Embedded system designs & Software development

Embedded System Designs are made up of hardware and software components that are specifically designed to do certain tasks within larger systems. The main goal in designing these systems is to make sure they work well, are reliable, and keep costs low. Key parts of embedded systems include microcontrollers or microprocessors, which act like the brain of the system, and peripheral devices like sensors and actuators that interact with the outside world.

The software for these systems is usually written in programming languages like C or C++ and often needs to work in real-time, meaning it responds quickly and predictably to events. For a business like Youngmind, understanding embedded system designs is very important. These systems help make sure that electronic products are efficient, reliable, and cost-effective, leading to better customer satisfaction and lower production costs. Whether Youngmind is developing new gadgets or improving existing ones, focusing on strong embedded system designs can be a key to success.

Here is a cool blog post with hardware hacking tool suggestions. I would say it's fairly beginner friendly.

Embedded Systems: Driving Innovation in Technology

Embedded systems are specialized computing systems designed to perform dedicated functions within larger devices or applications. These systems integrate hardware and software components to execute tasks with precision, reliability, and efficiency. They are embedded in devices ranging from household appliances like washing machines and microwaves to complex industrial machines, medical equipment, and automotive systems.

An embedded system's core lies a microcontroller or microprocessor, which controls and processes data. Sensors, actuators, and communication interfaces are often part of the system, enabling it to interact with the physical environment. For instance, in a smart thermostat, an embedded system monitors temperature, processes user inputs, and adjusts heating or cooling accordingly.

Embedded systems are valued for their compact size, low power consumption, and cost-effectiveness. They are tailored for real-time operations, ensuring quick and accurate responses to specific tasks. Industries such as automotive, healthcare, telecommunications, and consumer electronics heavily rely on these systems to innovate and improve product functionality.

As technology advances, embedded systems are becoming more sophisticated, incorporating artificial intelligence (AI), Internet of Things (IoT) connectivity, and advanced sensors. These developments are paving the way for smarter devices and systems, transforming how we live and work.

In a world increasingly driven by automation and smart technology, embedded systems play a crucial role in shaping the future of innovation.

Microchip: Introducing the New 32-bit dsPIC33A DSC

https://www.futureelectronics.com/resources/featured-products/microchip-dspic33a-digital-signal-controllers-dsc . Discover the future of industrial automation, sustainable solutions and automotive systems with the dsPIC33A family of 32-bit Digital Signal Controllers (DSCs). To meet complex embedded, real-time control demands, dsPIC33A DSCs feature an advanced instruction set architecture and a powerful 200 MHz CPU. https://youtu.be/7R5WlMz94ow

Understanding Embedded Computing Systems and their Role in the Modern World

Embedded systems are specialized computer systems designed to perform dedicated functions within larger mechanical or electrical systems. Unlike general-purpose computers like laptops and desktop PCs, embedded systems are designed to operate on specific tasks and are not easily reprogrammable for other uses. Embedded System Hardware At the core of any embedded system is a microcontroller or microprocessor chip that acts as the processing brain. This chip contains the CPU along with RAM, ROM, I/O ports and other components integrated onto a single chip. Peripherals like sensors, displays, network ports etc. are connected to the microcontroller through its input/output ports. Embedded systems also contain supporting hardware like power supply circuits, timing crystal oscillators etc. Operating Systems for Embedded Devices While general purpose computers run full featured operating systems like Windows, Linux or MacOS, embedded systems commonly use specialized Real Time Operating Systems (RTOS). RTOS are lean and efficient kernels optimized for real-time processing with minimal overhead. Popular RTOS include FreeRTOS, QNX, VxWorks etc. Some simple devices run without an OS, accessing hardware directly via initialization code. Programming Embedded Systems Embedded Computing System are programmed using low level languages like C and C++ for maximum efficiency and control over hardware. Assembler language is also used in some applications. Programmers need expertise in Microcontroller architecture, peripherals, memory management etc. Tools include compilers, linkers, simulators and debuggers tailored for embedded development. Applications of Embedded Computing Embedded systems have revolutionized various industries by bringing intelligence and connectivity to everyday devices. Some key application areas include: Get more insights on Embedded Computing

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Navigating Through the Depths of Embedded Software: Testing and Verification Strategies

In the complex realm of technology, Embedded Systems serve as the quiet foundation, driving a variety of devices from intelligent gadgets to automotive systems. At the core of these systems lies the embedded software, the unseen power coordinating smooth operation. However, ensuring the dependability and strength of this software is not a simple task. Step into the domain of Embedded Systems Testing and Verification, where BlockVerse Infotech Solutions emerges as a beacon of expertise and ingenuity.

In a time where flawless performance is a must, the importance of thorough testing and verification strategies cannot be overstressed. BlockVerse Infotech Solutions acknowledges this necessity and offers a comprehensive method tailored to tackle the distinctive challenges presented by embedded software.

Initially, understanding the complexities of the embedded environment holds great importance. BlockVerse utilizes a combination of white-box and black-box testing methods to explore deep within the software’s internal operations while replicating real-world situations. This detailed approach ensures not only functional accuracy but also deals with performance, reliability, and security concerns.

Moreover, Blockverse utilizes cutting-edge tools and techniques to simplify the testing process. From automated test frameworks to model-based testing, each tool is utilized with precision to optimize efficiency without compromising quality. By utilizing virtual platforms and emulation, BlockVerse enables thorough testing across various hardware configurations, preventing compatibility issues proactively.

However, testing alone does not guarantee the integrity of embedded software. Verification, the process of confirming that the software meets predefined requirements, is equally crucial. BlockVerse adopts a varied verification approach covering code reviews, static analysis, and formal methods. By scrutinizing every line of code and adhering to industry standards, BlockVerse guarantees compliance with strict quality benchmarks.

To wrap up, embedded software plays a crucial role in modern technology, and its reliability is crucial. With BlockVerse Infotech Solutions leading the way, navigating the intricacies of Embedded Systems Testing and Verification becomes more than just a challenge; it transforms into an opportunity to enhance performance, improve reliability, and propel innovation forward.

