🚀💻 The Ultimate Guide to Laptops for Data Science: Finding Your Perfect Machine 💻🚀

Are you diving into the exciting world of data science? Whether you're crunching numbers, running complex algorithms, or visualizing data, having the right laptop is crucial for your success. Here's your ultimate guide to finding the perfect machine for your data science journey:

Powerful Processor: Look for laptops equipped with Intel Core i7 or AMD Ryzen 7 processors. These offer the horsepower needed for running resource-intensive data analysis tasks with ease.

Ample RAM: Data science workloads can be memory-intensive. Aim for at least 16GB of RAM to ensure smooth multitasking and handling of large datasets.

High-Performance Graphics: While not essential for all data science tasks, a dedicated GPU can significantly accelerate certain computations, especially those involving deep learning and neural networks.

Storage Space: Opt for SSD storage for faster data access and program loading times. Aim for at least 512GB to accommodate your datasets, software tools, and projects.

Portability: Data scientists are often on the move, so consider a lightweight and compact laptop that doesn't compromise on performance. Look for models with a durable build and long battery life for extended work sessions.

Quality Display: A high-resolution display with accurate color reproduction is essential for data visualization and analysis. Consider laptops with IPS panels for wide viewing angles and vibrant colors.

Connectivity Options: Ensure your laptop has ample ports for connecting external devices like monitors, keyboards, and data storage drives. Thunderbolt 3 ports are a bonus for high-speed data transfer.

Comfortable Keyboard and Trackpad: Since you'll be spending long hours typing and navigating, a comfortable keyboard and responsive trackpad are must-haves for a pleasant user experience.

Reliable Cooling System: Data science workloads can push your laptop's hardware to the limit, so choose a model with an effective cooling system to prevent overheating and maintain optimal performance.

Budget Considerations: While top-of-the-line specs are desirable, consider your budget constraints and prioritize components based on your specific data science needs.

Remember, the perfect laptop for data science is the one that best fits your workflow and preferences. Consider these factors carefully to make an informed decision and embark on your data science journey with confidence! 🌟

DataScience #Laptops #Tech #DataAnalysis #MachineLearning #AI #Computers #Technology #Guide #Tips #Advice

My dad REFUSESSSSSS to accept that no company is making electronic that are meant to last 10 years anymore and he keeps fighting me and my brother when we say that laptops stopped working because someone has something that was produced in 2012 that still works and he had a 2004 vaio that lasted until 2018 and he had a 2008 dell that lasted until 2020 so that means the laptop that was purchased in 2020 can't not be working or have parts that are crapping out already and I legit wanna scream. My laptop stopped working. I HAVE A DEGREE IN COMPUTER SCIENCE. I ran everything I could to save the laptop, there wasn't anything to be done, it was the motherboard crapping out, my dad still fought me for SIX WHOLE MONTHS that there was no way the laptop wasn't working anymore. Now my brother's graphics card seems to be crapping out, and my dad keeps mentioning a graphic card made in 2012 still working for data mining as if the quality of literally everything hasn't declined and THAT SOMETIMES THINGS JUST STOP WORKING. Static electricity, being dropped, energy surges, temperature changes, sometimes things just stop working, that laptop is four years old and my brother uses the graphics card to its fullest extent since he got it. It had enough. It HAPPENS. Sometimes ELECTRONICS STOP WORKING.

Benefits of Renting Laptops in Kolkata for Students and Professionals

In today’s fast-paced digital world, access to the right technology can significantly influence productivity and learning outcomes. Whether you're a student working on assignments or a professional handling time-sensitive projects, having a high-performance laptop is crucial. However, purchasing a new laptop can be financially burdensome—especially in a city like Kolkata where diverse communities seek affordable, flexible tech solutions. That’s where laptop rent in Kolkata emerges as a game-changer for both students and professionals.

1. Cost-Effective Access to High-End Technology

One of the most compelling advantages of laptop on rent in Kolkata is the cost savings. For students juggling tuition fees and other academic expenses, and professionals looking to minimize capital investments, renting a laptop offers an affordable alternative to buying. Instead of shelling out a large sum upfront, users can pay a manageable monthly rental fee for the latest devices.

Moreover, renting allows access to premium brands and models—MacBooks, Dell XPS, Lenovo ThinkPads, or gaming laptops—without the associated high costs. This is particularly beneficial for professionals needing temporary access to advanced software or hardware configurations for project work.

2. Ideal for Temporary and Short-Term Needs

Many students and professionals don’t require laptops for long durations. Internship projects, semester-based coursework, remote freelance work, or business travel often call for short-term access to computing devices. Choosing a laptop rent on Kolkata service allows users to select a rental period that matches their exact needs—be it weekly, monthly, or quarterly—thereby ensuring optimal cost-to-use ratio.

This flexibility is ideal for students appearing for competitive exams, attending online classes, or working on short academic projects. Likewise, it suits business professionals who need a backup system or a dedicated laptop for client presentations or temporary office setups.

3. Access to Regular Upgrades and Latest Models

The tech world evolves rapidly. Buying a laptop means users may be stuck with outdated specifications in just a couple of years. With laptop rent in Kolkata, however, users can access the latest models with up-to-date features such as faster processors, better graphics, longer battery life, and enhanced security.

This is especially important for professionals working in design, coding, data science, or animation, where software requirements keep changing. Renting ensures that they remain technologically competitive without the burden of frequent upgrades or resale hassles.

4. Maintenance and Technical Support Included

Most reliable services offering laptop on rent in Kolkata provide full maintenance and technical support during the rental period. Whether it's a software glitch, hardware malfunction, or performance lag, the rental provider ensures quick troubleshooting or even complete replacement if required.

For students who may not have easy access to professional IT support, and professionals who can’t afford downtime, this service component is immensely valuable. It ensures continuous workflow and eliminates the stress of repair costs.

5. Hassle-Free Onboarding and Delivery

Another advantage of laptop rent on Kolkata services is the ease of ordering and receiving the device. Many companies offer user-friendly websites and mobile apps where individuals can browse models, compare specs, select rental durations, and place orders within minutes.

The laptop is then delivered directly to the doorstep—whether it’s a student hostel in Salt Lake or a coworking space in Park Street—ensuring complete convenience. Most providers also handle pickup at the end of the rental period, making the process seamless.

6. Perfect for Remote Learning and Hybrid Work Models

Post-pandemic lifestyles have redefined how we work and learn. Students now engage in virtual classrooms, attend webinars, and take online exams, while professionals attend Zoom meetings, collaborate on cloud-based tools, and handle clients remotely.

For both groups, access to a reliable device is not optional—it’s essential. Opting for laptop rent in Kolkata enables users to stay connected, productive, and competitive, all without the stress of long-term financial commitment.

7. Eco-Friendly and Sustainable Option

Renting a laptop contributes to reducing e-waste. Instead of disposing of outdated laptops, rental services refurbish and recycle them for future users. This circular usage pattern is not only cost-effective but also environmentally responsible.

Choosing a laptop on rent in Kolkata therefore aligns with sustainability goals, making it an attractive option for socially conscious students and professionals.

Final Thoughts

Kolkata is a vibrant educational and professional hub, and the demand for flexible, cost-effective tech solutions is growing steadily. Laptop rent in Kolkata caters perfectly to this need, offering economic, functional, and technological advantages for students and professionals alike.

Whether it's short-term academic use or project-based professional work, renting a laptop provides access to cutting-edge technology without burning a hole in your pocket. With benefits like easy upgrades, maintenance support, and doorstep delivery, choosing laptop on rent in Kolkata is not just smart—it’s strategic.

AMD Ryzen Threadripper PRO 9000 WX Series Specs And Price

AMD introduced Ryzen Threadripper PRO 9000 WX workstation CPUs at COMPUTEX 2025. The processor fulfils data science, architecture, engineering, and media & entertainment experts' high standards.

Features

Platform/Compatibility

The WRX90 chipset supports Threadripper PRO 9000 WX-Series CPUs, which offer:

8-channel DDR5-5200 RDIMM up to 2TB.

Storage and GPUs may be connected quickly with 128 PCIe 5.0 lanes.

AMD PRO Memory Guard, Shadow Stack, and AMD Secure Processor improve workplace security.

Ryzen Threadripper 9000 workstation effectiveness

Ryzen Threadripper PRO 9000 WX-Series and Threadripper 9000 Series CPUs can handle the most demanding multi-threaded processes, enabling professionals implement complex ideas faster.

The highest CPU, Ryzen Threadripper PRO 9995WX, has 96 cores and 192 threads for AI modelling, visual effects, and simulation. With 384MB L3 cache and 128 PCIe 5.0 lanes, these CPUs can handle huge datasets, multi-GPU workloads, and memory-intensive software. All AMD PRO systems simplify IT with enterprise-grade security, management, and platform reliability.

For enthusiasts who need high-end desktop workstation performance, the Ryzen Threadripper 9000 Series' up to 64 cores provide efficient content creation, quick compilation, and local AI training without cloud offloading, lowering cost, latency, and privacy.

