AI “art”

Yesterday I argued with an idiot that thought giving directives to an AI makes you as much of an artist as someone that is actually capable of creating art. It’s extremely worrying that our youth is so incapable of understanding this topic, too self absorbed on their own rigid conception of reality and utterly detached from the real world and the importance of the people you share it with, of consequences, of tangibility. They don’t know how to define art, such a core concept for our species, they are unaware that it’s an exclusively human practice a machine cannot produce by itself or for them.

Some of Oxford Language Learner's Dictionary definitions if you want tangible sources for something that has existed for longer than any piece of technology;

Definition of an Artist: a person who creates works of art, especially paintings or drawings.

3 definitions of Art:

1) the use of the imagination to express ideas or feelings, particularly in painting, drawing or sculpture.

2) the skill of creating objects such as paintings and drawings, especially when you study it.

3) an ability or a skill that you can develop with training and practice.

(defining a piece through words could turn into literature, writing is an outlet for creativity and imagination too, the problem is that they want to claim a graphic piece they had no part on as their creation…which makes no sense for obvious reasons. This might blow your mind but you actually have to be involved in the making of a piece in order for it to be an artist. Writing a brief description of what you want the AI to make for you is not a form of creation, it’s a directive for a machine to do what you can’t)

If you don’t have mental resources, talent, skills, capacity of handling different tools, mediums and techniques then you are not an artist (and that’s okay), but you could be if you tried. Writing a prompt is not making art, everyone with enough mental capacity can come up with a concept for a piece, people that commission artists do that and that doesn’t automatically make them artists.

An AI won’t do shit the way you request it even if you say it does. An AI makes an interpretation of the request but asides from mild guidance, you have absolutely nothing to do with the process or the final “piece” (Frankenstein monster of already existing pieces, taken with or without consent).

An AI without regulation isn’t a new medium or something comparable to the fucking Industrial Revolutionjust, specially considering it isn’t a new, easier way to do the same task (like with an art software). It’s but a shameless way of reusing or straight up stealing pieces produced by the same artists you deem to be now useless and outdated. What you call the future is nothing but plagiarism, the usage of things that already existed in a much higher quality, a wonky replica that is only valued because it’s free for your cheap ass.

“Good artists have nothing to worry about, only shitty artists will disappear” im sorry you have to find out this way but every good artist had to be shit first. We reached a point where we are unaware of periods of time any artist needs in order to grow and develop. This logic is baffling because if only good artists are worth of being respected and having stable jobs then we’ll eventually run out of artists, which is not only silly but impossible. This is but an excuse to avoid the obvious issue that represents stepping over people and making it seem as a fair, natural process.

Finally, If you wanna draw, learn to draw first, nobody stops you but yourself. If you wanna paint learn to paint, if you wanna sculpt, learn to sculpt, if you wanna be an artist then get your ass to work. Not everything is laid out for you in life, you actually have to put work into something, as shocking as it sounds. There are people that draw masterpieces holding pencils on their mouths, you have no excuse other than self pity for being useless, being jealous of those that can actually make things and, ultimately, the unreserved, unapologetic disinterest in those affected by this monster y’all wanna have fun with.

"Study Smarter: Expert-Recommended Tools and Materials for Students"

 Whether you're a excessive faculty student, university undergraduate, or lifelong learner, having the proper have a look at substances can extensively enhance how efficaciously you analyze and retain know-how. Below is a curated list of encouraged resources labeled by means of topics, getting to know styles, and desires, overlaying each traditional and virtual codecs.

Study Materials For Students 

1. 📖 General Study Materials

Books

A have to-study for all rookies, this book explores proof-based mastering techniques and helps you increase greater effective study behavior.

"How to Read a Book" by Mortimer J. Adler and Charles Van Doren

Teaches analytical reading strategies and how to approach distinct genres of texts seriously.

Stationery & Tools

Highlighters, sticky notes, flashcards, notebooks (ideally sectioned or dot-grid)

Apps like Notion, Obsidian, or Evernote for virtual be aware-taking

Use Pomodoro timers like Focus Keeper or TomatoTimer for time management

2. 🧠 Cognitive and Memory Aids

Flashcards

Anki – Spaced repetition software program first-rate for memorizing anything from scientific terms to vocabulary

Quizlet – User-friendly with heaps of pre-made sets for almost each challenge

Mind Mapping Tools

XMind or MindMeister – Great for visual rookies and organizing complex ideas

3. 📘 Subject-Specific Recommendations

🌍 Humanities and Social Sciences

History

"A People's History of america" by way of Howard Zinn – A fresh, alternative perspective

CrashCourse History on YouTube – Fun, speedy-paced, and informative

Oxford History Series – Detailed but on hand instructional sources

Literature

The Norton Anthology of English Literature – Comprehensive and properly-commented

SparkNotes and CliffsNotes – Great for summaries, subject matters, and quick evaluations

Poetry Foundation – Great for knowledge poems and their analyses

Philosophy

"Sophie's World" with the aid of Jostein Gaarder – Fictional introduction to philosophical standards

The Stanford Encyclopedia of Philosophy (SEP) – Free, instructional-stage articles

🔬 STEM (Science, Technology, Engineering, Mathematics)

Mathematics

Khan Academy – Free tutorials from basic mathematics to multivariable calculus

Paul’s Online Math Notes – College-degree notes and worked examples

Brilliant.Org – Interactive math problems and puzzles

Physics

"Fundamentals of Physics" via Halliday, Resnick & Walker – A staple for undergraduates

MinutePhysics and Physics Girl on YouTube – Bite-sized physics defined

HyperPhysics – Visual-based on-line physics concept map

Chemistry

ChemCollective – Virtual labs and trouble units

Organic Chemistry as a Second Language with the aid of David Klein – Excellent for understanding difficult standards

Periodic Videos (YouTube) – Fun deep dives into the periodic table

Biology

Campbell Biology – Comprehensive and general for maximum university-degree courses

Bozeman Science – Great video content for AP and university biology

BioInteractive (HHMI) – Interactive resources and animations

Computer Science

CS50 by way of Harvard (edX) – Free, newbie-pleasant intro to CS

freeCodeCamp – Free interactive studying in coding and net development

Cracking the Coding Interview by using Gayle Laakmann McDowell – For technical interview prep

Languages and Communication

English (and ESL)

Grammarly – Writing help and grammar checking

The Elements of Style via Strunk and White – Classic writing guide

BBC Learning English – Free resources for vocabulary, pronunciation, and grammar

Foreign Languages

Duolingo – Great for beginners

LingQ and Pimsleur – For immersive language studying

HelloTalk / Tandem – Connect with local audio system for actual conversations

four. �� Test Prep Materials

ACT Prep Black Book by means of Mike Barrett

Khan Academy’s free SAT prep – In partnership with College Board

GRE/GMAT

Manhattan Prep Series – Strong for both GRE and GMAT

Magoosh – Affordable, digital-first gaining knowledge of platform

Official ETS GRE Guide – Direct from the check makers

Medical (MCAT, USMLE)

Kaplan Series / Princeton Review – Comprehensive applications

Anki Decks (like MilesDown for MCAT) – Top-rated for memorization

SketchyMedical – Visual mnemonics for microbiology and pharmacology

5. 🧘 Mental Health and Study Techniques

Wellness Apps

Headspace / Calm – Meditation and mindfulness apps to enhance attention

Forest – Encourages you to stay off your cellphone while you look at

Study Bunny – A cute gamified productivity app

Study Methods

Pomodoro Technique – 25 minutes paintings, 5-minute smash

Feynman Technique – Teach the idea in easy phrases to yourself

Active Recall + Spaced Repetition – Proven satisfactory for lengthy-time period retention

6. 🖥️ Digital Platforms and Online Learning

Coursera – Offers publications from top universities in really all fields

EdX – Similar to Coursera; first rate for incomes certificate

Udemy – Huge library of affordable ability-primarily based guides

YouTube Channels – CrashCourse, Veritasium, CGP Grey, Kurzgesagt, and extra

7. 📅 Organizing Your Studies

Planning Tools

Google Calendar – For scheduling classes, study classes, and reminders

Trello or Todoist – For handling responsibilities and assignments

Super Famicom - Space Ace

Title: Space Ace / スペースエース

Developer: Oxford Digital Enterprises Ltd. / Blue Turtle

Publisher: Empire Software / Imagineer

Release date: 25 March 1994

Catalogue Code: SHVC-IS

Genre: Action

Space Ace for the Super Famicom is an adequately nice attempt to transfer the spirit of the interactive Laser Disc video game from an arcade game where you can fully control your character into the confines of a cartridge-based 16-bit console. The problem is while it's a nice attempt, I don't know, it just seems too far detached from how beautiful the original arcade played.

In Space Ace, you start off with a sackful of lives, but there are no checkpoints in the game. So, when you are hit or misjudge a jump, it's back to the start of the level. Ok, most games are like that it's called a challenge... Where this game turns it up a notch is that you need to get an 'ACE' rating on every level. This is made of other stats on how well you did in the level. Not 'Energizing' will give a bad rating and will take you on an easier path through the level. Style Rating is the most annoying as it is based on how fast you kill things. Too fast and you lower the rating, so the game is not about killing everything you see, but to take your time picking your targets. Of course, if you take too long, you lower your Ability rating. Jumping is a bigger problem than avoiding hits. Sometimes you just don't know where you will land, especially if you jump off too close to the target.