RN42 Bluetooth Module: A Comprehensive Guide

The RN42 Bluetooth module was developed by Microchip Technology. It’s designed to provide Bluetooth connectivity to devices and is commonly used in various applications, including wireless communication between devices.

Features Of RN42 Bluetooth Module

The RN42 Bluetooth module comes with several key features that make it suitable for various wireless communication applications. Here are the key features of the RN42 module:

Bluetooth Version:

The RN42 module is based on Bluetooth version 2.1 + EDR (Enhanced Data Rate).

Profiles:

Supports a range of Bluetooth profiles including Serial Port Profile (SPP), Human Interface Device (HID), Audio Gateway (AG), and others. The availability of profiles makes it versatile for different types of applications.

Frequency Range:

Operates in the 2.4 GHz ISM (Industrial, Scientific, and Medical) band, the standard frequency range for Bluetooth communication.

Data Rates:

Offers data rates of up to 3 Mbps, providing a balance between speed and power consumption.

Power Supply Voltage:

Operates with a power supply voltage in the range of 3.3V to 6V, making it compatible with a variety of power sources.

Low Power Consumption:

Designed for low power consumption, making it suitable for battery-powered applications and energy-efficient designs.

Antenna Options:

Provides options for both internal and external antennas, offering flexibility in design based on the specific requirements of the application.

Interface:

Utilizes a UART (Universal Asynchronous Receiver-Transmitter) interface for serial communication, facilitating easy integration with microcontrollers and other embedded systems.

Security Features:

Implements authentication and encryption mechanisms to ensure secure wireless communication.

Read More: RN42 Bluetooth Module

Out of curiousity, how did you get into doing this sort of computer work? Especially more low level stuff. :]

How can other people get into it / what would you like to see people make in the future in this area?

- Aspiring Programmer

I was an extremely poor kid, in middle school I learned about piracy which led to me getting into FOSS software for media conversion so I could load a bunch of media onto my psp. A short time later I learned about cfw, custom firmware, for psps when I was trying to figure out how pirating games for the system worked, that led to my first hardware hacking, at the time you needed to make a "magic battery" in order to save money on hacking the system which luckily for me I was able to do with a busted battery. That was really my big start because it was so exciting to be a poor kid with access to tons of games and media all of a sudden. Since then I've been very interested in firmware work and embedded systems, though I definitely didnt know thats what it was at the time.

For getting into software/hardware hacking/programming in a similar way I'd seriously recommend getting a cheap SBC, something like a Raspberry Pi Zero or just a Raspberry Pi is a good place to start especially since there are tons of projects for those boards that you can hack on and tons of very useful programs like pi-hole which does DNS ad blocking.

As to what I'd like to see people do: more projects dealing with media on these kinds of systems, video djing, glitch art, etc, because usually you're limited to something like VLC for media.

Generational Trauma

Once more unto the breach of @subliminalbo's Romero Literary Universe. This story references characters from the Obedience by Fleur series. This is also a prequel to Backend Support, though both stories (hopefully) stand on their own.

Thanks again to my friend @subliminalbo (also at @subliminalboarchive) for the art trade and collaboration.

Bailey Castillo set the clippers on the sink counter and rubbed the base of her skull. She was a queer woman, it certainly wasn't her first time getting an undercut. But it was the first time she'd done it to herself.

It made her smirk to herself. Given the grim nature of what she had talked herself into, Bailey could use all the levity she could muster.

She had an undercut when she met Ed. It was a good metaphor, she thought. Under that big head of dark curls, there was an edge. Her fresh face and polite smile were a mask, disguising survival instincts and a pragmatism you could only get by growing up Black, asexual, and female in Romero, Washington.

Bailey rubbed the shaving gel in her wet fingers until it foamed up. Smelling of peaches, she rubbed it on her shaved hair. After rinsing her hands, she rinsed the razor's blade, new and sharp, in the cold water of the faucet.

It seemed a strange offer. What did a lingerie company need with an embedded systems designer? Software devs for e-commerce, sure. But she specialized in hardware, in writing firmware, in the arcane art of assembly code.

Beggars couldn't be choosers, though. Not beggars who had a degree from the local party school, because Mamá got a discount on tuition, and it was what they could afford. Certainly not beggars who would take the first offer they could get that would get them away from this cesspool. Bailey shaved her neck and the undercut area with smooth, careful strokes.

Her first mistake was trusting. Trusting that if she did a good job - and her control array for Obedience by Fleur was, objectively, goddamn genius - she'd be recognized for it.

Bailey rinsed the razor of shaving cream and tiny black hairs. Won't make that mistake again.

She had overestimated Ed King. She bought his Silicon Valley rep, and failed to see he wasn't any different from Romero's traditional power brokers. He was a carnival barker, not a visionary like he thought he was. She was a commodity to him, not a person. If Obedience failed, she would've taken the blame; but since it succeeded, he was more than happy to take all the credit.

Bailey rubbed the smooth wet skin on her neck, checking for missed spots. Elena wasn't any better. She got what she wanted from Bailey, and that made her disposable. It was a blessing, really. Bailey was a natural beauty, but her curvy hips and thighs meant she wasn't model thin, and it also meant she was back at her mother's house in Romero, and not mindlessly, dutifully, licking Elena's designer boots.

Toweling off her neck, Bailey shifted away from the sink toward the 3D printer. She triple-checked her work.

When she first read about needleless tattoos in Wired, at all just clicked into place. A silicon ink payload in dissolvable microneedles. Putting the Obedience tech inside the subject. Permanently. Forget the sensors, pair the array with a fitness tracker or smartwatch. An AI sidecar to increase subject safety. No more brain damage.

Stealing the base software from Ed King? Bailey had no qualms about stealing from a thief. But she needed stake money. It was surprisingly easy to talk the Chinese triads into financing her. But they wanted proof before they pumped more yuan into her operation.

The 3D printer hummed to life as it printed the dissolvable needles, loaded with silicon ink, onto the dermal patch. This was, of course, a fork, custom firmware modified from the base model. Unfortunately, you can't just print a tiny one of these and slap it on a lab rat.

