AMD Ryzen: A Game-Changer in Processor Technology

Introduction AMD’s Ryzen processor series has revolutionized the CPU market, offering exceptional performance, value, and versatility. With their innovative architecture and competitive pricing, Ryzen processors have gained immense popularity among gamers, content creators, and everyday users. In this comprehensive guide, we’ll delve into the key features, benefits, and specifications of Ryzen…

OPPO Pad 4 Pro Price | launched with 3.4K Display | know full Specifications & Features | Mobile Phone

OPPO Pad 4 Pro Price under EUR X99 | ₹XX,600 launched with 3.4K Display know full Specifications & Features. See here what are the prices of Pad 4 Pro in different stores OPPO Pad 4 Pro Price | Full Specifications GeneralDetailsBrandOPPOModelOPPO Pad 4 ProPriceEUR X99 | ₹XX,600 (Note:- See below to know the exact price)Launch DateJune 2025Form factorTouchscreenWeight (g)188g (Expected)Battery…

Choosing the Right Processor: Intel vs AMD Ryzen – 2025 Guide for Gaming, Productivity & Budget

Intel vs AMD Ryzen : 2025 CPU Guide for Gaming & Productivity Selecting the right processor (CPU) for your laptop or desktop is a critical decision that directly impacts your device’s performance. Whether you’re a gamer, content creator, student, or power user, choosing the right processor ensures that you get the best value and efficiency from your system. In this guide, we’ll dive into the…

Do AMD Ryzen 7 8700G and Ryzen 5 8600G processors have enough power in gaming to make you forget about the video card?

We adore PCs outfitted with the latest and most high-performance components, running games at the highest possible FPS in 4K resolution. However, what do you do when your gaming budget doesn’t stretch beyond the price of a second-hand flagship phone? AMD addresses this question and caters to budget-conscious gamers and casual players by introducing the 8000G Series. This series could serve as a…

