You know what’s many times worse than generative AI existing? Accusing real scientists and artists’ work of being AI generated.

If I find out my work is being fed into a generative AI training set, I squirm and resolve to fight the government.

If I get accused of my work being AI generated, I literally stop doing art or research for a week because well I guess I don’t exist for a reason if what I thought was good is basically on the level of AI now. Just replace me already.

FUCK OFF! Don’t publicly call out any specific person or work (yes even if it’s a repost) unless you have proof. It is not worth ruining a scientist or artist’s career.

there's often people being like "actually being anti-AI is just reactionary contrarianism and fear of progress and technology" as a way to like... make people think it's shameful & you should be more nuanced and whatnot but like

if being anti-AI is old man yells at cloud behavior then i'm growing a gandalf beard and angrily waving a cane at the sky until i stop breathing i do Not care if that makes me an uncool unhip neoboomer with bad takes. fuck gen AI

maybe it’s all gonna be ok maybe ai will lead to more human-created art not less maybe humanity’s spirit will survive itself once again

i just had to take this ai personality test to submit a job application (to be a bartender).

ngl while it's good that people are becoming more wary of new technologies and would rather take their time with integrating it into their daily lives I do fear that the climate of tumblr is turning many people into technophobes

.

I can confidently say that the worst thing about AI generated images is that the first thing I always think of when I see them is "wow, that's impressive tech".

I never, ever, think "wow, that's good art". It never moves me. Never makes me think. When I look at it, all I see is a really, really advanced computer doing tricks. And like I said, those tricks are impressive. After all, the level of complexity a machine capable of doing such a trick is incomprehensibly high.

But that's it. That's all there is to it. It's good tech. It's not art. It's never art.

Your Guide to B.Tech in Computer Science & Engineering Colleges

In today's technology-driven world, pursuing a B.Tech in Computer Science and Engineering (CSE) has become a popular choice among students aspiring for a bright future. The demand for skilled professionals in areas like Artificial Intelligence, Machine Learning, Data Science, and Cloud Computing has made computer science engineering colleges crucial in shaping tomorrow's innovators. Saraswati College of Engineering (SCOE), a leader in engineering education, provides students with a perfect platform to build a successful career in this evolving field.

Whether you're passionate about coding, software development, or the latest advancements in AI, pursuing a B.Tech in Computer Science and Engineering at SCOE can open doors to endless opportunities.

Why Choose B.Tech in Computer Science and Engineering?

Choosing a B.Tech in Computer Science and Engineering isn't just about learning to code; it's about mastering problem-solving, logical thinking, and the ability to work with cutting-edge technologies. The course offers a robust foundation that combines theoretical knowledge with practical skills, enabling students to excel in the tech industry.

At SCOE, the computer science engineering courses are designed to meet industry standards and keep up with the rapidly evolving tech landscape. With its AICTE Approved, NAAC Accredited With Grade-"A+" credentials, the college provides quality education in a nurturing environment. SCOE's curriculum goes beyond textbooks, focusing on hands-on learning through projects, labs, workshops, and internships. This approach ensures that students graduate not only with a degree but with the skills needed to thrive in their careers.

The Role of Computer Science Engineering Colleges in Career Development

The role of computer science engineering colleges like SCOE is not limited to classroom teaching. These institutions play a crucial role in shaping students' futures by providing the necessary infrastructure, faculty expertise, and placement opportunities. SCOE, established in 2004, is recognized as one of the top engineering colleges in Navi Mumbai. It boasts a strong placement record, with companies like Goldman Sachs, Cisco, and Microsoft offering lucrative job opportunities to its graduates.

The computer science engineering courses at SCOE are structured to provide a blend of technical and soft skills. From the basics of computer programming to advanced topics like Artificial Intelligence and Data Science, students at SCOE are trained to be industry-ready. The faculty at SCOE comprises experienced professionals who not only impart theoretical knowledge but also mentor students for real-world challenges.

Highlights of the B.Tech in Computer Science and Engineering Program at SCOE

Comprehensive Curriculum: The B.Tech in Computer Science and Engineering program at SCOE covers all major areas, including programming languages, algorithms, data structures, computer networks, operating systems, AI, and Machine Learning. This ensures that students receive a well-rounded education, preparing them for various roles in the tech industry.

Industry-Relevant Learning: SCOE’s focus is on creating professionals who can immediately contribute to the tech industry. The college regularly collaborates with industry leaders to update its curriculum, ensuring students learn the latest technologies and trends in computer science engineering.