And experimenting on an unwilling human subject… That was something they would do. Bailey wasn't a monster. Not yet.

The array was done. It was a rectangle about the size of deck of cards. The trick had been spacing, making sure the crudely printed lines wouldn't bleed or touch accidentally when applied. Bailey's array was, of course, unique. She'd created a hyperfocus routine that, when enabled, could drown out stimulation and increase cognitive ability temporarily. More importantly, the mind control protocols were blunted, and she wrote an additional protection against mesmerism: the ability to mentally control her hormone levels.

But at the end of the day, this was modified Obedience by Fleur firmware. Bailey knew there was an unknown period where she would have to take Obedience's best punch, enduring and outlasting it, before the AI sidecar would read her biofeedback and adjust the indoctrination protocols lower. She was prepared for it, with a physical anchor.

She took the black choker, her mother's, in her left hand. When Mamá died, shortly after Bailey came back to Romero with her tail between her legs, it was in her jewelry box.

Bailey didn't know how to reconcile that. Mamá never said anything. She didn't have to. When she left the house wearing this choker, all painted up when she should have been in bed, the vacant look told young Bailey everything. But to keep this in an intimate place, where she likely saw it every day - before the early-onset Alzheimer's rotted her from the inside out - what did that mean?

That she missed it?

Bailey gripped the choker tightly, feeling the satin in her delicate fingers. She couldn't guess what went through her mother's mind. Bailey only knew what it meant to her: anger. Abandonment issues. A keepsake of a life she would never, ever lead.

One last check. One last chance to bitch out.

Bailey sat upright in her work stool. She prepared the tattoo array patch, removing it from the printing tray. She looked again at the choker in her left hand, her anchor to reality. She took the patch, and affixed it to the base of her skull.

At first, there was a cold, wet feeling. Like ultrasound gel. And it itched, probably from the microneedles penetrating her skin. Bailey's research indicated there wouldn't be any pain from the actual absorption of the silicon ink into her dermis, just a slight delay.

Immediately, she realized she'd miscalculated.

Bailey had set the weights on the Obedience protocol to fifty percent. She barely had time to process that was too high before she was inundated with sensation. "Oh… Fuck," she moaned breathlessly. It was so hard to think from the pleasure. Warm and comforting, like a blanket. Like a hug, but not a hug from just anyone. From someone precious. From a lover.

Then she felt something new. A flicker, at first. Then a slow burning heat. Then an intense raging inferno, burning between her legs, deep inside her, in her very soul. Bailey instinctively put her hand there, but it was a huge mistake. Immediately she rubbed her engorged clit through her panties, wetness spreading through the dainty cotton fabric.

Lust? But I'm fucking ace, Bailey thought, before the first orgasm hit.

Wave after wave of euphoric gratification pounded her senses like a tempestuous ocean.

Shit! this is- Then another.

Tides of pleasure washed over her.

The choker. Have to- Another.

The powerful undertow eroded her reason and resistance.

Mamá, I-

The blissful sensations overwhelmed Bailey, preventing the formulation of new thoughts, until she just simply stopped trying.

And then she was under. Submerged. Sounds fading. The world oh, so far away.

She was better this way, she saw that. It was better to stop resisting, stop trying to think, and just accept it. As she enthusiastically fingered her soggy cunt, mouth open, her body rewarding her for her compliance, Bailey thought she heard something. It was her own voice, moaning and panting and… giggling. Being dumb, and sexy, and available - it made her happy?

When was the last time she could say that, that she was legitimately happy?

She understood. She could feel like this for the rest of her life, and she only had to do one thing. Let go. Let go of the past, let go of the trauma, let go of the hurt. Let go of herself. The fingers on Bailey's left hand loosened their grip. The choker threatened to fall to the floor. No, not fall. To sink. To sink and drop, deeper and deeper. Her mind was still. Vacant. Empty, except for one thing creeping into her consciousness.

No. Not today.

Bailey's fingers tightened. She could feel the smooth satin, once cold, now hot with her own emanating warmth. She thought of Mamá, looking more like a movie starlet than her tireless, caring mother. Bailey saw her walk out the door, not even turning back to her crying daughter. And she remembered her pledge, to Mamá, to herself: it ain't gonna be me. Not today. Not ever.

Bailey held the choker with a steel grip, as if her life depended on it. It did. The choker was a life preserver in the choppy ocean of arousal flooding her mind and body. She had no idea how anyone could take twice as much of this. It was no wonder Obedience's control was absolute and immediate.

Slowly, she felt it. The constant bombardment of pleasure losing its steam. Waters receding. Her thoughts forming more easily, coherently. Her breathing stabilizing, and the hot flush of her arousal lowering to a simmer. "Set dopamine levels to zero," she gasped. She didn't need to say the words out loud for it to work, but in her disheveled state she needed to hear it. To remind herself she was in control.

She looked in a nearby mirror. Her eyes were a milky solid white, all sclera, no pupils. Her body was flushed with desire. She looked every bit the fucktoy she despised. Bailey knew she was lucky. If she had looked into this mirror a few minutes ago, she would've been lost.

Her hormone levels stabilizing, Bailey blinked, and her eyes returned to an intense chestnut brown. She was still in shock from the ordeal. She opened her palm and looked at the choker, and she placed it on her workbench. Slowly, she took her cell phone in her right hand and sent a message.

"Live test successful. Production is GO."

-------------------

The dream again. The same one. Fuck, I hate this, Bailey thought. And turning off the dopamine wasn't helping.

Bailey got out of bed and turned on a bedside lamp. She drowsily stood up, stumbled to the kitchen for a drink of cold water. It was a hot July night, so she was only wearing panties. Which, of course, were soaked through. Again.

On her back to bed, she stopped at her nightstand. She looked at herself in the vanity mirror. Running a prostitution empire based on mind control hadn't been kind to her, she thought.