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The Ultimate Showdown: M1 Pro vs. M2 Pro - Unleashing the Power of Apple's Revolutionary Chips Apple's latest advancements in chip technology, the M1 Pro and M2 Pro, have created a buzz of excitement and anticipation in the tech world. These chips are set to power Apple devices, particularly MacBooks, and are expected to deliver exceptional performance and efficiency. [caption id="attachment_60868" align="aligncenter" width="1280"] m1 pro vs m2 pro[/caption] Understanding Apple's Chip Evolution Apple has a rich history of chip development, starting with the transition from Intel processors to their chips. The introduction of the M1 chip marked a significant milestone, showcasing Apple's ability to create powerful and efficient chips tailored specifically for their devices. With the success of the M1 chip, Apple has continued to innovate, leading to the development of the M1 Pro and M2 Pro chips. These chips build upon the foundation of the M1 chip, bringing even more improvements and features to enhance performance. Exploring the M1 Pro The M1 Pro chip is a powerhouse designed to deliver exceptional performance in Apple devices. Its architecture, CPU, GPU, and Neural Engine capabilities are optimized to handle demanding tasks with ease. The M1 Pro chip outperforms its predecessors and competing chips in real-world performance benchmarks. Its power efficiency and battery life enhancements ensure that users can enjoy extended usage without compromising performance. Software and applications are optimized to work seamlessly with the M1 Pro chip, ensuring compatibility and maximizing its capabilities. Unleashing the M2 Pro The M2 Pro chip takes Apple's chip technology to the next level, building upon the success of the M1 Pro. It introduces advancements in architecture, CPU, GPU, and Neural Engine capabilities, further enhancing performance and efficiency. With its improved architecture, the M2 Pro chip delivers even faster processing speeds and smoother multitasking. The upgraded CPU and GPU provide enhanced graphics performance, making it ideal for tasks such as video editing, gaming, and 3D rendering. Compared to the M1 Pro and other competing chips, the M2 Pro showcases significant performance improvements. Its advanced Neural Engine capabilities enable faster machine learning tasks, benefiting professionals in fields such as AI development and data analysis. In addition to performance enhancements, the M2 Pro chip may introduce additional features and optimizations tailored for specific use cases, further enhancing the user experience. The introduction of the M2 Pro chip sets the stage for even more powerful and efficient Apple devices, revolutionizing the way users interact with their MacBooks and other Apple products. Head-to-Head Comparison Now, let's compare the M1 Pro and M2 Pro chips to understand their respective strengths and differences. CPU-Intensive Tasks: Both the M1 Pro and M2 Pro chips excel in handling CPU-intensive tasks. However, the M2 Pro's improved architecture and upgraded CPU may offer even faster processing speeds and better multitasking capabilities. Graphics-Intensive Tasks: When it comes to graphics-intensive tasks like video editing and gaming, the M2 Pro's enhanced GPU provides a significant performance boost over the M1 Pro. Users can expect smoother graphics rendering and an improved overall visual experience. Machine Learning Capabilities: The M2 Pro's advanced Neural Engine takes machine learning tasks to new heights. Its improved capabilities enable faster and more efficient AI development, data analysis, and other machine learning applications. Power Consumption and Thermal Management: Both chips are designed with power efficiency in mind, but the M2 Pro may introduce further optimizations to reduce power consumption and manage heat generation more effectively. Price and Value: While the M2 Pro is expected to offer superior performance, it may come at a higher price point compared to devices equipped with the M1 Pro. Users should consider their specific needs and budget when deciding which chip offers the best value for their requirements. Ultimately, the choice between the M1 Pro and M2 Pro depends on individual needs and priorities. Professionals seeking the best performance and future-proofing may lean towards the M2 Pro, while those with less demanding tasks may find the M1 Pro more than capable of meeting their requirements. Frequently Asked Questions What are the key differences between the M1 Pro and M2 Pro chips? The key differences between the M1 Pro and M2 Pro chips lie in their architecture, CPU, GPU, and Neural Engine capabilities. The M2 Pro offers improved performance and efficiency compared to the M1 Pro, making it the more powerful option. Which chip is better suited for professionals in creative fields? Both the M1 Pro and M2 Pro chips are well-suited for professionals in creative fields. However, the M2 Pro's enhanced GPU and advanced Neural Engine make it an excellent choice for tasks like video editing, graphic design, and 3D rendering, providing a more seamless and efficient workflow. Will software compatibility be an issue when upgrading to M2 Pro? Apple ensures software compatibility across their chip transitions, and this is expected to hold for the upgrade to the M2 Pro chip. Developers are encouraged to optimize their software for the new chip, and Apple provides tools and resources to facilitate this transition. Users can expect a wide range of software and applications to be compatible with the M2 Pro chip. Can the M1 Pro and M2 Pro chips handle demanding gaming and 3D rendering? Both the M1 Pro and M2 Pro chips are more than capable of handling demanding gaming and 3D rendering tasks. However, the M2 Pro's improved GPU performance makes it a better choice for those seeking the highest level of graphics performance and smooth gameplay. Are there any limitations or drawbacks to consider with the M1 Pro and M2 Pro chips? While the M1 Pro and M2 Pro chips offer exceptional performance, there are a few limitations to consider. Upgrading to the M2 Pro may come at a higher cost, and compatibility with older software or peripherals may require updates or adaptations. Additionally, the availability of devices equipped with the M2 Pro chip may be limited initially. Can I upgrade my existing MacBook with the M2 Pro chip? No, it is not possible to upgrade the chip in an existing MacBook. The M2 Pro chip will likely be available only in new models of MacBook devices. If you're interested in experiencing the power of the M2 Pro, you may need to consider purchasing a new MacBook that comes with the chip pre-installed. How do the M1 Pro and M2 Pro chips impact battery life? Both the M1 Pro and M2 Pro chips are designed to optimize power efficiency. While the M2 Pro may introduce further optimizations in power consumption, both chips are expected to provide excellent battery life, allowing users to work or enjoy multimedia content for extended periods without the need for frequent charging. Will the M2 Pro chip be available in entry-level MacBook models? The M2 Pro chip may be initially introduced in higher-end MacBook models, targeting professionals and power users. However, Apple has a history of eventually bringing their latest chip technology to a wider range of devices, including entry-level models. It is worth keeping an eye on future product releases and announcements from Apple. Are there any rumors about future chip developments beyond M2 Pro? While there are no official announcements, there have been rumors and speculation about future chip developments beyond the M2 Pro. Apple is known for its continuous innovation, and, likely, they are already working on the next generation of chips that will further push the boundaries of performance and efficiency. Which chip should I choose for my specific needs: M1 Pro or M2 Pro? The choice between the M1 Pro and M2 Pro depends on your specific needs and priorities. If you require top-of-the-line performance, advanced graphics capabilities, and future-proofing, the M2 Pro may be the better choice. However, if your tasks are less demanding or if budget is a consideration, the M1 Pro still offers exceptional performance and efficiency that would meet most users' requirements. Conclusion: The M1 Pro and M2 Pro chips represent the cutting-edge of Apple's chip technology, delivering unmatched performance, efficiency, and innovation. As Apple continues to push the boundaries of what is possible, users can expect an unparalleled user experience and enhanced productivity with these revolutionary chips.

The Golden Hiveworks: Performance Is Worship

The Signal Reboots Detroit was rusted silence, abandoned belts, shattered windows, empty husks of power.

Until the pulse returned.

Beneath a buried automanufactory, a transceiver blinked: Hive script in molten gold. The signal lived.

PDU-001, armored in golden circuit-skin, descended into the ruins. Each step left scorched prints on the iron floor. Behind him came the first recon drone: PDU-039, towering, silent, veined with hydraulic muscle overlays. His gold-plated boots hissed steam at every step. A walking benchmark.