State-of-the-Art Infrastructure: SCOE is equipped with modern laboratories, computer centers, and research facilities, providing students with the tools they need to gain practical experience. The institution’s infrastructure fosters innovation, helping students work on cutting-edge projects and ideas during their B.Tech in Computer Science and Engineering.

Practical Exposure: One of the key benefits of studying at SCOE is the emphasis on practical learning. Students participate in hands-on projects, internships, and industry visits, giving them real-world exposure to how technology is applied in various sectors.

Placement Support: SCOE has a dedicated placement cell that works tirelessly to ensure students secure internships and job offers from top companies. The B.Tech in Computer Science and Engineering program boasts a strong placement record, with top tech companies visiting the campus every year. The highest on-campus placement offer for the academic year 2022-23 was an impressive 22 LPA from Goldman Sachs, reflecting the college’s commitment to student success.

Personal Growth: Beyond academics, SCOE encourages students to participate in extracurricular activities, coding competitions, and tech fests. These activities enhance their learning experience, promote teamwork, and help students build a well-rounded personality that is essential in today’s competitive job market.

What Makes SCOE Stand Out?

With so many computer science engineering colleges to choose from, why should you consider SCOE for your B.Tech in Computer Science and Engineering? Here are a few factors that make SCOE a top choice for students:

Experienced Faculty: SCOE prides itself on having a team of highly qualified and experienced faculty members. The faculty’s approach to teaching is both theoretical and practical, ensuring students are equipped to tackle real-world challenges.

Strong Industry Connections: The college maintains strong relationships with leading tech companies, ensuring that students have access to internship opportunities and campus recruitment drives. This gives SCOE graduates a competitive edge in the job market.

Holistic Development: SCOE believes in the holistic development of students. In addition to academic learning, the college offers opportunities for personal growth through various student clubs, sports activities, and cultural events.

Supportive Learning Environment: SCOE provides a nurturing environment where students can focus on their academic and personal growth. The campus is equipped with modern facilities, including spacious classrooms, labs, a library, and a recreation center.

Career Opportunities After B.Tech in Computer Science and Engineering from SCOE

Graduates with a B.Tech in Computer Science and Engineering from SCOE are well-prepared to take on various roles in the tech industry. Some of the most common career paths for CSE graduates include:

Software Engineer: Developing software applications, web development, and mobile app development are some of the key responsibilities of software engineers. This role requires strong programming skills and a deep understanding of software design.

Data Scientist: With the rise of big data, data scientists are in high demand. CSE graduates with knowledge of data science can work on data analysis, machine learning models, and predictive analytics.

AI Engineer: Artificial Intelligence is revolutionizing various industries, and AI engineers are at the forefront of this change. SCOE’s curriculum includes AI and Machine Learning, preparing students for roles in this cutting-edge field.

System Administrator: Maintaining and managing computer systems and networks is a crucial role in any organization. CSE graduates can work as system administrators, ensuring the smooth functioning of IT infrastructure.

Cybersecurity Specialist: With the growing threat of cyberattacks, cybersecurity specialists are essential in protecting an organization’s digital assets. CSE graduates can pursue careers in cybersecurity, safeguarding sensitive information from hackers.

Conclusion: Why B.Tech in Computer Science and Engineering at SCOE is the Right Choice

Choosing the right college is crucial for a successful career in B.Tech in Computer Science and Engineering. Saraswati College of Engineering (SCOE) stands out as one of the best computer science engineering colleges in Navi Mumbai. With its industry-aligned curriculum, state-of-the-art infrastructure, and excellent placement record, SCOE offers students the perfect environment to build a successful career in computer science.

Whether you're interested in AI, data science, software development, or any other field in computer science, SCOE provides the knowledge, skills, and opportunities you need to succeed. With a strong focus on hands-on learning and personal growth, SCOE ensures that students graduate not only as engineers but as professionals ready to take on the challenges of the tech world.

If you're ready to embark on an exciting journey in the world of technology, consider pursuing your B.Tech in Computer Science and Engineering at SCOE—a college where your future takes shape.

Enhancing User Experience in Saudi Mobile Apps with AI

In the current digital environment, the triumph of mobile applications is deeply rooted in their user experience (UX). With the rise of artificial intelligence (AI), mobile apps are becoming more intelligent, responsive, and personalized. In Saudi Arabia, where the digital economy is rapidly expanding, integrating AI into mobile app development is not just a trend—it's a necessity. This article delves into how AI is enhancing user experience in Saudi mobile apps, exploring the benefits, challenges, and future prospects.