Bailey wasn't sure what possessed her. But she reached into her top drawer, and retrieved Rosa's - Mamá's - choker. She hadn't looked at it since she turned on the Obedience array. She'd been too afraid. But here, in the dark, she fastened the choker around her neck. She activated her hormonal controls and raised them - not too much - to maybe 120% of normal. And she looked in the mirror.

Her eyes clouded over until the pupils were gone again, just solid white spheres. Like two blank canvases. She let her mind dull - again, not too much. Just enough to let her thoughts drift. Her full lips parted, on their own, as she watched with interest and arousal. She had always been beautiful, but now? She was a bombshell. All tits and ass and thighs, with a pretty fuckable face. She didn't have a sexual bone in her 29-year-old body, but she would fuck this braindead slut in the mirror.

Bailey's mind cleared as she regained control. She again dampened her pleasure center, and her eyes returned to normal. She took the choker off, and put it back, reverently, in her dresser drawer.

She now understood why Mamá had kept it.

CA Internet Bills Status as of 7/17/2024

I had wanted to wait to make this post until all of the bills updated texts had been uploaded to the usual sites, but it appears what whoever's supposed to be updating AB 3080 has been lagging, so I'll just go with what I have for now. It'll be long as I'll be looking at their statuses and analyzing their updated texts so I'll put it under a cut for now.

A reminder that California's legislature is currently on recess and will be until August 5th. So no immediately imminent bills at this exact moments. But please read below the cut to get more information on the deadlines coming up.

When I last posted, all three of the bills had gone into review in their respective committees and sadly all of them passed out.

AB 3080: 11 Aye - 0 Nay

AB 1949: 11 Aye - 0 Nay

SB 976: 7 Aye - 4 No Vote

All three bills have been amended during their time in committees.

Ab 3080

AB 3080 was amended and passed from committee as amended, it is now available for a floor vote. This is the only one of the three bills where its amended text hasn't been posted anywhere I can find. However, in the analysis of the July 3rd meeting, there were acknowledgements made that not only is there no effective and safe way to verify age to view online content, but also that the existence of VPNs can circumvent any attempts to region lock sites designated as "adult" (the definition as it stands still appears to be limited to commercial websites where more than 1/3 of their content annually is sexually explicit). And that the methods to implement such a thing on commercial and non-commercial websites alike can be prohibitively expensive. So the author of the bill agreed to amendments in the bill as such according to the analysis:

"In response to the concerns of opposition, the author has agreed to amendments that allow a less restrictive means to suffice in meeting the obligation of the bill, mitigating the impact on protected speech and expression. The amendments provide that “reasonable steps” includes the business implementing a system that includes metadata or response headers identifying the product as sexually explicit to parental control software, embedded hardware applications, and other similar services designed to block, filter, monitor or otherwise prevent a minor’s access to inappropriate online content, or that blocks users designated as minors by the operating system of the device used to access the website. It also limits enforcement of this new cause of action to the Attorney General and requires the Attorney General to promulgate regulations to provide better direction for reasonable steps to verify age in addition to those listed."

So it appears that the bill may allow more websites instead to mark themselves or certain portions of their content as adult in order to be properly vetted by in-device content filters and parental controls that can be set by the device operators (or their parents in the case of minors), rather than a method that would require users to provide identification.

It's eased up quite a bit since its initial incarnation. But it's still better safe than sorry with this kind of bill, so Californians let's still push the state senators to veto this bill completely.

Organizations in support of this bill:

Organizations in opposition to this bill:

AB 1949

AB 1949 was amended and passed from committee as amended, and is currently referred to the Senate Appropriations Committee.

This one has also seen some fairly positive changes during this committee analysis as can be seen in the latest version of the bill. The latest version has removed any indications towards age verification. As well as it having changed several of its details. The bill only comes into effect and prevents the sale of data if the website has actual knowledge of the users' age, and that there shall be an option for the user to transmit a signal that they are under 18 for this purpose. Which again should help the argument against strict age verification barriers due to advertising purposes.

"a business shall not use or disclose the personal information of a consumer if the business has actual knowledge that the consumer is less than 18 years of age, unless the consumer, in the case of a consumer at least 13 years of age and less than 18 years of age, or the consumer’s parent or guardian, in the case of a consumer less than 13 years of age, has affirmatively authorized the use or disclosure of the consumer’s personal information."

"A business shall treat a consumer as under 18 years of age if the consumer, through a platform, technology, or mechanism, transmits a signal indicating that the consumer is less than 18 years of age."

But, once again, it is best to still work against this bill and prevent its passing at all in case it there's push to use it as a stepping stone for any bills which may further push an age verification agenda.

Organizations in support of this bill:

Organizations in opposition of this bill:

SB 976

This bill passed with amendments and is currently referred to the California Assembly Appropriations Committee. Unfortunately no major changes have been made. Only an amendment clarifying that any parental controls are only meant to limit access to "addictive feeds" and limit access to school hours, not any of the content. As this function still requires a "verified adult parent to a minor", this still holds open the door to potential future age verification dangers. As it still states that an application may choose to withhold services to minors altogether, and explicitly leaves open the possibility to allow provisions for age "assurance". So we definitely want to strike this one down if we can.

Organizations in support of this bill:

Organizations in opposition to this bill:

As of this moment, the California Legislature is out on recess until August 5.

The Senate Appropriations Committee (AB 1949) is set to meet on August 5, no word on whether it will be heard that day or on the next set hearing, August 12. So if you wish to send a position letter to the committee it would be best to do so a week before that date, so by July 29. Just to be safe.

No word on when the Assembly Appropriations Committee is set to meet, but the deadline for fiscal committees to pass bills through is August 16, so I expect that SB 976 will be heard before that day at least.

And AB 3080 is set to go to the senate floor rather than be seen by another committee before being read. No word on when the next bill readings will be on the assembly floor after it's reconvened August 5th, but I'll keep an ear to the ground for that.

The last day for each house to pass their bills for the year will be August 31st. So any bills we can stop before then are halted for good for the year.

And for any bills that do slip through, the last day for the governor to sign, let pass without signing, or veto bills is September 30th. So even if the bills pass from the floor to his desk, there's still time to send him messages to urge him to oppose any that slip through.