We expect Dell, HP, Lenovo, Supermicro, and system integrators to sell AMD Ryzen Threadripper PRO 9000 WX-Series processors later this year. Merchants will sell high-end desktop platforms featuring AMD Ryzen Threadripper 9000 Series CPUs, DIY versions, and select PRO 9000 WX-Series processors starting in July 2025.

AMD Offers Future AI PCs

To improve enterprise AI, ASUS Expert introduced the next-generation P Series Copilot+ PCs. These AMD Ryzen AI PRO 300 Series CPU-powered systems provide up to 50+ TOPS of NPU performance for fast, effective AI-enhanced productivity in top commercial platforms. Ryzen AI PRO Series CPUs with AMD PRO Technologies provide enterprise-grade security and management for modern IT environments.

Lenovo builds powerful, customised, and efficient AI PCs. The long-standing cooperation with AMD further this goal with cutting-edge workstations and powerful laptops. We're making computers quicker and smarter for everyone by working together. It was excited to add AMD's latest high-performance Ryzen Threadripper PRO processors to our ThinkStation P8 workstation, giving professionals and creative more options.

Dell Precision 5690 Review

Last September, the Dell Precision 5680 dazzled us as the first mobile workstation laptop we'd seen with one of Nvidia's "Ada Lovelace"-generation professional GPUs. The refreshed Precision 5690 (starts at $2,289; $6,500.55 as tested) teams the same RTX 5000 Ada graphics silicon with one of Intel's new AI-enhanced Core Ultra processors. It easily repeats its predecessor's Editors' Choice achievement as an outstanding platform for demanding tasks in design, CGI rendering and animation, engineering, and data science. It's half a step down in performance from our previous cost-no-object powerhouse pick, the HP ZBook Fury 16 G10, but it's more portable. So, this latest Dell Precision is well worth a look for professionals who need to carry high-end apps to conference rooms or client offices.

The 5690 gives Dell a stable of three 16-inch laptop workstations: The Dell Precision 5680 is still available, but it and the deluxe 7680 (which holds up to 128GB of memory and three solid-state drives to the 5690's maximum 64GB of RAM and two SSDs) use Intel's previous 13th Gen processors instead of the Core Ultras included in the new model.

Since 1982, PCMag has tested and rated thousands of products to help you make better buying decisions. See how we test.

This starting $2,289 5690 settles for a Core Ultra 5 135H—with, like all CPU options, Intel's vPro IT management technology—and 16GB of RAM. With only a 256GB SSD and Intel Arc Pro integrated graphics instead of one of the five available discrete GPUs, it's embarrassed to show its face around real workstations.

Our test unit—listed at $6,500.55, though most Precisions are purchased at volume discounts rather than the quantity-one price—is more like it with an Intel Core Ultra 9 185H chip, 32GB of RAM, and two 512GB NVMe SSDs in a RAID 0 array. It also replaces the 1,920-by-1,200-pixel IPS base display with a 3,840-by-2,400-pixel OLED touch screen backed by the top-rung 16GB Nvidia RTX 5000 Ada GPU.

Like last year's model, the Precision 5690 has an aluminum chassis with polycarbonate and a glass fiber palm rest—all of which have passed MIL-STD 810H torture tests against travel hazards like shock, vibration, and extreme temperatures. The laptop measures 0.87 by 13.9 by 9.5 inches and weighs 4.46 pounds, trimmer than the more expandable (up to 128GB and four SSDs) HP ZBook Fury 16's 1.13 by 14.3 by 9.9 inches and 5.3 pounds.

What is the Best Laptop for Working from Home? Top Picks for Work, Business, and More (2024)

Looking for the best laptop for working from home in 2024? In this video, we’ll guide you through the top laptops for remote work, business tasks, students, gamers, programmers, and creatives. Whether you're searching for what is a good laptop for work or wondering what is a good laptop for business, we’ve got you covered.

We’ll break down the features of the best laptops to fit various needs—whether you're a professional, student, gamer, or data scientist. You'll discover:

🔹 Best laptop for students and best student laptop 2024—great for online classes and schoolwork

🔹 Best business laptop—optimized for multitasking, security, and productivity

🔹 Best laptop for gaming—high-performance machines with powerful GPUs

🔹 Best laptop for programming and best laptop for coding—ideal for developers and coders

🔹 Best laptops for data science and best laptop for machine learning—perfect for heavy computations and AI work

🔹 Best laptops 2024—our recommendations for the latest and greatest models

🔹 Best laptop for video editing—machines that handle 4K editing with ease

If you’re working remotely, you need a reliable, powerful, and portable laptop to keep up with your tasks. We’ve compared laptops across brands like Apple, Dell, HP, and Lenovo to bring you the best laptops for work and personal use in 2024. These are perfect for both light business tasks and demanding operations like programming and video editing.

Explore the best laptops for university and professionals to enhance your productivity. Don't miss our breakdown of the best student laptop options—tailored for students who need performance on a budget. Whether you’re a professional looking for the best business laptop or a gamer after the best gaming laptop, this guide will help you find the perfect fit.

Be sure to watch till the end for our top picks of the best laptops 2024. Subscribe to our channel for more reviews, comparisons, and buying guides. Let us help you find the best laptop for work, school, and personal use!

💼 - Best Laptops for Business and Work

- Best Laptops for Students and School

- Best Laptops for Gaming

- Best Laptops for Programming and Coding

- Best Laptops for Video Editing and Machine Learning

Be sure to watch till the end for our top picks of the best laptops 2024. Subscribe to our channel for more reviews, comparisons, and buying guides. Let us help you find the best laptop for work, school, and personal use!

Best Programming Laptops in USA:2024

Ideal laptop to get for programming in 2024. You want that laptop that's powerful, versatile, and smooth with different programming languages and tools in order to make your work look neat and ordered. You could be an experienced developer working on complex algorithms or just starting your coding journey. In this way, with a good laptop, the levels of productivity and comfort attained from these activities increase significantly. In this guide, we're going to be looking at the best programming laptops in the United States available. These are the laptops that strike the perfect balance between power and portability at any price. Budget-Friendly Options Price, in buying a new laptop, is a very significant factor. Well, there are superb options which offer great value for money. For around $1,000, one can get a well-performing laptop. Entry-level laptops such as the Lenovo ThinkPad E15 are really good for beginners or people who work with small projects. The majorities offer solid performance; however, some key features may be forgone, like high-resolution screens and long battery life.

Image Credit: lenovo.com Mid-Range Picks In the $1,000–$1,500 range, you'd likely want to go for something like the Dell XPS 13. These are mid-range laptops with faster processors, increased memory, and better displays, which will be well-suited for heavier programming tasks, such as virtual machines or large code base compilation. Premium Choices Microsoft Surface Laptop Studio Another premium option is the Microsoft Surface Laptop Studio. Known for its versatility and strong performance, it’s a great choice for developers who need a powerful and portable device.

Image Credit: dell Store For any client who can afford to spend over $1,500: Apple MacBook Pro M2 or Microsoft Surface Laptop Studio. These laptops are highly configured for performing intensive heavy tasks with superior performance, good displays, and battery life. They also come in a lightweight built, easily portable, and well-constructed for super convenience in coding on the go. Essential Features for Programming Laptops CPU and RAM for Programming Laptops The CPU and RAM are the two most important features of a programming laptop. By 2024, most developers will have these Intel Core i7 or AMD Ryzen 7 computers to be on the right balance in power and efficiency; these CPUs are pretty good with multitasking such that you may run quite a number of programs along with browser tabs without slowing down the computer. For big projects or those within certain fields, such as data science and game development, that include more processor power, you might need something like an Intel Core i9 or AMD Ryzen 9. The number of cores and threads supplied in these processors turns out to be quite beneficial for high-intensity multitasking activities, like compiling large projects and running intensive simulations. For RAM, anything above 16GB is overkill for the majority of programming; it allows one's system enough memory to carry out daily work with such a configuration. However, if your work involves running VMs, big databases, or similarly memory-hungry applications, an upgrade to 32GB of RAM will easily keep the system flying. Screen Size and Resolution always been a key factor in Programming Laptops The screen of a laptop is not just a medium with which to view your code; it's a tool in your workflow. A 13- to 15-inch laptop makes the best compromise between screen real estate and portability in 2024. For example, a 14-inch laptop, like the Lenovo ThinkPad X1 Carbon, may be comfortable for prolonged coding hours but at the same time be very convenient for mobility. You should also consider the screen resolution. A 1080p display will pretty much suffice for the majority of programming tasks, but suppose you have to work on some detailed UI/UX design or require more real estate on your screen with multiple windows opened; in that case, you might look for laptops with a 4K display. Also, try going for IPS panels when selecting one, because they yield better color accuracy and have wide viewing angles—particular if you deal with a lot of visual content. Although refresh rates aren't that important for programming as they are for gaming, their improvement of experience by a notch couldn't go unnoticed. A higher refresh rate, such as 90Hz and above, could let you scroll down on some long code bases and move within your complex environment comfortably. Battery Life A good and strong battery in your laptop will ensure you work for the better part of the day without interruptions and without being forced to run up and down searching for a charging port. For instance, Apple MacBook Air M2 is quite noted for having a top-of-the-list battery lifespan—up to 18 hours after one charge. This means great opportunities for long hours of coding, either at home, in a café, or on the go. Notable Models in Programming Laptops Apple MacBook Pro M2

