dean shouldn't have thrown away the amulet. he should've given it to me. I would've mortarandpestled it, made a solution and had that thing injected into my veins

regarding the recent RP2350 OTP hack contest, with a collection of voltage glitches and the classic "well have you tried looking at it" attack. featuring cats (p. 22)

*giggling and twirling my hair and sighing like I have a crush*

Welchia… she’s so… beautiful…

I wanna run her on a Blaster-infected PC and watch her work…

Cybercriminals are abusing Google’s infrastructure, creating emails that appear to come from Google in order to persuade people into handing over their Google account credentials. This attack, first flagged by Nick Johnson, the lead developer of the Ethereum Name Service (ENS), a blockchain equivalent of the popular internet naming convention known as the Domain Name System (DNS). Nick received a very official looking security alert about a subpoena allegedly issued to Google by law enforcement to information contained in Nick’s Google account. A URL in the email pointed Nick to a sites.google.com page that looked like an exact copy of the official Google support portal.

As a computer savvy person, Nick spotted that the official site should have been hosted on accounts.google.com and not sites.google.com. The difference is that anyone with a Google account can create a website on sites.google.com. And that is exactly what the cybercriminals did. Attackers increasingly use Google Sites to host phishing pages because the domain appears trustworthy to most users and can bypass many security filters. One of those filters is DKIM (DomainKeys Identified Mail), an email authentication protocol that allows the sending server to attach a digital signature to an email. If the target clicked either “Upload additional documents” or “View case”, they were redirected to an exact copy of the Google sign-in page designed to steal their login credentials. Your Google credentials are coveted prey, because they give access to core Google services like Gmail, Google Drive, Google Photos, Google Calendar, Google Contacts, Google Maps, Google Play, and YouTube, but also any third-party apps and services you have chosen to log in with your Google account. The signs to recognize this scam are the pages hosted at sites.google.com which should have been support.google.com and accounts.google.com and the sender address in the email header. Although it was signed by accounts.google.com, it was emailed by another address. If a person had all these accounts compromised in one go, this could easily lead to identity theft.

How to avoid scams like this

Don’t follow links in unsolicited emails or on unexpected websites.

Carefully look at the email headers when you receive an unexpected mail.

Verify the legitimacy of such emails through another, independent method.

Don’t use your Google account (or Facebook for that matter) to log in at other sites and services. Instead create an account on the service itself.

Technical details Analyzing the URL used in the attack on Nick, (https://sites.google.com[/]u/17918456/d/1W4M_jFajsC8YKeRJn6tt_b1Ja9Puh6_v/edit) where /u/17918456/ is a user or account identifier and /d/1W4M_jFajsC8YKeRJn6tt_b1Ja9Puh6_v/ identifies the exact page, the /edit part stands out like a sore thumb. DKIM-signed messages keep the signature during replays as long as the body remains unchanged. So if a malicious actor gets access to a previously legitimate DKIM-signed email, they can resend that exact message at any time, and it will still pass authentication. So, what the cybercriminals did was: Set up a Gmail account starting with me@ so the visible email would look as if it was addressed to “me.” Register an OAuth app and set the app name to match the phishing link Grant the OAuth app access to their Google account which triggers a legitimate security warning from [email protected] This alert has a valid DKIM signature, with the content of the phishing email embedded in the body as the app name. Forward the message untouched which keeps the DKIM signature valid. Creating the application containing the entire text of the phishing message for its name, and preparing the landing page and fake login site may seem a lot of work. But once the criminals have completed the initial work, the procedure is easy enough to repeat once a page gets reported, which is not easy on sites.google.com. Nick submitted a bug report to Google about this. Google originally closed the report as ‘Working as Intended,’ but later Google got back to him and said it had reconsidered the matter and it will fix the OAuth bug.

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

Embedded Hardware Design Services Transforming Wearable Technology Development

Wearable technology has rapidly evolved into an integral part of daily life, shaping industries ranging from healthcare and fitness to entertainment and communication. At the heart of these innovations lies embedded hardware design, the backbone that ensures the functionality, efficiency, and scalability of these devices. With the increasing demand for smarter, smaller, and more efficient wearable tech, embedded hardware design services have become a game-changer in wearable technology development.

The Role of Embedded Hardware Design in Wearable Devices

Embedded hardware design is pivotal in the development of wearable technology. Wearables like smartwatches, fitness trackers, and medical devices require precise hardware that can seamlessly integrate with software, delivering reliable performance while maintaining a compact form. From sensors that measure heart rate and sleep patterns to processors that manage data, every component must work harmoniously within a small, efficient device.

