicago, Sydney, Perth, Tampa, Brisbane, Melbourne, New York, Quebec, British Columbia, Ontario, Calgary, Alberta, and Yorkshire, these courses are tailored to meet the needs of students and professionals aiming to excel in embedded software development.

What You’ll Learn:

Basics of embedded systems architecture.

Programming with C and C++ for microcontrollers.

Real-time operating systems (RTOS) and their applications.

Debugging, testing, and deploying embedded software.

Hands-on experience with project development.

Practical Project Training

The best way to learn embedded software is through hands-on practice. Courses include real-world projects like developing IoT devices, robotics systems, and automotive controls. These projects give you a deep understanding of embedded systems and boost your confidence to work on advanced applications.

Global Opportunities

Embedded systems professionals are in demand worldwide. Whether you're in Cambridge, Chicago, or Sydney, training in this field opens doors to exciting job roles in industries like automotive, healthcare, and consumer electronics.

Embark on your journey in embedded systems software engineering today, and pave the way for a rewarding career in cutting-edge technology!

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The Best IEEE Projects on Embedded Systems for Final Year Projects

Welcome to Takeoff Projects, where you can find entry-level projects in the IEEE Projects on Embedded Systems. Takeoff Projects is a company that focuses on creating innovative technologies for embedded systems, dealing with different fields. Our team of pros is passionate about providing customized, Detailed projects that can meet your specific requirements, and beyond. Let's be partners in embedded systems development like Takeoff Projects.

We have a dedicated group of embedded systems engineers and developers in our team. They are enthusiastic about challenging embedded systems technology. Your target may range from developing a smart healthcare monitoring device to an efficient industrial automation system or top-of-the-line IoT device. We have the skills to take your creativity and drive it into reality.

Our company is unique since we are devoted to delivering top-notch performance and keeping our clients satisfied. We engage actively with our clients to help understand their particular demands and targets while ensuring that in every project we do we have it customized to their tastes. From our original concept design to the final product deployment, we will keep clear communications and transparency all along the way.

Working together with Takeoff Projects, you can rest assured that you will be provided with unique quality and the best reliability. There is no cutting of corners in our practice. We integrate the best practices that combine the newest tools and technological solutions to achieve outstanding outcomes. Satisfying our clients that we have a great reputation among our prior customers is evidenced by successful projects we have managed in different sectors.

Conclusion:

Select Takeoff Projects for the best IEEE Projects on Embedded Systems. Then do not hesitate to contact us for the new handy embedded systems projects. Trust us with your innovation journey and see the two soaring to success. Together with us, we will shape the future of the embedded systems technology. Team up with Takeoff Projects and lead your organization through the ever-changing systems development environment.

IoT Development; A Complete Guide, on Bringing Devices from Idea to Implementation

In todays paced tech world, the Internet of Things (IoT) has emerged as a game changer transforming the way we engage with our environment. At Blockverse Infotech Solutions we recognize the power of devices providing customized solutions to bring ideas to life and seamlessly integrate them into the digital realm.

The Internet of Things (IoT) has evolved from a buzzword to an aspect of contemporary technology influencing various facets of our everyday routines. From homes and wearable gadgets to automation and healthcare systems IoT enables us to connect and empower ourselves like never before. However transitioning from conceptualization to implementation of solutions can be overwhelming without guidance.

Conceptualization marks the phase, in IoT development. It entails identifying the problem or opportunity that can be addressed through technology and envisioning how interconnected devices can improve efficiency, convenience or safety. At Blockverse Infotech Solutions we work closely with clients to brainstorm ideas grasp their needs and devise IoT solutions tailored specifically for them.

Once the concept is solidified, the development phase begins. This involves designing and prototyping IoT devices, selecting appropriate sensors and connectivity protocols, and developing the software infrastructure to collect, analyze, and act upon data generated by the devices. Our team of skilled developers and engineers at Blockverse Infotech Solutions leverages cutting-edge technologies to build robust and scalable IoT solutions that meet the highest standards of performance and reliability.

Testing and validation are integral parts of the development process, ensuring that IoT devices function as intended and deliver the desired outcomes. Through rigorous testing procedures and simulation environments, we identify and rectify any issues or vulnerabilities, ensuring that the deployed IoT solutions operate seamlessly in real-world scenarios.