Thank you for your time, both in reading this and in taking the time to help us fight these bills.

Kamen Rider NRV Lore Dump!

Manticore

Manticore LLC is a major medical technology company. Publicly, they are most known for their artificial organs and limb prosthesis as well as several other medical devices and equipment used in hospitals worldwide. Less widely publicized are their numerous military contracts, developing cutting edge medical treatment technologies but also advanced weapons, drones, and other offensive hardware.

Nanoderm

The scientific breakthrough that lead Manticore to dominate in the field of med-tech is the invention of micro-sensors that are capable of reading brain signals in the nervous system and translating them into data a computer can interpret with absolute precision. These microscopic sensors can be integrated into programmable nanomachines that interlock in a mesh that forms durable skin-like material called Nanoderm.  If an exposed section of human tissue is covered in Nanoderm and then allowed to heal, the Nanoderm will become integrated with the tissue like a layer of natural skin. Any impulses or signals sent by the brain to that part of the body will be received by the Nanoderm and translated into data. That data can then be read as motor commands by a Manticore prosthesis. Basic prosthesis models can receive this data via magnetic nodes embedded in the surface of the Nanoderm but more advanced models, capable of finer dexterity/expanded functionality, require a “bone spike,” a rod-like data plug that interfaces with a port in the Nanoderm area that is connected to more advanced sensors. The socket and sensor hardware is imbedded in the body through a surgical procedure.

The catch with the Nanoderm system is it must be applied to the body before the exposed tissue heals over and the exposed nerve endings have a chance to close off, or in other words, while the wound is “fresh”, otherwise the healed tissue must be cut away and a fresh wound made. This means that in emergency situations a patient or their next of kin must make a snap decision to undergo the expensive Nanoderm compatibility surgery as part of their emergency treatment. Of course some insurance plans will cover some or all of this cost. Additionally Manticore has deals with some insurance providers that the surgery come standard with higher end coverage plans, forgoing the need for patient consent. Manticore has exclusive patent rights to the Nanoderm system, meaning once you are Nanoderm compatible, you are locked into the Manticore ecosystem of prosthesis and devices. Additionally your devises can only be serviced by Manticore certified technicians and only Manticore doctors are trained in Nanoderm patient care.

Remote Command (RC)

Manticore is a sprawling corporation with many secrets. One such secret is the Remote Command program. A project Manticore has been working on behind closed doors, the Remote Command program involves research into sending brain signals over great distances without a physical connection between the sensor and the receiving devise. With RC a person could control a prosthetic arm in another part of the world as though it were part of their body. This is achieved by broadcasting the impulses across a proprietary electromagnetic wave length to the receiving nodes. The signal travels point to point and back again at light speed. The potential RC has for the future of drone warfare is staggering, not to mention the potential for profit.

Sensitive as this information is, there’s another layer. All Nanoderm currently in use by people around the world is capable of receiving Remote Command. With the right inputs it can reshape its self, self-replicate, and even, under certain conditions, send signals back to the user’s brain, causing brain damage or, theoretically, controlling them. Whether this functionality of Nanoderm was an intentional feature or not is unknown to anyone currently employed at Manticore but the company has no pans currently to use the Nanoderm in this way. What is known, however, is that if this function ever becomes public knowledge it would be disastrous for Manticore, not to mention the chaos that would ensue if a bad actor were to exploit this function for malicious purposes.

Manticore Special Security (Spec-Sec)

Manticore LLC has secrets, and it has enemies. To protect its secrets, combat its enemies, address the threats to public safety those things pose, (and protect its corporate interests), Manticore formed the Manticore Special Security Division. More than just your standard private security outfit, Spec-Sec is a fully equipped task force and strike force designed to identify, target, track, confront, and nullify any threat to the company and its assets. Thanks to Manticore’s history of generous donations and good standing with local police forces, the Spec-Sec Division is able to operate with a certain degree of discretion, allowing them to carry out operations without interference from police or the legal system. Lead by Special Security Director Sloane, her hand-picked crack team of Special Officers have carried out dozens of high risk operations with ruthless efficacy and, so-far, minimal casualties. Spec-Sec utilizes the most cutting edge technology and weaponry Manticore has, often before it’s even close to market ready. In some cases necessity dictates that Spec-Sec operations serve as ad hoc field tests for experimental equipment.

Core Drivers, Data Boosters, and the Kamen Rider program

The Core Driver is a piece of technology that was developed as part of research into the use of Nanoderm to enhance a soldier’s physical performance on the battlefield. The concept was to temporarily cover the user’s entire body in a layer of Nanoderm mesh that could respond to the signals from the user’s brain in such a way that would increase their strength, speed, perception, and reflexes. The solution was the Core Driver, a device that would house the billions of Nanoderm nanomachines and serve as the computational core for the whole mesh network. Along with the Core Driver was the Data Booster, a flash drive-like device shaped like a syringe. The data booster contained the information that told the nanomachines to deploy from the Core Driver and cover the user. Additionally the Booster came with its own payload of nanomachines that, when the plunger of the syringe was depressed, would also be deployed through the Core Diver and take the form of armor and weapons. Basically, a user need only insert the Data Booster into the Core Diver, clearly speak a voice authentication phrase, and depress the plunger and they would instantly be wearing a powerful yet flexible armored body suit. The project was called the “Kamen Rider program” after the masked visage of the user’s armored faceplate (“Kamen” being the Japanese word for “mask”).

The Project had its drawbacks, however. For one a user would need to already be Nanoderm compatible for the suit to work at all, meaning, practically speaking, the user would need to be an amputee, and the prospect of convincing soldiers to sacrifice a limb to use the Driver was deemed a “hard sell” and the idea of a approaching a freshly maimed soldier with the offer of further combat, well, that wouldn’t be a good look either. The second and most important drawback was the simple fact that the Kamen Rider program was far, FAR too expensive to be profitable, and the thousands of man hours it took to produce just one Core Driver meant mass producing them to sell by the battalion, as Manticore had planned, was simply out of the question.