At the core of embedded hardware design lies the design and integration of the system-on-chip (SoC), microcontrollers, sensors, power management units, and communication interfaces. These components are tailored to fit the specific needs of the wearable technology while ensuring they are energy-efficient and capable of handling various tasks without compromising on performance.

Embedded hardware design services focus on creating these tailored solutions, making wearables not only functional but also capable of offering high-performance levels while keeping the devices lightweight and comfortable for users. Moreover, the constant advancement of these services enables engineers to incorporate new innovations, such as advanced sensors, wireless communication protocols, and better battery technologies.

Meeting the Challenges of Wearable Technology Design

Designing hardware for wearable devices comes with a unique set of challenges. One of the most pressing concerns is power efficiency. Wearables often require long battery life while offering features like continuous health monitoring, GPS tracking, and real-time notifications. Achieving the right balance between power consumption and performance is a critical factor in designing wearable hardware. Embedded hardware design services provide custom solutions that integrate power-saving technologies, such as low-power microcontrollers and energy-efficient sensors, to extend the lifespan of these devices.

Another challenge in wearable technology design is miniaturization. Wearables must remain compact and lightweight, which means that every component must be optimized for size without sacrificing performance. Embedded hardware design services work to ensure that components are as small and efficient as possible, using cutting-edge techniques like system-in-package (SiP) or integrated circuits (ICs) to minimize the size of the hardware.

In addition to size and power, wearables must also prioritize durability and comfort. For example, medical wearables must withstand constant use and environmental conditions while remaining comfortable on the user’s body. Designers use robust materials, waterproof enclosures, and flexible circuits to ensure the wearables are both durable and user-friendly.

Embedded Hardware Design Enhances Performance and Scalability

Wearable devices are evolving to offer an increasing array of features, such as health monitoring, biometric sensing, and augmented reality capabilities. Embedded hardware design services ensure that these devices can handle the growing complexity of tasks without performance degradation.

As wearables become more sophisticated, hardware design must support additional functionality while maintaining high performance. This is achieved through the integration of more powerful processors, improved memory management, and advanced connectivity options such as Bluetooth, Wi-Fi, and 5G. The result is a wearable that not only performs essential functions but also provides the flexibility to expand its capabilities over time.

The scalability of embedded hardware design services allows manufacturers to adapt their wearable devices to different markets and user needs. Whether designing a fitness tracker for athletes or a medical device for chronic disease management, embedded hardware design ensures that each device can meet the specific demands of its target audience while being prepared for future upgrades and innovations.

The Impact of Embedded Hardware Design on Health and Wellness Wearables

One of the most significant areas of wearable technology development is health and wellness. With advancements in embedded hardware design, wearable devices can now monitor a range of health metrics, including heart rate, blood oxygen levels, sleep quality, and even electrocardiograms (ECGs). These devices provide real-time feedback, allowing users to track their health and make informed decisions.

Embedded hardware design services enable the development of these health-monitoring capabilities by incorporating specialized sensors, such as bio-sensing electrodes and optical sensors, into wearables. These sensors collect accurate data and transmit it to the device’s processor for analysis. The design also ensures that these sensors are compatible with other health-focused applications, creating a seamless ecosystem that empowers users to take control of their well-being.

In addition, wearables designed for healthcare must meet regulatory standards, such as FDA approval for medical-grade devices. Embedded hardware design services focus on ensuring compliance with these standards while maintaining device performance, security, and user experience.

Transforming Consumer Experiences with Wearable Technology

Beyond health and wellness, wearable devices are revolutionizing how people interact with technology in their everyday lives. From smartwatches that offer notifications and call management to augmented reality glasses that provide immersive experiences, embedded hardware design is at the core of these innovations.

Embedded hardware enables seamless integration between hardware and software, making these devices more intuitive and user-friendly. By designing efficient communication interfaces, like near-field communication (NFC) and Bluetooth, hardware designers enable wearables to communicate with other devices such as smartphones, smart home systems, and even cloud-based platforms.

This interconnectedness transforms how users interact with their environment. For example, a smart fitness tracker can sync with a smartphone app to deliver personalized workout recommendations, while an augmented reality headset can offer real-time directions, all powered by embedded hardware design services that ensure optimal device performance.

The Future of Embedded Hardware Design in Wearables

The future of wearable technology hinges on continuous advancements in embedded hardware design. As the demand for more advanced features grows, hardware engineers are exploring new frontiers such as flexible electronics, artificial intelligence (AI) integration, and edge computing.