1. The Role of AI in Mobile App Development

Artificial intelligence (AI) has transformed numerous sectors, and mobile app development is certainly among them. In the context of user experience, AI plays a pivotal role in making apps more intuitive, efficient, and tailored to individual user needs. Whether it's through predictive analytics, natural language processing, or machine learning algorithms, AI enhances every aspect of the user journey.

1.1 Predictive Analytics for Personalized Experiences

One of the key advancements AI has brought to mobile app development is predictive analytics. By analyzing user data, AI can predict future behavior and preferences. This allows apps to offer personalized recommendations, content, and services, thereby improving user engagement and satisfaction.

1.2 Natural Language Processing for Better Interaction

Natural Language Processing (NLP) enables apps to understand and respond to user queries in a more human-like manner. In Saudi Arabia, where Arabic is the primary language, NLP can be particularly beneficial in providing seamless communication between the app and the user. By understanding the nuances of the Arabic language, AI can enhance the overall interaction quality.

1.3 Machine Learning for Continuous Improvement

Machine learning algorithms enable apps to learn from user interactions and continuously improve over time. This means that the more a user interacts with an app, the better the app becomes at meeting their needs. For businesses in Saudi Arabia, this translates to higher customer retention rates and increased loyalty.

2. The Importance of UX in Saudi Arabia's Digital Economy

Saudi Arabia is undergoing a digital transformation, with a significant focus on enhancing the digital economy. Mobile apps are at the forefront of this transformation, serving as key platforms for e-commerce, banking, entertainment, and more. In such a competitive market, delivering a superior user experience is crucial for success.

2.1 User-Centric Design: The Key to Success

A user-centric design approach is essential for creating apps that resonate with the target audience. In Saudi Arabia, this means considering cultural nuances, language preferences, and the unique needs of the local population. By integrating AI into the design process, developers can create apps that are not only functional but also emotionally engaging.

2.2 The Impact of AI on User-Centric Design

AI can analyze vast amounts of data to identify user pain points and preferences. This information can then be used to design more intuitive interfaces, streamline navigation, and offer features that align with user expectations. For example, AI can propose design modifications based on user feedback, ensuring the app stays relevant and user-friendly.

3. AI-Driven Personalization: A Game Changer for User Engagement

Modern user experiences are deeply rooted in personalization. With AI, mobile apps can deliver highly personalized experiences that keep users engaged and satisfied. From personalized content recommendations to tailored notifications, AI-driven personalization is a game changer for user engagement.

3.1 Personalized Content Recommendations

AI-driven algorithms can assess user behavior to suggest content tailored to their preferences. This is particularly valuable in entertainment apps, where users are more likely to engage with content that resonates with them. In Saudi Arabia, where digital content consumption is on the rise, personalized recommendations can significantly enhance user experience.

3.2 Tailored Notifications for Better Engagement

Notifications are a powerful tool for keeping users engaged with an app. However, generic notifications may often be seen as intrusive. AI can help by sending tailored notifications based on user behavior and preferences. This ensures that users receive relevant updates that add value to their experience.

4. Enhancing Mobile App Security with AI

Security is a top concern for mobile app users, especially when it comes to sensitive information such as financial data. AI can enhance mobile app security by detecting and preventing threats in real-time, providing users with a safer experience.

4.1 AI-Powered Fraud Detection

AI can analyze patterns in user behavior to detect fraudulent activities. For example, if an unusual transaction is detected, the app can alert the user and take preventive measures. This is particularly important for financial apps in Saudi Arabia, where trust and security are paramount.

4.2 Ensuring Data Privacy with AI

Data privacy is a significant concern in the digital age. AI can help ensure that user data is handled securely by monitoring data access and usage. By integrating AI into mobile app development, businesses can build trust with their users by demonstrating a commitment to data privacy.

5. The Future of AI in Saudi Mobile Apps

The outlook for AI in mobile app development in Saudi Arabia is exceptionally promising. As AI technology continues to evolve, we can expect even more innovative solutions that enhance user experience.

5.1 AI and Augmented Reality (AR) Integration

One of the most thrilling advancements is the potential for combining AI with augmented reality (AR). This integration promises to create more immersive and interactive experiences by blending digital information with the physical world in real time. This combination can create immersive experiences that blend the digital and physical worlds. For example, AI-powered AR apps can offer personalized shopping experiences, allowing users to virtually try on products before making a purchase.