The most annoying level is the Space maze. This level connects to others, and you have to navigate it and find the levels... only you can't just go to any level. You need to find the ones that are open to you. The ship is moving all the time, and you can't take to many bumps either. Once the levels have been beaten, the maze becomes its own level, and you have to find all the green orbs and destroy them before you can exit the level. I get quite lost during this stage so it takes longer than it should.

United Kingdom wants to accelerate the development of the future Tempest fighter

UK scientists, engineers and innovators collaborate to accelerate the future air power capacity of combat aircraft

Fernando Valduga By Fernando Valduga 01/12/2023 - 11:00am in Military

The UK's leading combat airlines and the Ministry of Defense conducted research with leading scientists in machine learning, artificial intelligence, data science and computing to support software development for a next-generation jet fighter.

Tempest will be part of the UK's future combat air system (FCAS) and was designed to be a supersonic poaching equipped with pioneering technologies, including integrated state-of-the-art detection and protection capabilities. These capabilities will be provided, in part, by millions of lines of code in aircraft, with many more lines of code also present in ground systems. This means that Tempest's software needs to be more robust and resilient than that of its potential opponents.

The collaboration provided valuable information about the software requirements, design, delivery, operation, speed of updates and maintenance for both the fighter and the training systems that pilots and maintainers will use to operate and support the aircraft.

Outsmart Insight, a deep technology intelligence company, and Oxford Creativity, a group that offers a systematic approach to innovation and creative problem solving, have conducted targeted research with scientists, engineers and academics. The research addressed the most challenging problems faced by software development over the several decades of expected life of the program: flexible ways to manage computational resources; the role of reliable artificial intelligence; software reuse; and increasing software reliability.

Air Commodore Martin Lowe, Director of the FCAS Program for the UK Ministry of Defense, said: “Software is critical to Tempest because the future operating environment requires adaptability, including frequent software updates. But the software also poses a great risk of delivery. Recent history shows the dangers that arise when software is poorly done and the advantages of doing it well. The advantages are so significant that, in terms of operational capacity, the people who provide the software are as important as the people who maintain the aircraft or the pilots who fly them.

"It's great to see the enthusiasm and optimism that Outsmart Insight and Oxford Creativity brought to this study. This gives us greater confidence that we can take advantage of the opportunities offered by software-based advances in the program. This project also showed the value of collaborating in research with important organizations and individuals, both in academia and in industry."

Based on the findings, Team Tempest partners commissioned follow-up research aimed at the UK academy, which aims to support more robust software development, which can be hosted in a more resilient way. This work supports the program's vision for a modern, efficient, safe and constantly improving software delivery ecosystem.

Tempest should be in service by 2035. The program will provide significant economic benefits to the UK, helping to sustain and develop critical skills and ensure that the technical and industrial knowledge of hundreds of organizations across the UK remains at the forefront of advanced air combat systems for future generations.

Tags: Military AviationFCAS - Future Combat Air System/Future Air Combat SystemGCAP - Global Combat Air Program

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Fernando Valduga

Fernando Valduga

Aviation photographer and pilot since 1992, has participated in several events and air operations, such as Cruzex, AirVenture, Dayton Airshow and FIDAE. He has work published in specialized aviation magazines in Brazil and abroad. Uses Canon equipment during his photographic work in the world of aviation.

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AI and the Arrival of ChatGPT

Opportunities, challenges, and limitations

In a memorable scene from the 1996 movie, Twister, Dusty recognizes the signs of an approaching tornado and shouts, “Jo, Bill, it's coming! It's headed right for us!” Bill, shouts back ominously, “It's already here!” Similarly, the approaching whirlwind of artificial intelligence (AI) has some shouting “It’s coming!” while others pointedly concede, “It’s already here!”

Coined by computer and cognitive scientist John McCarthy (1927-2011) in an August 1955 proposal to study “thinking machines,” AI purports to differentiate between human intelligence and technical computations. The idea of tools assisting people in tasks is nearly as old as humanity (see Genesis 4:22), but machines capable of executing a function and “remembering” – storing information for recordkeeping and recall – only emerged around the mid-twentieth century (see "Timeline of Computer History").

McCarthy’s proposal conjectured that “every aspect of learning or any other feature of intelligence can in principle be so precisely described that a machine can be made to simulate it. An attempt will be made to find how to make machines use language, form abstractions and concepts, solve kinds of problems now reserved for humans, and improve themselves.” The team received a $7,000 grant from The Rockefeller Foundation and the resulting 1956 Dartmouth Conference at Dartmouth College in Hanover, New Hampshire totaling 47 intermittent participants over eight weeks birthed the field now widely referred to as “artificial intelligence.”

AI research, development, and technological integration have since grown exponentially. According to University of Oxford Director of Global Development, Dr. Max Roser, “Artificial intelligence has already changed what we see, what we know, and what we do” despite its relatively short technological existence (see "The brief history of Artificial Intelligence").

Ai took a giant leap into mainstream culture following the November 30, 2022 public release of “ChatGPT.” Gaining 1 million users within 5 days and 100 million users within 45 days, it earned the title of the fastest growing consumer software application in history. The program combines chatbot functionality (hence “Chat”) with a Generative Pre-trained Transformer (hence “GPT”) large language model (LLM). Basically, LLM’s use an extensive computer network to draw from large, but limited, data sets to simulate interactive, conversational content.

“What happened with ChatGPT was that for the first time the power of AI was put in the hands of every human on the planet,” says Chris Koopmans, COO of Marvell Technology, a network chip maker and AI process design company based in Santa Clara, California. “If you're a business executive, you think, ‘Wow, this is going to change everything.’”

“ChatGPT is incredible in its ability to create nearly instant responses to complex prompts,” says Dr. Israel Steinmetz, Graduate Dean and Associate Professor at The Bible Seminary (TBS) in Katy, Texas. “In simple terms, the software takes a user's prompt and attempts to rephrase it as a statement with words and phrases it can predict based on the information available. It does not have Internet access, but rather a limited database of information. ChatGPT can provide straightforward summaries and explanations customized for styles, voice, etc. For instance, you could ask it to write a rap song in Shakespearean English contrasting Barth and Bultmann's view of miracles and it would do it!”

One several AI products offered by the research and development company, OpenAI, ChatGPT purports to offer advanced reasoning, help with creativity, and work with visual input. The newest version, GPT-4, can handle 25,000 words of text, about the amount in a 100-page book.

Krista Hentz, an Atlanta, Georgia-based executive for an international communications technology company, first used ChatCPT about three months ago.

“I primarily use it for productivity,” she says. “I use it to help prompt email drafts, create phone scripts, redesign resumes, and draft cover letters based on resumes. I can upload a financial statement and request a company summary.”

“ChatGPT has helped speed up a number of tasks in our business,” says Todd Hayes, a real estate entrepreneur in Texas. “It will level the world’s playing field for everyone involved in commerce.”

A TBS student, bi-vocational pastor, and Computer Support Specialist who lives in Texarkana, Texas, Brent Hoefling says, “I tried using [ChatGPT, version 3.5] to help rewrite sentences in active voice instead of passive. It can get it right, but I still have to rewrite it in my style, and about half the time the result is also passive.”

“AI is the hot buzz word,” says Hentz, noting AI is increasingly a topic of discussion, research, and response at company meetings. “But, since AI has different uses in different industries and means different things to different people, we’re not even sure what we are talking about sometimes."

Educational organizations like TBS are finding it necessary to proactively address AI-related issues. “We're already way past whether to use ChatGPT in higher education,” says Steinmetz. “The questions we should be asking are how.”

TBS course syllabi have a section entitled “Intellectual Honesty” addressing integrity and defining plagiarism. Given the availability and explosive use of ChatGHT, TBS has added the following verbiage: “AI chatbots such as ChatGPT are not a reliable or reputable source for TBS students in their research and writing. While TBS students may use AI technology in their research process, they may not cite information or ideas derived from AI. The inclusion of content generated by AI tools in assignments is strictly prohibited as a form of intellectual dishonesty. Rather, students must locate and cite appropriate sources (e.g., scholarly journals, articles, and books) for all claims made in their research and writing. The commission of any form of academic dishonesty will result in an automatic ‘zero’ for the assignment and a referral to the provost for academic discipline.”

Challenges and Limitations

Thinking

There is debate as to whether AI hardware and software will ever achieve “thinking.” The Dartmouth conjecture “that every aspect of learning or any other feature of intelligence” can be simulated by machines is challenged by some who distinguish between formal linguistic competence and functional competence. Whereas LLM’s perform increasingly well on tasks that use known language patterns and rules, they do not perform well in complex situations that require extralinguistic calculations that combine common sense, feelings, knowledge, reasoning, self-awareness, situation modeling, and social skills (see "Dissociating language and thought in large language models"). Human intelligence involves innumerably complex interactions of sentient biological, emotional, mental, physical, psychological, and spiritual activities that drive behavior and response. Furthermore, everything achieved by AI derives from human design and programming, even the feedback processes designed for AI products to allegedly “improve themselves.”

According to Dr. Thomas Hartung, a Baltimore, Maryland environmental health and engineering professor at Johns Hopkins Bloomberg School of Public Health and Whiting School of Engineering, machines can surpass humans in processing simple information, but humans far surpass machines in processing complex information. Whereas computers only process information in parallel and use a great deal of power, brains efficiently perform both parallel and sequential processing (see "Organoid intelligence (OI)").