Deployment marks the culmination of the IoT development journey, as the solutions are implemented and integrated into existing systems or environments. From device provisioning and network configuration to data management and security protocols, our experts at Blockverse Infotech Solutions handle every aspect of the deployment process with precision and care, ensuring a smooth transition from development to operation.

Post-deployment support and maintenance are essential for ensuring the long-term success and sustainability of IoT solutions. At Blockverse Infotech Solutions, we offer comprehensive support services, including monitoring, troubleshooting, and software updates, to keep IoT devices running smoothly and efficiently.

In conclusion, navigating the complex landscape of IoT development requires expertise, innovation, and a comprehensive understanding of the technology. With Blockverse Infotech Solutions providing tailored solutions for IoT devices, businesses and organizations can embark on their IoT journey with confidence, knowing that they have a trusted partner to guide them from concept to deployment and beyond.

HC-05 Bluetooth Module: A Comprehensive Guide

The HC-05 Bluetooth module is a widely used and versatile wireless communication module that enables Bluetooth connectivity in electronic projects. Manufactured by various suppliers, this module is popular among hobbyists, engineers, and developers for its ease of use, cost-effectiveness, and compatibility with microcontrollers like Arduino.

Below are some key features and details about the HC-05 Bluetooth module:

Key Features HC-05 Bluetooth Module:

Bluetooth Standard:

The HC-05 Bluetooth module operates on Bluetooth version 2.0 + EDR (Enhanced Data Rate), supporting reliable and efficient wireless communication.

Operating Modes:

The module can operate in both Master and Slave modes. In Slave mode, it can pair with other Bluetooth devices, while in Master mode, it can initiate connections.

Communication Range:

The HC-05 is classified as a Class 2 Bluetooth device, providing a communication range of approximately 10 meters (33 feet). This makes it suitable for short to medium-range applications.

Serial Communication:

It communicates with other devices using a serial communication interface, making it compatible with microcontrollers like Arduino. The module typically supports standard baud rates like 9600 bps.

AT Command Configuration:

The HC-05 Bluetooth module can be configured using AT commands, allowing users to customize various parameters such as the device name, pairing code, and operating mode.

Voltage Compatibility:

The module operates within a voltage range of 3.6V to 6V, making it compatible with a variety of power sources.

Security Features:

The HC-05 supports basic security features, including the ability to set a PIN code for pairing and configuring security modes.

LED Indicator:

Many HC-05 modules have an onboard LED indicator that provides visual feedback on the pairing status and communication activity.

HC-05 Bluetooth Module Pinout Configuration

HC-05 Bluetooth module stands out as a compact marvel, bridging the gap between traditional wired connections and the boundless realm of wireless communication. If you’re venturing into the exciting domain of IoT projects, robotics, or any application where wireless connectivity is paramount, understanding the HC-05 Bluetooth module pinout configuration is essential.

Read More: HC-05 Bluetooth Module

Revolutionizing Everyday Life: Examples of Practical Embedded System Projects

Embedded systems are an essential part of our daily lives, although many may not realize it. These systems are small, specialized computers that are designed to perform specific tasks and are integrated into larger devices. They can be found in everything from household appliances to cars, and their impact on our daily lives is immense. With the advancement of technology, embedded systems have become smarter and more efficient, revolutionizing the way we live and work.

Here are some practical examples of embedded system projects that have transformed our everyday lives:

1. Smart Home Automation Systems: The concept of a smart home has been around for some time, but with the help of embedded systems, it has become a reality for many people. These systems are designed to control and monitor various aspects of a home, such as lighting, temperature, security, and entertainment systems. They use sensors and actuators to collect data and make decisions based on that data, making our homes more energy-efficient, secure, and convenient.

2. Wearable Health Monitoring Devices: With the rise of health-conscious individuals, wearable devices have become increasingly popular. These devices use embedded systems to track and monitor various health parameters, such as heart rate, sleep patterns, and physical activity. They provide real-time data to users, allowing them to make informed decisions about their health and well-being. These devices have revolutionized the way we approach healthcare, making it more personalized and accessible.

3. Automotive Systems: Embedded systems have been a game-changer in the automotive industry. From advanced driver assistance systems (ADAS) to in-vehicle infotainment systems, these systems have transformed the driving experience. ADAS uses sensors, cameras, and algorithms to assist drivers in tasks such as parking, lane departure warning, and collision avoidance. In-vehicle infotainment systems provide entertainment, navigation, and communication features, making our journeys more comfortable and enjoyable.