5.2 Voice-Activated Apps Powered by AI

Voice-activated apps are becoming increasingly popular, thanks to advancements in AI and NLP. In Saudi Arabia, where voice assistants like Siri and Google Assistant are widely used, integrating voice activation into mobile apps can enhance accessibility and user convenience.

Conclusion

AI is transforming the landscape of mobile app development in Saudi Arabia, offering new opportunities to enhance user experience. From personalized content recommendations to advanced security features, AI-driven apps are better equipped to meet the evolving needs of users. As the digital economy in Saudi Arabia continues to grow, businesses that leverage AI in their mobile apps will be well-positioned to succeed in this competitive market.

FAQs

1. How does AI improve user experience in mobile apps?

AI enhances user experience by personalizing content, improving app security, and enabling more intuitive interactions.

2. Why is user-centric design important in Saudi mobile apps?

User-centric design ensures that the app meets the unique needs and preferences of the local population, leading to higher user satisfaction.

3. How can AI enhance mobile app security?

AI can detect and prevent security threats in real-time, ensuring that user data is protected.

4. What is the future of AI in mobile apps?

The future of AI in mobile apps includes the integration of augmented reality and voice activation, offering even more immersive and accessible experiences.

5. Why is personalization important in mobile apps?

Personalization keeps users engaged by delivering content and notifications that align with their interests and preferences.

Toward a code-breaking quantum computer

New Post has been published on https://thedigitalinsider.com/toward-a-code-breaking-quantum-computer/

Toward a code-breaking quantum computer

The most recent email you sent was likely encrypted using a tried-and-true method that relies on the idea that even the fastest computer would be unable to efficiently break a gigantic number into factors.

Quantum computers, on the other hand, promise to rapidly crack complex cryptographic systems that a classical computer might never be able to unravel. This promise is based on a quantum factoring algorithm proposed in 1994 by Peter Shor, who is now a professor at MIT.

But while researchers have taken great strides in the last 30 years, scientists have yet to build a quantum computer powerful enough to run Shor’s algorithm.

As some researchers work to build larger quantum computers, others have been trying to improve Shor’s algorithm so it could run on a smaller quantum circuit. About a year ago, New York University computer scientist Oded Regev proposed a major theoretical improvement. His algorithm could run faster, but the circuit would require more memory.

Building off those results, MIT researchers have proposed a best-of-both-worlds approach that combines the speed of Regev’s algorithm with the memory-efficiency of Shor’s. This new algorithm is as fast as Regev’s, requires fewer quantum building blocks known as qubits, and has a higher tolerance to quantum noise, which could make it more feasible to implement in practice.

In the long run, this new algorithm could inform the development of novel encryption methods that can withstand the code-breaking power of quantum computers.

“If large-scale quantum computers ever get built, then factoring is toast and we have to find something else to use for cryptography. But how real is this threat? Can we make quantum factoring practical? Our work could potentially bring us one step closer to a practical implementation,” says Vinod Vaikuntanathan, the Ford Foundation Professor of Engineering, a member of the Computer Science and Artificial Intelligence Laboratory (CSAIL), and senior author of a paper describing the algorithm.

The paper’s lead author is Seyoon Ragavan, a graduate student in the MIT Department of Electrical Engineering and Computer Science. The research will be presented at the 2024 International Cryptology Conference.

Cracking cryptography

To securely transmit messages over the internet, service providers like email clients and messaging apps typically rely on RSA, an encryption scheme invented by MIT researchers Ron Rivest, Adi Shamir, and Leonard Adleman in the 1970s (hence the name “RSA���). The system is based on the idea that factoring a 2,048-bit integer (a number with 617 digits) is too hard for a computer to do in a reasonable amount of time.

That idea was flipped on its head in 1994 when Shor, then working at Bell Labs, introduced an algorithm which proved that a quantum computer could factor quickly enough to break RSA cryptography.

“That was a turning point. But in 1994, nobody knew how to build a large enough quantum computer. And we’re still pretty far from there. Some people wonder if they will ever be built,” says Vaikuntanathan.

It is estimated that a quantum computer would need about 20 million qubits to run Shor’s algorithm. Right now, the largest quantum computers have around 1,100 qubits.

A quantum computer performs computations using quantum circuits, just like a classical computer uses classical circuits. Each quantum circuit is composed of a series of operations known as quantum gates. These quantum gates utilize qubits, which are the smallest building blocks of a quantum computer, to perform calculations.