Flexible electronics, which can be integrated into clothing or worn directly on the skin, are opening new possibilities for wearables that are even more comfortable and inconspicuous. Artificial intelligence can be embedded directly into wearable devices, allowing them to learn from user behavior and adapt in real-time, offering more personalized experiences. Meanwhile, edge computing allows wearables to process data locally, reducing latency and improving response times.

Embedded hardware design services are essential in making these innovations a reality, allowing for the development of next-generation wearables that are more intelligent, efficient, and capable of meeting the evolving needs of consumers.

Embrace the Future of Wearable Technology with Expert Embedded Hardware Design Services

The transformative potential of embedded hardware design in wearable technology is undeniable. As the demand for smarter, more efficient wearables continues to rise, partnering with expert embedded hardware design services ensures that your wearable devices are built to deliver cutting-edge performance, scalability, and user satisfaction. Whether you are developing health-focused wearables, fitness trackers, or next-generation smart devices, the right embedded hardware design services can help you unlock endless possibilities.

Ready to bring your wearable technology vision to life? Explore the power of embedded hardware design services and take the next step in creating innovative, high-performance wearables that will shape the future of technology.

Strange Tales (1951) #150

Redefine Customer Engagement with AI-Powered Application Solutions

In today’s digital landscape, customer engagement is more crucial than ever. ATCuality’s AI powered application redefine how businesses interact with their audience, creating personalized experiences that foster loyalty and drive satisfaction. Our applications utilize cutting-edge AI algorithms to analyze customer behavior, preferences, and trends, enabling your business to anticipate needs and respond proactively. Whether you're in e-commerce, finance, or customer service, our AI-powered applications can optimize your customer journey, automate responses, and provide insights that lead to improved service delivery. ATCuality’s commitment to innovation ensures that each AI-powered application is adaptable, scalable, and perfectly aligned with your brand’s voice, keeping your customers engaged and coming back for more.

Unlocking the Full Potential of Life Science Imaging with 4K USB Camera

In the quickly developing field of life sciences, imaging technology is essential for teaching, research, and diagnosis. The ability to collect and study biological specimens in high resolution has changed how scientists and researchers work, especially when using a 4K USB camera. This article examines the uses and advantages of 4K USB cameras in life science imaging, showing how they open up new avenues for both practitioners and researchers.

4K Imaging Technology's Benefits

Improved Clarity and Intricacy

The great resolution of a 4K USB camera is one of its biggest benefits. Four times as much detail is captured by 4K cameras than by HD cameras, thanks to their resolution of 3840 x 2160 pixels. For life science imaging, where catching minute details might be the difference between a good diagnosis and an error, this improved resolution is essential. 4K cameras provide precise capture of all details, including cellular structures, tissue samples, and complex biological processes, empowering researchers to make more informed decisions.

Enhanced Depth and Accuracy of Color

Apart from resolution, 4K USB cameras provide enhanced depth and color accuracy. This is especially significant in the life sciences, since the ability to distinguish between various biological components can depend on precise color representation. 4K cameras give images that represent true-to-life colors because of their improved sensor technology and wider color gamut, which improves the interpretability of the recorded data. Applications like pathology, microbiology, and histology require this level of precision.

Adaptable Uses for Life Science Imaging

Investigation and Creation

The flexibility of 4K USB cameras in research environments enables scientists to precisely and clearly record experiments and discuss results. Long-term investigations are made easier by the use of high-definition imaging, which is essential for tracking changes in biological specimens over time. The creation of novel treatments and therapies is aided by the capacity to obtain precise images of morphological changes, dynamic processes, and cellular interactions.

Pathology and Diagnostics

The use of 4K USB cameras in diagnostic procedures greatly improves the quality of imaging studies conducted in clinical settings. High-resolution images can be used by pathologists to assess tissue samples, find anomalies, and make more accurate disease diagnoses. Because 4K cameras capture higher quality images, there is a lower chance of misdiagnosis and early disease detection, which improves patient outcomes.

Instruction and Practice

4K USB cameras offer educational institutions an interesting approach to instructing pupils in the biological sciences. High-quality photos and films can improve educational opportunities by letting students see complex biological processes and structures in action. Additionally, teachers can include these vivid visuals into their lesson plans to help students better learn and retain difficult subjects.

Simplified Process and Integration

Simple Usability and Connectivity

The simplicity of usage and connectivity of 4K USB cameras is another important advantage. For labs wishing to expand their imaging capabilities, USB cameras offer a smooth transition because they are simple to incorporate into current imaging systems and software. Due to their plug-and-play design, researchers don't need a lot of setup or configuration time to rapidly set up and start taking high-definition photographs.