MacBook-Air-M2 Apple MacBook Pro M2 is a powerhouse engineered especially for developers who demand the highest level of performance. With a bright, sharp Retina display, you can easily carry out detailed coding work. Also, one can go on coding for hours because of its long-lasting battery life. However, the device does come with a high price point and few ports, needing one to acquire extra adapters. Dell XPS 13 Those inclined to Windows laptops will also have the HP Spectre x360 and Dell XPS 13 to see them through with a good battery for 10 to 15 hours. Very crucial advice that you should take into consideration when choosing your laptop is to ensure that it can last throughout your normal work day without you having to always keep it charged. Lenovo ThinkPad X1 Carbon Programming Laptops with Gen 10 All of that makes the Lenovo ThinkPad X1 Carbon Gen 10 a safe bet for any programmer who cares a lot about the awesome keyboard and lightweight machine. Build-wise, it is strong to last for all types of rough daily use. Moreover, it comprises one of the best keyboards in its class for easy typing over longer periods. Yes, the price may be high for higher configurations, but the quality pays for itself. - Pros: Excellent keyboard, lightweight, durable. - Cons: Higher price for premium configurations. HP Spectre x360 14 The ideal Programming Laptop One of the things that make it different is the versatile 2-in-1 design—laptop and tablet—making the HP Spectre x360 14 unique. It operates so well, maybe better than the rest, so it could be just the best companion for programming while undertaking creative work. Besides, the screen of the device is clear and brightly lit, therefore increasing one's visual experience. The only caveat is it heats up fairly quickly under heavy use. - Pros: 2-in-1 design, clear display, versatile for creative work. - Cons: Can heat up under heavy use. Microsoft Surface Laptop Studio The Microsoft Surface Laptop Studio is something innovative and unconventional that will appeal to developers who look into this. In design, it has the ability to be very versatile, making a productivity boost. It is strong in performance and with quality display nice to work with. On the downside, it is expensive with only a few upgrade options available. The Microsoft Surface prices are approximate and can fluctuate because of the configuration and the retailer. Always check the most current prices and deals before making your purchase.

image credit: microsoft.com - Pros: Innovative design, strong performance, high-quality display. - Cons: Expensive, limited upgrade options. Which Programming Laptops suit You Best Selecting the right laptop depends on your specific needs and budget. From entry-level models to high-end powerhouses, each laptop has its strengths. Always check the latest prices and configurations to ensure you get the best deal. Read the full article

Vista: A New AI-Focused Supercomputer for the Open Science Community - Technology Org

New Post has been published on https://thedigitalinsider.com/vista-a-new-ai-focused-supercomputer-for-the-open-science-community-technology-org/

Vista: A New AI-Focused Supercomputer for the Open Science Community - Technology Org

Vista, a new artificial intelligence (AI)-centric system, is arriving at the Texas Advanced Computing Center at The University of Texas at Austin in early 2024.

Vista will set the stage for TACC’s Horizon system, the forthcoming Leadership-Class Computing Facility (LCCF) funded by the National Science Foundation (NSF), planned for fiscal year 2025. Horizon is expected to provide 10 times the computing capability of Frontera, the top U.S. academic supercomputer and the largest supercomputer in the NSF research cyberinfrastructure.

“Vista will bridge the gap between Frontera and Horizon to ensure the broad science and engineering research and education community has access to the most advanced computing and AI technologies,” said Katie Antypas, director in the NSF Office of Advanced Cyberinfrastructure. “Vista will also be a critical new resource to support responsible and trustworthy AI research for the benefit of our national welfare.”

Vista will mark a departure from the x86-based architecture used by TACC in Frontera, the Stampede systems, and others to central processing units (CPU) based on the Advanced RISC Machines (Arm) architecture. The new Arm-based NVIDIA GraceCPU Superchip is specifically designed for the rapidly expanding needs of AI and scientific computing.

“We’re excited about Vista,” said TACC Executive Director Dan Stanzione. “It’s our first ever system with an Arm-based primary processor. It will add to our capacity, particularly for AI, and help our user base begin porting to future generations of these technologies. With Vista, alongside our new Stampede3 (Intel) system, and the Lonestar6 (AMD) system we added last year, our team and our users will gain experience with and insight into the three major architectural paths we might follow for future systems, including Horizon.”

The NVIDIA GH200 Grace Hopper Superchip will be the processor for a little more than half of Vista’s compute nodes. It combines the Grace CPU with an NVIDIA Hopper architecture-based GPU so that the GPU can seamlessly access CPU memory to enable bigger AI models. The NVIDIA Grace CPU Superchip, which contains two Grace processors in a single module, will fill out the remainder of Vista’s nodes for unaccelerated codes.

Memory is implemented in a new way with the superchips. Instead of traditional DDR DRAM, the Grace uses LPDDR5 technology—like the memory used in laptops but optimized for the needs of the data center. In addition to delivering higher bandwidth, this memory is more power-efficient than traditional DIMMS, offering savings as great as 200 watts per node.

In addition, the NVIDIA Quantum-2 InfiniBandnetworking platform will help advance Vista’s performance with its advanced acceleration engines and in-network computing, propelling it up to 400Gb/s.

“AI has the potential to allow scientific computing to solve some of the most challenging problems facing humanity,” said NVIDIA Director of Accelerated Computing Dion Harris. “NVIDIA’s accelerated computing platform equips leading academic supercomputers, such as TACC’s Vista, with the extreme performance required to unlock this transformative potential.”

On the storage side, TACC has partnered with VAST Data to supply Vista’s file system with all-flash, high-performance storage linked to its Stampede3 supercomputer. The compute nodes will be manufactured by Gigabyte, and Dell Technologies will provide the integration.

Vista allocations will be available primarily through the NSF-funded Frontera project, and will also offer time throughthe Advanced Cyberinfrastructure Ecosystem: Services and Support (ACCESS) project to its broad user community.

Stampede3 to Enter Full Production in Early 2024

In addition to Vista, TACC announced the Stampede3 system in July 2023, a powerful new Dell Technologies and Intel-based supercomputer that will be the high-capability and high-capacity HPC system available to open science research projects in the U.S. when it enters full production in early 2024.Learn more about the system specifications.

Lonestar6: TACC’s Primary System for Texas Researchers

TACC’s Lonestar6 supercomputer went into full production in January 2022 with a boost of new servers and GPUs from Dell Technologies, AMD, and NVIDIA. This is in addition to the three petaflops of pre-existing performance from the AMD CPUs in the system. This system allows Texas researchers to compute and compete at the forefront of science and engineering. Lonestar6 is designed to meet the growing demand for AI and other GPU-accelerated solutions and take advantage of the power efficiency in heterogeneous computing.Learn more about the system specifications.

Source: TACC

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The Most Underrated Companies To Follow In The Laptop For Data Analysis Industry

The top Laptops For Data Science App Development

Have you ever been curious about what makes laptops for data science very popular right now? Effectively, it may surprise you that such laptops are extremely required in the scientific community. Scientific analysis requires a computing power that is high and specific. For this very purpose, laptops have gained a huge popularity. A information for laptop is an all-in-one machine which often performs many functions as document storage, Internet surfing, spreadsheet application as well as many more.

The laptops for data science are equipped with powerful hardware and therefore are able to supporting several apps. They are not just used for professional use; one common user additionally uses these to do his day-to-day tasks. Laptop apps are simple programs created in code to operate the laptop computer. Several of the favorite examples of such apps include word processors, database management systems, image manipulation tools and calculator.

When you are intending to purchase a laptop for facts analysis, you have to take a couple of things into consideration first. It is critical you realize what you're really searching for. Do you are looking to obtain a stylish and sleek laptop which has a high-end graphics card? Do you are looking to purchase 1 with a great cold weather design? Or perhaps do you want one with much battery life, a high-end optical drive, a quick processor as well as other top features? When you know your requirements, it will be a lot easier to chose the right laptop type on your demands.

In terms of performance, there are four best laptops for the second which have taken the point. All of them feature amazing specifications and run on the latest Windows operating system. They are Apple MacBook Pro with an Intel Core Duo, Toshiba Satellite Sardone with an Intel Quad-core Core Duo, Dell Precision Tower with an Intel Core Duo and Sony Ericsson XPERIA Mini with an Intel Core Duo. If we were to look at selling price, then the option is a little more difficult to make but there are a number of alternatives which have been on the lower end. For example, you are able to buy a Microsoft Surface with an Intel Core two Duo only for a couple hundred bucks.

Should you do not wish going all out and also buy a laptop website with good specs, then you are able to stick to the Apple MacBook Air. It has a low-end processor, therefore it won't work for scientific work which requires a good deal of speed. However, for everyday web and browsing surfing, it is a terrific choice. There are also more low-cost laptops with the identical processor and optical drives that are available.

Among the major drawbacks with notebook computers is they're typically more substantial than desktop pcs, so they can't carry that much information. Should you have to store a lot of information, you need to consider obtaining an external laptop computer or perhaps a tablet Pc rather than a laptop computer. The extra portability of an external laptop computer or tablet Pc is specially useful in case you do lots of driving and devote lots of time at home.