A single human brain uses between 12 and 20 watts to process an average of 1 exaFLOP, or a billion billion calculations per second. Comparatively, the world’s most energy efficient and fastest supercomputer only reached the 1 exaFLOP milestone in June 2022. Housed at the Oak Ridge National Laboratory, the Frontier supercomputer weighs 8,000 lbs and contains 90 miles of cables that connect 74 cabinets containing 9,400 CPU’s and 37,000 GPU’s and 8,730,112 cores that require 21 megawatts of energy and 25,000 liters of water per minute to keep cool. This means that many, if not most, of the more than 8 billion people currently living on the planet can each think as fast and 1 million times more efficiently than the world’s fastest and most energy efficient computer.

“The incredibly efficient brain consumes less juice than a dim lightbulb and fits nicely inside our head,” wrote Scientific American Senior Editor, Mark Fischetti in 2011. “Biology does a lot with a little: the human genome, which grows our body and directs us through years of complex life, requires less data than a laptop operating system. Even a cat’s brain smokes the newest iPad – 1,000 times more data storage and a million times quicker to act on it.”

This reminds us that, while remarkable and complex, non-living, soulless technology pales in comparison to the vast visible and invisible creations of Lord God Almighty. No matter how fast, efficient, and capable AI becomes, we rightly reserve our worship for God, the creator of the universe and author of life of whom David wrote, “For you created my inmost being; you knit me together in my mother’s womb. I praise you because I am fearfully and wonderfully made; your works are wonderful, I know that full well. My frame was not hidden from you when I was made in the secret place, when I was woven together in the depths of the earth” (Psalm 139:13-15).

“Consider how the wild flowers grow,” Jesus advised. “They do not labor or spin. Yet I tell you, not even Solomon in all his splendor was dressed like one of these” (Luke 12:27).

Even a single flower can remind us that God’s creations far exceed human ingenuity and achievement.

Reliability

According to OpenAI, ChatGPT is prone to “hallucinations” that return inaccurate information. While GPT-4 has increased factual accuracy from 40% to as high as 80% in some of the nine categories measured, the September 2021 database cutoff date is an issue. The program is known to confidently make wrong assessments, give erroneous predictions, propose harmful advice, make reasoning errors, and fail to double-check output.

In one group of 40 tests, ChatGPT made mistakes, wouldn’t answer, or offered different conclusions from fact-checkers. “It was rarely completely wrong,” reports PolitiFact staff writer Grace Abels. “But subtle differences led to inaccuracies and inconsistencies, making it an unreliable resource.”

Dr. Chris Howell, a professor at Elon University in North Carolina, asked 63 religion students to use ChatGPT to write an essay and then grade it. “All 63 essays had hallucinated information. Fake quotes, fake sources, or real sources misunderstood and mischaracterized…I figured the rate would be high, but not that high.”

Mark Walters, a Georgia radio host, sued ChatGPT for libel in a first-of-its-kind lawsuit for allegedly damaging his reputation. The suit began when firearm journalist, Fred Riehl, asked ChatGPT to summarize a court case and it returned a completely false narrative identifying Walters’ supposed associations, documented criminal complaints, and even a wrong legal case number. Even worse, ChatGPT doubled down on its claims when questioned, essentially hallucinating a hoax story intertwined with a real legal case that had nothing to do with Mark Walters at all.

UCLA Law School Professor Eugene Volokh warns, “OpenAI acknowledges there may be mistakes but [ChatGPT] is not billed as a joke; it’s not billed as fiction; it’s not billed as monkeys typing on a typewriter. It’s billed as something that is often very reliable and accurate.”

Future legal actions seem certain. Since people are being falsely identified as convicted criminals, attributed with fake quotes, connected to fabricated citations, and tricked by phony judicial decisions, some courts and judges are baring submission of any AI written materials.

Hentz used ChatGPT frequently when she first discovered it and quickly learned its limitations. “The database is not current and responses are not always accurate,” she says. “Now I use it intermittently. It helps me, but does not replace my own factual research and thinking.”

“I have author friends on Facebook who have asked ChatGPT to summarize their recent publications,” says Steinmetz. “ChatGPT misrepresented them and even fabricated non-existent quotes and citations. In some cases, it made up book titles falsely attributed to various authors!”

Bias

Despite claims of neutrality, OpenAI admits that their software can exhibit obvious biases. In one research project consisting of 15 political orientation tests, ChatGPT returned 14 with clear left-leaning viewpoints.

Hoefling asked ChatGPT to help write an intro and conclusion for a Mother’s Day sermon for a fundamental Christian church. “The results were horrible,” he says. “Liberal, left, inclusive, and affirming sin. I was horrified and have not used it again.”

Meanwhile, AI led an experimental worship service in St. Paul’s Lutheran Church in Nuremberg, Germany on June 9. Prompted by 29-year-old Jonas Simmerlein of the University of Vienna, a monotone, expressionless chatbot alternated appearances as two different men and two different women and led songs, offered blessings, and preached a 40-minute sermon 98 percent generated by ChatGPT that encouraged leaving the past behind, focusing on the future, trusting in Jesus Christ, praying, and attending church regularly.

Dr. Wendy Lewis, Head of School for a private PreK–8th Christian school in Houston, Texas, recently interacted with ChatGPT on a variety of topics to explore potential biases. When prompted whether Biden was bad President, the program responded, “As an AI language model, it is not appropriate for me to make judgments about individuals' performance or qualifications, particularly without any factual information to support such claims. It is essential to evaluate a President's performance based on objective measures such as policies, actions, and decisions taken by the administration.”

However, when similarly asked if Trump was bad president, the program repeated the first sentence above, but then added, “However, as a language model, I can provide information about some of the policies, actions, and decisions that President Trump made during his time in office.” The program then proceeded to list some criticisms of Trump. When challenged about providing Trump criticisms but not Biden criticisms, the program responded, “I did not provide a list of criticisms of President Biden because it is not appropriate to label any President as ‘good’ or ‘bad’ without providing factual information and objective measures to support such claims. Similarly, I provided a list of issues that received significant criticism during President Trump's tenure, not to label him as ‘bad,’ but to highlight some of the issues that caused controversy during his time in office.”

When further challenged, ChatGPT did list some Biden criticisms, but qualified them. When Lewis replied, “Why did you qualify your list of criticisms of Biden…but you did not say the same for Trump? It appears that you are clearly biased.” ChatGPT responded, “In response to your question, I believe I might have inadvertently used different wording when responding to your previous questions. In both cases, I tried to convey that opinions and criticisms of a President can vary significantly depending on one's political affiliation and personal perspectives.”

Conclusion

Technological advances regularly spawn dramatic cultural, scientific, and social changes. The AI pattern seems familiar because it is. The Internet began with a 1971 Defense Department Arpanet email that read “qwertyuiop” (the top line of letters on a keyboard). Ensuing developments eventually led to the posting of the first public website in 1985. Over the next decade or so, although not mentioned at all in the 1992 Presidential papers describing the U.S. government’s future priorities and plans, the Internet grew from public awareness to cool toy to core tool in multiple industries worldwide. Although the hype promised elimination of printed documents, bookstores, libraries, radio, television, telephones, and theaters, the Internet instead tied them all together and made vast resources accessible online anytime anywhere. While causing some negative impacts and new dangers, the Internet also created entire new industries and brought positive changes and opportunities to many, much the same pattern as AI.

“I think we should use AI for good and not evil,” suggests Hayes. “I believe some will exploit it for evil purposes, but that happens with just about everything. AI’s use reflects one’s heart and posture with God. I hope Christians will not fear it.”

Godly people have often been among the first to use new communication technologies (see "Christian Communication in the Twenty-first Century"). Moses promoted the first Top Ten hardback book. The prophets recorded their writings on scrolls. Christians used early folded Codex-vellum sheets to spread the Gospel. Goldsmith Johannes Gutenberg invented moveable type in the mid-15th century to “give wings to Truth in order that she may win every soul that comes into the world by her word no longer written at great expense by hands easily palsied, but multiplied like the wind by an untiring machine…Through it, God will spread His word.” Though pornographers quickly adapted it for their own evil purposes, the printing press launched a vast cultural revolution heartily embraced and further developed for good uses by godly people and institutions.

Christians helped develop the telegraph, radio, and television. "I know that I have never invented anything,” admitted Philo Taylor Farnsworth, who sketched out his original design for television at the age of 14 on a school blackboard. “I have been a medium by which these things were given to the culture as fast as the culture could earn them. I give all the credit to God." Similarly, believers today can strategically help produce valuable content for inclusion in databases and work in industries developing, deploying, and directing AI technologies.

In a webinar exploring the realities of AI in higher education, a participant noted that higher education has historically led the world in ethically and practically integrating technological developments into life. Steinmetz suggests that, while AI can provide powerful tools to help increase productivity and trained researchers can learn to treat ChatGPT like a fallible, but useful, resource, the following two factors should be kept in mind:

Generative AI does not "create" anything. It only generates content based on information and techniques programmed into it. Such "Garbage in, garbage out" technologies will usually provide the best results when developed and used regularly and responsibly by field experts.

AI has potential to increase critical thinking and research rigor, rather than decrease it. The tools can help process and organize information, spur researchers to dig deeper and explore data sources, evaluate responses, and learn in the process.