Economical Resolution

Purchasing 4K USB cameras might also be an affordable way to achieve imaging for life science applications. USB cameras are more reasonably priced without compromising on quality when compared to more conventional high-end image equipment. This accessibility makes high-quality life science imaging more widely available across a range of research domains by enabling more laboratories and institutions to modernize their imaging technologies.

Overcoming Imaging Obstacles in Life Science

Overseeing the Processing and Storage of Data

While there is no denying the advantages of 4K USB cameras, researchers also need to take into account the difficulties that come with high-resolution images, especially when it comes to processing and data storage. For image analysis, 4K images' huge file sizes necessitate suitable storage options and potent processing capability. But new developments in data processing and cloud storage are easing some of these worries and facilitating more efficient data management for researchers.

Maintaining Image Quality

In addition, researchers need to consider elements like lighting and camera placement that can have an impact on image quality in order to fully realize the potential of 4K USB cameras. Researchers should make an investment in high-quality lighting solutions to go along with their imaging setups since proper lighting is crucial for catching the smallest details. To guarantee that researchers receive the greatest findings from their imaging systems, it is also feasible to further improve image quality by knowing the ideal locations and camera calibrations.

A New Era in Life Science Imaging, in Conclusion

With 4K USB cameras' unmatched resolution, color accuracy, and adaptability, life science imaging has advanced significantly with their integration. The possible applications are many and varied, ranging from strengthening research capacities to enhancing diagnostic accuracy and educational experiences. Researchers, doctors, and educators can open up new avenues for learning, innovation, and discovery in the biological sciences by embracing this technology. With the potential offered by 4K USB cameras, the future of life science imaging appears more promising than ever as technology advances.

Purchasing this cutting-edge imaging technology not only improves current practices but also creates opportunities for future discoveries in understanding and exploring the intricate field of life sciences. In the future, cutting-edge research combined with high-definition imaging will surely provide amazing discoveries and insights that will influence the fields of biology and medicine.

https://www.vadzoimaging.com/product/ar1335-4k-autofocus-usb-3-0-camera

Smart Labels: The Game-Changer for Innovative and Secure Packaging

Embrace the next generation of packaging by stepping into the future with smart label packaging and smart labels that bring unparalleled innovation to your products. These cutting-edge solutions go beyond traditional labeling, offering advanced functionalities that enhance both the security and efficiency of your operations.

One of the most significant advantages of this technology is the integration of smart label QR codes and smart label tracking systems. These features allow you to track your products in real time, providing you with valuable insights into their journey from production to the hands of your customers. This enhanced visibility not only streamlines your supply chain but also fortifies your brand's security by reducing the risk of counterfeiting and theft.

Smart packaging is more than just a trend—it's a revolutionary approach that incorporates smart labels and packaging solutions to create a seamless and interactive experience for both businesses and consumers. By leveraging Technology-Based Smart Labels, you can achieve superior results in terms of product authenticity, traceability, and consumer engagement. These labels can carry a wealth of information, from product details and usage instructions to promotional offers, all accessible through a simple scan.

Partnering with top Smart Labels companies and Smart Labels Manufacturers is key to staying ahead in this rapidly evolving industry. These industry leaders provide access to the latest innovations, including smart labels Tamper-Evident Labels, which ensure your products remain secure throughout their lifecycle. Additionally, smart storage QR labels offer a smart way to manage inventory, while qr code smart labels technology enables instant access to essential product information, enhancing both the user experience and product security.

By integrating these advanced smart label technologies into your packaging, you’re not just adopting a new trend—you’re setting a new standard for innovation, security, and consumer engagement in your industry. This forward-thinking approach will position your brand as a leader in the market, ensuring that you stay competitive and relevant in the eyes of your customers.

Feels Like Trouble

pairing: Dr. Michael “Robby” Robinavitch x F!Doctor!Reader summary: You and Robby have been secretly dating for a while now. Most of the ER is clueless—except the five people who could probably write dissertations on your dynamic. Enter a frat boy med student with too much confidence and not enough self-awareness. Robby? Jealous. You? Oblivious. Everyone else? Watching the drama unfold like it's peak primetime television. warnings: cringe flirting, depiction of boundary-pushing behavior, mutual pining, protective!Robby genre: fluff, slow burn, banter, crack vibes, emotional constipation, robbie's love language is acts of service, strong!reader energy because women run the world word count: 6.3k a/n: robby in his protective, simmering, quietly feral era + men anticipating my needs without me having to ask is my roman empire. p.s. also check out my other Dr. Robby fics (Not Enough | And Through It All) if you're interested <3

It started at the nurses’ station.

