CCF Course Benefits and Career Scope in Cloud Computing.

As cloud technology continues to reshape the modern workplace, professionals across industries are racing to upskill in cloud computing. The Certified Cloud Computing Foundation (CCF) course has emerged as one of the most sought-after programs for those who want to build a strong base in this field. But what exactly are the CCF course benefits, and how can this cloud computing foundation certification impact your career? Let’s dive in.

What is the CCF Certification?

The CCF certification, offered by GSDC (Global Skills Development Council), is an entry-level credential designed for professionals who want to gain a foundational understanding of cloud computing. Whether you're from a technical background or a business function, this cloud foundation course offers practical and theoretical insights into how cloud technologies work, their deployment models, and how they can be implemented across organizations.

Key Benefits of the CCF Course

1. Strong Cloud Foundation

The cloud computing foundation certification helps you build a robust understanding of key cloud concepts, including IaaS, PaaS, SaaS, public, private, and hybrid clouds. This makes it ideal for beginners and mid-level professionals seeking clarity and structure in their learning journey.

2. Career Flexibility

One of the top CCF course benefits is the flexibility it offers. Once certified, you can pursue roles like cloud support associate, junior cloud engineer, IT operations analyst, or even transition into cloud-based project management roles. This certification in cloud computing opens doors across industries including finance, healthcare, retail, and logistics.

3. Industry-Recognized Credential

The CCF certification is recognized globally. It gives your resume a competitive edge and shows employers that you have a structured and certified understanding of cloud computing basics. In a hiring landscape that’s heavily cloud-driven, this credential makes a noticeable difference.

4. Supports Advanced Certifications

If you're planning to move on to AWS, Azure, or Google Cloud certifications later, the cloud foundation certification serves as a perfect stepping stone. It gives you the groundwork needed to better understand and succeed in these more advanced cloud learning paths.

5. No Prerequisites Required

Unlike many tech certifications, the CCF course doesn’t require previous experience in programming or IT infrastructure. This makes it accessible to business analysts, project managers, and even marketing professionals who need to understand cloud from a strategic viewpoint.

6. Boosts Organizational Readiness

From an enterprise perspective, teams equipped with cloud computing certification can drive faster adoption of cloud projects, improve cybersecurity, and make informed decisions on cloud migration strategies. The cloud computing foundation skills ensure everyone speaks the same language when executing cloud transformations.

Career Scope After Cloud Computing Foundation Certification

With cloud computing becoming central to digital transformation, the career scope of CCF certification is expanding rapidly. Jobs like:

Cloud Support Specialist

Cloud Systems Administrator

Cloud Business Analyst

Technical Sales Specialist

Cloud Consultant

are increasingly demanding a foundation in cloud computing. Moreover, the need for cloud fluency is no longer limited to IT teams—marketing, finance, HR, and leadership roles now benefit greatly from cloud awareness.

The CCF course helps you remain future-ready, giving you a foothold in the ever-growing digital economy.

If you’re looking to future-proof your career and enter the high-demand world of cloud technology, the CCF course is an excellent starting point. With no prerequisites, global recognition, and a curriculum that aligns with current business needs, the cloud computing foundation certification is your ticket to new opportunities and growth. Whether you're starting fresh or reskilling, the certification in cloud computing delivers real, measurable value.

For more details : https://www.gsdcouncil.org/certified-cloud-computing-foundation 

Contact no :  +41 41444851189

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

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

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

Why Choose B.Tech in Computer Science and Engineering?

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

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

The Role of Computer Science Engineering Colleges in Career Development

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

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

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

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

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

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

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

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

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

What Makes SCOE Stand Out?

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

MIT researchers discover the universe’s oldest stars in our own galactic backyard

New Post has been published on https://thedigitalinsider.com/mit-researchers-discover-the-universes-oldest-stars-in-our-own-galactic-backyard/

MIT researchers discover the universe’s oldest stars in our own galactic backyard

MIT researchers, including several undergraduate students, have discovered three of the oldest stars in the universe, and they happen to live in our own galactic neighborhood.

The team spotted the stars in the Milky Way’s “halo” — the cloud of stars that envelopes the entire main galactic disk. Based on the team’s analysis, the three stars formed between 12 and 13 billion years ago, the time when the very first galaxies were taking shape.

The researchers have coined the stars “SASS,” for Small Accreted Stellar System stars, as they believe each star once belonged to its own small, primitive galaxy that was later absorbed by the larger but still growing Milky Way. Today, the three stars are all that are left of their respective galaxies. They circle the outskirts of the Milky Way, where the team suspects there may be more such ancient stellar survivors.

“These oldest stars should definitely be there, given what we know of galaxy formation,” says MIT professor of physics Anna Frebel. “They are part of our cosmic family tree. And we now have a new way to find them.”

As they uncover similar SASS stars, the researchers hope to use them as analogs of ultrafaint dwarf galaxies, which are thought to be some of the universe’s surviving first galaxies. Such galaxies are still intact today but are too distant and faint for astronomers to study in depth. As SASS stars may have once belonged to similarly primitive dwarf galaxies but are in the Milky Way and as such much closer, they could be an accessible key to understanding the evolution of ultrafaint dwarf galaxies.

“Now we can look for more analogs in the Milky Way, that are much brighter, and study their chemical evolution without having to chase these extremely faint stars,” Frebel says.

She and her colleagues have published their findings today in the Monthly Notices of the Royal Astronomical Society (MNRAS). The study’s co-authors are Mohammad Mardini, at Zarqa University, in Jordan; Hillary Andales ’23; and current MIT undergraduates Ananda Santos and Casey Fienberg.

Stellar frontier

The team’s discoveries grew out of a classroom concept. During the 2022 fall semester, Frebel launched a new course, 8.S30 (Observational Stellar Archaeology), in which students learned techniques for analyzing ancient stars and then applied those tools to stars that had never been studied before, to determine their origins.

“While most of our classes are taught from the ground up, this class immediately put us at the frontier of research in astrophysics,” Andales says.

The students worked from star data collected by Frebel over the years from the 6.5-meter Magellan-Clay telescope at the Las Campanas Observatory. She keeps hard copies of the data in a large binder in her office, which the students combed through to look for stars of interest.

In particular, they were searching ancient stars that formed soon after the Big Bang, which occurred 13.8 billion years ago. At this time, the universe was made mostly of hydrogen and helium and very low abundances of other chemical elements, such as strontium and barium. So, the students looked through Frebel’s binder for stars with spectra, or measurements of starlight, that indicated low abundances of strontium and barium.

Their search narrowed in on three stars that were originally observed by the Magellan telescope between 2013 and 2014. Astronomers never followed up on these particular stars to interpret their spectra and deduce their origins. They were, then, perfect candidates for the students in Frebel’s class.

The students learned how to characterize a star in order to prepare for the analysis of the spectra for each of the three stars. They were able to determine the chemical composition of each one with various stellar models. The intensity of a particular feature in the stellar spectrum, corresponding to a specific wavelength of light, corresponds to a particular abundance of a specific element.

After finalizing their analysis, the students were able to confidently conclude that the three stars did hold very low abundances of strontium, barium, and other elements such as iron, compared to their reference star — our own sun. In fact, one star contained less than 1/10,000 the amount of iron to helium compared to the sun today.

“It took a lot of hours staring at a computer, and a lot of debugging, frantically texting and emailing each other to figure this out,” Santos recalls. “It was a big learning curve, and a special experience.”

“On the run”

The stars’ low chemical abundance did hint that they originally formed 12 to 13 billion years ago. In fact, their low chemical signatures were similar to what astronomers had previously measured for some ancient, ultrafaint dwarf galaxies. Did the team’s stars originate in similar galaxies? And how did they come to be in the Milky Way?

On a hunch, the scientists checked out the stars’ orbital patterns and how they move across the sky. The three stars are in different locations throughout the Milky Way’s halo and are estimated to be about 30,000 light years from Earth. (For reference, the disk of the Milky Way spans 100,000 light years across.)

As they retraced each star’s motion about the galactic center using observations from the Gaia astrometric satellite, the team noticed a curious thing: Relative to most of the stars in the main disk, which move like cars on a racetrack, all three stars seemed to be going the wrong way. In astronomy, this is known as “retrograde motion” and is a tipoff that an object was once “accreted,” or drawn in from elsewhere.

“The only way you can have stars going the wrong way from the rest of the gang is if you threw them in the wrong way,” Frebel says.

The fact that these three stars were orbiting in completely different ways from the rest of the galactic disk and even the halo, combined with the fact that they held low chemical abundances, made a strong case that the stars were indeed ancient and once belonged to older, smaller dwarf galaxies that fell into the Milky Way at random angles and continued their stubborn trajectories billions of years later.

Frebel, curious as to whether retrograde motion was a feature of other ancient stars in the halo that astronomers previously analyzed, looked through the scientific literature and found 65 other stars, also with low strontium and barium abundances, that appeared to also be going against the galactic flow.

“Interestingly they’re all quite fast — hundreds of kilometers per second, going the wrong way,” Frebel says. “They’re on the run! We don’t know why that’s the case, but it was the piece to the puzzle that we needed, and that I didn’t quite anticipate when we started.”

The team is eager to search out other ancient SASS stars, and they now have a relatively simple recipe to do so: First, look for stars with low chemical abundances, and then track their orbital patterns for signs of retrograde motion. Of the more than 400 billion stars in the Milky Way, they anticipate that the method will turn up a small but significant number of the universe’s oldest stars.