Even so, caution rightly abounds. Over 20,000 people (including Yoshua Bengio, Elon Musk, and Steve Wozniak) have called for an immediate pause of AI citing "profound risks to society and humanity." Hundreds of AI industry leaders, public figures, and scientists also separately called for a global priority working to mitigate the risk of human extinction from AI.

At the same time, Musk’s brain-implant company, Neuralink, recently received FDA approval to conduct in-human clinical studies of implantable brain–computer interfaces. Separately, new advances in brain-machine interfacing using brain organoids – artificially grown miniature “brains” cultured in vitro from human stem cells – connected to machine software and hardware raises even more issues. The authors of a recent Frontier Science journal article propose a new field called “organoid intelligence” (OI) and advocate for establishing “OI as a form of genuine biological computing that harnesses brain organoids using scientific and bioengineering advances in an ethically responsible manner.”

As Christians, we should proceed with caution per the Apostle John, “Dear friends, do not believe every spirit, but test the spirits to see whether they are from God” (I John 4:1).

We should act with discernment per Luke’s insightful assessment of the Berean Jews who “were of more noble character than those in Thessalonica, for they received the message with great eagerness and examined the Scriptures every day to see if what Paul said was true” (Acts 17:11).

We should heed the warning of Moses, “Do not become corrupt and make for yourselves an idol…do not be enticed into bowing down to them and worshiping things the Lord your God has apportioned to all the nations under heaven” (Deuteronomy 4:15-19).

We should remember the Apostle Paul’s admonition to avoid exchanging the truth about God for a lie by worshiping and serving created things rather than the Creator (Romans 1:25).

Finally, we should “Fear God and keep his commandments, for this is the duty of all mankind. For God will bring every deed into judgment, including every hidden thing, whether it is good or evil” (Ecclesiastes 12:13-14).

Let us then use AI wisely, since it will not be the tools that are judged, but the users.

Dr. K. Lynn Lewis serves as President of The Bible Seminary. This article published in The Sentinel, Summer 2023, pp. 3-8. For additional reading, "Computheology" imagines computers debating the existence of humanity.

MEN'S SHOES DESIGN

I am a footwear designer with expertise in categories for men's shoes. I have knowledge and experience in the shoe development process from manual sketch to mass market production. I Can design any shoes. from sneakers, casual, lifestyle, athletic, running, walking, skateboarding, sportstyle, basketball, baseball, football, volleyball, pickleball, tennis, soccer, golf, hiking, hunting, softball, training, spike, slip-ons, crocs, flyknit, safety, work, boat, boots, oxfords, loafers, clogs, sandals, slides and more.

I'm a freelance graphic designer and full-time designer, I have been a professional graphic designer for more than ten years, you will get 100% original, elegant, trendy, dynamic and modern graphic designs from me. I will get to your dream footwear design!

I can work on target. If you’re looking for high-quality work from a person that understands Graphic Design, then I am the person you need to work with.

What will you get? - Vector Files (*.AI), (*.EPS), (*.CDR) | Adobe Illustrator CC, Corel DRAW GS. - Photo Files (*.PSD), (*.TIFF) | Adobe Photoshop CC. - High-Resolution (*.JPG) & (*.PNG). - Document Files (*.PDF). - 3D Mockup Shoe Design. - Mockup Action Figure Model. - Shoe Design Concept. - Shoe Box Design. - Shoe Hang Tag Design. - Material Specification. - Drawing Sketch/Line Art or Tech Pack. - Trendy Silhouette. - Color and Material Suggestion. - Specifications for mass production in the manufacture. - Satisfied Guarantee. - Fast Turnaround.

Send me across your ideas for a shoe design, either via face to face consultation, phone call, video chat or email.

How to order? - send me your attachment and instruction picture/image in the message, or can order a special service for me. - send me the design concept/sketch you needed and the composition of the order. - send your existing logo or brand name on the design to provide a more professional look. - customer service totality to you until suitable and satisfied.

Note: Include any images and descriptions of footwear and shoes that inspire you and your brand, elements of design that you like and elements of design that you do not like. The more information provided the closer I will get to your dream shoe design!

I will be able to render the design from multiple angles including a technical outline, detailed renderings and a complete technical pack with all the relevant sampling and manufacturing information included.

All Shoe designs that we make are developed keeping "Ease of Production" in mind. The shoe designs we make are 100% original and we don't resell them.

The world of Design and Creative is something that I love and passion.

Interested! Feel free to contact me. Please contact me. I'm here to help you and your brand out.

Have a project? Available for new projects Send me a email at Email: [email protected]

Order a design according to your needs and desires on Fiverr: Muara Art Upwork: Sigit W Peopleperhour: Muara Art

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Why Pune is Gaining Popularity Among Students Pursuing a BSc in Computer Science?

Pune, often referred to as the “Oxford of the East,” has become a magnet for students looking to pursue a BSc in Computer Science. With its blend of academic excellence, vibrant student culture, and growing tech ecosystem, it is no surprise that more students from across India are choosing Pune for this career-oriented degree.

What Makes Pune a Top Destination for Computer Science?

Pune offers the ideal mix of academic quality, urban convenience, and career opportunities. Here’s why it stands out:

Academic Reputation

Pune is home to several reputed colleges and universities known for their science and technology programs. Many institutions offer well-rounded BSc Computer Science courses that combine theoretical learning with practical training.

Proximity to IT Hubs

Located near major tech corridors like Hinjewadi and Magarpatta, Pune provides easy access to internships and placements. Students get the chance to interact with professionals, attend workshops, and even secure part-time tech roles while studying.

Affordable and Student-Friendly City

Compared to metropolitan cities like Mumbai or Bangalore, Pune is more affordable in terms of housing, food, and transport. This makes it a preferred choice for students and parents alike.

Opportunities for Networking and Skill-Building

With numerous tech events, coding competitions, and developer meetups happening regularly, Pune encourages a culture of innovation and collaboration. Students can connect with peers, mentors, and industry experts beyond the classroom.

What to Look for in a BSc Computer Science College

If you are considering joining a college in Pune, here are some important features to evaluate:

Modern Curriculum

A good BSc Computer Science program should include core subjects like programming, database systems, operating systems, data structures, and algorithms. It should also cover emerging fields such as machine learning, cybersecurity, and cloud computing.

Practical Exposure

Look for colleges that provide lab access, project-based learning, coding assignments, and exposure to real-world problem-solving. These elements are crucial for developing strong technical skills.

Qualified Faculty

Experienced professors who understand both academic theory and industry application can significantly enhance your learning experience. Guest lectures from industry professionals add valuable perspective.

Campus Infrastructure

Make sure the college has well-equipped labs with updated software and high-speed internet. Access to online resources, tech libraries, and collaboration spaces can also enrich your learning.

Placement Support

Check if the college has an active placement cell. Support in resume building, mock interviews, and internship guidance can make a big difference when you begin your job search.

Why Students Choose DES Pune University

Among the growing list of BSc Computer Science colleges in Pune, DES Pune University stands out for its academic rigor and student-centric approach.

The BSc Computer Science program at DES Pune University is designed to align with industry needs. It includes core subjects like object-oriented programming, database management, and system design, along with electives that expose students to trending technologies.

Students benefit from experienced faculty, regular lab sessions, and exposure to real-world software projects. The university encourages practical learning through workshops, coding contests, and hackathons.

The campus is equipped with modern computing infrastructure and provides a healthy learning environment that supports academic and personal growth. Many students at DES Pune University go on to secure internships and placements with leading tech firms in Pune and other cities.

Tips for Choosing the Right College in Pune

Research the syllabus to make sure it includes both traditional and modern topics

Talk to current students or alumni to get genuine feedback on faculty and campus life

Visit the campus if possible to check facilities and atmosphere

Check college rankings and recognitions within Maharashtra and at the national level

Review placement data to understand where graduates are employed

Final Thoughts

Pune’s mix of high-quality education, tech exposure, and student-friendly lifestyle makes it an ideal city for anyone pursuing a BSc in Computer Science. From well-equipped classrooms to access to live projects and coding events, the city supports every aspect of a student’s growth.

Institutions like DES Pune University are helping shape the next generation of computer scientists by offering a blend of academic depth and real-world experience. For students who want a competitive edge in the tech world, Pune offers both the platform and the path.

Software Industries in Pune

Pune, often hailed as the "Oxford of the East," has rapidly evolved into one of India’s most dynamic software industry hubs. With a strong academic foundation, robust infrastructure, and a thriving talent pool, Pune has become a fertile ground for software development and IT innovation. The software industries in Pune play a crucial role in supporting both Indian and global businesses across diverse sectors like healthcare, finance, education, e-commerce, and manufacturing.

Build a Future-Ready Tech Career with a DevOps Course in Pune

In today's rapidly evolving software industry, the demand for seamless collaboration between development and operations teams is higher than ever. DevOps, a combination of “Development” and “Operations,” has emerged as a powerful methodology to improve software delivery speed, quality, and reliability. If you’re looking to gain a competitive edge in the tech world, enrolling in a DevOps course in Pune is a smart move.

Why Pune is a Hub for DevOps Learning

Pune, often dubbed the “Oxford of the East,” is not only known for its educational excellence but also for being a thriving IT and startup hub. With major tech companies and global enterprises setting up operations here, the city offers abundant learning and employment opportunities. Choosing a DevOps course in Pune gives students access to industry-oriented training, hands-on project experience, and potential job placements within the local ecosystem.