You were finishing up notes from a back-to-back shift, hair a mess, sleeves rolled, running purely on caffeine and spite. You barely registered the med student who leaned in a little too close—Jackson, of course. Jackson, who everyone knew had barely scraped through med school with a transcript that looked like a cry for help and a reputation for quoting his frat days like gospel. Jackson, who thought calling women 'Doc' in a tone meant to charm was somehow endearing. So, yeah. Not a great dude, to say the absolute least.

"Hey, Dr. L/N," Jackson said with that ever-present grin, leaning just a little too close. "You, uh... ever take pity on exhausted interns and grab a drink after shift?"

You gave a polite smile. "I’m not really a spirits person, but thanks."

Jackson blinked. "Huh?"

"You said drink, right? I’m more of a coffee or tea girl. Caffeine over cocktails."

He opened his mouth like he was going to try again, but you were already turning back to your chart.

"Good luck today!" you said cheerfully, not noticing the groan from your colleagues. Just around the corner, Mateo muttered to Javadi, "That’s the fourth time this week. It’s painful, man."

Javadi sipped her carton of apple juice with focused precision, attention directed solely on your ability to brush off such obvious advances without it getting in the way of your work. "Seventh, actually. If you count the half-made attempt on Monday. She's bulletproof."

"Try Jackson-proof," Mateo scoffed.

Two beds down, King leaned over to Langdon with her gloved hands clasped and asked, "Why does Jackson keep hovering around Dr. L/N like a... rabid mosquito?"

Langdon just smiled knowingly, looking over to the nurses' station where the man of the hour sat. "Don’t worry. Robby'll take care of it. Eventually."

Unbeknownst to you, Robby had been watching the entire interaction—and every interaction before that. If any med student so much as breathed near you with less-than-pure intentions, he was up in arms, ready to intervene at a moment's notice.

There was that time Whitaker nearly took your eye out when a patient came in with a nail embedded in his femur; the force of pulling it out snapped Whitaker’s elbow backward—only for Robby's hand to catch it mid-swing before it could clock you in the face. Or when Santos nearly sliced your finger open as you gently guided her through her first incision—Robby had materialized behind her in the span of a gasp, steadying her hands with a calm correction that masked sheer panic. Or when Javadi passed out for the second time during a gnarly pelvic realignment and collapsed straight into you, nearly giving you a concussion from her deadweight—Robby had been there then, too, catching you both with lightning reflexes and barely concealed fury.

At this point, the only person in the hospital who hadn’t triggered Robby’s internal security system was Mel. And that was only because she kept a respectful three-foot radius and shared snacks with you during breaks. The two of you had a quiet little tradition—inviting her out to try the new cat café when it opened downtown, or attending weekend adoption events together like it was a team-building exercise. Langdon once joked that she was the third wheel in the most wholesome slow-burn romcom he'd ever seen. Mel's only response was two blinks and a single nod of acknowledgement.

Everyone in the ER noticed your dynamic—the way you and Robby worked together like a well-oiled machine, never needing to speak aloud to know what the other needed. It was intuitive. Rhythmic. Like watching a dance you’d been rehearsing for years.

Still, only a handful of people actually knew about your relationship. Abbot, Collins, McKay, Dana, Langdon, and Mel.

Abbot had been Robby’s sounding board from the very beginning. Back when Robby was still pacing around the break room, torn between professionalism and the undeniable, slow-burning pull he felt toward you, it was Abbot who told him to get over himself and ask you out. Life was too short for regrets.

Collins, McKay, and Dana didn’t know officially—but they knew. The meaningful glances, the subtle handoffs of coffee, the shared silences that were too loaded to be casual. They never said a word because they lived for the soap-opera-worthy drama of it all.

Langdon and Mel were on the same wavelength. They hadn’t caught you red-handed, but their spidey senses were borderline clairvoyant. They never probed, never asked. Just watched it unfold like a plotline they already knew the ending to.

Besides them, the rest of the department remained blissfully unaware—except for the way Robby’s entire demeanor shifted over a year ago. A quiet warmth started to replace his usual stoicism. People credited it to the anonymous private donation made to the ER around the same time.

But the truth was, it had nothing to do with money.

It was you. 

You, of course, were oblivious to whatever other people thought or said—unless it had something to do with your patients. Robby sometimes joked that you were pathologically unbothered, something he made a mental note to ask you about, and he wasn’t wrong. The rumors from the nurses, the looks from the interns, the knowing smirks from Dana or Langdon? All of it flew over your head like air traffic.