4. Smart Energy Management Systems: With the growing concern over energy conservation, embedded systems have played a crucial role in developing smart energy management systems. These systems use sensors and actuators to collect data on energy usage and optimize it based on user preferences. They can control lighting, heating, and cooling systems, and even monitor energy consumption of individual appliances. This not only reduces energy bills but also helps in reducing our carbon footprint.

5. Industrial Automation: Embedded systems have been instrumental in revolutionizing the manufacturing industry. They are used in industrial automation to control and monitor various processes, such as assembly lines, quality control, and inventory management. These systems can operate 24/7, improving efficiency, reducing errors, and increasing productivity. They also make it possible for industries to adopt new technologies, such as the Internet of Things (IoT), for better data collection and analysis.

6. Smart Traffic Management Systems: With the increase in urbanization, traffic management has become a significant issue in many cities. Embedded systems have been used to develop smart traffic management systems that use sensors and cameras to collect real-time data on traffic flow. This data is then analyzed to optimize traffic signals and reduce congestion. These systems can also provide real-time information to drivers, such as alternative routes and estimated travel times, improving the overall traffic experience.

In conclusion, embedded systems have transformed our everyday lives in ways we could not have imagined. These systems have made our homes smarter, our cars safer, and our cities more efficient. They have also opened up new possibilities for industries, leading to increased productivity and innovation. With the continued advancement of technology, we can expect to see more innovative embedded system projects that will further revolutionize our lives.

Uh hard disagree with this. Medical Student Damian Wayne would be so fucking fascinating to explore (based on his character archetype, growth and also his unusual skillset), followed by Doctor Damian Wayne (ER doc/trauma surgeon is where my money's at):

Firstly, Damian balancing the corruption of Gotham and navigating the system of medical care and the evilness/cruelties embedded and going after those is fascinating. He could solve medical cases in a House MD style fashion (without the pills) AND find organ thieves or provide evidence for serial killers to the Batfam.

Secondly, the comics themselves would be a great exploration of whether this means the Gotham Project ultimately fails to make meaningful change and whether Thomas and Leslie's less violent and community-focused treatment was a better strategy.

Thirdly, a discussion about personal freedom in the face of "destiny" and obligations to vigilantism, and also the conflict of whether Damian would want to return or not, especially because this life is all he's known.

Fourthly, I want to see Dami struggle with obeying laws that violate moral principles and balance his own way of doing things with a team he's forced to operate alongside.

GeeekPi Raspberry Pi Micro GPIO Terminal Block Breakout Board Module with LED

Questo e un terminale per GPIO dotato di morsetti a vite e led compatibile con la maggior parte dei Raspberry pi. Nella confezione di vendita oltre il terminale troviamo tutto il necessario per montarlo su Raspberry Pi.  Premetto che sono appassionato di elettronica  e ho in dotazione  vari Raspberry Pi (dal 2B al 4 e Zero) e utilizzo spesso il GPIO per i miei progetti. Lo utilizzato per il…

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Head Office : 2nd Floor, N Block, Opposite - Axis Bank,

Sector -18, Noida - 201301

Concept: Yandere!Alice in Wonderland Characters (but it's only the White Rabbit for this piece) x Reader

“Wake up! Please, wake up!”

At the desperate call of the static-laden voice, your eyes groggily open. Your head hurts, thrumming with heavy noise. The artificial lights are too bright and yellow, staining your vision like aged-paper. It makes your headache worse.

“Oh no, are you ill?” a voice teeters. Face scrunched, you look up to see a screen hanging over you. A small image of a pixelated white rabbit flickers on and off. “Oh no, oh no… we’re so behind schedule…”

“What…” you being, head swirling. You don’t understand where you are or what’s happening. You don’t even really remember anything, for that matter. It makes you feel sick.

“Ah, I’m really sorry,” the pixelated rabbit apologizes, looking quite guilty. “Yes, yes, it’s quite a lot to take in…” 

Before you know it, the screen the pixelated rabbit is on moves closer to you. The blue light is bright, making you squint.

“Hello, [Alice],” it greets you softly. “My name is WH173-R48817, though most call me White Rabbit or White.”

“My name isn’t [Alice].” You’re not sure where that statement came from, but it feels wrong to be referred to as [Alice].

“Ah… Ah, yes, certainly,” White’s voice murmurs.“Apologies. What would you like to be called?”

You tell White a name – you’re not entirely sure where that name came from, but it feels right.