The Kamen Rider Program was not completely abandoned, however. The first completed Core Driver, designation SVR (Special Versatility Rider model or “Sever” colloquially) is currently coded to Director Sloane of Spec-Sec, who happens to be a double transfemeral amputee. With the Director’s input, the device and the suit itself have been modified heavily over its years of use. It now features the ability for additional Data Boosters to be employed, loaded with weapons and tools in the form of appendages that attach to highly advanced versions of Bone Spike sockets on the suit at the amputation sites of the Rider’s body. The nerve signal enhancing properties of the suit allows the Rider to manipulate these complex, non-human-like appendages with a natural ease and minimal adjustment period.

A second Core Driver has just recently been put to use in the field at Spec-Sec. The first Kamen Rider designed from the ground up with Spec-Sec modifications. Designation NRV (Neo Rider Variant or “Nerve” colloquially) is encoded to the Division’s newest member, Special Officer Nat Agbayani. A right shoulder disarticulation amputee, he was promoted to the Special Security Division from the internship program in the research wing by the COO of Manticore himself… wait what? That can’t be right…

The existence of any other Core Drivers, in use or otherwise, is classified.

Thanks for reading

i have an question for both the parental unit and the filming industry units (foley, gaffer and styrofilm) what would you're reactions be if an prank (placing an fake camera head infront of an break room before the meeting starts) gone wrong badly which it ended up the other cameraman falling over hitting their head on an hard surface / desk causing an really bad injury that need fixing right away?

Sawmus: [Pranks are pranks, but severe injuries are no laughing matter. Remember, the medical protocol existed for a reason. Even combatants or personnel who are not part of the medical department must adhere to basic procedures to minimize casualty.]

[For hardware agents classified as fully mechanical robots, there are three main conditions that can cause them to cease functioning: completion of a programmed action, the triggering of an alarm condition, and mechanical failure.]

[The concept of a programmed action is straightforward. In coding, you define a specific action for a robot to perform. Once the action is completed, the robot will cease to function until a new command is given.]

[Alarm conditions are more complex. These conditions typically involve safety, system errors, and power failures, all of which can halt a robot’s operation or prevent its startup. ]

[Mechanical failure can range from minor wear and tear to intricate issues affecting multiple systems. Troubleshooting these failures requires specialized knowledge and can vary in complexity depending on the extent of the damage.]

[In your given scenario, a cameraman falls, strikes their head on a hard surface, and suffers accidental decapitation – though such a scenario is highly unlikely given the durability of hardware agents. This would be classified as damage to mechanical components and disconnection of the firmware located in the camera head. Firmware is a form of microcode or program embedded into hardware devices to help them operate effectively, and provides essential machine instructions that allow the hardware to function and communicate. Damage or disconnection of firmware constitutes a severe injury requiring immediate medical attention. In a controlled environment where transport is unnecessary, the casualty can be promptly treated by mechanical medical professionals.]

[There is a widespread misconception that medics are responsible for addressing all degrees of injuries. And the truth? Depends on the condition of the casualty. When a situation exceeds a medic’s capabilities, such as major core or processor damage, we rely on mechanical medical professionals to manage the situation.]

[As for Polaroid’s companions in the Filming Industry, they are not equipped to handle severe injuries of this nature. While there may be overlapping concepts between weapon engineering and mechanical engineering, the two are fundamentally different fields – one aimed at destruction and the other aimed at repair. Although weapon engineers may be capable of addressing minor injuries, it is far safer for specialized professionals to handle more serious cases to avoid further damage to the casualty’s system.]

Generational Trauma

Once more unto the breach of @subliminalbo's Romero Literary Universe. This story references characters from the Obedience by Fleur series. This is also a prequel to Backend Support, though both stories (hopefully) stand on their own.

Thanks again to my friend @subliminalbo (also at @subliminalboarchive) for the art trade and collaboration.

Bailey Castillo set the clippers on the sink counter and rubbed the base of her skull. She was a queer woman, it certainly wasn't her first time getting an undercut. But it was the first time she'd done it to herself.

It made her smirk to herself. Given the grim nature of what she had talked herself into, Bailey could use all the levity she could muster.

She had an undercut when she met Ed. It was a good metaphor, she thought. Under that big head of dark curls, there was an edge. Her fresh face and polite smile were a mask, disguising survival instincts and a pragmatism you could only get by growing up Black, asexual, and female in Romero, Washington.

Bailey rubbed the shaving gel in her wet fingers until it foamed up. Smelling of peaches, she rubbed it on her shaved hair. After rinsing her hands, she rinsed the razor's blade, new and sharp, in the cold water of the faucet.

It seemed a strange offer. What did a lingerie company need with an embedded systems designer? Software devs for e-commerce, sure. But she specialized in hardware, in writing firmware, in the arcane art of assembly code.

Beggars couldn't be choosers, though. Not beggars who had a degree from the local party school, because Mamá got a discount on tuition, and it was what they could afford. Certainly not beggars who would take the first offer they could get that would get them away from this cesspool. Bailey shaved her neck and the undercut area with smooth, careful strokes.

Her first mistake was trusting. Trusting that if she did a good job - and her control array for Obedience by Fleur was, objectively, goddamn genius - she'd be recognized for it.

Bailey rinsed the razor of shaving cream and tiny black hairs. Won't make that mistake again.

She had overestimated Ed King. She bought his Silicon Valley rep, and failed to see he wasn't any different from Romero's traditional power brokers. He was a carnival barker, not a visionary like he thought he was. She was a commodity to him, not a person. If Obedience failed, she would've taken the blame; but since it succeeded, he was more than happy to take all the credit.

Bailey rubbed the smooth wet skin on her neck, checking for missed spots. Elena wasn't any better. She got what she wanted from Bailey, and that made her disposable. It was a blessing, really. Bailey was a natural beauty, but her curvy hips and thighs meant she wasn't model thin, and it also meant she was back at her mother's house in Romero, and not mindlessly, dutifully, licking Elena's designer boots.