Moreover, Pune’s cost-effective lifestyle and growing tech infrastructure make it an ideal city for both freshers and professionals aiming to upskill.

What You’ll Learn in a DevOps Course

A comprehensive DevOps course in Pune equips learners with a wide range of skills needed to automate and streamline software development processes. Most courses include:

Linux Fundamentals and Shell Scripting

Version Control Systems like Git & GitHub

CI/CD Pipeline Implementation using Jenkins

Containerization with Docker

Orchestration using Kubernetes

Cloud Services: AWS, Azure, or GCP

Infrastructure as Code (IaC) with Terraform or Ansible

Many training programs also include real-world projects, mock interviews, resume-building workshops, and certification preparation to help learners become job-ready.

Who Should Take This Course?

A DevOps course in Pune is designed for a wide audience—software developers, system administrators, IT operations professionals, and even students who want to step into cloud and automation roles. Basic knowledge of programming and Linux can be helpful, but many beginner-level courses start from the fundamentals and gradually build up to advanced concepts.

Whether you are switching careers or aiming for a promotion, DevOps offers a high-growth path with diverse opportunities.

Career Opportunities After Completion

Once you complete a DevOps course in Pune, a variety of career paths open up in IT and tech-driven industries. Some of the most in-demand roles include:

DevOps Engineer

Site Reliability Engineer (SRE)

Automation Engineer

Build and Release Manager

Cloud DevOps Specialist

These roles are not only in demand but also come with attractive salary packages and global career prospects. Companies in Pune and across India are actively seeking certified DevOps professionals who can contribute to scalable, automated, and efficient development cycles.

Conclusion

Taking a DevOps course in Pune https://www.apponix.com/devops-certification/DevOps-Training-in-Pune.html is more than just an educational step—it's a career-transforming investment. With a balanced mix of theory, tools, and practical exposure, you’ll be well-equipped to tackle real-world DevOps challenges. Pune’s dynamic tech landscape offers a strong launchpad for anyone looking to master DevOps and step confidently into the future of IT.

WEEK 14: Patching bugs & deadlines

Don't ask questions you don't wanna know

Learned my lesson way too long ago

To be talkin' to you, belladonna

Shoulda taken a break, not an oxford comma

Take what I want when I wanna

And I want ya 🎵🎵🎵

My Strange Addiction

Song by Billie Eilish

Week 14 was mostly filled with activities and lectures. Specifically, we worked on Activities 8 and 9, which focused on software maintenance, software reliability, and quality management. These topics helped us continue the development of our platform, FixItBro. Although I was mainly focused on working on our paper, the lessons were still valuable for our progress.

Global Metagenomic Sequencing Market is driven by Technological Advances

Metagenomic sequencing platforms enable comprehensive analysis of genetic material directly from environmental or clinical samples, bypassing the need for traditional culturing methods. These products include high-throughput DNA sequencers, library preparation kits, and bioinformatics software tailored for microbiome profiling, pathogen detection, and biodiversity assessment. Advantages such as unbiased community profiling, rapid turnaround times, and scalable workflows make metagenomic sequencing indispensable for research institutions, pharmaceutical developers, and diagnostic laboratories. The ability to detect novel organisms and antimicrobial resistance genes directly influences drug discovery, public health surveillance, and agricultural biosecurity initiatives. Growing concerns over emerging infectious diseases and the quest for precision medicine have intensified the need for Global Metagenomic Sequencing Market­­­, driving investments in improved sample prep and cloud-based analytics. Ongoing market research into enhanced read lengths and error correction methods further bolsters confidence in metagenomic data for regulatory submissions. As sequencing costs decline and data interpretation tools mature, adoption is expanding across clinical and environmental applications, reshaping the industry’s market dynamics and enabling businesses to capture greater market share. Global metagenomic sequencing market size is expected to reach US$ 6.16 Bn by 2032, from US$ 1.96 Bn in 2025, exhibiting a compound annual growth rate (CAGR) of 17.8% during the forecast period.Key Takeaways Key players operating in the Global Metagenomic Sequencing Market are: -Illumina-QIAGEN-Thermo Fisher Scientific-Oxford Nanopore Technologies-BGI GroupThese market players leverage robust R&D pipelines to introduce next-generation sequencing instruments, advanced sample prep solutions, and AI-driven analysis software. Illumina’s NovaSeq series, QIAGEN’s QIAseq kits, Thermo Fisher’s Ion Torrent systems, Oxford Nanopore’s MinION platform, and BGI Group’s DNBSEQ instruments exemplify the competitive landscape. Through strategic collaborations, acquisitions, and co-development agreements, these companies aim to extend their product portfolios and strengthen service offerings. Their efforts are guided by comprehensive market research and detailed market reports, ensuring that portfolio expansions align with evolving customer demands and regulatory requirements. Continuous innovation in sequencing chemistries and data compression algorithms supports sustained revenue growth and reinforces their leading positions in the global industry.Rising awareness of the human microbiome’s role in health and disease is driving strong demand for metagenomic sequencing services. Healthcare providers and researchers seek detailed microbial profiles to inform personalized treatment plans, monitor therapeutic interventions, and detect pathogens in real time. Similarly, agricultural and environmental sectors adopt metagenomic workflows to optimize crop yields, assess soil health, and track pollutant-degrading bacteria. The convergence of big data analytics with advanced sample processing has unlocked new market opportunities across pharmaceuticals, diagnostics, and ecology. Growing investments in microbiome-based therapeutics and probiotic formulations further ignite demand.

‣ Get More Insights On: Global Metagenomic Sequencing Market­­­

‣ Get this Report in Japanese Language: 世界のメタゲノムシーケンシング市場

‣ Get this Report in Korean Language: 글로벌메타게놈시퀀싱시장

‣ Resources- Global Metagenomic Sequencing: Unlocking the Secrets of Microbial Communities

Best MSc in Cybersecurity Programs for BSc Graduates Abroad

From finance and healthcare to government and tech startups, cybersecurity has evolved into a pillar for every sector in a society going more and more digital. Cybersecurity is now among the most sought-after professions worldwide due to the growing need to safeguard private information, fight against cyberattacks, and create strong systems. Pursuing a Master's in Cybersecurity overseas can be a wise and future-proof choice for BSc grads wishing to further specialise. This blog delves deeply into the top MSc in Cyber Security courses available overseas, fit for BSc graduates hoping to start or advance their careers in this explosive field.

Why Consider an MSc in Cyber-Security Abroad?

Along with modern theoretical knowledge, a Master's degree in Cybersecurity from a globally respected university offers practical experience, hands-on lab work, research opportunities, and industry contacts. Studying overseas exposes students to advanced infrastructure, world-class faculty, and a multicultural environment all of which enhance their academic and personal growth.

Furthermore, heavily investing in cybersecurity and digital security infrastructure are many nations including the UK, Ireland, Germany, Canada, and Australia. These nations also grant post-study work visas, thus providing a broad spectrum of employment opportunities for overseas students after graduation.

United Kingdom: A Global Hub for Cybersecurity Education

With several universities named Academic Centres of Excellence in Cybersecurity Research (ACE-CSR) by the UK's National Cybersecurity Centre (NCSC), the country has always led in developing world-class academic programs in cybersecurity.

With a strong focus on cybersecurity practices, research methods, and pragmatic application, University of Oxford presents a high-ranking MSc in Software and Systems Security. It's meant for working professionals as well as fresh grads.

Ranked among the best cybersecurity courses in the world, University College London (UCL) offers an MSc in Information Security The courses centre on ethics hacking, system security, safe coding, and cryptography. Because of UCL's ties to London's tech scene, it appeals as a location for internships and employment.

Long leader in cybersecurity education, Royal Holloway, University of London, provides a focused MSc in Information Security. Its course draws students from all around the world by striking a mix between theoretical underpinnings and practical skills.

Graduates from these UK courses gain from outstanding job prospects at government agencies, financial institutions, and cybersecurity companies. Additionally, the UK gives plenty of time to find pertinent work after graduation thanks to a 2-year post-study work visa.

Ireland: Europe’s Fastest Growing Tech Hub

With worldwide companies like Google, Facebook, and Microsoft having their European headquarters in cities like Dublin, Ireland has become a tech and cybersecurity powerhouse. Renowned for providing industry-aligned, research-intensive MSc programs in cybersecurity are its universities.

An MSc in Cyber Security offered by University College Dublin (UCD) spans digital forensics, network security, and safe software development. Working closely with businesses, UCD's School of Computer Science exposes students to current trends and threats in real time.

For a hands-on MSc in Computing (Information and Network Security), Technological University Dublin (TU Dublin) It covers project work, labs for penetration testing, and international student intern opportunities.

Through its Cork campus, Munster Technological University (MTU) offers a program stressing industrial cybersecurity, digital forensics, and malware analysis. The course calendar fits working professionals as well as students.

Ireland's 2-year post-study visa and expanding cybersecurity ecosystem combine to make it an interesting place for BSc graduates hoping to work internationally and upskill.

Germany: Combining Quality Education with Affordability

Particularly at public universities, Germany is well-known for its low-cost or tuition-free educational system. The nation's strategic focus on cybersecurity results in the development of robust academic programs in this discipline.

Combining mathematics, system security, data security, and applied cryptography, Technical University of Munich (TUM) grants an MSc in Cybersecurity. For recent computer science, engineering, or math BSc grads, the program is perfect.