Frebel plans to relaunch the class this fall, and looks back at that first course, and the three students who took their results through to publication, with admiration and gratitude.

“It’s been awesome to work with three women undergrads. That’s a first for me,” she says. “It’s really an example of the MIT way. We do. And whoever says, ���I want to participate,’ they can do that, and good things happen.”

This research was supported, in part, by the National Science Foundation.

🎓✨ Unlock the Future of Tech with Dr. Surabhi Pandey!

We were honored to have Dr. Surabhi Pandey, a leading expert in Cloud Computing, Cyber Security, Data Analytics, and Digital Marketing, share her vast knowledge at our B Tech Orientation. With 18+ years of experience, she emphasized the power of digital leadership and staying ahead of the curve in an ever-evolving tech landscape. 🌐🚀

Dr. Pandey's work has been recognized by top institutions, including the Indian Army and the 3E Innovative Foundation, and she continues to set new benchmarks as a key member of the Bureau of Indian Standards (BIS). Her insights inspire us to drive innovation and adapt to the digital age!

👉 Watch the reel to gain valuable takeaways on the future of technology, leadership, and embracing change.

The antitrust case against Apple

I'm on tour with my new, nationally bestselling novel The Bezzle! Catch me TONIGHT (Mar 22) in TORONTO, then SUNDAY (Mar 24) with LAURA POITRAS in NYC, then Anaheim, and beyond!

The foundational tenet of "the Cult of Mac" is that buying products from a $3t company makes you a member of an oppressed ethnic minority and therefore every criticism of that corporation is an ethnic slur:

https://pluralistic.net/2024/01/12/youre-holding-it-wrong/#if-dishwashers-were-iphones

Call it "Apple exceptionalism" – the idea that Apple, alone among the Big Tech firms, is virtuous, and therefore its conduct should be interpreted through that lens of virtue. The wellspring of this virtue is conveniently nebulous, which allows for endless goal-post shifting by members of the Cult of Mac when Apple's sins are made manifest.

Take the claim that Apple is "privacy respecting," which is attributed to Apple's business model of financing its services though cash transactions, rather than by selling it customers to advertisers. This is the (widely misunderstood) crux of the "surveillance capitalism" hypothesis: that capitalism is just fine, but once surveillance is in the mix, capitalism fails.

Apple, then, is said to be a virtuous company because its behavior is disciplined by market forces, unlike its spying rivals, whose ability to "hack our dopamine loops" immobilizes the market's invisible hand with "behavior-shaping" shackles:

http://pluralistic.net/HowToDestroySurveillanceCapitalism

Apple makes a big deal out of its privacy-respecting ethos, and not without some justification. After all, Apple went to the mattresses to fight the FBI when they tried to force Apple to introduced defects into its encryption systems:

https://www.eff.org/deeplinks/2018/04/fbi-could-have-gotten-san-bernardino-shooters-iphone-leadership-didnt-say

And Apple gave Ios users the power to opt out of Facebook spying with a single click; 96% of its customers took them up on this offer, costing Facebook $10b (one fifth of the pricetag of the metaverse boondoggle!) in a single year (you love to see it):

https://arstechnica.com/gadgets/2021/02/facebook-makes-the-case-for-activity-tracking-to-ios-14-users-in-new-pop-ups/

Bruce Schneier has a name for this practice: "feudal security." That's when you cede control over your device to a Big Tech warlord whose "walled garden" becomes a fortress that defends you against external threats:

https://pluralistic.net/2021/06/08/leona-helmsley-was-a-pioneer/#manorialism

The keyword here is external threats. When Apple itself threatens your privacy, the fortress becomes a prison. The fact that you can't install unapproved apps on your Ios device means that when Apple decides to harm you, you have nowhere to turn. The first Apple customers to discover this were in China. When the Chinese government ordered Apple to remove all working privacy tools from its App Store, the company obliged, rather than risk losing access to its ultra-cheap manufacturing base (Tim Cook's signal accomplishment, the one that vaulted him into the CEO's seat, was figuring out how to offshore Apple manufacturing to China) and hundreds of millions of middle-class consumers:

https://www.reuters.com/article/us-china-apple-vpn/apple-says-it-is-removing-vpn-services-from-china-app-store-idUSKBN1AE0BQ

Killing VPNs and other privacy tools was just for openers. After Apple caved to Beijing, the demands kept coming. Next, Apple willingly backdoored all its Chinese cloud services, so that the Chinese state could plunder its customers' data at will:

https://www.nytimes.com/2021/05/17/technology/apple-china-censorship-data.html

This was the completely foreseeable consequence of Apple's "curated computing" model: once the company arrogated to itself the power to decide which software you could run on your own computer, it was inevitable that powerful actors – like the Chinese Communist Party – would lean on Apple to exercise that power in service to its goals.

Unsurprisingly, the Chinese state's appetite for deputizing Apple to help with its spying and oppression was not sated by backdooring iCloud and kicking VPNs out of the App Store. As recently as 2022, Apple continued to neuter its tools at the behest of the Chinese state, breaking Airdrop to make it useless for organizing protests in China:

https://pluralistic.net/2022/11/11/foreseeable-consequences/#airdropped

But the threat of Apple turning on its customers isn't limited to China. While the company has been unwilling to spy on its users on behalf of the US government, it's proven more than willing to compromise its worldwide users' privacy to pad its own profits. Remember when Apple let its users opt out of Facebook surveillance with one click? At the very same time, Apple was spinning up its own commercial surveillance program, spying on Ios customers, gathering the very same data as Facebook, and for the very same purpose: to target ads. When it came to its own surveillance, Apple completely ignored its customers' explicit refusal to consent to spying, spied on them anyway, and lied about it:

https://pluralistic.net/2022/11/14/luxury-surveillance/#liar-liar

Here's the thing: even if you believe that Apple has a "corporate personality" that makes it want to do the right thing, that desire to be virtuous is dependent on the constraints Apple faces. The fact that Apple has complete legal and technical control over the hardware it sells – the power to decide who can make software that runs on that hardware, the power to decide who can fix that hardware, the power to decide who can sell parts for that hardware – represents an irresistible temptation to enshittify Apple products.

"Constraints" are the crux of the enshittification hypothesis. The contagion that spread enshittification to every corner of our technological world isn't a newfound sadism or indifference among tech bosses. Those bosses are the same people they've always been – the difference is that today, they are unconstrained.

Having bought, merged or formed a cartel with all their rivals, they don't fear competition (Apple buys 90+ companies per year, and Google pays it an annual $26.3b bribe for default search on its operating systems and programs).

Having captured their regulators, they don't fear fines or other penalties for cheating their customers, workers or suppliers (Apple led the coalition that defeated dozens of Right to Repair bills, year after year, in the late 2010s).

Having wrapped themselves in IP law, they don't fear rivals who make alternative clients, mods, privacy tools or other "adversarial interoperability" tools that disenshittify their products (Apple uses the DMCA, trademark, and other exotic rules to block third-party software, repair, and clients).

True virtue rests not merely in resisting temptation to be wicked, but in recognizing your own weakness and avoiding temptation. As I wrote when Apple embarked on its "curated computing" path, the company would eventually – inevitably – use its power to veto its customers' choices to harm those customers:

https://memex.craphound.com/2010/04/01/why-i-wont-buy-an-ipad-and-think-you-shouldnt-either/

Which is where we're at today. Apple – uniquely among electronics companies – shreds every device that is traded in by its customers, to block third parties from harvesting working components and using them for independent repair:

https://www.vice.com/en/article/yp73jw/apple-recycling-iphones-macbooks

Apple engraves microscopic Apple logos on those parts and uses these as the basis for trademark complaints to US customs, to block the re-importation of parts that escape its shredders:

https://repair.eu/news/apple-uses-trademark-law-to-strengthen-its-monopoly-on-repair/

Apple entered into an illegal price-fixing conspiracy with Amazon to prevent used and refurbished devices from being sold in the "world's biggest marketplace":

https://pluralistic.net/2022/11/10/you-had-one-job/#thats-just-the-as

Why is Apple so opposed to independent repair? Well, they say it's to keep users safe from unscrupulous or incompetent repair technicians (feudal security). But when Tim Cook speaks to his investors, he tells a different story, warning them that the company's profits are threatened by customers who choose to repair (rather than replace) their slippery, fragile glass $1,000 pocket computers (the fortress becomes a prison):

https://www.apple.com/newsroom/2019/01/letter-from-tim-cook-to-apple-investors/

All this adds up to a growing mountain of immortal e-waste, festooned with miniature Apple logos, that our descendants will be dealing with for the next 1,000 years. In the face of this unspeakable crime, Apple engaged in a string of dishonest maneuvers, claiming that it would support independent repair. In 2022, Apple announced a home repair program that turned out to be a laughably absurd con:

https://pluralistic.net/2022/05/22/apples-cement-overshoes/

Then in 2023, Apple announced a fresh "pro-repair" initiative that, once again, actually blocked repair:

https://pluralistic.net/2023/09/22/vin-locking/#thought-differently

Let's pause here a moment and remember that Apple once stood for independent repair, and celebrated the independent repair technicians that kept its customers' beloved Macs running:

https://pluralistic.net/2021/10/29/norwegian-potato-flour-enchiladas/#r2r

Whatever virtue lurks in Apple's corporate personhood, it is no match for the temptation that comes from running a locked-down platform designed to capture IP rights so that it can prevent normal competitive activities, like fixing phones, processing payments, or offering apps.