Maybe you just didn’t see it. Didn’t see how Robby’s entire world seemed to tilt when you entered a room. How effortlessly the two of you moved in sync like second nature—side by side in trauma bays, tossing instruments, treatment plans, and glances back and forth like muscle memory. Everyone else could see it.

You were always focused on the next decision, the next step, the next person who needed your help. You didn’t think about what you needed until the shift was over—if ever. Your well-being came last, always.

But not to Robby. Never to Robby.

He noticed everything.

The slump in your shoulders. The faint crease in your forehead when a headache was starting to set in. He knew when you were on the verge of running on empty, when your patience was thinning, when you hadn’t eaten since sunrise. He never made a show of it. He just acted.

He didn’t wait for you to ask. He didn’t expect you to remember to need anything.

Because he already knew. He just... knew.

Your coffee, brewed and sweetened exactly how you liked it, would be waiting for you at the nurses’ station first thing in the morning. A second cup at lunch—always packed, always hot, even if you never had time to drink it. He’d drop it off like it was routine, like it was no big deal, because he knew the odds of you being pulled into another case mid-sip were astronomical.

Your favorite sandwich from the cafeteria, left quietly on your desk with a sticky note that said, “Eat this or I’m calling your mother.” You'd sooner pass out from hunger than remember to eat. He knew that. So he took the thinking out of it for you.

And after the longest days—those days where you'd made a thousand decisions, answered a hundred questions, led back-to-back codes—he’d cook dinner at his place. Quietly, without fanfare, and pieced together with the same kind of intention you gave your patients. He’d hand you a glass of water—because that was one other thing that you along with 80% of the population deprived yourself of—and steer you to the couch while he handled the rest. Just so you could turn your brain off.

You never asked, never had to, yet he always knew.

You’d just been snapped back to the present by the sound of an unwelcome familiar voice—again.

"Dr. L/N," he said, sidling up to you again with that same confident grin—clearly not deterred by every failed attempt before. "I’ve got a list of mocktails that might just change your mind. Pretty creative, right? I googled it during lunch. There’s this one with lychee and—"

You blinked at him slowly, like you were buffering.

"Jackson," you said, voice firmer this time, "I don’t even have time to finish a protein bar most days, let alone entertain another pitch for drinks. You’re taking time away from my patients, my patients. I sincerely hope you don’t treat them the same way—ignoring their boundaries and refusing to take no for an answer."

You didn’t say it harshly. Just plainly. Clearly and finite. Like a diagnosis that needed no follow-up.

Across the room, Robby pulled down his glasses as his lip quirked up into a slow, private smirk. Pride bloomed across his face so fast he had to duck his head behind a chart to hide it. He knew better than to coddle you. The mutual discomfort and stifled reactions from the staff were one thing. Watching you handle yourself like that? That was something else entirely.

From across the nurses’ station, the staff collectively cringed like someone had just dropped a post-op surgical tray. Santos and Mateo physically turned away to hide their budding laughter. Javadi buried her face in her sleeve, secondhand embarrassment blooming. Mohan took off at a brisk pace to see a patient. Whitaker closed his eyes and mouthed a silent prayer to the ceiling. Meanwhile, Dana, McKay, and Collins couldn’t look away if they tried, pressing down their grins and wishing they'd brought popcorn. Langdon sipped his coffee like it was a box-office premiere. King, ever diligent, kept her focus on irrigating her patient’s wound—Langdon would fill her in later with full commentary. Before you could continue���

"Dr. L/N," your savior called, tone light but cutting through the air like a scalpel—just loud enough to interrupt whatever nonsense Jackson was about to say next.

You turned and there he was.

Dr. Robby—your chaos compass, your caffeinated partner in crime, loyal boyfriend, favorite soon-to-be roommate, and at the moment, your very composed but unmistakably irritated attending—his expression perfectly calm to the untrained eye, but you could read the tension in every line of his face.

"Got a case," he said flatly. "Now. Come on."

You blinked, confused but relieved. "Okay."

You didn’t miss the way Jackson shrank a little at Robby’s tone, nor the way Langdon grinned over his coffee like he'd just won a bet. You caught up to him by the supply closet, where he all but dragged you inside and shut the door behind you.

"What's up?" you asked, eyebrow raised.

He stared at you, a little too intently, like he wasn’t sure whether to scold you or wrap you in bubble wrap. "Are you seriously asking me that after that guy just tried to chat you up in the middle of the ER like this is Grey’s Anatomy?"

You blinked, tilting your head. "Wait… was that flirting?"

Robby blinked back. "You’re joking."

You were. "I thought he just wanted to split an energy drink or something."