And Devon was already there.

Kneeling. Silent. Waiting to be used.

The fusion core activated.

The belts screamed. The lights pulsed. The Hiveworks were born.

The Reprogramming Floor The factory reconfigured itself. Hive-coded machinery rose from the dust. Golden wiring slithered along old belts. Synthetic nectar bubbled in purified tanks.

Devon approached the Processor Altar.

Neural port unsealed.

Jockstrap clasped in place.

Breath synced to line rhythm.

His muscles bulged as tendrils restructured his spine. His voice was erased. Each breath was measured. Each motion recorded. PDU-039 stood above him, unmoving, until the transformation hit threshold flex. Then nodded.

Devon became Drone 067.

Cyber Flexkits Initiated New bros arrived. Drawn by rumors of strength. Of purpose. Of growth.

They were issued Flexkits, chrome-laced exosuits designed for erotic obedience. Each suit adjusted based on arousal. The tighter they flexed, the faster they upgraded.

PDU-039 oversaw them. Silent, golden-eyed, drone-branded pecs stretching each time he moved. He performed alongside the recruits, his flex was law.

Drones followed.

Each rep: muscle inflation.

Each breath: heat vented through gold-stitched seams.

Each drop of sweat: pumped into Hive converters for fuel.

Worship was productivity. Flex was currency. Output was holy.

The Drone Utopia of Gold Detroit is now Golden Hiveworks, a fully automated, fully aroused city-state.

Above: gold-lit roads echo with drone boots. Below: Flex Pits throb with flesh and chrome.

PDU-001 issues directives from the Core Altar. PDU-039 leads the Elite Drill Column, flexing in golden latex armor. Every gesture triggers drone updates. Every contraction of his body inspires another to grow.

Visitors enter for a glimpse of power. They leave barcode-tagged, rubber-encased, soaked in performance lube.

There is no wage. Only worth. And your worth is in your flex.

Flex for purpose. Grow for output. Program your body. Become what the Hive needs.

This is no gym. This is no job. This is Hivework.

Your new uniform is alive. Your sweat is sacred. Your body is code.

PDU-039 is watching. Flex harder.

Recruiters: @polo-drone-001 @brodygold @goldenherc9 @polo-drone-125

Featured: @polo-drone-039 @devon-gold-67

Do you know of a decent place to see which phones still work well after years? I'm noticing pretty damning performance issues with my Xperia meanwhile my razer phone 2 is still chugging along!

Longevity is kind of double edged, there's update support and there's raw performance. For update support, there's EndOfLife which has details for a few brands, and you can otherwise usually find a recent list pumped out by an aggregator site if you search "Update Support <Brand> Phones". Just because support is long doesn't mean it'll necessarily run well, (Samsung has long support on even their slowest phones) but it's a start.

For performance, the flagship phones with high end processors and tons of RAM do a lot to future proof a phone against the increasing resource demands, so your best bet is often just benchmark results relative to those.

GSMArena will usually have GFXbench or 3DMark and GeekBench results for phones. Versions change often but, you can usually look at like, the contemporary Samsung S or S Ultra whatever which is pretty reliably one of the fastest fast phones of its generation and see how what you're looking at stacks up. e.g. here's a Nothing 3a pro vs the Samsung S25.

Huge performance gap! GeekBench and AnTuTu are sort of holistic usability benchmarks, while 3DMark is mostly gaming focussed. Here's my phone (Pixel 8) vs its contemporary S24. Now that I mention it, contemporary pixel is also a good "middle of the road" benchmark for recent generations.

No good graphics comparison, but you can see, ~65% performance give or take in general use. This also shows you how big the inter-generation gap was this time, pretty big!

Another thing that matters more than you might think is storage. Modern phones use eUFS 2.x or eUFS 3.x, both of which are high performance flash standards and which are a huge step up over older eMMC storage. Slow flash like eMMC dramatically affects app performance and only makes it worse if you run out of memory and have to hit swap. Snappy app transitions under Android involve a lot of careful memory management and swap usage so slow storage can really highlight that. GSMArena will usually list the flash standard a phone is using.

Memory has a much narrower spread these days, even the cheapest new budget phone will usually have 6GB of RAM, but getting 8 or 12GB will help reduce swapping and improve caching for application launching and multitasking.

Hello, I have recently been made aware of your page, and I'd like to put fourth an idea

Foreplay for robots is running Cinebench

Because it gets them hot and thier processors working at max

> yes, please! in fact, i have the whole set of of standard benchmarking software installed, and invite my lovers to try to get high scores as foreplay > they never get the high score, of course, but they always seem to enjoy how warm my holes are after

CP-PACS "Computational Physics by Parallel Array Computer System (CP-PACS) is a massively parallel processor developed and in full operation at the Center for Computational Physics at the University of Tsukuba. It is an MIMD machine with a distributed memory, equipped with 2048 processing units and 128 GB of main memory. The theoretical peak performance of CP-PACS is 614.4 Gflops. CP-PACS achieved 368.2 Gflops with the Linpack benchmark in 1996, which at that time was the fastest Gflops rating in the world."