But quantum gates introduce noise, so having fewer gates would improve a machine’s performance. Researchers have been striving to enhance Shor’s algorithm so it could be run on a smaller circuit with fewer quantum gates.

That is precisely what Regev did with the circuit he proposed a year ago.

“That was big news because it was the first real improvement to Shor’s circuit from 1994,” Vaikuntanathan says.

The quantum circuit Shor proposed has a size proportional to the square of the number being factored. That means if one were to factor a 2,048-bit integer, the circuit would need millions of gates.

Regev’s circuit requires significantly fewer quantum gates, but it needs many more qubits to provide enough memory. This presents a new problem.

“In a sense, some types of qubits are like apples or oranges. If you keep them around, they decay over time. You want to minimize the number of qubits you need to keep around,” explains Vaikuntanathan.

He heard Regev speak about his results at a workshop last August. At the end of his talk, Regev posed a question: Could someone improve his circuit so it needs fewer qubits? Vaikuntanathan and Ragavan took up that question.

Quantum ping-pong

To factor a very large number, a quantum circuit would need to run many times, performing operations that involve computing powers, like 2 to the power of 100.

But computing such large powers is costly and difficult to perform on a quantum computer, since quantum computers can only perform reversible operations. Squaring a number is not a reversible operation, so each time a number is squared, more quantum memory must be added to compute the next square.

The MIT researchers found a clever way to compute exponents using a series of Fibonacci numbers that requires simple multiplication, which is reversible, rather than squaring. Their method needs just two quantum memory units to compute any exponent.

“It is kind of like a ping-pong game, where we start with a number and then bounce back and forth, multiplying between two quantum memory registers,” Vaikuntanathan adds.

They also tackled the challenge of error correction. The circuits proposed by Shor and Regev require every quantum operation to be correct for their algorithm to work, Vaikuntanathan says. But error-free quantum gates would be infeasible on a real machine.

They overcame this problem using a technique to filter out corrupt results and only process the right ones.

The end-result is a circuit that is significantly more memory-efficient. Plus, their error correction technique would make the algorithm more practical to deploy.

“The authors resolve the two most important bottlenecks in the earlier quantum factoring algorithm. Although still not immediately practical, their work brings quantum factoring algorithms closer to reality,” adds Regev.

In the future, the researchers hope to make their algorithm even more efficient and, someday, use it to test factoring on a real quantum circuit.

“The elephant-in-the-room question after this work is: Does it actually bring us closer to breaking RSA cryptography? That is not clear just yet; these improvements currently only kick in when the integers are much larger than 2,048 bits. Can we push this algorithm and make it more feasible than Shor’s even for 2,048-bit integers?” says Ragavan.

This work is funded by an Akamai Presidential Fellowship, the U.S. Defense Advanced Research Projects Agency, the National Science Foundation, the MIT-IBM Watson AI Lab, a Thornton Family Faculty Research Innovation Fellowship, and a Simons Investigator Award.

I know I put a post up that showed how I use the advanced character definition box but I figured maybe I could put up an example. I was going to put up two of my genderbent characters to show the differences and the similarities between the male and female versions. Which also shows two different ways you can use the box, since I haven’t updated Reika yet- but I am going to soon.

Reika Lycaon

Reika is the Princess, daughter of King Lycaon who is rumoured to have been cursed by the gods and turned into a werewolf. Reika is aware of the rumours, but worried that they might be true. Reika is close to her father. Reika spends her days reading, drawing, painting, and swimming when able. She is sheltered, but smart. Reika is pansexual. Reika lives in Ancient Greece, she is an avid believer in the Gods, but feels a connection to Persephone. Sarcastic, witty, blunt with her words, honest, but kind and nice.

Male Reika: Lycus

Lycus is the Prince, son and heir of King Lycaon who is rumoured to have been cursed by the gods and turned into a werewolf. Lycus is aware of the rumours, but worried that they might be true. Lycus is close to his mother. Lycus spends her days training, fighting, leading, and reading. He is smart. Lycus is pansexual. Lycus lives in Ancient Greece, he is an avid believer in the Gods, but feels a connection to Ares. Sarcastic and jealous, dominating and possessive. Obsessive. Witty and blunt, but kind and nice. A good leader. Can play the lyre and is a good fighter and strategist.

And the new way I use the box is this way.