When Apple rolled out the App Store, Steve Jobs promised that it would save journalism and other forms of "content creation" by finally giving users a way to pay rightsholders. A decade later, that promise has been shattered by the app tax – a 30% rake on every in-app transaction that can't be avoided because Apple will kick your app out of the App Store if you even mention that your customers can pay you via the web in order to avoid giving a third of their content dollars to a hardware manufacturer that contributed nothing to the production of that material:

https://www.eff.org/deeplinks/2023/06/save-news-we-must-open-app-stores

Among the apps that Apple also refuses to allow on Ios is third-party browsers. Every Iphone browser is just a reskinned version of Apple's Safari, running on the same antiquated, insecure Webkit browser engine. The fact that Webkit is incomplete and outdated is a feature, not a bug, because it lets Apple block web apps – apps delivered via browsers, rather than app stores:

https://pluralistic.net/2022/12/13/kitbashed/#app-store-tax

Last month, the EU took aim at Apple's veto over its users' and software vendors' ability to transact with one another. The newly in-effect Digital Markets Act requires Apple to open up both third-party payment processing and third-party app stores. Apple's response to this is the very definition of malicious compliance, a snake's nest of junk-fees, onerous terms of service, and petty punitive measures that all add up to a great, big "Go fuck yourself":

https://pluralistic.net/2024/02/06/spoil-the-bunch/#dma

But Apple's bullying, privacy invasion, price-gouging and environmental crimes are global, and the EU isn't the only government seeking to end them. They're in the firing line in Japan:

https://asia.nikkei.com/Business/Technology/Japan-to-crack-down-on-Apple-and-Google-app-store-monopolies

And in the UK:

https://www.gov.uk/government/news/cma-wins-appeal-in-apple-case

And now, famously, the US Department of Justice is coming for Apple, with a bold antitrust complaint that strikes at the heart of Apple exceptionalism, the idea that monopoly is safer for users than technological self-determination:

https://www.justice.gov/opa/media/1344546/dl?inline

There's passages in the complaint that read like I wrote them:

Apple wraps itself in a cloak of privacy, security, and consumer preferences to justify its anticompetitive conduct. Indeed, it spends billions on marketing and branding to promote the self-serving premise that only Apple can safeguard consumers’ privacy and security interests. Apple selectively compromises privacy and security interests when doing so is in Apple’s own financial interest—such as degrading the security of text messages, offering governments and certain companies the chance to access more private and secure versions of app stores, or accepting billions of dollars each year for choosing Google as its default search engine when more private options are available. In the end, Apple deploys privacy and security justifications as an elastic shield that can stretch or contract to serve Apple’s financial and business interests.

After all, Apple punishes its customers for communicating with Android users by forcing them to do so without any encryption. When Beeper Mini rolled out an Imessage-compatible Android app that fixed this, giving Iphone owners the privacy Apple says they deserve but denies to them, Apple destroyed Beeper Mini:

https://blog.beeper.com/p/beeper-moving-forward

Tim Cook is on record about this: if you want to securely communicate with an Android user, you must "buy them an Iphone":

https://www.theverge.com/2022/9/7/23342243/tim-cook-apple-rcs-imessage-android-iphone-compatibility

If your friend, family member or customer declines to change mobile operating systems, Tim Cook insists that you must communicate without any privacy or security.

Even where Apple tries for security, it sometimes fails ("security is a process, not a product" -B. Schneier). To be secure in a benevolent dictatorship, it must also be an infallible dictatorship. Apple's far from infallible: Eight generations of Iphones have unpatchable hardware defects:

https://checkm8.info/

And Apple's latest custom chips have secret-leaking, unpatchable vulnerabilities:

https://arstechnica.com/security/2024/03/hackers-can-extract-secret-encryption-keys-from-apples-mac-chips/

Apple's far from infallible – but they're also far from benevolent. Despite Apple's claims, its hardware, operating system and apps are riddled with deliberate privacy defects, introduce to protect Apple's shareholders at the expense of its customers:

https://proton.me/blog/iphone-privacy

Now, antitrust suits are notoriously hard to make, especially after 40 years of bad-precedent-setting, monopoly-friendly antitrust malpractice. Much of the time, these suits fail because they can't prove that tech bosses intentionally built their monopolies. However, tech is a written culture, one that leaves abundant, indelible records of corporate deliberations. What's more, tech bosses are notoriously prone to bragging about their nefarious intentions, committing them to writing:

https://pluralistic.net/2023/09/03/big-tech-cant-stop-telling-on-itself/

Apple is no exception – there's an abundance of written records that establish that Apple deliberately, illegally set out to create and maintain a monopoly:

https://www.wired.com/story/4-internal-apple-emails-helped-doj-build-antitrust-case/

Apple claims that its monopoly is beneficent, used to protect its users, making its products more "elegant" and safe. But when Apple's interests conflict with its customers' safety and privacy – and pocketbooks – Apple always puts itself first, just like every other corporation. In other words: Apple is unexceptional.

The Cult of Mac denies this. They say that no one wants to use a third-party app store, no one wants third-party payments, no one wants third-party repair. This is obviously wrong and trivially disproved: if no Apple customer wanted these things, Apple wouldn't have to go to enormous lengths to prevent them. The only phones that an independent Iphone repair shop fixes are Iphones: which means Iphone owners want independent repair.

The rejoinder from the Cult of Mac is that those Iphone owners shouldn't own Iphones: if they wanted to exercise property rights over their phones, they shouldn't have bought a phone from Apple. This is the "No True Scotsman" fallacy for distraction-rectangles, and moreover, it's impossible to square with Tim Cook's insistence that if you want private communications, you must buy an Iphone.

Apple is unexceptional. It's just another Big Tech monopolist. Rounded corners don't preserve virtue any better than square ones. Any company that is freed from constraints – of competition, regulation and interoperability – will always enshittify. Apple – being unexceptional – is no exception.

Name your price for 18 of my DRM-free ebooks and support the Electronic Frontier Foundation with the Humble Cory Doctorow Bundle.

If you'd like an essay-formatted version of this post to read or share, here's a link to it on pluralistic.net, my surveillance-free, ad-free, tracker-free blog:

https://pluralistic.net/2024/03/22/reality-distortion-field/#three-trillion-here-three-trillion-there-pretty-soon-youre-talking-real-money

Consider the ways oil and gas are already entwined with big tech. The foundation of the partnership between Big Tech and Big Oil is the cloud, explains Zero Cool, a software expert who went to Kazakhstan to do work for Chevron and chronicled this in Logic magazine. “For Amazon, Google, and Microsoft, as well as a few smaller cloud competitors like Oracle and IBM, winning the IT spend of the Fortune 500 is where most of the money in the public cloud market will be made”—and out of the biggest ten companies in the world by revenue, six are in the business of oil production. What are oil companies going to do with the cloud? Apparently, Chevron—which signed a seven-year cloud contract with Microsoft—generates a terabyte of data per day per sensor and has thousands of wells with these sensors. They can’t even use all that data because of the scale of computation required. “Big Tech doesn’t just supply the infrastructures that enable oil companies to crunch their data,” explains Zero Cool; they also provide analytic tools, and machine learning can help discover patterns to run their operations more efficiently. This is another reason why Big Oils need Big Tech; they have the edge when it comes to artificial intelligence/machine learning. “Why go through the effort of using clean energy to power your data centers when those same data centers are being used by companies like Chevron to produce more oil?” Zero Cool asks, also noting that one of the main reasons oil companies are interested in technology is to surveil workers.

Holly Jean Buck, Ending Fossil Fuels: Why Net Zero is Not Enough

Nerds

[PS5 Peter Parker x Reader/PS5 Harry Osborn x Reader]

A/N: just a lil blurb, super cute 🥺. FYI, Peter, Harry and Reader are in a relationship. MJ is best friends with them all. Also I'm not a science nerd, idk shit about science so this may be scientifically incorrect lol

Summary: You try to figure out the missing element.

***

"So if I multiply the radius by- " The sound of your voice echoes through the labs at the Foundation, as you experiment with the different formulas.

"Why is it still yellow?" You mutter slightly annoyed and to no-one in particular, throwing away your attempt.

"No, maybe I should try etat- no, or maybe tri- " There was a pattern to it but you couldn't see it at all, maybe you had missed something. You continued talking to yourself, jotting away your idea. Then you went back to the computer and typed away at it before putting in another trial run.

You were so into your little experiment, you hadn't realised Peter had walked in, eyes curious as he placed a hand on your lower back, "Hey, why don't you try the- "

"Ah- you scared me, Pete! But yes, that's a good idea. Maybe it'll balance the acidity of it out." You jump at his touch but suddenly jump back into scientist mode as he gives you a brilliant suggestion. "You're a genius, Pete!"

"Wait!" Peter says, but it's too late. The compounds reject and cause a small reaction. A small cloud of black fluff poofed into your face, making you blink as stared at Pete, who was trying not to laugh at you.

"Okay, maybe not." You freeze before jotting down some notes on your failed attempt. There was a little bit of smoke on your face, which Peter came over and rubbed off before kissing your cheek. "You're too cute."

"No time for cuteness, Mr Parker, onto Trial No.2." You wink at him.