He huffed a quiet laugh, some of the tension bleeding from his shoulders as his hands came up to ruffle his hair. "Jesus."

You poked his chest lightly. "You’re kind of cute when you’re flustered, you know that?"

His ears went red immediately. "I’m not flustered. I’m... professionally annoyed."

You blinked. "You’re jealous?"

"I’m not jealous," he said tightly. "I’m—concerned."

You grinned, stepping close. "Concerned is hot."

"He was twelve."

"He's definitely at least twenty-six."

Robby exhaled through his nose. "I’ve been very chill about this whole 'let’s not tell the hospital we’re dating' thing. But if I see him so much as come within two feet of you again, I’m submitting a formal notice that you are very much taken and a complaint with HR about his behavior. And if that doesn’t work—" he leaned in closer, voice dropping—"I’m dealing with him myself."

You raised an eyebrow, lips twitching into a smirk. "What’s that going to look like—are you gonna slam your clipboard down and tag team him with Abbot? Because honestly, I wouldn’t hate that."

Your voice was teasing, but your cheeks were warm. Watching Robby get territorial from a respectful distance? Unexpectedly hot. And now, you couldn’t help but push his buttons to see how much more riled up he’d get.

He didn’t answer. Just leaned in slowly, deliberately, raising both of his arms to cage you in—palms flat against the wall on either side of your head. The move sent heat straight to your cheeks, blinking up at him as he leaned closer, so close his breath brushed your lips.

Then he kissed you—hard and fast and possessive, his hands sliding up into your hair, threading through it with the kind of reverence that made your knees go weak. You gasped softly into his mouth, one hand instinctively rising to cup his jaw, your fingers grazing the edge of his beard before curling into the softness of it. He leaned into your touch, like he’d been waiting for it all day.

Your other hand slid up into his hair, tugging gently at the strands at the nape of his neck, and you felt it—the way his pulse thrummed just beneath your fingertips, the way he shivered just slightly at your touch.

His thumbs caressed the line of your jaw, then drifted down to the curve of your neck, holding you like you might slip away if he wasn’t careful.

It was fire and softness, urgency wrapped in warmth. And you never wanted to stop.

When you finally pulled back, you were both breathless. "Is that allowed in a supply closet?" you smirked. 

"If they didn’t want people kissing in here, they wouldn’t make it this conveniently located."

You smacked his arm, giggling.

"I’m serious," he added, voice softening but maintaining a firm undertone. "I don't share."

You looped your arms around his neck. "Good. I wasn’t offering."

He grinned, still close enough that you could feel the warmth of his breath against your skin. "That thing you said back there—about boundaries, about respect." He paused, eyes scanning yours. "That was... incredible. Seriously. You handled it perfectly."

Your brows furrowed for a moment, caught off guard by the sincerity in his voice.

"It was... commanding," he added a moment later, voice lower, more playful now. "Alluringly so."

You snorted. "You're ridiculous."

"Yeah," he agreed, pulling you closer to pepper your face with kisses. "Ridiculously in love with a woman who knows exactly how to shut down frat boys without breaking stride, resuscitate half the ER, deliver excellent patient care, and still make rounds on time."

His hand slid down your back, warm and steady. "You’re the whole damn package, you know that? It’s genuinely unfair."

You chuckled, burying your face briefly in his shoulder.

Somewhere down the hall, Dana's voice rang echoed through the PA, summoning you for the consult. Robby groaned, forehead dropping to your shoulder.

"This is not over," he muttered.

You kissed the corner of his mouth, a smirk following soon after where your lips lingered. "Got any dinner plans?"

Robby raised an eyebrow, but there was a hint of a smile tugging at his lips. "Actually, yeah. I’ve got a date—with my incredibly beautiful, breathtaking, beyond intelligent, and painfully witty girlfriend."

You blinked at him, then laughed, delighted. "Wow. Sounds like a catch."

He leaned in and bumped his nose against yours, grinning. "She really is. And I think she’s about to say yes."

You didn’t say anything at first. Just smiled, so full of affection it made your cheeks ache. Then you nodded, brushing your thumb gently along his cheekbone.

"Yeah," you whispered, "she definitely is."

Embedded Security Market Forecast: Key Trends and Industry Dynamics to 2028

The embedded security market is experiencing significant growth, driven by the increasing need to secure Internet of Things (IoT) devices and embedded systems across various industries. As digital transformation accelerates, the protection of sensitive data and systems has become crucial, fueling demand for advanced embedded security solutions.