2 additional things which you have to think about when trying to find the most effective laptops for information science are battery life and price. Notebooks ordinarily have less-than-ideal battery life for data-intensive tasks. If you'll be using the laptop of yours in the office and at your home office, then you definitely are going to need a laptop computer with a longer battery life. Several of the more modern versions of laptops on the market are actually efficient at running on one charge for a couple of hours. Laptops with lengthy battery life are ideal for anybody that works from home because they will not be required to waste time waiting around for a power outlet.

Along with having the most time battery life and the lowest price tag, the best laptops for data science app development can also support several types of programs. Some laptop models merely support Office applications, but there are also laptop models which support both Excel and Python for scientific computing. If you work on a project-by-project time frame on your science projects, then it is particularly essential you purchase a machine with a processor that can power both Excel and Python programs. By getting a machine that will run 2 different programs, you will be ready to drive your project in a faster and more efficient fashion.

AI Unveiled: 2024’s Top 6 Consumer Tech Trends

AI into 2024: The 6 biggest consumer tech trends Qualcomm executives reveal future AI, consumer tech, and other trends.

The banana-peel-and-beer-fueled DeLorean in “Back to the Future” was once funny. Today, 10% of cars are electric.1 A year ago, talking to a computer in natural language was science fiction, but the next generation will need a personal AI assistant.

Generative AI was the game-changer in nearly every industry, and its effects will continue next year.

Business leaders developing and deploying cutting-edge AI, high-performance, low-power computing, and connectivity technologies to deliver intelligent computing everywhere.

Nobody knows how generative AI and other tech trends will unfold next year. As the end 2023, what Qualcomm executives thought would be the biggest trends of 2024.

AI PCs lead laptop replacement “super cycle” In 2024, a “super cycle” of laptop replacements and PC AI advancements will transform the PC market.

Morgan Stanley predicts a major shift, with 40% of laptops replaced in 2024 and 65% by 2025.2

Qualcomm Technologies’ Senior Vice President and GM of Compute and Gaming, Kedar Kondap, says, “They anticipate a market-defining “super cycle” in the PC starting in 2024, where the need for new laptops and the advancement of AI will drive a new era of PCs

“This innovation is not just an evolution in the PC market, but a revolution, driving AI PC demand and reshaping the computing experience for businesses and consumers into the new year.”

Microsoft’s actions show that Intelligent PC and AI assistants like Copilot are coming.

They announced at Snapdragon Summit in October that Snapdragon X Elite would enable the AI PC, built to perform AI tasks. Microsoft, HP, Lenovo, and Dell joined us.

Personal devices will host generative AI from the cloud While 2023’s generative AI conversation focused on the cloud, on-device AI can help solve privacy, latency, and cost issues.

According to Qualcomm Technologies’ Senior Vice President & General Manager of Technology Planning & Edge Solutions, Durga Malladi, personal devices such as smartphones, PCs, vehicles, and IoT devices will become hubs for multi-modal generative AI models as they become more integrated into our lives.

Doing many AI tasks on-device makes sense and expands consumer and enterprise access to these awesome capabilities.

“This transition will bring consumers and enterprises next-level privacy-focused, personalized AI experiences and lower cloud costs for developers,” Malladi said. The shift from cloud-based to hybrid or on-device AI is inevitable with large generative AI multi-modal models running on devices.

Your smartphone will become more essential Personal AI assistants will become indispensable companions as smartphones gain generative AI capabilities and learn from our daily lives to provide tailored experiences.

Qualcomm Technologies’ Senior Vice President & General Manager of Mobile Handset, Chris Patrick, said smartphones, our most personal devices, will use multi-modal generative AI models and combine sensor data. He added,

“Your on-device AI assistant will become personalized, informative.”

Applications using LLMs and visual models will deliver personalized, meaningful content using sensor data like health, location, and hyperlocal information.

Patrick added, “These AI assistants will enable natural engagement and process and generate text, voice, images, and videos on-device by using different modalities. This will mainstream next-level user experience while addressing climbing cloud-based AI costs.”

AI showed on-device personalization on our Snapdragon 8 Gen 3 at Snapdragon Summit to meet this market need.

Creativity will increase AI will become more integrated into creative and marketing.

Don McGuire, Qualcomm Incorporated’s CMO, said, “Generative AI is changing how to learn, how to play and how to work.” Qualcomm is one of the largest companies enabling this technology, and McGuire is deploying the tools throughout the marketing organization.

You are seeing an increase in productivity, time-to-market, and efficiency, so the team can focus more on strategy and creative collaboration and less on repetitive tasks.

It’s about enhancing people’s abilities, not replacing them.

Generative AI can offer advice and insights with massive data sets. It helps marketers target specific audiences and creates highly personalized content across mediums.

Consumers will want multi-device open ecosystems Open ecosystems will allow consumers to choose the best devices from multiple brands for their needs.

Since brands compete on a level playing field to outperform each other and deliver better products, interoperability will boost innovation and consumer experiences.

Qualcomm Technologies’ Senior Vice President & General Manager, Mobile, Compute & XR, Alex Katouzian, predicts that consumers will drive device makers to open ecosystems and demand improved communication and functionality across devices.

The recent announcement of Apple’s rich communication services messaging integration and the rise of Link to Windows and Snapdragon Seamless experiences are driving interoperability across brands and platforms, he says. This shift toward open ecosystems will give consumers more choice, letting them choose the best device for their needs.”

Mixed Reality will change your life Mixed reality, virtual reality, and extended reality (XR) will enter consumer products in 2024 as enthusiast technologies become mainstream.

Qualcomm Technologies’ VP/GM of XR Hugo Swart says,

Due to widespread adoption of mixed reality capabilities, smaller devices, and spatial computing, XR is progressing quickly.

Affordable hardware like Meta’s Quest 3 and Ray Ban Meta is just the start.

New tools will democratize 3D content generation and create more realistic and engaging virtual environments using generative AI to improve and scale XR experiences.

Personal assistants and lifelike 3D avatars powered by generative AI will become more common in XR, as will voice interfaces.

Read more on Govindhtech.com

Best Programming Laptops in USA:2024

Ideal laptop to get for programming in 2024. You want that laptop that's powerful, versatile, and smooth with different programming languages and tools in order to make your work look neat and ordered. You could be an experienced developer working on complex algorithms or just starting your coding journey. In this way, with a good laptop, the levels of productivity and comfort attained from these activities increase significantly. In this guide, we're going to be looking at the best programming laptops in the United States available. These are the laptops that strike the perfect balance between power and portability at any price. Budget-Friendly Options Price, in buying a new laptop, is a very significant factor. Well, there are superb options which offer great value for money. For around $1,000, one can get a well-performing laptop. Entry-level laptops such as the Lenovo ThinkPad E15 are really good for beginners or people who work with small projects. The majorities offer solid performance; however, some key features may be forgone, like high-resolution screens and long battery life.