Toweling off her neck, Bailey shifted away from the sink toward the 3D printer. She triple-checked her work.

When she first read about needleless tattoos in Wired, at all just clicked into place. A silicon ink payload in dissolvable microneedles. Putting the Obedience tech inside the subject. Permanently. Forget the sensors, pair the array with a fitness tracker or smartwatch. An AI sidecar to increase subject safety. No more brain damage.

Stealing the base software from Ed King? Bailey had no qualms about stealing from a thief. But she needed stake money. It was surprisingly easy to talk the Chinese triads into financing her. But they wanted proof before they pumped more yuan into her operation.

The 3D printer hummed to life as it printed the dissolvable needles, loaded with silicon ink, onto the dermal patch. This was, of course, a fork, custom firmware modified from the base model. Unfortunately, you can't just print a tiny one of these and slap it on a lab rat.

And experimenting on an unwilling human subject… That was something they would do. Bailey wasn't a monster. Not yet.

The array was done. It was a rectangle about the size of deck of cards. The trick had been spacing, making sure the crudely printed lines wouldn't bleed or touch accidentally when applied. Bailey's array was, of course, unique. She'd created a hyperfocus routine that, when enabled, could drown out stimulation and increase cognitive ability temporarily. More importantly, the mind control protocols were blunted, and she wrote an additional protection against mesmerism: the ability to mentally control her hormone levels.

But at the end of the day, this was modified Obedience by Fleur firmware. Bailey knew there was an unknown period where she would have to take Obedience's best punch, enduring and outlasting it, before the AI sidecar would read her biofeedback and adjust the indoctrination protocols lower. She was prepared for it, with a physical anchor.

She took the black choker, her mother's, in her left hand. When Mamá died, shortly after Bailey came back to Romero with her tail between her legs, it was in her jewelry box.

Bailey didn't know how to reconcile that. Mamá never said anything. She didn't have to. When she left the house wearing this choker, all painted up when she should have been in bed, the vacant look told young Bailey everything. But to keep this in an intimate place, where she likely saw it every day - before the early-onset Alzheimer's rotted her from the inside out - what did that mean?

That she missed it?

Bailey gripped the choker tightly, feeling the satin in her delicate fingers. She couldn't guess what went through her mother's mind. Bailey only knew what it meant to her: anger. Abandonment issues. A keepsake of a life she would never, ever lead.

One last check. One last chance to bitch out.

Bailey sat upright in her work stool. She prepared the tattoo array patch, removing it from the printing tray. She looked again at the choker in her left hand, her anchor to reality. She took the patch, and affixed it to the base of her skull.

At first, there was a cold, wet feeling. Like ultrasound gel. And it itched, probably from the microneedles penetrating her skin. Bailey's research indicated there wouldn't be any pain from the actual absorption of the silicon ink into her dermis, just a slight delay.

Immediately, she realized she'd miscalculated.

Bailey had set the weights on the Obedience protocol to fifty percent. She barely had time to process that was too high before she was inundated with sensation. "Oh… Fuck," she moaned breathlessly. It was so hard to think from the pleasure. Warm and comforting, like a blanket. Like a hug, but not a hug from just anyone. From someone precious. From a lover.

Then she felt something new. A flicker, at first. Then a slow burning heat. Then an intense raging inferno, burning between her legs, deep inside her, in her very soul. Bailey instinctively put her hand there, but it was a huge mistake. Immediately she rubbed her engorged clit through her panties, wetness spreading through the dainty cotton fabric.

Lust? But I'm fucking ace, Bailey thought, before the first orgasm hit.

Wave after wave of euphoric gratification pounded her senses like a tempestuous ocean.

Shit! this is- Then another.

Tides of pleasure washed over her.

The choker. Have to- Another.

The powerful undertow eroded her reason and resistance.

Mamá, I-

The blissful sensations overwhelmed Bailey, preventing the formulation of new thoughts, until she just simply stopped trying.

And then she was under. Submerged. Sounds fading. The world oh, so far away.

She was better this way, she saw that. It was better to stop resisting, stop trying to think, and just accept it. As she enthusiastically fingered her soggy cunt, mouth open, her body rewarding her for her compliance, Bailey thought she heard something. It was her own voice, moaning and panting and… giggling. Being dumb, and sexy, and available - it made her happy?

When was the last time she could say that, that she was legitimately happy?

She understood. She could feel like this for the rest of her life, and she only had to do one thing. Let go. Let go of the past, let go of the trauma, let go of the hurt. Let go of herself. The fingers on Bailey's left hand loosened their grip. The choker threatened to fall to the floor. No, not fall. To sink. To sink and drop, deeper and deeper. Her mind was still. Vacant. Empty, except for one thing creeping into her consciousness.

No. Not today.

Her fingers tightened. She could feel the smooth satin, once cold, now hot with her own emanating warmth. She thought of Mamá, looking more like a movie starlet than her tireless, caring mother. Bailey saw her walk out the door, not even turning back to her crying daughter. And she remembered her pledge, to Mamá, to herself: it ain't gonna be me. Not today. Not ever.

Bailey held the choker with a steel grip, as if her life depended on it. It did. The choker was a life preserver in the choppy ocean of arousal flooding her mind and body. She had no idea how anyone could take twice as much of this. It was no wonder Obedience's control was absolute and immediate.

Slowly, she felt it. The constant bombardment of pleasure losing its steam. Waters receding. Her thoughts forming more easily, coherently. Her breathing stabilizing, and the hot flush of her arousal lowering to a simmer. "Set dopamine levels to zero," she gasped. She didn't need to say the words out loud for it to work, but in her disheveled state she needed to hear it. To remind herself she was in control.

She looked in a nearby mirror. Her eyes were a milky solid white, all sclera, no pupils. Her body was flushed with desire. She looked every bit the fucktoy she despised. Bailey knew she was lucky. If she had looked into this mirror a few minutes ago, she would've been lost.

Her hormone levels stabilizing, Bailey blinked, and her eyes returned to an intense chestnut brown. She was still in shock from the ordeal. She opened her palm and looked at the choker, and she placed it on her workbench. Slowly, she took her cell phone in her right hand and sent a message.