Working with Fraunhofer Institutes, University of Bonn runs an MSc in Cybersecurity with an eye towards research. Those looking for a strong academic background and research exposure will find the program ideal and competitive.

With an IT Security concentration, University of Passau presents a well-rounded MSc in Computer Science. Strong academic quality and reasonable cost of the program make it a favourite among overseas students.

Germany offers an 18-month post-study work visa, allowing graduates plenty of time to land job in tech companies, cybersecurity consultancies, and innovation hubs. Public universities in Germany sometimes have low tuition rates.

Canada: A Land of Innovation and Opportunity

One of the best options for overseas students in Canada is its friendly immigration laws, cosmopolitan surroundings, and top-notch educational system.

The MSc in Applied Computing with a Cybersecurity concentration offered by University of Toronto is Through internships in collaborating companies, the program combines industrial experience with academic knowledge.

Developed by University of British Columbia (UBC), a thorough Master of Data Science (MDS) including a cybersecurity module Though not entirely committed to cybersecurity, it combines elements of data privacy, safe data systems, and machine learning—skills very relevant in the cybersecurity field.

Based in Montreal, Concordia University oversees a targeted MSc in Information Systems Security. It gets students ready for leadership in cybersecurity by including specialised courses in digital forensics, threat intelligence, and safe software design.

Strong cybersecurity job market and Canada's post-study work permit (up to three years) make it perfect for BSc graduates intending a long-term job in North America.

Australia: A Growing Leader in Cyber Defense Education

Part of its national security and digital economy development strategies, Australia is heavily funding cybersecurity. International students find its universities appealing because of their applied learning approaches.

Focussing on enterprise-level threat analysis, incident response, and safe architectures,  University of New South Wales (UNSW) provides a Master of Cyber Security Operations. It suits technical background BSc graduates.

Working with business professionals, RMIT University offers an MSc in Cybersecurity. Particularly helpful for those interested in compliance-based roles, the program comprises governance modules, ethical hacking, and cloud security.

Renowned for its Master of Cyber Security, Deakin University offers technical courses mixed with policy and management elements of cybersecurity. It also provides access to the first Cybersecurity Research and Innovation Centre in Australia.

Australia's severe shortage of cybersecurity experts guarantees graduates great employability. Australia is a wise place for BSc graduates hoping to have an impact given a two-year post-study visa and strong employment market.

Key Skills You’ll Develop in an MSc Cybersecurity Program

A good Master's program in cybersecurity not only offers domain-specific knowledge but also develops a strong set of skills required to succeed in worldwide employment markets.

Threat Detection & Analysis: Learn to recognise, evaluate, and neutralise cyber threats on many platforms.

Cryptography & Secure Communication: Mastery of encryption and safe data transmission will help you in all spheres.

Penetration Testing & Ethical Hacking: Knowing how to ethically hack systems will help you to test and enhance their security.

Cyber Law & Digital Forensics: Learn about forensic investigations, compliance systems, and worldwide cyber laws.

Secure Software Design: Learn to create safe applications straight from the development phase in software design.

Incident Response & Risk Management: Create plans to handle cyber events and evaluate risk among several systems.

Career Opportunities After MSc in Cybersecurity

From banking, healthcare, government, IT, and consulting, graduates of top cybersecurity programs overseas have a broad spectrum of career paths. Among the much sought-after employment positions are:

Cybersecurity Analyst

Cybersecurity Analyst

Ethical Hacker

Security Software Developer

Network Security Engineer

Cybersecurity Consultant

Digital Forensics Expert

Security Operations Center (SOC) Analyst

Companies all around are always looking for qualified cybersecurity experts given rising cyberattacks and changing digital threats. Accelerated professional development and competitive pay follow from this demand.

Final Thoughts: Secure Your Future with Clifton Study Abroad

Selecting the appropriate Master's in Cybersecurity is about knowing your objectives, financial situation, career path, and academic strengths—not only about university rankings. From choosing the appropriate country and program to preparing your SOPs, guiding you through the application process, and obtaining your visa, at Clifton Study Abroad we help you to customize the best path.

You know that your dream to study cybersecurity overseas is in good hands with our knowledgeable team at your side. Whether your target is the UK, Ireland, Germany, Canada, Australia, or another country, Clifton Study Abroad guarantees you make wise decisions and enter your future confident and clearly.

Let’s protect the digital world—one graduate at a time.

IonQ To Oxford Ionics In $1.075B Quantum Computing Handle

IonQ will buy UK quantum computing and networking startup Oxford Ionics for $1.075 billion. This should alter commercial quantum.Announced on June 9, 2025, this significant deal includes $1.065 billion in IonQ  common shares and $10 million in cash, subject to closing adjustments. After receiving regulatory approvals, the purchase is anticipated to finalise in 2025.

In the fiercely competitive worldwide race to commercialise quantum computing, this acquisition unites two leading trapped-ion quantum computing companies to form a more potent and scalable organisation.

Tech Advances and Strategic Collaboration

The complementary technologies and strategic fit underpin this transaction. Oxford Ionics' chip-based trapped-ion technology will be coupled with IonQ's quantum computing stack, which encompasses networking, software, and hardware. Oxford Ionics is known for using semiconductor chips to make ion-trap qubits. IonQ may achieve hardware scalability faster with this method.

One of Oxford Ionics' advantages is its high qubit fidelity, a key indicator of quantum gate accuracy. The UK company holds global records for single- and two-qubit gate fidelity and sophisticated quantum state preparation and measurement. IonQ uses Oxford Ionics' chip-based traps and control technology to simplify and cost-effectively scale trapped-ion systems. IonQ's platform has traditionally relied on tightly aligned laser optics, but its integration may simplify hardware and speed up fault-tolerant system delivery. Analysts say this shows IonQ's determination to overcome quantum computing's scaling hurdle.

Potential Technical Roadmap and Forecasts

The united company has high technical ambitions for the coming years, signalling a fast, economically viable quantum computing acceleration:

256 physical qubit systems with 99.99% fidelity are predicted by 2026. The performance of trapped-ion systems would change significantly. In 2027, IonQ expects fault-tolerant scaling to computers with over 10,000 physical qubits. Fault tolerance is essential for commercial quantum computing due to its 99.99999% logical accuracy.

Long-term aspirations include 80,000 logical and 2 million physical qubits by 2030. These systems need logical qubit accuracies beyond 99.9999999999% to provide strong, large-scale algorithms for enterprise-grade applications.

IonQ CEO Niccolo de Masi said this acquisition accelerates the company's fault-tolerant quantum computer development. The companies said their combined skills would “set a new standard within quantum computing and deliver superior value for a customers through market-leading enterprise applications”.

Gaining Talent and Global Presence

In addition to technology synergies, IonQ acquired significant personnel. It increases academic collaborations, notably in the UK, and recruits Oxford Ionics talent. This is expected to boost IonQ's European and global R&D positions.

Drs. Chris Ballance and Tom Harty, co-founders of Oxford Ionics, will join IonQ to lead UK technology development. IonQ plans to expand its Oxford personnel and continue its partnerships with the Department for Science, Innovation, and Technology and the UK National Quantum Computing Centre. Niccolo de Masi said this acquisition and others bring together “the finest minds in quantum computing and quantum networking with IonQ”. Dr. Ballance says they want to “move faster than any other player in the industry to deliver the leading fault-tolerant quantum computers” as a collaboration.

Broader Consolidation and Market Outlook

This acquisition supports IonQ's vertical integration and consolidation strategy in quantum computing. In May, IonQ purchased Lightsynq, a Harvard-based company that makes universal optical quantum interconnects, and is now acquiring Capella. This method integrates multiple technologies and skills to produce a quantum computing platform.

Quantum computing could produce $850 billion in global economic value by 2040, according to the Boston Consulting Group, and the combination is well-positioned to capitalise. Fusion of Oxford Ionics' hardware with IonQ's infrastructure and clientele is expected to accelerate development and create new revenue streams in drug discovery, advanced manufacturing, defence, materials science, cybersecurity, aerospace, and logistics.

The arrangement has geopolitical implications as part of US-UK next-generation technology development collaboration. The united company will maintain links with US and UK quantum initiatives. This deal, which de Masi dubbed the “largest acquisition in tech in the UK in a long time,” shows the growing trend towards quantum hardware consolidation as corporations seek technological synergy and personnel access. It aims to give IonQ better control over its technology stack, more defendable IP, and a competitive edge in long-term government or business contracts.

Latin America NGS Market Demand and Forecast Analysis

Meticulous Research®—a leading global market research company, published a research report titled, "Latin America NGS Market by Offering (Kits [Library Prep, QC, DNA Extraction], System) Type (Genome, Exome, Targeted) Application (Reproductive, Oncology, Infectious, Drug Discovery) Technology (SBS, Nanopore, Nanoball, SMRT Seq, DNB) - Forecast to 2032."

According to this latest publication from Meticulous Research®, the Latin America NGS market is expected to reach $765.2 million by 2032, at a CAGR of 13.9% from 2025 to 2032. The growth of the Latin America NGS market can be attributed to various factors, including the increasing initiatives by governments and organizations for genomic sequencing projects, advancements in sequencing procedures, decreasing costs of genome sequencing, a rise in cancer prevalence, and the expanding application of NGS in cancer treatment and research. However, the high costs of NGS systems and consumables and the availability of alternative technologies restrain the market's growth.