Image Credit: lenovo.com Mid-Range Picks In the $1,000–$1,500 range, you'd likely want to go for something like the Dell XPS 13. These are mid-range laptops with faster processors, increased memory, and better displays, which will be well-suited for heavier programming tasks, such as virtual machines or large code base compilation. Premium Choices Microsoft Surface Laptop Studio Another premium option is the Microsoft Surface Laptop Studio. Known for its versatility and strong performance, it’s a great choice for developers who need a powerful and portable device. Image Credit: dell Store For any client who can afford to spend over $1,500: Apple MacBook Pro M2 or Microsoft Surface Laptop Studio. These laptops are highly configured for performing intensive heavy tasks with superior performance, good displays, and battery life. They also come in a lightweight built, easily portable, and well-constructed for super convenience in coding on the go. Essential Features for Programming Laptops CPU and RAM for Programming Laptops The CPU and RAM are the two most important features of a programming laptop. By 2024, most developers will have these Intel Core i7 or AMD Ryzen 7 computers to be on the right balance in power and efficiency; these CPUs are pretty good with multitasking such that you may run quite a number of programs along with browser tabs without slowing down the computer. For big projects or those within certain fields, such as data science and game development, that include more processor power, you might need something like an Intel Core i9 or AMD Ryzen 9. The number of cores and threads supplied in these processors turns out to be quite beneficial for high-intensity multitasking activities, like compiling large projects and running intensive simulations. For RAM, anything above 16GB is overkill for the majority of programming; it allows one's system enough memory to carry out daily work with such a configuration. However, if your work involves running VMs, big databases, or similarly memory-hungry applications, an upgrade to 32GB of RAM will easily keep the system flying. Screen Size and Resolution always been a key factor in Programming Laptops The screen of a laptop is not just a medium with which to view your code; it's a tool in your workflow. A 13- to 15-inch laptop makes the best compromise between screen real estate and portability in 2024. For example, a 14-inch laptop, like the Lenovo ThinkPad X1 Carbon, may be comfortable for prolonged coding hours but at the same time be very convenient for mobility. You should also consider the screen resolution. A 1080p display will pretty much suffice for the majority of programming tasks, but suppose you have to work on some detailed UI/UX design or require more real estate on your screen with multiple windows opened; in that case, you might look for laptops with a 4K display. Also, try going for IPS panels when selecting one, because they yield better color accuracy and have wide viewing angles—particular if you deal with a lot of visual content. Although refresh rates aren't that important for programming as they are for gaming, their improvement of experience by a notch couldn't go unnoticed. A higher refresh rate, such as 90Hz and above, could let you scroll down on some long code bases and move within your complex environment comfortably. Battery Life A good and strong battery in your laptop will ensure you work for the better part of the day without interruptions and without being forced to run up and down searching for a charging port. For instance, Apple MacBook Air M2 is quite noted for having a top-of-the-list battery lifespan—up to 18 hours after one charge. This means great opportunities for long hours of coding, either at home, in a café, or on the go. Notable Models in Programming Laptops Apple MacBook Pro M2 MacBook-Air-M2 Apple MacBook Pro M2 is a powerhouse engineered especially for developers who demand the highest level of performance. With a bright, sharp Retina display, you can easily carry out detailed coding work. Also, one can go on coding for hours because of its long-lasting battery life. However, the device does come with a high price point and few ports, needing one to acquire extra adapters. Dell XPS 13 Those inclined to Windows laptops will also have the HP Spectre x360 and Dell XPS 13 to see them through with a good battery for 10 to 15 hours. Very crucial advice that you should take into consideration when choosing your laptop is to ensure that it can last throughout your normal work day without you having to always keep it charged. Lenovo ThinkPad X1 Carbon Programming Laptops with Gen 10 All of that makes the Lenovo ThinkPad X1 Carbon Gen 10 a safe bet for any programmer who cares a lot about the awesome keyboard and lightweight machine. Build-wise, it is strong to last for all types of rough daily use. Moreover, it comprises one of the best keyboards in its class for easy typing over longer periods. Yes, the price may be high for higher configurations, but the quality pays for itself. - Pros: Excellent keyboard, lightweight, durable. - Cons: Higher price for premium configurations. HP Spectre x360 14 The ideal Programming Laptop One of the things that make it different is the versatile 2-in-1 design—laptop and tablet—making the HP Spectre x360 14 unique. It operates so well, maybe better than the rest, so it could be just the best companion for programming while undertaking creative work. Besides, the screen of the device is clear and brightly lit, therefore increasing one's visual experience. The only caveat is it heats up fairly quickly under heavy use. - Pros: 2-in-1 design, clear display, versatile for creative work. - Cons: Can heat up under heavy use. Microsoft Surface Laptop Studio The Microsoft Surface Laptop Studio is something innovative and unconventional that will appeal to developers who look into this. In design, it has the ability to be very versatile, making a productivity boost. It is strong in performance and with quality display nice to work with. On the downside, it is expensive with only a few upgrade options available. The Microsoft Surface prices are approximate and can fluctuate because of the configuration and the retailer. Always check the most current prices and deals before making your purchase.

image credit: microsoft.com - Pros: Innovative design, strong performance, high-quality display. - Cons: Expensive, limited upgrade options. Which Programming Laptops suit You Best Selecting the right laptop depends on your specific needs and budget. From entry-level models to high-end powerhouses, each laptop has its strengths. Always check the latest prices and configurations to ensure you get the best deal. Read the full article

What An IT Infrastructure Solution Consists Of?

Even before you are considering visiting IT infrastructure solutions and support providers, you must know what IT infrastructure is composed of. Its components are hardware, applications, network resources, and services that are required to run the business successfully. Within the business, it can be supporting business operations or may be utilized to deliver technology solutions to the consumers. The typical components of infrastructure are:

•    The Hardware.

It consists of servers, computers, data centers, switches, hubs, and routers, etc.

•    The Software.

It consists of Operating System, ERP, CRM, and other applications.

•    The Network.

It consists of network enablement, internet connectivity, firewall, and security.

6 Features The Complete IT Infrastructure Must Have

Well, the above are just the components, but the complete IT infrastructure is much more than that. It has to meet the service level expectations of the organization. For an IT infrastructure to perform well in your business environment, it must have:

1. Latency Proof

Latency is the delay that may happen in the communication of data over the network. There are 2 types of latency:

•    Low Latency Networks: These are the network connections in which small delays occur.

•    High Latency Networks: They are the network connections which suffer from long delays. This kind of latency creates bottlenecks, and it prevents the data from taking the full advantage of the network and decreases the communication bandwidth.

Bottlenecks Causing Latency: In some cases, the problem may be with transmission medium. The network router or switch may have a problem. Some software may be malfunctioning due to which the network may be facing latency issues.

There may be few ways as to what can be done to remove network latency. One of them is provisioning servers with high-capacity ports.

2. Optimized WAN Network

With WAN optimization, you can be assured of better network management. With it, you can prioritize the traffic and ensure that business-critical applications get the bandwidth they require. It does not just lower the traveling costs, it also increases productivity.  Let’s take a look at some of the technologies which are used:

•    Traffic Shaping.

The traffic is prioritized, and bandwidth allocation is done.

•    Data Deduplication.

It eliminates redundant data. In this instead of sending the actual data, the references are sent

•    Data Compression.

It helps in contracting the size of data to limit bandwidth usage

•    Data Caching.

In this, frequently used data is hosted locally on a local server for faster access.

The importance of WAN Optimization is more in the current business environment where more and more companies are moving to the cloud. There are two ways to address this, first, purchase more bandwidth, and second, use what you have already more efficiently.

3. Zero Downtime

It's vital to reducing disruptions in the company and make sure that the whole mission-critical applications are up and running whenever they are needed the most. Having a modern updated infrastructure, you'll be eliminating the machine downtime as a factor that might lead to revenue losses.

In telecom networks, any increase of capacity and simplification of various carrier network layers need extensive preparation along with highly skilled individuals to design and deploy. Any downtime at the telecom community can prove to be very expensive for the business and the customers as well. Just a company which is seasoned with MPLS, Metro Ethernet, Core, and Edge networks are going to have the ability to help conquer the dreaded downtime.

4. High-Performance Storage

The Need of This Toughest High-performance computing, financial, life sciences, manufacturing, along with other instructional surroundings drives high energy storage challenges that have to be met with an offering which is flexible and robust.

The Demand for file and block storage products and Solutions is mandatory to meet with the need of special needs of Big Information and Web 2.0.  The current storage technologies which are used are:

•    Disk Storage Systems: Enterprise SAN and NAS.

•    Disk Backup Systems: Virtual Library Systems, D2D backup, Removable Disks.

•    Tape Drives and Blades: LTO, DAT Simple, and Fully Automated Tape Libraries.

•    Back-Up and Archival Solutions.

•    Virtualized and Unifies Storage Solutions.

•    Disaster Recovery and Business Continuity Solutions.

The organizations that adopt HPC technologies need to prepare for this very high increase in the data by adopting technologies that will enable high performance. It’ll also lead to real-time collaboration and will drive down the cost of computing.

5. Virtualization

Server virtualization is a technology which is in existence for a decade, but some still consider this as something new. Any multimedia integration is easy, and it provides efficiencies and capabilities which aren’t possible with a physical world. There are many benefits of virtualization:

•    Energy Saving.

Virtualization can save you a lot of energy. This means cost reduction and more saving and more budget to focus on other areas.

•    Faster Server Provisioning.

With server virtualization, the administrators are enabled to provide system provisioning and deployment at short notice.

•    Increases Uptime.

The virtual servers offer some advanced features which are simply unavailable in physical servers. This leads to increased uptime and business continuity.

•    Improved Disaster Recovery.

Virtualization offers hardware abstraction, easy replication, and failover when the disaster strikes.

•    Fosters Cloud Computing.

When the world is moving towards the cloud, virtualization makes it easy to go on the cloud. By virtualizing the servers and abstracting the underlying hardware, you are gradually embracing cloud computing.

When it comes to implementation, prior experience helps. A virtualization project will span across:

•    Server consolidation and infrastructure optimization.

•    Desktop Virtualization.

•    Storage Virtualization.

•    Server Virtualization.

6. Security

Security plays a major role in moving an IT infrastructure from a vulnerable state to an optimized state.

The areas where security plays an important role are:

•    Controlling information access.

It allows the access of information to managed and defined. It means identity management, network access control. Simple access to critical resources is granted only when the authentication is successful.

•    Implementation of standards.

Implementing the ISO/IEC standards makes systems more secure. They are widely used and help in formulating the security policy, so it is important to have the business processes aligned to the international standards. One of the commonly used standards is ISO/IEC 27002. It is a rule which is published by the ISO and provides best practices recommendations on information security management.

•    Availability of data.

The security is instrumental in ensuring that data is available to post-optimization. While the administration of the device can be simplified with NAP, a well-designed security policy will define the process of business continuity. BCM (business continuity management) may be integrated during any implementation of information safety standards.

Conclusion

IT Infrastructure is the backbone of any organization. Doing it with careful consideration will save you plenty of attempts while also improving your workforce efficiency and meeting business objectives. Outsourcing your IT infrastructure management is a great decision, but a catchy one.