***

Harry had been watching your little nerdy moment with heart eyes, and mushy feeling in his chest, and when Peter had turned up, he wasn't sure he could be even more in love with the both of you than he already was. Harry felt his heart burst with adoration, and he couldn't help but let out a little chuckle when Peter accidentally bumped into you but apologised with a little kiss on your lips.

"Hey, what you doing up here all alone?" MJ walked up as she hip bumped Harry. He let out a little laugh and gave her a hug before turning her around to see the two of you.

"Ah. Creeping on your girlfriend and boyfriend I see..." MJ teases him.

He rolls his eyes good-naturedly, "Don't they look so cute, being all nerdy and shit? I mean, look at y/n. She was so focused that she didn't even notice Peter come in.."

MJ guffaws loudly, cutting Harry off, "You are so whipped for them!"

Harry shoves her lightly, then gives her the middle finger- making MJ laugh even louder, but he continues to watch you and Pete happily.

***

Harry finally walked over to the two of you, cuddling you from being as he placed a kiss on Peter's cheek, making Peter blush deep red. You glanced at Peter, ready to tease him, but Harry placed a kiss on your lips, making you blush too.

Peter looked at you with a grin, before a look of realisation passed over him as he looked at your face, making it click for you too.

Red. It was a deep red.

"Rubidium!" The two of you chimed in response, all of it clicking together. You both pull away from Harry as he looks at you two dumbfounded.

"Of course!" You say as you looked at Peter, who made a 'doh' face and gestured that you two were idiots for not realising it sooner. You ran quickly to grab some and added it to the container. The rubidium instantly neutralised the colour of it, making both you and Peter 'woah' in sync. "It actually worked!"

"Harry Osborn, you are a genius!" Peter grinned.

"We needed our third element, didn't we Pete?" You giggled as Harry pulled the two of you into a hug, the three of you all cuddling.

"I love you, my two nerds..." Harry laughs, his smile warm and content.

***

genesis has eye bags because he always stays up late and he’s insecure about them

Hi! I am extremely sorry this took sooooooo long to answer. I have no excuse, i genuinly forgot it was in my drafts for so long🫠. Apologies, I am a useless worm!

***

If you ask Angeal and Sephiroth - hell even Zack!- They will tell you that Genesis always looks annoyingly good. In all the time Angeal has known Genesis he can't ever think of a time where Genesis didn't look completely perfect from top to bottom, and Angeal has known Genesis for a long time. There is no point is asking Cloud because he's always of the opinion he's dating literal celestial beings, and therefore cannot be trusted to give an accurate observation of how his fireiest partner looks. At least not one thats grounded in reality at any rate.

The reason being is that Genesis would rather be burned at the stake than admit he was self concious about the dark circles that perpetually sat heavy around his eyes. He would quite literally sooner be squewered by Sephiroths sword ( no he doesn't mean that in the fun way.). The problem is, it's not always easy to hide them. He's tried every technique in the book and While his lovers may be easily hoodwinked, Genesis knows they are there.

And he hates them.

The simple answer would be to go to bed earlier, get more sleep, maybe look at his computer screen less instead of typing out whole thesis worth analysis of LOVELESS at two o'clock in the morning. Alas as much as Genesis has every intention of doing those things... he never does. Instead he leaves his paper work to the last minute, gets pulled into a paralysing state of doom scrolling, or simply stares at the cieling as the world passes him by while he listens to music and detatches himself from reality for a little bit.

If he didn't have to work this wouldn't be a problem. if he could convince his brain that the day wasn't ruined for any other kind of productivity when Lazard dismissed them, then maybe (just maybe) he could do things in a reasonable way.

instead he's stuck in the endless cycle of thinking staying up late will keep tomorrow far away from him...

Goddess he's fucking tired.

Gen Reaches for his make up box by the sink. He hasn't slept again of course. He was too busy arguing with some idiot online who thought Act three of LOVELESS was a puritanical critisim of sex before marriage, when it very clearly wasn't. By the time four o'clock had rolled around it had felt like a waste of time to go to bed. So instead, Genesis had made some coffee and kept on scrolling in search of another argument.

Now, as he realised he had no foundation or concealer left, he was regreting his decision.

"Fuck," he muttered, feeling the panic rise into his throat and choke him. "Fuck Fuck Fuck, no no no no, this can't be right." He drags everything out of the bag in seach of some magical new bottle, but there isn't one. He can't hide the circles under his eyes without them, and he doesn't want to deal with the lecture he knows he'll get when 'Geal see's them.

he starts crashing around the bathroom, desperatly looking for something, anything to help cover them. He Checks Sephiroths make up supplies, but its just eyeliner and some dark eyeshadows.

Cloud had a Cover stick in his bag but when Gen opens it, it is A.) three shades too pale, and B.) literally worn down to the dreggs and possibly out of date. Fuck.

The crashing around seems to be heard from the next room, as Gen hears footsteps aproach the ajared bathroom door.

"Gena?" comes the croaky croon of their resident puppy.

Genesis has to pull back from the urge to lunge for the door and slam it closed.

Zack stands in the entry way, blinking tiredly and looking concerned. his hair is endearingly messy. Maybe a year ago that would have grated on Genesis, but now it was one of the things he loved most about mornings with Zack.

"Babe, what are you doing up?" he asks, clearly only half awake.

Genesis doesn't look up, nor answer. If he does he knows Zack will see his eye bags. If he does he knows he will likely start crying. neither option is preferable, so he continues to stare at the floor.

The footsteps come a little closer. Zacks slightly scarred feet come into his field of vision. Genesis vaguely notes he's still wearing the nail polish Genesis put on his toenails a week ago for fun. Zack had never ben one for self conciousness. He could be annoyingly upbeat about everthing; his looks included. If someone complained about his fashion choice, he would grin and wear the clothing anyway. If his hair was a mess, he'd brush it off by saying he wouldn't die from it.

It was terribly annoying, and made Genesis seeth with envy sometimes. He wished he could be that Blazé about his looks.

"Gen, you okay?" Zack touched his shoulder. He became a little more concerned when Genesis flinched at the touch.

"Hey its okay," he said kneeling by his partner. "Whatever it is we can solve it together,"

Genesis tilts his head away as Zack ducks to try and catch his eye. He was hoping his hair was casting enough of a shadow to hide the offending bruises.

Zack reaches out however, turning his face towards him so he can get a clear look and check theres no tears. There isn't but its a close call. Maybe it was just better if Genesis admit defeat. This wasn't some deluded fan after all, it was Zack.

He lets his chin be led to meet Zack's gaze, wincing as he waits for the judgement to be cast.

"There's that pretty face," Zack coo's obnoxiously. He's obviously trying to make Genesis laugh but it falls flat, so again he asks, "Gena what's wrong?"

"I-" Gen's throat feels sticky. "I could not rest..."

"Okay, but why are you crashing round the bathroom? did you have a nightmare or something?"

Genesis tried to turn away again but Zacks hand was still on his chin. he looked down instead.

"I was... looking for my concealor,"

"At four in the morning?" Zack puzzles. "What for?"

"Can't you see the dark circles that have marred my face?"

Zack tilts his own head a little. The resemblance to a confused Alsatian puppy are truly startling as his mused spikes flop with the movement. Genesis feels a surge of unreasonable irritation at the sight.

"Oh for goddess sake Zachery," he snaps and jabs at the bruises under his eyes. "There! are you blind?! They are entirely impossible to miss!"

"I see them dude," Genesis grits his teeth at the casual nickname but Zack either doesn't notice or doesn't care He persists. "I guess I'm just wondering why its an issue?"

Genesis Rolls his eyes. Of course! Of course Zack would be so blindly uncaring about these things. After all, if it were his own face he wouldn't care. But Genesis cares, which is why he shoves at the younger man growling:

"As foreign a concept as it may be to you my love, some of us have insecurities!"

Zacks expression shutters a little as his own annoyance flares. He had always found Gen's outbursts difficult to handle the most out of all of them. Despite loving him fiercly, it was simply the mark of inexperience that meant Zack reacted more to Gen than the others did. Angeal had known him long enough to know how to handle his temper, while Sephiroth and Cloud were used to handling people who's ire was easily triggered. Zack, by comparrison, was the odd one out.

That being said, he most be learning, because he did not rise to the bate as he normally would.

"I have insecurities Gen," he speaks calmly and evenly, taking purposeful breaths to sooth the irritation. "I get that your upset, but I'm just trying to help,"

Genesis deflates a little at that. Goddess he really was exhausted.

"I'm sorry," he mutters, "Just go back to bed its fine. I will be fine."

"I'm not leaving you to stew on the bathroom floor birdie,"

"I'll be fine,"

Zack lets out an aggravated sigh.

"Look," He shifts a little so that Genesis is facing him properly. "I get that you feel self concious, and I'm not saying its stupid cause its not. God's know I know what kind of lecture Angeal will probably give you about staying up late, but Gen I'm on your side okay?"

It was Genesis' turn to look confused.

"I get not sleeping." Zack elaborates. "you're looking at the king of late night thumb twiddling here sweetheart. I don't sleep most nights, I know I have dark circles and yeah, Gen, I feel self concious about them a lot of the time,"

Genesis blanched a little in suprise.

"You do?"

"Yup," Zack nods. "But I'm not the only one either. Angeal may be all high and mighty about sleep schedules but he'd have conniptions if he knew that none of the rest of us sleep properly. Cloud's usually awake until three most nights; Seph's only asleep right now because he's been awake for the past week and finally crashed, and me? I'm admittedly awake because you are but I'm usually lying in bed trying not to fidget so much because my brain's still wide awake,"

He sighs and rubs at his eye's like he's the one thats been up until four.