“Understood. I will refer to you as such.” With a comforting smile, White continues. “Now, as I was saying… I am the White Rabbit System, an AI system that helps manage things in this lab.”

“A lab?”

“Yes,” White responds. “We are currently in a laboratory.” 

Your eyes flicker around the room and it’s quite obvious now that you are, in fact, in a lab-like place. You’re comfortably resting on a surgery bed as jars of… body parts line the shelves around you.

“You are a part of the Wonderland Project as the most successful participant. Now that you’ve regained consciousness, we must exit the starting point.”

You stare at White blankly, its words doing very little to reveal anything substantial to you. However, White is far too frazzled to properly listen to you, going on its own little tangent. You didn’t think an AI could be so… anxious. 

“We’re already quite late!” it frets while you eye it. The screen White is on is embedded into some device on the wall. You doubt the device will be able to move outside of the room.

“How are you going to exit this place?” you ask. 

“Ah, look at me, being a klutz,” it sighs, somehow looking bashful despite being an AI. “A moment, please.” And just like that, the screen it was displayed on flickers off, the blue light fading away. Momentarily, you’re stunned, until you hear the soft footfalls approaching you. You turn your head to see a tall man with bunny ears.

“Greetings,” he says. His voice sounds like White’s, though a little deeper and more human. “I wondered which form would be the most efficient, and decided that this one would work best.”

“What.”

He continues walking closer to you as he talks. “I have a few bodies that I can connect my programming to. This is one of them.” When he finally reaches you, you can see how tall he is. He’s rather lanky and thin, but his height is enough to be intimidating. “Pardon me. I’m not that fond of touching others myself, but I have no choice,” he mutters, before reaching for you and cradling you in his arms faster than you can process what’s going on. “Hold on to me. We are quite behind schedule.”

“Behind schedule? For what?”

“The continuation of the Wonderland Project, of course.”

“And why exactly do I have to be a part of this project?”

White peers down at you curiously. “Well, isn’t it obvious?” he asks. “Because you’re the most important key, of course. We need you.”

With that, he leaves the room with you in his arms.

Bringing a medical device to market is about more than just having a great idea — it requires deep technical knowledge, strict regulatory compliance, and careful planning. Voler Systems specializes in medical devices development, working closely with clients from early design to final production. Their team understands the high stakes involved and focuses on building devices that are accurate, reliable, and user-friendly. Whether it’s for remote patient monitoring or in-clinic diagnostic equipment, their experience helps turn concepts into real-world healthcare solutions.

FANFIC DATA [15 Minutes to Save Him]

Most of the images I made for the story. Keep scrolling for close-ups and some new sketches.

FANFICTION DATA (4-june-2025) 🕙Title: 15 Minutes to Save Him 🕙Genre: Romance (F/M) 🕙Style: Canon rewrite 🕙Main pairing: Ranma x Akane 🕙Length: +20K words 🕙Ranking: Teen and up 🕙Where to read: ·AO3 - Fanfic with embedded fanart [Read here] ·Tumblr - I will share one fan art or so + a text excerpt for every chapter released. So it works as notifications. ·(Maybe FF.net - Fanfic with text only [account]) Summary: Ranma makes life plans right after the battle in China, but his daydreams crumble when darkness swallows him. Meanwhile, Akane witnesses his decline and is undeterred by his new, closed-off behavior. She'll uncover the root of his change and help him, even if it takes a counterintuitive approach! But will their secret 15-minute deal work? And can she keep taming her hopes of reciprocated love? ------ Progress update (4-June-2025) The fanfic started its release on AO3! See the cover and get further updates in this new tumblr post. Progress update (29-May-2025) New art at end of post. Fanfic edits/beta ongoing. Progress update (18-May-2025) Beta checks are ongoing, which made me start rereading the manga (focusing on specific parts) to improve a particular character's arc. I'm happy I can follow it in Japanese decently well! Level up~ New art added to this post.

Progress update (13-May-2025) -Cover art and some other sketches done -Publishing system decided -Beta reading pending

Progress update (8-May-2025) Drawing art while waiting for beta reading. Cover WIP added at the end of this post~

Progress update (2-May-2025)

The first chapters are as polished as my current skills allow, and they’ve already had some beta reading—kyaa~ (TYSM! @luna12-ranma-akane-otp ). The rest of the fic is also pretty far along, totaling 18k words.

Again, don’t expect regular updates from me, but know that things are happening behind the scenes.