Market Size and Analysis

The embedded security market is projected to grow from USD 7.4 Billion in 2023 to USD 9.8 Billion by 2028, at a compound annual growth rate (CAGR) of 5.7% during the forecast period. This growth is attributed to the rising adoption of IoT and connected devices across industries, necessitating robust security measures to protect against cyber threats. Key sectors driving this demand include automotive, healthcare, and industrial automation, where the integration of embedded security is essential for safeguarding data and ensuring operational integrity.

Download PDF Brochure: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=63839062

Market Trends

Several trends are shaping the embedded security market. One prominent trend is the increasing incorporation of hardware security modules (HSMs) and secure elements (SEs) in IoT devices to provide robust encryption and secure key storage. Additionally, the automotive sector is witnessing significant adoption of embedded security solutions, driven by the rise of connected and autonomous vehicles that require advanced security to protect against hacking and ensure passenger safety. Furthermore, the healthcare industry is integrating embedded security to protect sensitive patient data and ensure the integrity of medical devices.

Industry Dynamics

The embedded security market is characterized by the presence of key players such as Infineon Technologies, NXP Semiconductors, and STMicroelectronics, who are continuously innovating to provide advanced security solutions. These companies are focusing on developing integrated security solutions that combine hardware and software capabilities to offer comprehensive protection. The market is also seeing collaborations and partnerships aimed at enhancing security standards and addressing the evolving threat landscape. For instance, collaborations between semiconductor companies and cybersecurity firms are becoming increasingly common to develop more resilient embedded security solutions.

The embedded security market is poised for robust growth, driven by the increasing need to secure IoT devices and embedded systems. With advancements in security technologies and rising awareness of cybersecurity threats, the market is expected to witness significant developments, offering lucrative opportunities for industry players.

Tonight, the night before Election Day 2024 in the US, I am thinking about my stepkid.

I am thinking about the phone call they made to us earlier this year, the one where they told us they'd gone to the hospital thinking they had appendicitis and found out, instead, that a zygote - a tiny splodge of cells - had taken up residence not in their uterus but in a fallopian tube. The one where our kid said they were waiting for their partner to arrive, hoped that said partner would get there before the docs took our kid back to terminate that pregnancy, & assured us that they'd be okay.

After all, our kid lives in a state with choice measures embedded in state law. That pea-sized blot of tissue doesn't have more right to their health than they do. Nobody is standing between them and their doctors. They made a decision, and that was that.

In this tiny tragedy, the kind that plays out dozens of times a day at minimum across the country, we only had to worry about the small risk of surgery complications. We didn't have to worry about Ken Paxton threatening to charge their doctors with felonies. We didn't have to think, "What if the hospital's legal team doesn't think an ectopic pregnancy - which is never ever viable and must be terminated before it kills our kid - is really that big of a deal?" We didn't have to worry that they live in a state where ob-gyns are fleeing, leaving few experts behind, as has happened in Idaho.

We didn't have to watch our kid vomit up black blood before dying the day after their baby shower the way Neveah's mom did. We didn't have to pray in a waiting room (while doctors took our kid apart until their heart stopped because the doctors waited too long out of fear of anti-choice laws) until a doctor came to tell us we'd have to bury them the way that Amber's mom did. We aren't having to pick up our lives after fully treatable miscarriage-related sepsis took them from us the way that Josseli's husband and daughter must.

I could go on for far, far too long.

Listen. If you are a single-issue non-voter and have already decided that "both parties are the same" or whatever other thing you've told yourself so you can sleep at night, smug and secure, then I can't reach you and I can't help you. But if you genuinely think that your votes don't matter, if you're just suffering from a bout of overwhelm or apathy, if you're too young to remember the 2000 election and can't see that Dobbs is a direct result of that election and every one that's followed, please, I am fucking begging you.

I didn't really talk about this when it happened. I mentioned something briefly, maybe. The posts I've started writing about it are still in my drafts. It was too fresh, too frightening. It's not any less frightening now, honestly - because if this week doesn't end with President Kamala Harris, we're headed for a national abortion ban, at the minimum - but it's not about how fucking frightened I was or how sad and bewildered I was to realize that my kid was going through this crisis in a nation more hostile to them than when I needed a D&C for an abortion at 21, in 1998.

It's about stopping this chapter of this fucking bullshit and at least finding some new fucking bullshit.

Vote, dammit.

Do the other work on Wednesday. Tomorrow, the work is to vote.

If you get an error message about a security breach on a work with embedded audio or video, don't be alarmed! The embed is hosted on the Internet Archive, which is under attack by hackers. AO3 is not affiliated with the Internet Archive and has not been directly affected.

Posted: October 11, 2024 03:42 UTC