"I haven't had a proper night of REM sleep in weeks dude." he grumbles, and Genesis can see them now, the rings that sit heavy around Zack's own eyes like he's been punched. They mirror Gen's own, and its almost... comforting to know he's not alone.

"I apologise puppy," he reaches out and rubs a thumb under Zacks eyes. "I believe I have some eye masks that can help reduce them if you like?"

Zack snorts and catches the hand to kiss it. Genesis softens considerably at the move.

"Tomorrow, right now you're coming to bed,"

as they pick themselves up and return to the bed, Genesis thinks about the how he has been handling this insecurity of his. He feels a little lighter knowing that its something he'd not alone in, but there is also a little shame in realising he has been hiding it from the people who are supposed to love him in spite of his flaws.

He wanted to think this was a turning point in his feeling's of inadaquacy surrounding his appearence. Maybe it was, but he also knew that tomorrow he would go out to buy more Concealer before his press conferance on tuesday. He wasn't quite ready for the world to know that he was a mess underneath his fair facade.

But maybe a baby step was all he needed to stumble down the right path.

Sighing he turned over to cuddle into Zack's side as the other man moved to get comfortable. He craned to lay a kis on Zacks neck and got a forehead kiss in return.

Thank you dears @academicfever and @cyberstudious ๑(◕‿◕)๑ 🎧 last song: Fragile - Tech N9ne

🖍️ favourite colour: purple and its variations

📚 last book : Alice in Wonderland

🎥 last movie: Red One

📺 last tv show: Veronica Mars

🍜 sweet/spicy/savoury: spicy

🧑❤️🧑 relationship status: married

🌐 last thing i googled: "google cloud computing foundations certificate price" (always studying lol)

💓 current obsessions: Ghost - Call of Duty

🔮 looking forward to: travel to Petropolis (Rio de Janeiro) to enjoy my New Year

Dears, no pressure (づ ◕‿◕ )づ @chu-diaries @moonlight-n-moondust @nyxscave @meimeiwatson @elysianania

Lean Six Sigma Yellow Belt Certification Online: Your First Step to Process Excellence

In today’s highly competitive job market, professionals are constantly looking for ways to stand out and offer more value to their organizations. One of the most in-demand skills across industries is process improvement, and that’s where the Lean Six Sigma Yellow Belt Certification online comes in. This certification not only sharpens your problem-solving skills but also makes you a vital asset in improving business efficiency, reducing waste, and increasing customer satisfaction.

The growing popularity of Lean Six Sigma Yellow Belt Certification online programs is largely due to their flexibility and accessibility. Whether you are a student, working professional, or someone looking to switch careers, taking a Six Sigma Yellow Belt course online allows you to learn at your own pace without interrupting your schedule. It’s convenient, cost-effective, and delivers the same level of quality and credibility as in-person classes.

What sets the online Lean Six Sigma Yellow Belt Certification apart is its comprehensive yet beginner-friendly approach. You’ll start with foundational concepts like the DMAIC methodology—Define, Measure, Analyze, Improve, and Control. Through this framework, learners understand how to identify inefficiencies, collect and interpret data, and drive actionable change in business processes.

Many professionals start with the Yellow Belt Six Sigma Certification before progressing to Green or Black Belt levels. The certification builds a strong base for future learning while offering practical skills that can be applied immediately in real-world situations. This is why employers across sectors—from healthcare and manufacturing to IT and finance—are actively seeking candidates with a Lean Yellow Belt Certification.

What’s even better is that several platforms now offer Lean Six Sigma Yellow Belt Certification online free or at highly affordable rates. These programs provide the flexibility to upskill without breaking the bank. And with globally recognized providers like GSDC offering accredited Lean Six Sigma Yellow Belt Certification, learners are assured of quality and credibility.

One of the top benefits of completing a Six Sigma Yellow Belt course online is its impact on career advancement. Certified professionals often report better job opportunities, promotions, and salary hikes. The skills gained during the course—like analytical thinking, problem-solving, and quality control—are transferable to any role in any industry.

Incorporating Lean Six Sigma Yellow Belt Certification online into your resume not only shows initiative but also signals to employers that you’re capable of driving process improvements. These are the qualities modern organizations are looking for in team leaders and change agents. The certification can also prepare you for roles in quality assurance, operations management, and project coordination.

With today’s shift toward remote work and digital learning, opting for an online Six Sigma Yellow Belt Certification makes more sense than ever. It offers flexibility without compromising on depth. You gain access to digital resources, downloadable study materials, mock exams, and expert-led video sessions—all tailored to help you succeed.

To sum it up, pursuing a Lean Six Sigma Yellow Belt Certification online is a smart move for anyone serious about career growth and operational excellence. It opens doors, boosts your skill set, and helps you make a measurable impact within your organization. Whether you're a beginner or someone looking to formalize your experience, now is the perfect time to take that first step with an online Yellow Belt certification.

For more details : https://www.gsdcouncil.org/certified-lean-six-sigma-yellow-belt-certification   

Contact no :  +41 41444851189

Paraview

Genre: Fantasy, Sci-Fi, Slice-of-Life Continutiy: It's own continuity, but is based off the Pre-Shutdown deal. Also Known As: Monster Toons AU, Monster AU Inspired by: SCP Foundation, Monster High (Kinda), and this post.

Synopsis

Long ago, humans and monsters lived together, but not in harmony. Monsters were beings to be feared, unknown entities dangerous to the peaceful lives of humans. But in the eyes of monsters, humans were barely any different...

It was because of this that the monsters and beasts went into hiding, leaving humans to believe they had simply disappeared and/or were merely works of fiction. But no...they had very much remained...

Enter the Paraview Foundation, a government funded organization founded by Arthur Walton, who believed monsters and humans could coexist in peace, and Delilah Keen, who believed understanding and researching these otherworldly creatures would benefit humanity.

Since it's founding, the Paraview Facility has become home to a whole slew of creatures discovered from many different places, from the undead, to the fae, to the otherwise otherworldly. Each with their own unique quirks and personalities.

The Monsters (Canons)

*Species may be subject to change in the future. Some are the same species as they are in canon. Not all species have been figured out yet.

Dandy (Plant Monster)

Astro (Alien)

Bassie (Dryad)

Blot (Living Shadow)

Bobette (Living Wind-Up Toy)

Boxten (Siren)

Brightney (Will-O-Wisp)

Coal (Hellhound)

Cocoa (Wererabbit)

Connie (Ghost)

Cosmo (Tanuki)

Eggson (Griffin)

Finn (Sea Monster)

Flutter and Flyte (Pixies)

Gigi (Borrower)

Ginger (Futakuchi-Onna)

Glisten (Kitsune)

Goob (Inugami)

Looey (Air Elemental)

Pebble (Cerberus)

Poppy (Slime)

Razzle and Dazzle (Hydra)

Rodger (Werewolf)

Rudie (Weredeer)

Scraps (Nekomata)

Shelly (Weredino)

Shrimpo (Dragon)

Sprout (Vampire)

Teagan (Witch)

Tisha (Phantom)

Toodles (Zombie)

Vee (Poltergeist)

Yatta (Chupacabra)

The Monsters (OCs)

Ace (Wizard)

Annie (Gingerbread Girl)

Barry (Einherjar)

Booklyn (Sphinx)

Calvin (Gargoyle)

Chillian (Abominable Snowman)

Clover (Leprechaun)

Claude (Muse)

DJ (Satyr)

Dulce (Domovoi)

Frankie (Frankenstein's Monster)

Geo (Shapeshifting Robot)

Halo (Angel)

Jamie (Jiangshi)

Juliet (Harpy)

Luci (Demon)

Oakley (Dryad)

Pearl (Mermaid)

Pimenta (Fire Elemental)

Pixi (Fairy)

Pomela (Swamp Moss Mutant)

Qwerty (Sentient Computer AI)

Raine (Cloud Nymph/Nephele)

Romeo (Cupid/Cherub)

Rugby (Machai)

Sam (Robot)

Shotson (Unicorn Centaur)

Stitch (Living Doll)

Ticker (Steampunk Robot)

Webby (Drider)

Zester (Electric Elemental)

Other Stuff

Scientists and Staff

Facility Locations

Demystifying cloud computing: the future of technology.

In today's rapidly evolving digital world, cloud computing is not just a technology trend-cloud computing is the foundation of today's IT infrastructure. from streaming your favourite Netflix show to collaborating on Google Docs.

what is cloud computing?

Cloud computing is the provision of computing services including the servers, databases, storage, networking, software, analytics, and intelligence over the internet to offer faster innovation, flexible resources, and economies of scale.

Types of cloud services.

Security in the cloud.

Security is the top priority. cloud vendors employ encryption, firewalls, multi-factor authentication, and periodic audits to secure data. Organizations must, however, set up and manage secure access.

The future of cloud computing.

The future of cloud computing is being defined by a number of ground breaking trends that are changing the way data and applications are processed. Edge computing is moving computation near data sources to decrease latency and improve real-time processing for IoT and mobile applications.

New SpaceTime out Monday

SpaceTime 20250505 Series 28 Episode 54

Discovery of a vast molecular cloud next door

Astronomers have discovered a vast invisible molecular gas and dust cloud near our solar system.

Jupiter’s giant polar cyclones under the microscope

New data from NASA’s Juno mission is shedding fresh light on the fierce winds and cyclones raging in the far north of the gas giant Jupiter and the extreme volcanic action on its fiery moon Io.