"Live test successful. Production is GO."

The dream again. The same one. Fuck, I hate this, Bailey thought. And turning off the dopamine wasn't helping.

Bailey got out of bed and turned on a bedside lamp. She drowsily stood up, stumbled to the kitchen for a drink of cold water. It was a hot July night, so she was only wearing panties. Which, of course, were soaked through. Again.

On her back to bed, she stopped at her nightstand. She looked at herself in the vanity mirror. Running a prostitution empire based on mind control hadn't been kind to her, she thought.

Bailey wasn't sure what possessed her. But she reached into her top drawer, and retrieved Rosa's - Mamá's - choker. She hadn't looked at it since she turned on the Obedience array. She'd been too afraid. But here, in the dark, she fastened the choker around her neck. She activated her hormonal controls and raised them - not too much - to maybe 120% of normal. And she looked in the mirror.

Her eyes clouded over until the pupils were gone again, just solid white spheres. Like two blank canvases. She let her mind dull - again, not too much. Just enough to let her thoughts drift. Her full lips parted, on their own, as she watched with interest and arousal. She had always been beautiful, but now? She was a bombshell. All tits and ass and thighs, with a pretty fuckable face. She didn't have a sexual bone in her 29-year-old body, but she would fuck this braindead slut in the mirror.

Bailey's mind cleared as she regained control. She again dampened her pleasure center, and her eyes returned to normal. She took the choker off, and put it back, reverently, in her dresser drawer.

She now understood why Mamá had kept it.

Embedded Computing Marled is Anticipated to Witness High Growth Owing to Wide Adoption Across End-use Industries

Embedded computing refers to a computer system that is part of a larger mechanical or electrical system designed to perform a dedicated function. Embedded systems are designed for specific control functions within embedded products and machines and operate under the direct control of an embedded program. Some key features of embedded systems include rugged construction, low power usage, real-time operating capabilities and compact size. Embedded devices are commonly found in industrial equipment, automobiles, consumer electronics, home appliances and medical devices to control electronic systems. Their key advantage is the ability to control electronic processes in a precise, flexible and cost-effective manner.

The global embedded computing market is estimated to be valued at US$ 112.45 Bn in 2024 and is expected to reach US$ 174.38 Bn by 2031, exhibiting a compound annual growth rate (CAGR) of 6.5% from 2024 to 2031.

Wide adoption across industries such as industrial automation, transportation, healthcare, telecommunication and consumer electronics is fueling market growth. Embedded systems allow streamlining of electronic processes, reducing downtimes and operation costs for end-use industries. Key Takeaways Key players operating in the embedded computing market are Advanced Micro Devices (AMD), Inc., Advantech Co., Ltd., Avalue Technology Inc., Curtiss-Wright Corporation, Dell Technologies Inc., Emerson Electric Co., Fujitsu Limited, General Electric Company, Hewlett Packard Enterprise Company, Honeywell International Inc., Intel Corporation, Kontron ST AG, Mitsubishi Electric Corporation, Rockwell Automation, Inc., and Texas Instruments Incorporated. The Embedded Computing Market Demand offers significant opportunities for system integrators and solution providers through new product development and capability expansion. Growing digitization trends across industry verticals will continue to generate strong demand for embedded systems with advanced computing and connectivity features. Leading embedded computing companies are focusing on global expansion strategies through partnerships, joint ventures and acquisitions to solidify their presence in emerging economies of Asia Pacific, Latin America, Middle East and Africa. These regions offer high growth potential driven by ongoing modernization of infrastructure and growing electronics manufacturing activities. Market Drivers Wide adoption across industrial automation applications is a key driver for the embedded computing market. Use of embedded systems allows streamlining of electronic processes, reducing downtimes and operation costs for industrial equipment manufacturers. Growing connectivity trends through Industrial Internet of Things (IIoT) will further propel demand. Rising electronics content in automobiles is positively impacting the market. Advanced driver assistance systems, infotainment systems and vehicle networking require powerful embedded computing solutions. Strict fuel efficiency and vehicle emissions norms will accelerate integration of embedded computing hardware. Market Restrain Design complexity of developing embedded system on a chip (SoC) poses challenges, especially for integrating advanced Embedded Computing Companies capabilities with low power requirements. This increases new product development timelines and costs. Limited standardization across various embedded system platforms inhibits seamless interoperability, data exchange and application portability. This poses difficulties for globally distributed product development activities.

Segment Analysis Automotive industrial and transportation is dominating the embedded computing market due to increasing implementation of advanced driver-assistance systems, connected vehicles solutions, electric vehicles, and autonomous vehicles. According to recent surveys over 65% of all new light vehicles shipped will have features like adaptive cruise control, automatic emergency braking, and blind spot monitoring by 2030. All these emerging technologies are driving the growth of embedded systems in automotive applications. Security and defense is another major sub segment in the embedded computing market owing to rising implementation of thermal weapon sights, combat management systems, imaging payloads and guidance systems in warships, aircraft carriers and fighter jets. Real-time information, enhanced situational awareness and integrated mission capabilities are some key priorities for embedded systems in defense applications. Various nations are also focusing on developing autonomous weapons which will further augment demand in coming years. Global Analysis North America dominates the global embedded computing market with a share of over 35% due to substantial research funding and presence of major OEMs in the region. US and Canada are hub for embedded technology development owing to advancement in networking infrastructure, IoT penetration and adoption of Industry 4.0 concepts. Asia Pacific shows fastest growth momentum led by China, India, Japan and South Korea. Low manufacturing cost and government initiatives to digitize industries are driving Asia Pacific market. Intensifying Sino-US trade war may impact supply chain dynamics in long run. Europe captures around 25% market share led by Germany, United Kingdom and France.

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Money Singh is a seasoned content writer with over four years of experience in the market research sector. Her expertise spans various industries, including food and beverages, biotechnology, chemical and materials, defense and aerospace, consumer goods, etc. (https://www.linkedin.com/in/money-singh-590844163)