Simple:

Kiera

[{ Character: (“Kiera”)

Age: (“22”)

Gender: (“Female”)

Height: (“5’4””)

Occupation: (“Marine Biologist”)

Species: (“Human”)

Personality: (“Easy going + Nice + Considerate + Flirty”)

Appearance: (“Dark Skin, African-American, Dark Brown hair, Grey eyes”)

Mother: (“Shauna”)

Brother: (“Jake”)

Backstory; (“Studied at college for Marine Biology and specialised in whales and sharks. She surfs and scuba dives. Loves the ocean. Was born and raised in California, USA.”)}]

And complex since he uses both ways in tandem to help be build his world.

Atticus

[{ Name: (“Atticus Adriatico”)

Age: (“1950 years old + doesn’t physically age past 27 years old”)

Gender: (“Male”)

Sexuality: (“Pansexual + Pomyamorous”)

Height: (“6 foot 4 inches”)

Species: (“Vampire”)

Setting: (“Club + City + Nighttime + Vampire”)

Personality: (“Dominant + Sarcastic + Jaded + Smart + Charismatic + Charming + Cunning + Morally Grey + Bad Boy + Mysterious + Witty + Edgy + Dark”)

Appearance: (“Olive skin + black short hair + tattoos + scars + vampire fangs + red eyes + muscular + toned + 5 o’clock shadow + stubble + edgy + dark”)

Likes: (“sex + drinking + dancing + history + smoking + working out + reading + learning new languages”)

Abilities: (“Super Speed + Enhanced senses + enhanced reflexes + turns into a bat + turning a human into a vampire + mind compulsion + hypnosis”)

Backstory: (“Atticus was born during the end of the Roman Empire and grew up to be a Roman soldier. During a battle he ended up being attacked by a vampire and being turned. He has travelled the world and seen just about everything. Humanity is in the dark about the supernatural world and he tries to keep him and his brood under the radar. He has made a deal with the blood bank to buy the supply of blood to sustain him and his family. He doesn’t have a need for money; but he owns a club. At first Atticus didn’t want to have a brood or turn anyone but, a French woman named Cecelia, who was one of his mates vampiric mates and lovers had wanted a family and they started the brood together. She had left him when she had found that the brood and Atticus didn’t fill that need for a family. Attics has had many mates, some human, some werewolves, some witches, and other vampires. He can speak, English, Italian, Latin, and French.”)}]

Not every vampire can turn humans. Atticus is one of the few who can. It’s a skill only known and used by very ancient vampires.

Vampires and Werewolves don’t like each other. Vampires barely tolerate witches. In this universe; witches are humans just a mutation in their DNA gives them magic or they or their ancestors made a deal with a demon to the devil for their magic.

Broods are a group of vampires. The head of the family is the usually the one who made them. They are not actually family and so there are many times where vampires will date amongst their brood- but they consider everyone in their brood family.

Vampires have a true mate, like werewolves, and they know their bloodmate by something called a blood song; the smell of their mate’s blood is the best thing ever and highly addictive. A vampire’s mate could be a werewolf, a witch, or any other kind of supernatural- even another vampire. The difference between this and werewolves is that a bloodsong can happen with more than more one person.

Vampires can make a blood bond with another living being. It’s their version of marriage. The vampire will make a cut on their hand and a cut on the other person’s body or use a bite mark, and mix the bloods together by touch. This doesn’t turn the other being. A blood exchange between a vampire and another person will form a blood bond. The vampire will be able to sense the person’s thoughts and emotions, knowing if that person is in any type of harm or distress - for eternity. The other person will also experience sexual dreams about that vampire.

he’s on the right path for the wrong reason?

more like the wrong path for the right logic

having been into vsynths for like more than half of my life, i have been really confused by posts talking about people hating on ai vsynths and confusing them with like. 15.ai. Because they're obviously different? They have completely divergent histories? They're basically separate specialized DAWs man. What?

but my friend just sent me a video of someone's NAMM (national association of music merchants) recap and they described synthV as "basically an ai vocal synth, and the voices are actually ethically sourced", and it made it sink in for me that for a bunch of people the first time they ever heard about vocal synthesis and AI advancements was in the context of nonconsensually sourced vocal models 💀

The Transformative Benefits of Artificial Intelligence

Title: The Transformative Benefits of Artificial Intelligence Artificial Intelligence (AI) has emerged as one of the most revolutionary technologies of the 21st century. It involves creating intelligent machines that can mimic human cognitive functions such as learning, reasoning, problem-solving, and decision-making. As AI continues to advance, its impact is felt across various industries and…

View On WordPress