A Russian spacecraft about to crash back to Earth

A failed Soviet era spacecraft designed to land on the planet Venus is about to crash back to Earth.

The Science Report

83.7% of the world’s coral reef area now impacted by heat stress.

Taking cannabis gives you a higher risk of heart attack.

The unexpected evolutionary history of echidnas and platypuses.

Skeptics guide to the South Carolina ghost lanterns.

SpaceTime covers the latest news in astronomy & space sciences.

The show is available every Monday, Wednesday and Friday through your favourite podcast download provider or from www.spacetimewithstuartgary.com

SpaceTime is also broadcast through the National Science Foundation on Science Zone Radio and on both i-heart Radio and Tune-In Radio.

SpaceTime daily news blog: http://spacetimewithstuartgary.tumblr.com/

SpaceTime facebook: www.facebook.com/spacetimewithstuartgary

SpaceTime Instagram @spacetimewithstuartgary

SpaceTime twitter feed @stuartgary

SpaceTime YouTube: @SpaceTimewithStuartGary

SpaceTime -- A brief history

SpaceTime is Australia’s most popular and respected astronomy and space science news program – averaging over two million downloads every year. We’re also number five in the United States.  The show reports on the latest stories and discoveries making news in astronomy, space flight, and science.  SpaceTime features weekly interviews with leading Australian scientists about their research.  The show began life in 1995 as ‘StarStuff’ on the Australian Broadcasting Corporation’s (ABC) NewsRadio network.  Award winning investigative reporter Stuart Gary created the program during more than fifteen years as NewsRadio’s evening anchor and Science Editor.  Gary’s always loved science. He was the dorky school kid who spent his weekends at the Australian Museum. He studied astronomy at university and was invited to undertake a PHD in astrophysics, but instead focused on a career in journalism and radio broadcasting. Gary’s radio career stretches back some 34 years including 26 at the ABC. His first gigs were spent as an announcer and music DJ in commercial radio, before becoming a journalist, and eventually joining ABC News and Current Affairs. He was part of the team that set up ABC NewsRadio and became one of its first on air presenters. When asked to put his science background to use, Gary developed StarStuff which he wrote, produced and hosted, consistently achieving 9 per cent of the national Australian radio audience based on the ABC’s Nielsen ratings survey figures for the five major Australian metro markets: Sydney, Melbourne, Brisbane, Adelaide, and Perth. That compares to the ABC’s overall radio listenership of just 5.6 per cent. The StarStuff podcast was published on line by ABC Science -- achieving over 1.3 million downloads annually.  However, after some 20 years, the show finally wrapped up in December 2015 following ABC funding cuts, and a redirection of available finances to increase sports and horse racing coverage.  Rather than continue with the ABC, Gary resigned so that he could keep the show going independently.  StarStuff was rebranded as “SpaceTime”, with the first episode being broadcast in February 2016.  Over the years, SpaceTime has grown, more than doubling its former ABC audience numbers and expanding to include new segments such as the Science Report -- which provides a wrap of general science news, weekly skeptical science features, special reports looking at the latest computer and technology news, and Skywatch – which provides a monthly guide to the night skies. The show is published three times weekly (every Monday, Wednesday and Friday) and available from the United States National Science Foundation on Science Zone Radio, and through both i-heart Radio and Tune-In Radio.

Covenants and other Provisions

Chapter 45

Aperture

     The southbound road unspooled ahead of them in long, indifferent miles—a single‑lane ribbon threading through stands of lodgepole pine. The sun kept pricking holes in a quilt of low, sea‑bound cloud, then vanishing again, leaving fine needles of drizzle that streaked the windshield before the wipers sighed them away.

     Fiddleford drove with one elbow hooked over the windowsill, the other hand loose on the wheel, thumb tapping a silent metronome against the vinyl. A thermos rattled in the cup holder with every rise and dip of the old logging road alongside country radio drifting in and out of signal. Fidds didn’t bother changing the station; he seemed to like the company of half‑lost songs.

     Ford, relegated permanently to the passenger seat, sat in silence. On his lap, a battered manila folder lay open like a book of relics: proofs and diagrams that once felt combustible with promise. He’d run graphite over those pages so many sleepless nights that the numbers now looked faintly bruised, smudged at the margins like fingerprints on vellum. He turned the sheets out of habit, but he hadn’t actually read anything since they’d crossed the county line—Bill’s name might as well have been embossed in the margins.

     Ford stared past the math. Somewhere out there—beyond the trees, beyond the boundary of three‑dimensional sense—his muse waited expectantly. Their pact had started as a barter of genius for access, each accepting the other’s appetites because they were useful, containable. But usefulness was such a flimsy seawall. Affection slipped in through hairline cracks, then flooded the foundation outright. Now Ford felt the ghost of Bill’s hand at the hinge of his jaw whenever he remembered last night’s goodbye.

     How did you quantify a feeling that rewired your moral circuitry? Easier to compute vacuum decay than to weigh the sweetness of surrender against the mass of what Bill had already done—what Ford himself had done in service of bigger answers, of moving forward.

     He once told himself it was the intensity of shared knowledge. The high of finally having someone who kept pace with him—outpaced him.

     And Bill knew—he knew—all of it. The full ledger. Every shame, every secret, every jagged corner Ford had tried to keep buried. And still he looked at him like he was singular. Brilliant. Chosen. An us, he called it. Not an idea or a theory. A fact. Ford didn’t pretend to understand what they were becoming. He just knew they were. Becoming. Together.

           He turned another page, unread.

     Ahead, the pines and clouds began to thin, peeling back to reveal a jagged coastline shaped by time and tectonics. The foothills rose and fell in steep, brambled folds—quilted in dark cedar and threadbare switchbacks of loose scree. Between their ridges, a sliver of Pacific cut through the haze: blue, bright, almost unreal. It gleamed like some surgical alloy, something manufactured in a lab rather than stirred by tide and wind.

     The road widened as they descended, the forest falling away behind them. Asphalt straightened, shoulders smoothed, and the pitch beneath the tires shifted—from the rough percussion of gravel to the quiet, institutional hush of interstate pavement. Civilization crept back in. Signs thickened. Exit numbers. Billboards. The remoteness peeled away in layers, revealing the world beneath: manicured, modular, already waiting.

     The hotel appeared not long after, rising clean and glassy at the edge of the university’s sprawl. Tall and tasteful, its facade gleamed with brushed steel and imported stone, framed by ornamental hedges clipped into quiet submission. A broad plaza opened before it, ringed with slender palms and artfully placed benches no one ever used. The whole thing looked expensive in a way that didn’t need to flaunt itself—subtle, yet, unsettlingly sterile.

     They eased into the roundabout drive. Valets in matching jackets moved like clockwork beneath the entrance portico, their gestures precise and choreographed, opening doors with a kind of frictionless deference.

     Fiddleford gave a low whistle as he shifted into park. “Well,” he muttered, “looks like West Coast Tech’s alumni funding’s alive and well.”

     Ford stared at the revolving doors, the neatly clipped hedges, the stone archway engraved with the symposium’s emblem. Something in him went still.

     The place was perfect. Over-designed. Everything about it screamed we want you now that we don’t need to take a risk on you.

     Fiddleford caught Ford’s expression. “Guess they really want to make a better impression on ya.”

     Ford stared up at the gleaming building, fingers tightening imperceptibly around the stack of papers in his lap—formulas and proofs and data, none of which could tell him how to navigate the discomfort now settling beneath his ribs. He was comfortable with rejection, accustomed to obscurity, but this—this lavish acknowledgment felt alien, loaded, an uneasy spotlight he wasn’t sure he wanted.

     With a quiet sigh, Ford folded the papers neatly, tucking them into his jacket. “Or intimidate me,” he muttered, mostly to himself.

     He stepped out of the car, the air sharp with the metallic tang of city traffic. The lobby doors slid open silently, beckoning him forward, and despite himself, Ford squared his shoulders and took a breath, preparing once again to face a world that had never known quite what to do with him.

     Once they got to the room, Fiddleford disappeared almost immediately, saying something about “poking around” the grounds—already halfway out the door, his badge swinging on its lanyard.

     Ford didn’t follow. He dropped into one of the room’s ergonomic chairs, its spine-contoured frame creaking faintly beneath him. The sleeves of his shirt were rolled past the elbows, cuffs slack at his forearms, and his tie—loosely knotted—felt more like a noose than formality. From the complimentary “mindfulness” gift basket on the table, he’d plucked a dense rubber stress ball. A cheap, branded thing. Blue. Springy. Embossed with the symposium’s logo.

     He threw it against the far wall. Catch. Pause. Thud. Catch again.

        The motion was steady loop.

     His mind, by contrast, moved arrhythmically—already drafting rebuttals, anticipating questions, reconstructing old proofs in the back of his mind. He went line by line through his published corpus, noting gaps, considering every theoretical leap he’s made in the last decade. And beneath all of that, humming low and constant, was Bill, the second processor cycling at twice the speed.

     Ideas surfaced in parallel, sharper than before. Counterarguments bloomed before the imagined questions had finished forming. Data from old experiments reordered itself, clustering in ways he hadn’t thought to consider. Synapses lit with clarity that felt stolen or divine. Anomalous patterns sparked new possibilities—insights so fast they came pre-assembled, arriving fully formed with no origin Ford could trace.