Progress update (27-Apr-2025) The project is progressing nicely, but that means fewer posts as I keep editing the fanfic (not drawing art). Don't worry if you see me post less in the next days/weeks. I added a new sketch at the end of this post's close-ups!

Progress update (24-Apr-2025)

My amazing pro writer friend read the first draft and gave me super useful and sweet feedback. I'm so motivated to improve the story and release it ♡ RELEASE TIMELINE

I have a lot to rewrite and, as this is a for-fun project, there's no set date. But I can say this: I'm the type of creator who finishes projects to keep things consistent, start to end, and then releases them into parts. That lets people savor each installment and perhaps speculate with others on what will happen next.

Yes, I'm evil, not giving it all at once. But at least early readers have security that there is a (hopefully) satisfying ending coming ^^ Then, even if I could start publishing the fanfic once the texts are fully finished, I also want time to do art accompanying the story (like this post's images). So I'm considering whether I...

A) wait to release until I have all texts + images = regular release schedule but longer wait B) just release when I have the text and do images on the go = irregular releases, but we start earlier Probably I'll go with a mix of both, having a buffer of images before the start. Which, in a way, I already have.

What is your preference as a writer or reader?

Publish all at once, "chaos" irregular but release as soon as you have it, monthly, weekly, daily,...

----- *Characters by Takahashi Rumiko

This "Project Based Training in C++ Programming" course is designed for engineering students to bridge the gap between academic knowledge and practical skills in embedded technology. The program is designed to equip students with essential industry-ready capabilities and targets the growing demand for expertise in real-world embedded systems. The course structure includes four key modules and a project module emphasizing writing optimized, high-performance code suited to software development and embedded applications.

With C++ as the primary language, students learn on a Linux platform using tools like GCC (GNU Compiler Collection), GDB (GNU Debugger), and QT for graphical applications. Each module combines foundational C++ concepts with hands-on training to ensure students can confidently tackle complex industry problems. The comprehensive project module allows students to apply their knowledge practically, honing their skills in creating efficient, optimized code tailored to embedded applications.

Let’s have a talk about malleability and TTRPGs

I come from a theatrical background. Did theatre for most of my life, majored in stage management, the works. Plays and the way they function are deeply embedded in my psyche.

So when I design and play games, I come from that theatrical framework.

Now — on the one hand, you have Shakespeare. Fairly universal stories, yeah? You can cut it up, switch things around, put it into a multitude of settings. And it still works! King Lear in space. Romeo & Juliet as pirates. The Scottish Play (old habits die hard) done avant-garde. It’s malleable!

On the other end, you have hyper-specific plays about hyper-specific themes. Angels in America. The Laramie Project. Venus in Furs. Etcetera. You can’t remove the core themes, change the setting, switch scenes around: without erasing the core intent of the work and the story it’s trying to tell.

And in the middle, you have plays that are somewhat malleable. Almost, Maine, for instance. It’s made up of vignettes; you can do only some of them, if you so choose. It’ll still have the same impact.

I believe TTRPGs exist on a similar spectrum.

You have systems that can accommodate many different genres or play styles. People play dnd this way. Pathfinder comes with pre built settings that run the gamut

PbtA games are hyperspecific. Monster of the Week is about, well, monsters of the week. Remove that, and you’re playing a different game.

Call of Cthulhu can be set in any time period, but you still have to be up against Eldritch horrors. If you’re able to fight the monster, that’s a different intent than the game was built for.

Lyric games are akin to 4.48 Psychosis (everyone should read that, by the way, it’s a master work of avant-garde theatre).

And so on and so on.

Nothing is better or worse than any other. It just exists, on a spectrum, in the same vein as playstyle or crunch do. Everyone has their preference.

But with any game, there comes a point where you’re no longer playing that game.

10 Things I Hate About You is not The Taming of the Shrew, though it were based on it. There’s a limit to even the most forgiving game to where you’re no longer playing that game, but something you and your table have created for yourselves.

You can’t take the queerness or religion out of Angels in America. That’s a different play altogether.

It’s a spectrum.

I choose to design in the specific. That’s what resonates with my brain. You may want to play something that’s capable of handling more universal narratives. That’s fine too!

But we can’t ignore the bones of the system, and it’s incorrect to say we’re putting on Hamlet, when we’re actually performing The Lion King.

So: the Theory of Malleability (working title).

I don’t have a great end to this. Just musings. But I hope it makes sense to you too.