Choosing the right solution is often Complex and necessitates thorough technical knowledge. It is recommended that you question the agent about your darkest in addition to the most obvious technology fears and needs. While giving it at the wrong hands may result in tech nightmares, giving it in the right hand will result in a series of events which will cause your business success.

Scalability, Reduced capital expenditure, enhanced safety, and the ability to concentrate on the Core business are only a few of the benefits of giving your technologies Infrastructure in the ideal hands.

Globalnettech is a Workstation, Laptops & Mac Rental Company. We rent high performance computing solutions for the professional mark.

Rental from Global Nettech carry the industry’s top brands like Dell, HP, Lenovo and Apple. Other products such as laptop rental, mobile workstations rental, Apple Mac Desktop and Mac Laptop Rental services With Support Center in Pune, Mumbai, Hyderabad, Chennai, Bangalore location, and affiliates around the nation, Global Nettech is suited to cater the needs of your company—wherever you are.

#1yrago My RSS feeds from a decade ago, a snapshot of gadget blogging when that was a thing

Rob Beschizza:

I chanced upon an ancient backup of my RSS feed subscriptions, a cold hard stone of data from my time at Wired in the mid-2000s. The last-modified date on the file is December 2007. I wiped my feeds upon coming to Boing Boing thenabouts: a fresh start and a new perspective.

What I found, over 212 mostly-defunct sites, is a time capsule of web culture from a bygone age—albeit one tailored to the professional purpose of cranking out blog posts about consumer electronics a decade ago. It's not a picture of a wonderful time before all the horrors of Facebook and Twitter set in. This place is not a place of honor. No highly-esteemed deed is commemorated here. But perhaps some of you might like a quick tour, all the same.

The "Main" folder, which contains 30 feeds, was the stuff I actually wanted (or needed) to read. This set would morph over time. I reckon it's easy to spot 2007's passing obsessions from the enduring interests.

↬ Arts and Letters Daily: a minimalist blog of links about smartypants subjects, a Drudge for those days when I sensed a third digit dimly glowing in my IQ. But for the death of founder Denis Dutton, it's exactly the same as it was in 2007! New items daily, but the RSS feed's dead.

↬ Boing Boing. Still around, I hear.

↬ Brass Goggles. A dead feed for a defunct steampunk blog (the last post was in 2013) though the forums seem well-stocked with new postings.

↬ The Consumerist. Dead feed, dead site. Founded in 2005 by Joel Johnson at Gawker, it was sold to Consumer Reports a few years later, lost its edge there, and was finally shuttered (or summarily executed) just a few weeks ago.

↬ Bibliodyssey. Quiescent. Updated until 2015 with wonderful public-domain book art scans and commentary. A twitter account and tumblr rolled on until just last year. There is a book to remember it by should the bits rot.

↬ jwz. Jamie Zawinski's startling and often hilariously bleak reflections on culture, the internet and working at Netscape during the dotcom boom. This was probably the first blog that led me to visit twice, to see if there was more. And there still is, almost daily.

↬ Proceedings of the Athanasius Kircher Society. Curios and weirdness emerging from the dust and foul fog of old books, forbidden history and the more speculative reaches of science. So dead the domain is squatted. Creator Josh Foer moved on to Atlas Obscura.

↬ The Tweney Review. Personal blog of my last supervisor at Wired, Dylan Tweney, now a communications executive. It's still going strong!

↬ Strange Maps. Dead feed, dead site, though it's still going as a category at Big Think. Similar projects proliferate now on social media; this was the wonderful original. There was a book.

↬ BLDGBLOG. Architecture blog, posting since 2004 with recent if rarer updates. A fine example of tasteful web brutalism, but I'm no longer a big fan of cement boxes and minimalism with a price tag.

↬ Dethroner. A men's self-care and fashion blog, founded by Joel Johnson, of the tweedy kind that became wildly and effortlessly successful not long after he gave up on it.

↬ MocoLoco. This long-running design blog morphed visually into a magazine in 2015. I have no idea why I liked it then, but indie photoblogs' golden age ended long ago and it's good to see some are thriving.

↬ SciFi Scanner. Long-dead AMC channel blog, very likely the work of one or two editors and likely lost to tidal corporate forces rather than any specific failure or event.

↬ Cult of Mac. Apple news site from another Wired News colleague of mine, Leander Kahney, and surely one of the longest-running at this point. Charlie Sorrel, who I hired at Wired to help me write the Gadget blog, still pens articles there.

↬ Ectoplasmosis. After Wired canned its bizarre, brilliant and unacceptably weird Table of Malcontents blog, its editor John Brownlee (who later joined Joel and I in editing Boing Boing Gadgets) and contributor Eliza Gauger founded Ectoplasmosis: the same thing but with no hysterical calls from Conde Nast wondering what the fuck is going on. It was glorious, too: a high-point of baroque indie blogging in the age before Facebook (and I made the original site design). Both editors later moved onto other projects (Magenta, Problem Glyphs); Gauger maintains the site's archives at tumblr. It was last updated in 2014.

↬ Penny Arcade. Then a webcomic; now a webcomic and a media and events empire.

↬ Paul Boutin. While working at Wired News, I'd heard a rumor that he was my supervisor. But I never spoke to him and only ever received a couple of odd emails, so I just got on with the job until Tweney was hired. His site and its feed are long-dead.

↬ Yanko Design. Classic blockquote chum for gadget bloggers.

↬ City Home News. A offbeat Pittburgh News blog, still online but lying fallow since 2009.

↬ Watchismo. Once a key site for wristwatch fans, Watchismo was folded into watches.com a few years ago. A couple of things were posted to the feed in 2017, but its time has obviously passed.

↬ Gizmodo. Much has changed, but it's still one of the best tech blogs.

↬ Engadget. Much has changed, but it's still one of the best tech blogs.

↬ Boing Boing Gadgets. Site's dead, though the feed is technically live as it redirects to our "gadgets" tag. Thousands of URLs there succumbed to bit-rot at some point, but we have plans to merge its database into Boing Boing's and revive them.

↬ Gear Factor. This was the gadget review column at Wired Magazine, separate from the gadget blog I edited because of the longtime corporate divorce between Wired's print and online divisions. This separation had just been resolved at the time I began working there, and the two "sides" -- literally facing offices in the same building -- were slowly being integrated. The feed's dead, but with an obvious successor, Gear.

↬ The Secret Diary of Steve Jobs. Required reading at the time, and very much a thing of its time. Now vaguely repulsive.

↬ i09. This brilliant sci-fi and culture blog deserved more than to end up a tag at Gizmodo.

↬ Science Daily: bland but exhaustive torrent of research news, still cranking along.

The "Essentials" Folder was material I wanted to stay on top of, but with work clearly in mind: the background material for systematically belching out content at a particular point in 2007.

↬ Still alive are The Register, Slashdot, Ars Technica, UMPC Portal (the tiny laptop beat!), PC Watch, Techblog, TechCrunch, UberGizmo, Coolest Gadgets, EFF Breaking News, Retro Thing, CNET Reviews, New Scientist, CNET Crave, and MAKE Magazine.

↬ Dead or quiescent: GigaOm (at least for news), Digg/Apple, Akihabara News, Tokyomango, Inside Comcast, Linux Devices (Update: reincarnated at linuxgizmos.com), and Uneasy Silence.

Of the 23 feeds in the "press releases" folder, 17 are dead. Most of the RSS no-shows are for companies like AMD and Intel, however, who surely still offer feeds at new addresses. Feeds for Palm, Nokia and pre-Dell Alienware are genuine dodos. These were interesting enough companies, 10 years ago.

PR Newswire functions as a veneering service so anyone can pretend to have a big PR department, but it is (was?) also legitimately used by the big players as a platform so I monitored the feeds there. They're still populated, but duplicate one another, and it's all complete garbage now. (It was mostly garbage then.)

My "Gadgets and Tech" folder contained the army of late-2000s blogs capitalizing on the success of Gizmodo, Boing Boing, TechCrunch, et al. Back in the day, these were mostly one (or two) young white men furiously extruding commentary on (or snarky rewrites of) press releases, with lots of duplication and an inchoate but seriously-honored unspoken language of mutual respect and first-mover credit. Those sites that survived oftentimes moved to listicles and such: notionally superior and more original content and certainly more sharable on Facebook, but unreadably boring. However, a few old-timey gadget bloggers are still cranking 'em out' in web 1.5 style. And a few were so specialized they actually had readers who loved them.

Still alive: DailyTech, technabob, CdrInfo.com, EverythingUSB, Extremetech, GearFuse, Gizmag, Gizmodiva, Hacked Gadgets, How to Spot A Psychopath/Dans' Data, MobileBurn, NewLaunches, OhGizmo!, ShinyShiny, Stuff.tv, TechDigest, TechDirt, Boy Genius Report, The Red Ferret Journal, Trusted Reviews, Xataca, DigiTimes, MedGadget, Geekologie, Tom's Hardware, Trendhunter, Japan Today, Digital Trends, All About Symbian (Yes, Symbian!), textually, cellular-news, TreeHugger, dezeen.