        Thud. Catch.

     He visualized one of them now: the coordinate collapse model—proof #12.3B, from Transdimensional Cartographies. A staple. He’d written it years ago. But now, as he ran the equations again, something shifted. Something subtle. The variables flexed beneath his gaze, bending into a different arrangement, like magnetic filings under a stronger field.

     Shared harmonics, he thought suddenly. Heartbeat convergence. The way anomaly data curved inward, gravitational, as if being pulled. As if it wanted to align. The math rewrote itself, right there behind his eyes. New connections fell into place, elegant and chilling.

        Thud. Catch.

     That’s new, he thought. Or maybe Bill thought it.

        But it sat just beneath the surface, shining through his thoughts like filament under worn paper. All he’d need was a marker and a few square feet of glass. He could lay it all out—deconstruct the entire theory and rebuild it in another key. One purer. More exact.

        Thud. Catch.

     He leaned forward, elbows pressing into his knees, the rubber ball wedged tight between his palms. The pressure helped. For a moment, it anchored him.

     Bill liked this part. The verge. The tension before creation. Before unraveling. The thrill of possibility just about to tip over.

     Ford exhaled through his nose and closed his eyes. Tomorrow, he’d sit beneath fluorescents, surrounded by polite nods and loaded questions. He’d defend his work to an audience that still hadn’t decided if he was a cautionary tale or a visionary. He’d say all the right things. Impress some. Infuriate others. Resurrect the version of himself they thought they remembered.

        But none of them mattered.

           Not really.

     The only one he needed to impress was already with him—threaded through every spark of insight, every restructured line of math.

        An idea crossed his mind just then—

           “Hey,” Ford said aloud, breaking the silence.

     Bill stirred at the edge of his mind, slithering forward with a lazy hum—closer now, the way he always was when Ford spoke directly to him. A flicker of static buzzed behind Ford’s right ear, a sensation like warm carbonated air curling through the folds of thought.

     “You wanna see something cool?” Ford asked, voice low.

     “You mean something better than watching you brood?” Bill purred. “Sixer, come on—there’s nothing more entertaining in all the dimensions.”

     Ford caught the stress ball mid-bounce, rolling it once between his palms before setting it aside on the table. “I think I can do you one better.”

     “Oho?” Bill’s curiosity tickled at the edges of his mind, flickering like a lit fuse. “You know I could just crack open that shiny cortex and look. No need to be all cryptic about it.”

     Ford smiled—small, tight-lipped, genuine. “Don’t. Let me surprise you.”

     That earned a low hum of interest, the mental equivalent of a raised eyebrow. “Suit yourself, mystery man.”

     Ford left the hotel without fanfare, taking the rear exit that spilled into the quieter end of campus. He didn’t know exactly what he was looking for—only that he’d seen it once on a map, half-forgotten until the moment snapped into place like a lodestar. The air cooled as he moved farther from the conference buildings, toward the hilly edges where the university bled into nature again. Out here, the manicured lawns gave way to untamed shrubbery and wild sage, the smell of dust and coastal wind rising thick in his lungs.

     The trail curved abruptly, his boots crunching over gravel now as the pavement gave way to a dirt path.

     They hit a ridge. The path narrowed, curling into a stone stairwell that led up the side of a steep cliff face, hewn right from the natural rock. Weeds grew in the cracks between the steps, and a handrail ran along one side.

     Ford placed his hand on the cold metal and turned slightly inward. “Close your eyes.”

        There was a beat of silence. Then—

     “What eyes?” Bill said. “I’m not exactly Mr. Occipital Lobe over here.”

     “You know what I mean,” Ford said, climbing. “Just don’t look. Not yet.”

     Bill groaned theatrically. “Fine. But if I guess it right, you have to tell me.”

     The steps grew steeper as they ascended, narrower with each turn, the wind sharpening into a steady push against his coat. Gravel slipped beneath his boots, grinding against stone in soft, treacherous bursts. The sea opened behind him in jagged intervals, framed between rocky outcroppings—gleaming in pieces like shattered glass. 

        Bill, of course, filled the silence.

     His voice drifted in and out, a string of absurdist guesses delivered with increasing theatricality. “Is it where they keep the experimental cadavers?”

        “No.”

     “A fallout shelter?”

        “No.”

     “Is it an underground bunker housing a dormant tesseract? Be honest.”

        “Not even close.”

     The stairwell coiled tighter as it climbed, the turns compressed, the stone cool and damp beneath Ford’s fingertips when he steadied himself. The night air thinned—not cold, exactly, but clean in a way that cleared his head. His heart thudded harder, not from the climb, but from anticipation—a quiet, pressurized thrill that settled low in his chest.

        And then, the stairs ended.

     The path widened without warning, leveling into a broad stone landing that opened into stillness. Ford stepped out, letting the moment unfurl.

     An observatory stood before him like a monument—massive, domed, monolithic in design, the panels of its surface gleaming with decades of salt and starlight—more a cathedral than a lab.

     Ford stopped at the edge of the plaza, hands buried deep in his coat pockets, eyes climbing the curve of the dome. He knew what was housed inside: one of the largest refracting telescopes in the country. A marvel of optical engineering. A machine built to look outward, not inward. Locked down, of course—guarded by card readers and red lights and after-hours access policies. The kind of place you only entered with a grant number and a six-digit login.

     The kind of place that didn’t open its doors to unaffiliated panelists wearing guest badges on borrowed lanyards—but the sky was so clear.

     He stood there a beat longer, breathing in the air, letting it settle in his lungs.

     Then he moved—circling along the perimeter, boots scuffing softly against the gravel path. He’d already skimmed the visitor packet earlier. Noticed a name he recognized under the systems architecture credits. Tracked the badge reader model. Noted the legacy failover. Universities liked their prestige, but they rarely liked redoing infrastructure. Especially not when it still worked well enough.

        “A cryogenics vault?” Bill tried again, hopefully.

     “Colder,” Ford replied.

        “Pun absolutely intended, I assume—”

     Ford crouched beside the side panel, pulling a multi-tool key from his coat pocket. The code plate guarding the panel was a relic—dull plastic gone yellow at the edges, the pushbuttons half-faded and pitted from time. Ford pressed his thumb to it, felt the rattle beneath his hand. Loose screws. No one had serviced it in years.

        Perfect.

     Ford wedged that precision driver and levered the housing until the faceplate popped off with a soft snap. Inside: a logic board that belonged to another decade. Exposed jumpers, dusty resistors, DIP switches standing proud and silver like tiny monoliths.

     He clipped BYPASS to TEST with a length of raw copper wire. A beat later, the mag-latch on the next door disengaged with a low, resonant thunk. Then, soft beep. A small shift of magnetic tension.

          The door unlocked.

     “What’s with all the high-techy heist sounds?” Bill said before letting out a dramatic gasp. “Stanford, are you breaking and entering again?”

     “It’s not breaking and entering if you’ve got clearance,” Ford retorted.

     “You don’t have clearance—That little guest badge wouldn’t get you into a vending machine.” Bill quipped. 

        “Technicality,” Ford muttered, straightening.

     “Technicality, he says! You’re lucky I find your blatant disregard for institutional order charming.”

          Ford stepped through the entry tunnel and into the dome proper, where the air changed—cooler, thinner, laced with metal and ozone. All the lights were red, cast low along the baseboards: just enough to see by, and just enough to keep the human eye tuned to night. They pooled faintly on the floor and ribs of the structure, casting long shadows that made the dome seem even larger than it was.

     Overhead, steel beams curved inward and upward, an arcing exoskeleton of ribs that cradled the entire structure. They met at the apex, converging around the observatory’s great iris—shuttered for now, though Ford could still hear the hiss of wind pressing faintly at the seam.

     He moved soundlessly inside, swallowed by scale.

     Above him loomed the telescope—monolithic and pale, suspended on a horseshoe mount that arched like a celestial collarbone. The main mirror was hidden in shadow, the barrel of the instrument angled down like the bowed neck of some great beast. 

     “Okay, are we in a high security facility-only sensory deprivation tank or something?

        Ford’s lip twitched. “You’re terrible at this,”

     He moved closer to the mount, one hand trailing the chilled girder of the declination axis. The structure was breathtaking, yes—but more than that, it was perfect. His marvel was already giving way to calculation. Bearings, gears, the counterweights and cable feeds—superimposed over the instrument like blueprints unfolding across glass.

     He could taste the math: parallax, tracking error, adaptive skew.  Better than he’d dared hope.

     He withdrew a small floating-gate semiconductor from his coat and clipped it to the control console’s pass-through port.  The display woke—a pale green grid blooming with live telemetry.  The interface came to life. A grid blinked to life on the aging CRT monitor, lines resolving into graceful lattices. 

     Outside, the slit motors stirred, grumbling against their restraints. Gears turned. Hydraulic relays groaned with the effort of movement long denied.

         Ford keyed in a manual override.

     The great mirror tilted obediently. Somewhere beneath the floor, relays snapped and locked. The dome itself began to rotate—slow, patient, massive. The telescope slewed toward a known coordinate. A quiet, empty quadrant of sky.

     A forty-inch reflector. Precision-forged. Anchored into a mount engineered to resist the very motion of the Earth. Its long body curved upward, stilled and majestic. Light from the red lamps streaked faintly across the mirror’s edge, a crescent gleam like a half-lidded eye.