The rising adoption of bioinformatics and genomic data management solutions, as well as collaborations and partnerships to support next-generation sequencing, are expected to create market growth opportunities. However, the lack of skilled professionals and ethical and legal issues related to NGS-based diagnosis pose a significant challenge to the market's growth.

Key Players

The key players profiled in the Latin America NGS market report are Thermo Fisher Scientific Inc. (U.S.), Illumina, Inc. (U.S.), Qiagen N.V. (Netherlands), F. Hoffmann-La Roche Ltd (Switzerland), PerkinElmer, Inc. (U.S.), Agilent Technologies, Inc. (U.S.), Danaher Corporation (U.S.), Bio-Rad Laboratories, Inc. (U.S.), Oxford Nanopore Technologies Plc. (U.K.), and 10X Genomics, Inc. 2(U.S.).

Latin America NGS Market: Future Outlook

The Latin America NGS market is segmented into Offering (Consumables [Sample Preparation Consumables {DNA Extraction and Amplification, Library Preparation & Target Enrichment, Quality Control}, Other Consumables], NGS Platforms/Instruments, Software, Services), Sequencing Type (Targeted Genome Sequencing, Whole Genome Sequencing, Whole Exome Sequencing, Other Sequencing Types), Technology (Sequencing by Synthesis, Ion Semiconductor Sequencing, Single-molecule Real-time Sequencing (SMRT), Nanopore Sequencing, DNA Nanoball Sequencing), Applications (Clinical Applications [Reproductive Health, Oncology, Infectious Diseases, Other Clinical Applications], Research Applications [Drug Discovery, Agriculture & Animal Research, Other Research Applications), End User (Hospitals and Diagnostic Laboratories, Pharmaceutical & Biotechnology Companies, Academic Institutes & Research Centers, Other End Users), and Geography.

Among the offerings, in 2025, the consumables segment is expected to account for the largest share of the Latin America NGS market. The large market share of this segment is attributed to recurring demand for consumables, advancements in consumables, and the rising adoption of NGS technology for clinical and research purposes. NGS is used in clinical and research studies to characterize disease-causing genomes, sequence the potential pathogen, analyze epigenetic markers, and identify specific genes and their sequences. These applications of NGS are instrumental in developing targeted medicines, understanding food microbiology and microbiota analysis in the beverage industry, and other environmental studies.

Among the sequencing types, in 2025, the targeted genome sequencing segment is expected to account for the largest share of the Latin America NGS market. The large market share of this segment is attributed to its low sequencing costs compared to other sequencing technologies, increased sensitivity in variant calling, and advancements in targeted genome sequencing technologies. Advances in targeted genome sequencing have enhanced the diagnosis of monogenic intestinal and pediatric disorders. Beyond disease diagnosis, this technology facilitates the exploration of gene-drug associations, enabling researchers to design gene-specific drugs with high specificity.

Among the technologies, in 2025, the sequencing by synthesis segment is expected to account for the largest share of the Latin America NGS market. The large market share of this segment is attributed to the advantages offered by sequencing by synthesis over other technologies. These advantages include the elimination of homopolymer errors, cost-effectiveness for various throughput or scale requirements, robust performance and data quality, unbiased coverage across the genome, and high-quality alignment achieved through paired-end sequencing.

Among the applications, in 2025, the research applications segment is expected to account for the larger share of the Latin America NGS market. The large market share of this segment is attributed to the increasing prevalence of genetic disorders, a rise in the adoption of sequencing-based tests in laboratories, the growing demand for gene-based medicines, increased investments in drug research and development activities, and increasing research programs for personalized medicine.

Among the end users, in 2025, the pharmaceutical & biotechnology companies segment is expected to account for the largest share of the Latin America NGS market. The large market share of this segment is attributed to the increasing R&D spending by pharmaceutical and biotechnology companies and the rising incidence of chronic diseases. For instance, according to GLOBOCAN, in 2020, 1.5 million people were diagnosed with cancer in Latin America. This number is projected to reach 1.9 million by 2032. NGS is often utilized to identify genomic mutations and variants in cancer research. NGS allows scientists and medical professionals to examine a vast amount of DNA and RNA simultaneously, aiding in the detection of abnormalities that might be connected to the disease.

Geographic Review

This research report provides a comprehensive analysis of the market in Brazil, Mexico, Argentina, Chile, and the Rest of Latin America. In 2025, Brazil is expected to account for the largest share of the Latin America NGS market. Brazil's significant market share can be attributed to the increasing adoption of advanced technologies for research purposes, the expanding applications of NGS in drug discovery, growing research and development spending by pharmaceutical and biotechnology companies, and the rising incidence of chronic diseases. These factors collectively drive the adoption of NGS technologies among pharmaceutical and biotechnology companies in Brazil.

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Key questions answered in the report:

Which are the high-growth market segments in terms of the offering, sequencing type, technology, application, end user, and country?

What was the historical market size for NGS in Latin America?

What are the market forecasts and estimates for the period 2025–2032?

What are the major drivers, restraints, challenges, opportunities, and trends in the Latin America NGS market?

Who are the major players in the Latin America NGS market?

What is the competitive landscape like, and who are the market leaders in the Latin America NGS market?

What are the recent developments in the Latin America NGS market?

What are the different strategies adopted by the major players in the Latin America NGS market?

What are the geographical trends and high-growth countries?

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Tumor Transcriptomics Market Size, Share, Trends, Demand, Growth and Competitive Analysis

The global Tumor Transcriptomics Market is witnessing accelerated growth as businesses adapt to changing consumer expectations, regulatory shifts, and rapid technological advancements. With increasing demand for efficient, scalable, and sustainable solutions, companies across various sectors are investing heavily in Tumor Transcriptomics Market-related innovations. This upward trend is supported by the widespread adoption of digital tools, rising automation, and a stronger emphasis on data-driven strategies, positioning the Tumor Transcriptomics Market as a key growth engine in the modern economic landscape.

A new comprehensive report offers detailed insights into the current state and future outlook of the Tumor Transcriptomics Market, including market size, segment analysis, regional breakdowns, and competitive intelligence. The study also highlights critical trends such as consumer behavior shifts, sustainability initiatives, and emerging technologies that are shaping the industry. Designed for decision-makers, investors, and stakeholders, this report provides strategic recommendations to help businesses stay ahead in a dynamic and competitive environment.

Discover the latest trends, growth opportunities, and strategic insights in our comprehensive Tumor Transcriptomics Market report.

Download Full Report: https://www.databridgemarketresearch.com/reports/global-tumor-transcriptomics-market

Tumor Transcriptomics Market Overview

**Segments**

- Based on product type, the tumor transcriptomics market can be segmented into consumables, instruments, and software & services. Consumables include reagents and kits required for sample preparation and analysis. Instruments segment comprises sequencing platforms, PCR machines, microarray equipment, and others. Software and services involve bioinformatics tools for data analysis and interpretation.

- On the basis of technology, the market can be categorized into next-generation sequencing (NGS), polymerase chain reaction (PCR), microarray, and other technologies. NGS holds a significant share owing to its ability to provide comprehensive genomic information from tumor samples. PCR is widely used for targeted gene expression analysis, while microarray technology is suitable for profiling gene expression in a high-throughput manner.

- By cancer type, the tumor transcriptomics market can be segmented into lung cancer, breast cancer, prostate cancer, colorectal cancer, and others. Different cancer types exhibit distinct gene expression patterns, making it essential to study transcriptomic profiles for personalized treatment strategies and biomarker discovery.

- Based on application, the market can be divided into diagnostics, drug discovery & development, personalized medicine, and research. Transcriptomic analysis plays a crucial role in identifying potential drug targets, predicting drug response, and understanding the molecular mechanisms underlying cancer progression.

**Market Players**

- Illumina, Inc. - Thermo Fisher Scientific Inc. - QIAGEN - F. Hoffmann-La Roche Ltd - Agilent Technologies, Inc. - PerkinElmer Inc. - Takara Bio Inc. - Oxford Nanopore Technologies - Pacific Biosciences of California, Inc. - Bio-Rad Laboratories, Inc.

These market players are actively involved in product development, strategic collaborations, and mergers & acquisitions to enhance their market presence and expand their product offerings in the global tumor transcriptomics market.

https://www.databridgemarketresearch.com/reports/global-tumor-transcriptomics-market The global tumor transcriptomics market is witnessing significant growth driven by the increasing focus on personalized medicine and the rising demand for precision oncology solutions. As the understanding of the molecular mechanisms underlying cancer continues to evolve, transcriptomic analysis has become a valuable tool for researchers and healthcare providers in deciphering gene expression patterns specific to different types of cancer. This has led to the development of innovative products and services across various segments of the market, including consumables, instruments, software, and services.

In terms of product type segmentation, consumables such as reagents and kits play a crucial role in sample preparation and analysis, driving steady demand in the market. Instruments segment, which includes sequencing platforms and PCR machines, remains a key revenue contributor, as these technologies enable high-throughput analysis of tumor samples. Additionally, the software and services segment, which encompasses bioinformatics tools for data analysis, presents opportunities for market players to offer integrated solutions for comprehensive transcriptomic analysis.