Dead: jkkmobile.com, Business Week Online, About PC (why), Afrigadget (unique blog about inventors in Africa, still active on FaceBook), DefenseTech, FosFor (died 2013), Gearlog, Mobile-Review.com (but apparently reborn as a Russian language tech blog!), Robot's Dreams, The Gadgets Weblog, Wireless Watch Japan, Accelerating Future, Techopolis, Mobile Magazine, eHome Upgrade, camcorderinfo.com (Update: it became http://Reviewed.com), Digital Home Thoughts (farewell), WiFi Network News (farewell), Salon: Machinist, Near Future Lab, BotJunkie (twitter), and CNN Gizmos.

I followed 18 categories at Free Patents Online, and the site's still alive, though the RSS feeds haven't had any new items since 2016.

In the "news" folder, my picks were fairly standard stuff: BBC, CNET, digg/technology, PC World, Reuters, International Herald Tribune, and a bunch of Yahoo News feeds. The Digg feed's dead; they died and were reborn.

The "Wired" feed folder comprised all the Wired News blogs of the mid-2000s. All are dead. 27B Stroke 6, Autopia, Danger Room, Epicenter, Gadget Lab, Game|Life, Geekdad, Listening Post, Monkey Bites, Table of Malcontents, Underwire, Wired Science.

These were each basically one writer or two and were generally folded into the established mazagine-side arrangements as the Age of Everyone Emulating Gawker came to an end. The feed for former EIC Chris Anderson's personal blog survives, but hasn't been updated since his era. Still going strong is Bruce Sterling's Beyond the Beyond, albeit rigged as a CMS tag rather than a bona fide site of its own.

Still alive from my 2007 "Science" folder are Bad Astronomy (Phil Plait), Bad Science (Ben Goldacre), Pharyngula (PZ Myers) New Urban Legends, NASA Breaking News, and The Panda's Thumb.

Finally, there's a dedicated "iPhone" folder. This was not just the hottest toy of 2007. It was all that was holy in consumer electronics for half a decade. Gadget blogging never really had a golden age, but the iPhone ended any pretense that there were numerous horses in a race of equal potential. Apple won.

Still alive are 9 to 5 Mac, MacRumors, MacSlash, AppleInsider and Daring Fireball. Dead are TUAW, iPhoneCentral, and the iPhone Dev Wiki.

Of all the sites listed here, I couldn't now be paid but to read a few. So long, 2007.

https://boingboing.net/2017/12/29/my-rss-feeds-from-a-decade-ago.html

And then it turns out, multi-core processors aren't such a bad deal as opposed to much more superior architecture. You know, dog-fighting fighter jets can benefit from radar technology that can calculate "the opposing fighter's: air-speed."

Munch on that, because most people wouldn't even know what to do with it.

........the capabilities of immediate consumer technologies are still grossly under-utilized!..

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And it's personal some times...... but if you would just merely flip your gate, the logic implied.... ah, I didn't realize 3d nand was stackable.

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It says:

"Its high-resolution e-beam metrology system eP6 offers 1 nm resolution with large field-of-view capabilities. It produces critical dimension ("CD") and Edge Placement Error ("EPE") data in high volume with a quality level that customers need for monitoring and control."

That's molecular level.

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And you emphasize an integrated logistic network, in which "no one!" can overwhelm.

Utilizing satellite communications inspected at 1nm molecular level. (Not that you're interupting.)

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Technical note: Reuters/Google/ARM CortexA53/TCL***/Faircom***/coffee

-institution/commerce/memory management/tech Facilitation/breadboard chat/multiple-independent-processors/4G LTE sat comm link/led display tones

-Honor Guard...

-8 channel 4G LTE Sat reciever chip.....

-30% signal boost no FCC........

-single, finale stage MEO.......

-70ms latency...........

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Dell didn't leave the portable user workspace. TCL(HTC)/Element Electronics.

Faircom mass financial transactions.

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Okay, non-network shared, single user workspace, tether.

So, market potential fits the category: 15" mobile laptop, pre-2006 equivalent, always finds the end of search engine result, but it's just right here. Tech-obsolete, but always interested if it suits my personal finances, and with AI, I found something else to do. Only, it's on my cable internet connection that could now be satellite technology with tethering for when I get a chance to sit down.

And digging through old data is not beyond me, just to reconsolidate.

Further, placement of home furnishing is carefully thought through to include traffic flow. And it is not beside me to consider paint colors, tile, grout, textures, and trim. In fact home improvements are always of interest, including outdoor landscaping.

Continuing, I feel that birds and animals talk to me and home improvements make them happier, allowing them to feel more at home.

When I have the time I find myself interested in puzzles and strategy games to relieve the pressure of my real life, especially if the data context is engulfing or emmercing over a longer period of time.

And my preference of transportation is generally quieter, though reform and real estate equity are attractive.

A desktop computer is only feasible if my life could reduce external expectations. But loud music and movies are only relevant if I've had plenty of time to myself. Security devices and parameters are usually reduced to shorthand.

I'm generally not afraid to spend higher amounts on quality electronics, unless the "value" of an electronic device was all I needed, leaving no reason to spend more, and leaving me impressed with "price quality." My electronic devices are usually meant to be kept for several years, and are often still usable according to my "life preferences."

At the moment the minimum specs you want are:

i5 or up processor, 9th gen or newer (I don't know about AMD, sorry)

Minimum 8GB RAM, see if you can get 16GB included and if it doesn't make sure that you get something with a slot free so that you can *add* RAM later on down the line.

256GB or more storage, don't get something that just has a HDD, get something with an SSD.

Read and save this entire post for everything above like, right now.

Background:  I work in IT as a software tester, I hobby in programming and home automation, and I am also now going back to school for software development and networking and I’ve learned the hard way to make this a budget item I plan for to get the specs I need. I tend to go as high end as I can afford and replace my laptop every two to three years.

Specs:

These above are excellent specs.  I agree with this, with these limited exceptions:

1.) RAM: Computer science major: 16 GB start value if at all possible or make sure that your laptop is upgradable from the get-go and the RAM isn’t soldered in. 

I’d expand this to anyone who is going into data science and probably most engineering; if you take a database class--and that’s usually freshman or sophomore year--it is ten times easier to do your labs and projects on your own laptop, but even the lightest version of Oracle is a resource hog. I took Database Programming this last summer and while it didn’t seem to bother my laptop at all (32 GB RAM, two 500 GB M.2 NVME drives), I monitored resource use just to see what was happening, and whoa.

2.) 256 GB SSD should be your floor and be ready to upgrade to something bigger later. This is especially true in CS, networking, data science, etc: it’s much easier to use your own laptop than have to use the computer lab and many of the programs you’ll use regularly pretty much for your entire career.

Repairs and Upgrades:

If you become the linux person on campus who can fix computers and recover documents that is a source of income on campus that is flexible to your schedule and pays a fuck of a lot better than minimum wage fucking do it, it doesn’t matter if you’re a philosophy major or a CS major learn how to actually use and fix computers in college, not just how to use software installed on the computer. 

I agree with this both in the lucrative sense and the personal; I’ve built all my PCs but my first two and done my own repairs, up to and including repairing and upgrading my entire board including CPU, on both my PCs (now Linux home servers, Pi’s, and NASes) and my laptops.  The only two things I get done professionally are full board diagnostics when my own diagnostics fail as I can’t afford that level of equipment (generally that means my board is either burned out and needs replacement or something very critical is shorting and I need a pro to find out what, how, and what to do about it), and anything that requires soldering because I have a tremor in my right hand and maybe set a board on fire once in the dining room, but whatever, it’s on my To Learn List.

You should know your computer inside and out.  Within twenty four hours of getting a new laptop, I take it apart down to the base while taking pictures of each step. My excuse is generally to upgrade my hard drive immediately because Dell hard drives are shit. 

The real reason I do it immediately is that the first time you take apart anything, it should be when there is nothing wrong, you have nothing else to do, and you’re calm and therefore have all the time in the world to just be curious, go ungodly slow, lose screws, forget to reconnect something, and wonder wtf they were thinking during the design stage as you track down each component to find out what ungodly place they put it this time. 

The absolute worst time to first explore terra laptop innards is when something goes wrong; you will most likely break something very important and need either a pro to fix it or worst case, a new laptop. 

Ideally, the first time you have to crack your case you have already done it so often you’ve memorized the steps and know where everything is.  You should still have the manual open and available and youtube up on a screen near you (phone, tablet, other PC, whatever).

Ideally you should be able to do the following yourself:

1.) upgrade/replace your laptop battery, hard drive, and RAM at very minimum. 

RAM and hard drive are generally gimmes in most laptops; some models you don’t even have to open the case but just open a single panel on the bottom for access to those.  Batteries are getting weirder to get to--why they’re burying it inside the case is anyone’s guess--but are stupid easy to replace.

2.) optional but recommended: upgrade/replace your keyboard, touchpad, wireless card, and cmos (bios battery).

Keyboards wear out/break/get sticky shit in them/etcand so do touchpads.  Wireless card problems aren’t actually very likely and neither is needing to replace the CMOS in under four years, but it could happen.