     Ford approached, his footfalls softened by the padded mesh of the catwalk. He let his fingers brush the outer housing—cold, immaculate, dense with possibility. He moved methodically, tracing the curve of the equatorial axis, then the thick loops of coiled cable strung along the trusses above. Every detail was accounted for. Every piece exactly where he knew it would be. 

     He reached the console again, fingers steady as he adjusted the interface. A slow smile ghosted across his face—equal parts reverence and thrill.

     Outside, the dome finished its rotation. The motors gave a final, satisfied groan. And then—

        With the sound of a breath being drawn—The great eye peeled open, revealing a thin slice of black sky.

     Ford leaned forward, slow and deliberate, bracing one hand against the chilled edge of the housing as he bent to the eyepiece. Light caught his face from multiple angles—dim red from the baseboard lamps, pale green from the console, faint ghost-light from the stars now funneled through ancient glass, speckling across his cheekbones.

     “Okay,” he whispered. Then, to Bill—softly, but with all the weight of intention: “Open your eyes.”

        Silence followed.

     But it wasn’t absence. It was presence—dense, charged, a silence that gathered around his thoughts, pushing softly against the inside of his skull. Bill didn’t speak.

     Not a quip. Not a hum. Not even a breath of static.

     Ford adjusted the fine focus knob, his fingers moving with almost ritual care.

     The telescope drank starlight—light that had traveled through ruin and silence, torn from stars that died long before Earth had learned to name them. That light had passed the crushed skeletons of collapsed suns, slipped through the thinnest threads of dark matter and the flared rims of gravity wells. It had no target. It had no destination.

     And yet, it arrived. Here—now—gathered in one perfect axis, bent into clarity by intention.

        Ford didn’t speak. He didn’t need to.

     He could feel Bill—closer than breath, closer than thought—hovering at the very front of his mind. Still. Utterly still. Held in place by wonder. Not tethered, not manipulated, not pulled—just… suspended. Witnessing.

        Staring.

     The moment stretched long and slow, and still Ford didn’t turn away. The eyepiece framed a pocket of sky most would’ve called empty. But he knew what was there: spectral data, gravitational distortions, the signature of something that defied classification. It was a region of space where theories buckled. Where reality misbehaved. And he gave it to Bill.

     Something in the shared space between them went utterly motionless.

     Wonder was a rare creature in Bill; Ford recognized its footprint now: a stillness so complete it felt like time halting. A long moment unfurled—infinite, silent, crystalline.

     When Bill’s voice finally surfaced, it did so unsteadily, stripped of its usual velvet and bite.

     “Six—” Bill started, and stopped, as though the word itself required recalibration. When he spoke again, it was softer. “How did you…know?”

     Ford nudged the dial a hair, sharpening a cluster of blue-white suns until they snapped into impossible clarity, glittering like iron filings dragged by an unseen magnet. He kept his eye to the lens, yet the faint smile that crossed his features was unmistakable—shy, almost boyish, tinged with a tenderness he reserved for only one.

        “Intuition,” he said.

     A hush rooted itself between them—older than quiet, something sedimentary that sank layer by layer until even the faint whir of the tracking motors felt distant. Ford remained bowed to the eyepiece, centuries of time pouring through across the glass at once, sparking in his eyes. Bill’s presence hovered only a lash away.

     For long breaths neither of them moved. Ford felt the minute vibrations of the dome’s drives as they compensated for the Earth’s rotation, felt the cold of the instrument seep into his palm, felt Bill’s stunned stillness echoing down their shared synapse like the held note of a hymn.

     “You know,” Ford began, “this field isn’t on any undergraduate star chart. Most people think it’s noise—gravitational mirage, sensor error. But the spectra say otherwise. There’s structure out there. Motion.” He glanced toward the open slit, then back down into the eyepiece. “I think it’s a corridor—something folded tight enough that even light forgets which way is forward.”

     “One day,” Ford went on, slower still, “we’ll follow it. Map the warps, trace the red-shift, see what the universe is hiding on the far side of sense. I’ll build the array; you’ll keep the door open—and we’ll go far beyond what these mirrors can reach.”

     He let the promise hang there, bright and impossible.

        “Would you like that, my muse?” 

     A beat—then Bill’s answer, small and earnest, flickered across Ford’s mind:

        “…I would.”

     The smile that followed wasn’t sharp or smug or scientific—it was quiet. Certain. A joy only they could recognize—holding the shape of something permanent.

        “Good,”

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"From Passion to Profession: Steps to Enter the Tech Industry"

How to Break into the Tech World: Your Comprehensive Guide

In today’s fast-paced digital landscape, the tech industry is thriving and full of opportunities. Whether you’re a student, a career changer, or someone passionate about technology, you may be wondering, “How do I get into the tech world?” This guide will provide you with actionable steps, resources, and insights to help you successfully navigate your journey.

Understanding the Tech Landscape

Before you start, it's essential to understand the various sectors within the tech industry. Key areas include:

Software Development: Designing and building applications and systems.

Data Science: Analyzing data to support decision-making.

Cybersecurity: Safeguarding systems and networks from digital threats.

Product Management: Overseeing the development and delivery of tech products.

User Experience (UX) Design: Focusing on the usability and overall experience of tech products.

Identifying your interests will help you choose the right path.

Step 1: Assess Your Interests and Skills

Begin your journey by evaluating your interests and existing skills. Consider the following questions:

What areas of technology excite me the most?

Do I prefer coding, data analysis, design, or project management?

What transferable skills do I already possess?

This self-assessment will help clarify your direction in the tech field.

Step 2: Gain Relevant Education and Skills

Formal Education

While a degree isn’t always necessary, it can be beneficial, especially for roles in software engineering or data science. Options include:

Computer Science Degree: Provides a strong foundation in programming and system design.

Coding Bootcamps: Intensive programs that teach practical skills quickly.

Online Courses: Platforms like Coursera, edX, and Udacity offer courses in various tech fields.

Self-Learning and Online Resources

The tech industry evolves rapidly, making self-learning crucial. Explore resources like:

FreeCodeCamp: Offers free coding tutorials and projects.

Kaggle: A platform for data science practice and competitions.

YouTube: Channels dedicated to tutorials on coding, design, and more.

Certifications

Certifications can enhance your credentials. Consider options like:

AWS Certified Solutions Architect: Valuable for cloud computing roles.

Certified Information Systems Security Professional (CISSP): Great for cybersecurity.

Google Analytics Certification: Useful for data-driven positions.

Step 3: Build a Portfolio

A strong portfolio showcases your skills and projects. Here’s how to create one:

For Developers

GitHub: Share your code and contributions to open-source projects.

Personal Website: Create a site to display your projects, skills, and resume.

For Designers

Design Portfolio: Use platforms like Behance or Dribbble to showcase your work.

Case Studies: Document your design process and outcomes.

For Data Professionals

Data Projects: Analyze public datasets and share your findings.

Blogging: Write about your data analysis and insights on a personal blog.

Step 4: Network in the Tech Community

Networking is vital for success in tech. Here are some strategies:

Attend Meetups and Conferences

Search for local tech meetups or conferences. Websites like Meetup.com and Eventbrite can help you find relevant events, providing opportunities to meet professionals and learn from experts.

Join Online Communities

Engage in online forums and communities. Use platforms like:

LinkedIn: Connect with industry professionals and share insights.

Twitter: Follow tech influencers and participate in discussions.

Reddit: Subreddits like r/learnprogramming and r/datascience offer valuable advice and support.

Seek Mentorship

Finding a mentor can greatly benefit your journey. Reach out to experienced professionals in your field and ask for guidance.

Step 5: Gain Practical Experience

Hands-on experience is often more valuable than formal education. Here’s how to gain it:

Internships

Apply for internships, even if they are unpaid. They offer exposure to real-world projects and networking opportunities.

Freelancing

Consider freelancing to build your portfolio and gain experience. Platforms like Upwork and Fiverr can connect you with clients.

Contribute to Open Source

Engaging in open-source projects can enhance your skills and visibility. Many projects on GitHub are looking for contributors.

Step 6: Prepare for Job Applications

Crafting Your Resume

Tailor your resume to highlight relevant skills and experiences. Align it with the job description for each application.

Writing a Cover Letter

A compelling cover letter can set you apart. Highlight your passion for technology and what you can contribute.

Practice Interviewing

Prepare for technical interviews by practicing coding challenges on platforms like LeetCode or HackerRank. For non-technical roles, rehearse common behavioral questions.

Step 7: Stay Updated and Keep Learning

The tech world is ever-evolving, making it crucial to stay current. Subscribe to industry newsletters, follow tech blogs, and continue learning through online courses.

Follow Industry Trends

Stay informed about emerging technologies and trends in your field. Resources like TechCrunch, Wired, and industry-specific blogs can provide valuable insights.

Continuous Learning

Dedicate time each week for learning. Whether through new courses, reading, or personal projects, ongoing education is essential for long-term success.

Conclusion

Breaking into the tech world may seem daunting, but with the right approach and commitment, it’s entirely possible. By assessing your interests, acquiring relevant skills, building a portfolio, networking, gaining practical experience, preparing for job applications, and committing to lifelong learning, you’ll be well on your way to a rewarding career in technology.

Embrace the journey, stay curious, and connect with the tech community. The tech world is vast and filled with possibilities, and your adventure is just beginning. Take that first step today and unlock the doors to your future in technology!

contact Infoemation wensite: https://agileseen.com/how-to-get-to-tech-world/ Phone: 01722-326809 Email: [email protected]