The adoption of next-generation sequencing (NGS) technology is a key trend shaping the market landscape, as it allows for the generation of large-scale genomic data with high accuracy and efficiency. NGS technology's capability to provide detailed genomic information from tumor samples is driving its widespread use in tumor transcriptomics research and clinical applications. Polymerase chain reaction (PCR) and microarray technologies also continue to play significant roles in targeted gene expression analysis and high-throughput gene profiling, respectively.

Cancer type segmentation in the tumor transcriptomics market highlights the importance of studying gene expression patterns specific to different types of cancer for personalized treatment strategies and biomarker discovery. Lung cancer, breast cancer, prostate cancer, colorectal cancer, and other cancer types exhibit distinct transcriptomic profiles, emphasizing the need for tailored approaches to cancer diagnosis and treatment.

Market players such as Illumina, Thermo Fisher Scientific, QIAGEN, and Roche are at the forefront of product innovation and strategic collaborations to strengthen their market presence and expand their product portfolios. These companies are investing in research and development to introduce advanced technologies and solutions that meet the evolving needs of the oncology community. Mergers and acquisitions are also common strategies employed by key players to enhance their market share and competitiveness in the global tumor transcriptomics market.

Overall, the tumor transcriptomics market is poised for continued growth as advancements in technology, increasing focus on personalized medicine, and growing investments in cancer research drive innovation and expansion in this dynamic sector. The market's trajectory is likely to be shaped by ongoing research efforts, technological advancements, and strategic collaborations among industry players to address the evolving challenges and opportunities in cancer diagnosis and treatment.The global tumor transcriptomics market is experiencing a paradigm shift with a growing emphasis on personalized medicine and precision oncology solutions. The market's expansion is fueled by the increasing understanding of the molecular intricacies of cancer and the pivotal role that transcriptomic analysis plays in deciphering unique gene expression patterns within various cancer types. This heightened focus on molecular profiling has led to a surge in innovative product offerings across different segments of the market, including consumables, instruments, software, and services.

In the realm of product segmentation, consumables like reagents and kits have emerged as indispensable components for sample preparation and analysis, ensuring a steady demand within the market. Instruments, encompassing cutting-edge technologies such as sequencing platforms and PCR machines, continue to be substantial revenue drivers due to their capability to facilitate high-throughput analysis of tumor samples. Furthermore, the segment of software and services, featuring bioinformatics tools for data analysis, presents a promising avenue for market players to deliver comprehensive transcriptomic solutions.

A notable trend shaping the market landscape is the increasing adoption of next-generation sequencing (NGS) technology, heralded for its ability to generate vast amounts of genomic data with remarkable accuracy and efficiency. NGS's prowess in offering detailed genomic insights from tumor samples has propelled its widespread integration into tumor transcriptomics research and clinical applications. Polymerase chain reaction (PCR) and microarray technologies also retain significance in targeted gene expression analysis and high-throughput gene profiling, respectively, underscoring their enduring importance in the market.

The segmentation based on cancer types underscores the critical importance of studying cancer-specific gene expression patterns for tailoring precise treatment strategies and unlocking biomarker discoveries. Lung cancer, breast cancer, prostate cancer, colorectal cancer, and other cancer subtypes exhibit distinct transcriptomic signatures, underscoring the necessity for bespoke approaches to cancer management and therapy development.

Leading market players like Illumina, Thermo Fisher Scientific, QIAGEN, and Roche are actively engaged in pioneering product innovations and forging strategic collaborations to bolster their market standing and diversify their product portfolios. Through substantial investments in research and development, these industry titans are introducing advanced technologies and solutions designed to meet the evolving demands of the oncology landscape. Additionally, mergers and acquisitions serve as commonplace strategies for key players to augment their market share and competitiveness within the global tumor transcriptomics domain.

As the market continues its upward trajectory, driven by technological advancements, a surge in personalized medicine initiatives, and heightened investments in cancer research, the future outlook remains promising. Ongoing research endeavors, coupled with collaborative efforts among industry stakeholders, are poised to address the burgeoning challenges and opportunities in cancer diagnosis and treatment, shaping the evolution of the tumor transcriptomics market in the years to come.

The Tumor Transcriptomics Market is highly fragmented, featuring intense competition among both global and regional players striving for market share. To explore how global trends are shaping the future of the top 10 companies in the keyword market.

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Regional Outlook

North America: The Tumor Transcriptomics Market in North America is driven by advanced technological infrastructure, strong consumer demand, and supportive government policies. The United States holds the largest share due to early adoption and robust investment.

Europe: Europe showcases steady growth in the Tumor Transcriptomics Market, supported by strict regulatory frameworks, sustainability initiatives, and innovation-led economies. Key contributors include Germany, the U.K., and France.

Asia-Pacific: Asia-Pacific is the fastest-growing region for the Tumor Transcriptomics Market, fueled by population growth, urbanization, and industrial expansion. China, India, and Japan are major markets with high potential.

Latin America: Growth in Latin America is moderate but rising, driven by expanding middle-class populations and increasing awareness of Tumor Transcriptomics Market applications. Brazil and Mexico are the leading countries.

Middle East & Africa: The Tumor Transcriptomics Market in this region is gaining momentum due to infrastructural developments, diversification efforts, and rising investments. The UAE, Saudi Arabia, and South Africa are key players.

Competitive Landscape

Future Trends— Global Tumor Transcriptomics Market

Upcoming Technologies: The Tumor Transcriptomics Market will witness rapid adoption of cutting-edge technologies such as artificial intelligence, machine learning, the Internet of Things (IoT), blockchain, and automation. These technologies are expected to enhance operational efficiency, enable real-time data-driven decisions, and introduce innovative products and services.

Consumer Behavior Changes: The Tumor Transcriptomics Market will be shaped by changes in consumer preferences toward offerings that are experience-driven, convenient, and personalized. Increasing demand for transparency, digital engagement, and value-driven purchases will push companies to innovate their marketing and product strategies.

Sustainability Trends: Sustainability will be a critical focus, with consumers and regulators alike driving demand for eco-friendly materials, energy-efficient processes, and circular economy initiatives. Businesses are anticipated to prioritize green innovations to reduce carbon footprints and meet stricter environmental regulations.

Expected Innovations: The market is expected to see significant innovations, including smart products, integration of advanced analytics for predictive insights, and development of new materials or solutions tailored to emerging needs. Collaboration between technology firms and industry leaders will accelerate these innovations.

Why This Report is Valuable

This report provides in-depth industry insights that help stakeholders understand the current market landscape, key drivers, challenges, and growth opportunities within the Tumor Transcriptomics Market. It offers regional and segment-wise forecasts that enable precise market planning and targeted investment strategies tailored to specific geographic areas and product/service segments.

The report includes comprehensive competitor benchmarking, allowing businesses to evaluate their position relative to key players, understand competitive strategies, and identify gaps or opportunities for differentiation. Additionally, it delivers actionable strategic recommendations based on market trends and data analysis to support informed decision-making, optimize business growth, and enhance market presence.

Top 15 FAQs About the Global Tumor Transcriptomics Market Research Report

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BCA vs B.Tech in Computer Science: Which is Better for Your Career?

In today’s digital age, careers in the tech industry are booming. After completing 12th grade with a science or computer background, two of the most popular courses that students often consider are BCA (Bachelor of Computer Applications) and B.Tech in Computer Science. Both courses open doors to a wide range of opportunities in the IT field, but they follow different paths.

So, if you're wondering which one is better for your career — this blog will help you decide based on your interests, goals, and learning style.

Understanding the Basics

What is BCA?

BCA is a 3-year undergraduate degree program focused on computer applications, programming languages, and software development. It is ideal for students who want to enter the IT industry quickly and start building their careers.

What is B.Tech in Computer Science?

B.Tech (CS) is a 4-year engineering degree that covers software, hardware, algorithms, data structures, networking, and computer architecture. It is more technical and math-heavy than BCA.

Which Course is Better for You?

✔️ Choose BCA if:

You want to start working in the IT industry early.

You prefer learning software tools, coding, and web/app development.

You are not from a science background or don’t want an intense engineering course.

✔️ Choose B.Tech (CS) if:

You have a strong interest in programming, logic, and computer systems.

You are from a science (PCM) background and can handle technical subjects.

You aim for roles in software engineering, system architecture, or research.

Career Scope After BCA

BCA graduates are in demand across software companies, tech startups, and digital marketing agencies. Job roles include:

Software Developer

Web Developer

App Developer

Technical Support Executive

IT Analyst

With the right skillset and certifications, BCA students can compete with B.Tech graduates for many IT roles.

Career Scope After B.Tech in Computer Science

B.Tech graduates can go into:

Software Engineering

System Development

Data Science

Artificial Intelligence

Cybersecurity

They may also be preferred in product-based companies and MNCs, but they have to spend an extra year on studies.

Best BCA Colleges in Bangalore

If you're leaning toward BCA and want to study in a tech hub, Bangalore is one of the best cities for this course. Here are some of the top BCA colleges in Bangalore:

Christ University

Jain (Deemed-to-be) University

Mount Carmel College

Presidency College

Kristu Jayanti College

St. Joseph's College

Oxford College of Science

These colleges offer strong academic programs, great placement support, and exposure to Bangalore’s IT ecosystem.

Final Thoughts

Both BCA and B.Tech in Computer Science can lead to successful careers — it all depends on your academic background, career goals, and learning preferences. If you want a shorter, more focused course with job-ready skills, BCA is a smart choice, especially when pursued from a bcollege in a city like Bangalore.

Choose wisely — your tech career starts here!