These generally require opening the case (and all those incredibly stupid tiny fucking screws) and meeting your board face to face.  Read your manual even if you’ve done this before, watch youtube (or have it on standby), and move slowly but with confidence.

3.) Very, very optional: upgrade/replace your screen**.

(This assumes the components listed in one and two (excluding battery) were not soldered onto the board; don’t buy a laptop where RAM, hard drive, or wireless card are soldered on, please.  Check for that when buying.)

These comprise about 95% of the upgrades/repairs the average laptop will ever need.

If you’re laptop exists, there is or will be very shortly a youtube of someone doing a full breakdown and rebuild; watch and learn.  Within three months, someone will post a full end to end repair/upgrade of literally every component in a given laptop. You are not alone.

Laptop Screen Replacement:

** So this one I debated putting here and decided to go for it, but please read this again if you’re considering doing it.

I’ve done lid disassembly and even screen replacements a few times on my laptops--17″ 4K touchscreen, even--and it’s not hard.  Generally, it requires a near-full to full breakdown depending on the model, removing the hinges, and disassembling the lid, but that’s just a matter of being careful and methodical. 

Replacing a screen isn’t hard, no, but it requires you be extremely patient and very, very, very precise due to the multitude of stupidly thin wires that must be threaded just so through incredibly tiny, stupidly narrow grooves in the lid and hinge so a.) the connector(s) reach the webcam, b.) the connector(s) reach the board and c.) you don’t accidentally sever a wire when putting it back together and hint: you do it wrong, that will definitely happen.  Some models are easier or harder than others; it depends on model, screen type, and your options (webcam, touchscreen, resolution, etc) how complicated this will get.

My nightmare was a Dell Alienware 17R2 with a 4K touchscreen.  The breakdown, lid disassembly, and removing the old screen took me maybe ten minutes. I took a pictures of each step when I started the lid disassembly so I had a very clear visual reference of exactly what it should look like and had my manual and youtube ready.  When I’d gotten my laptop, I’d done a partial lid disassembly just in case one day I needed to do this, so I was perfectly comfortable during the process. I was fine up to the second I installed the new screen in the lid.

Setting all those ridiculously thin fucking wires down in their tiny fucking grooves in the right fucking order took an hour and a half to get right and some even my kit’s tweezers couldn’t manage and I was using my goddamn fingernails to slot the assholes into place.  It took me about three tries to get everything into position on the lid at least marginally correctly, threaded through the hinge, and connected to the board, and it almost matched the Before Picture.  I was genuinely shocked when the screen came on when I finally powered up and the webcam worked. Go me, I guess.

Since then, I try and do a full lid disassembly including screen at least once with each laptop I get just to lower my stress level.  I also really really really try to avoid even the vague possibility of circumstances occurring that could cause my screen to be damaged.  And I like taking my computers apart; that’s my idea of a fun Saturday night.

I would have left this off the list of things to do at home except screen replacement can be a minimum of $100 (not including the price of the part) and can go up to $500 or more.  It is very doable, but doing it doubles as a home psychology experiment on yourself on how you perform very precise tasks involving very tiny and thin items under a great deal of stress, so. 

Learn Linux:

God yes.  Also, SO MUCH FUN.

I am soon going to have to laptop hunt as my MacBook nears death and a friend recommended the framework laptop. Curious if you (or anyone else!) has an opinion on it?

The concept sounds good to me but I am not computer savvy and don't know if it's one of those "only sounds good on paper" situations

I like the theory of the framework but I'm skeptical of it in practice?

Basically it seems like a pretty decent idea for making upgrading easier however it doesn't actually seem that much easier than cracking open a basic PC and. Uh.

Okay. So my computer has a new generation processor (i always forget if I've got 10th or 11; it's 11, I just checked), came with 8GB RAM, and a 256GB SSD and a Pro Window's license. I happened to order it when shortages were worse, so it cost me somewhere in the neighborhood of $850 after tax.

This is the framework laptop that you can pre-order now:

I upgraded the RAM immediately, tossing in an extra 16GB for about $90; if I'd wanted to make that 40GB total instead of 24GB total it would have cost about $150. When I was throwing that in, I happened to see that there's a slot for a second SSD, so if I wanted to I could throw in a 1TB Western Digital, which costs about $115. There's usually about a $100 difference in price when you jump up a processor model, so if I wanted an i7 instead of the i5 off the shelf that probably would have bumped the base price up by $200-300, but if I was configuring something the price probably would have gone up about $150. Upgrading from a home edition to a pro license is $95 direct from the Microsoft website.

So, let's say that I think the base-model framework is unimpressive and I want to add a 1TB SSD for $115, go to 32GB RAM for $150 (at the high end), splurge on a better processor for $150, and go with a Pro license on my OS. That would probably jack the price up quite a bit, right? $150 plus $150 plus $115 plus $95 - that's five hundred and ten dollars more, on top of an entry price that was already two hundred over what I paid after taxes. That takes your $1050 computer all the way up to $1560.

But, of course, Framework isn't using off the shelf parts, they're using modules that you can easily pop in with no effort or training.

Which is why a Framework computer that's only marginally better than my "meh" lenovo isn't $1560, it's $2050.

That does come with 4 USB-C expansion packs (my computer has 2 USB-C, 2 USB-A, 1 HDMI, 1 SD Card Slot) but you've got to pay extra ($39) for the Ethernet port.

I don't know. I just don't know.

I like the idea of an extremely customizable computer, but from where I'm sitting the Framework doesn't actually look all that customizable and it only seems easy to work on compared to Macbooks and 2-in-1s. Pretty much any HP, Lenovo, or Dell laptop that is a *laptop* and not an ultrabook or touchscreen is going to be only slightly harder to repair than a framework.

Like, it's great that you're able to say 'I don't want 4 USB-C ports, I want to change some of those to these these other options' and can swap out for an ethernet port or an extra terabyte of storage but *only* having 4 ports seems like it's maybe not enough? And the swappable modules are actually a pretty limited selection?

But here's the other thing: Part of right to repair is setting standards that work across devices that mean that multiple parts are compatible with multiple computers - at the moment the guts of the framework (RAM, storage, processor, etc.) seem pretty much like the guts of any other computer, so what you're paying all this extra money for is external ports, at which point you might as well get a USB hub or an adapter.

Seriously. The expansion modules essentially say "plug this in so you don't have to worry about an adapter" in their descriptions.

Framework makes a big deal about how all the parts are replaceable with one screwdriver, but all the parts on my computer are replacable with one screwdriver and an old credit card to pop the tabs out. You can buy a spudger for five bucks if you're feeling fancy.

Also I don't super know how I feel about the expected lifespan of these devices. It doesn't really get talked about anywhere on the site but. Like. Part of the OTHER reason that people like right to repair is that they want their shit to last longer. This does not particularly seem like it's going to be a long-lived device. It seems to be pretty similar to most other similarly-sized laptops only the company will directly sell you hinges and bezels if something cracks. That is, admittedly, easier than trying to get a bezel for a six-year-old Dell, or something, but hinge and bezel replacements aren't that common and are still pretty user-manageable (unless you're looking at an ultrabook or a convertible or a touchscreen).

Honestly I think you'd probably be better off getting a middle-of-the-road Dell and paying for one of their ridiculously long warranties, or something like that. That way you'd get a similar caliber of computer but if something broke it would be the manufacturer's problem, not yours. (I'm naming dell specifically here because dell specifically has the longest and most comprehensive service plans and actually do a decent job of service stuff; Lenovo and HP are both kind of crap for that and every other manufacturer is REALLY crap for that)

It just seems like a lot of money to pay for something that isn't all that spectacular in terms of customization or ease of repair.

SYSTEM76 IN THE CLASSROOM Bioinformatics & Data Science

Joshua Orvis, a Professor of Bioinformatics at Johns Hopkins University was searching for a Linux computer to teach his courses in. Since generally Bioinformatics and scientific data analysis are done in Linux, oftentimes, the first two weeks of the intro courses involve getting Linux set up on student’s computers.  

He was looking for a solution that was affordable and had Linux ready out-of-the-box. Additionally, the laptop needed to have a wide screen, as many students collaborate while using a single laptop. Plus, being able to fit analysis images, terminals, data files, code windows (and a combination of these) means a wide window space is ideal. “A 17 inch or bigger, non-glossy monitor is what we’re looking for,” he said.

They decided on the Kudu laptop. The Kudu has a large screen: 17” display and is cheaper than a Dell alternative with Linux installed.

By using a System76 machine, Professor Orvis could go straight into teaching how to use Linux and command line utilities without spending days debugging each student’s issues getting Linux onto the machines.

Also, by having machines with dedicated and supported Linux installs, students get a more immersive learning experience not found when they switch back and forth between Windows and a VM.  Most find that they get used to, and prefer, the command line speed and utility.

Solutions + Results

As a result of exploring the use of a System76 machine for teaching data science courses, the Bioinformatic’s Professor Orvis tells us,

If you’re looking to explore System76 laptops for teaching in your own classrooms or computer labs, you can connect with our reps directly at <https://system76.com/contact>. Our reps will be able to find the best machine to fit your specific teaching needs.

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