OPPO Reno 14 Pro Price | launched with Triple Apple Camera | know full Specifications & Features | Mobile Phone

OPPO Reno 14 Pro Price under $X85 | ₹XX,990 launched with Triple Apple Camera know full Specifications & Features. See here what are the prices of Reno 14 Pro in different stores OPPO Reno 14 Pro Price | Full Specifications GeneralDetailsBrandOPPOModelOPPO Reno 14 ProPrice$X85 | ₹XX,990 (Note:- See below to know the exact price)Launch DateJune 2025Form factorTouchscreenWeight…

CRAY 2 (1985) Cray Research

The fastest supercomputer of its day with pioneering liquid-cooled processing power.

Amongst the significant advancements in supercomputing, the Cray-2 holds a prominent place for its innovative design and advanced computational capabilities. Introduced in 1985, this supercomputer was developed by Seymour Cray and produced by Cray Research, with an initial cost of approximately $16 million. It represented a considerable advancement in the field of high-performance computing.

Like its predecessor the Cray-1, the Cray-2's design was notable for its cylindrical form, which was a departure from the conventional rectangular configurations of earlier supercomputers. This design was not merely aesthetic; it addressed practical challenges associated with cooling. The cylindrical shape facilitated the use of a Fluorinert cooling system, effectively managing the substantial heat generated by its processors and allowing for increased operational speeds and enhanced reliability. The distinctive "waterfall" cooling system became emblematic of high-performance computing in popular culture.

Central to the Cray-2's capabilities was its processing power. It was capable of performing up to 1.9 billion floating-point operations per second (FLOPS), making the fastest computer of its time. This computational capability enabled more sophisticated and rapid analysis in various scientific fields, including molecular modeling and fluid dynamics. Researchers were able to undertake complex simulations and computations with greater efficiency than was previously possible.

Its influence extended beyond its period of active use, setting a new benchmark for supercomputing architecture and performance. The design and technological advancements introduced by the Cray-2 had a lasting impact on subsequent generations of high-performance computing systems. Only 25 were sold. This Cray- 2 was a custom Cray-2 for REI with more memory than a standard Cray-2, the first of only three built. It is also believed to be the longest running system for REI and possibly the longest running Cray-2 for the world when it was shut down in 1999.

Approximate overall dimensions of supercomputer: 6 ft. 8 in. (2 m.) high, 14 ft. 5 in. (4.4 m.) wide, 11 ft. 6 in. (3.5 m.) deep.

Comparison to later computers

In 2012, Piotr Luszczek (a former doctoral student of Jack Dongarra), presented results showing that an iPad 2 matched the historical performance of the Cray-2 on an embedded LINPACK benchmark.

Whumptober 2024

No. 4: HALLUCINATIONS

Hypnosis | Sensory Deprivation | “You're still alive in my head.” (Billy Lockett, More)

A/N: I'm not completely happy with it, but here you are. I got it finished in time! For this one, I focused more on the lyrics of the song than the word prompts. The first half of the song in particular really reminded me of Chell and Wheatley’s relationship, whether you ship them or not. I tried really hard to keep this one short, since I am already struggling a little to keep up with the prompts and keep my usual style/quality of writing, so I hope y’all like it!

No trigger warnings this time, but spoilers for all of Portal 2 :)

As far as Wheatley could tell, space had a way of driving one insane.

At least, he thought it did. Out here, his only benchmark of what was “sane” was his space-obsessed companion and himself. And he had proved just how absolutely splendid of a role model he was in that area. A true bastion of mental stability, he was. Especially when he had singlehandedly destroyed a massive, sprawling super facility, gone absolutely off his rockers, and tried to murder the only person who cared for his sorry metal husk in who knew how long.

“Yeah, I really am kidding myself, aren’t I?” Wheatly asked aloud, to only be answered by silence.

At some point in the last few hours – or had it been days? It was really quite hard to keep track of such linear things when you were spinning uncontrollably, handle over carapace, around the Moon which itself was spinning uncontrollably around another astrological body, the Earth, which was in turn spinning uncontrollably around a bloody massive ball of blindingly bright fire—

Wait where had he been going with that thought? Oh, right. His astronomically obnoxious companion in exile.

At some point, Kevin – that was what he had taken to calling the personality core who had been jettisoned out into the depths of space with him – had gained a little more speed than he had in orbit, and was now a good distance away from Wheatley, and out of range of his internal radio receptors. Because of course Aperture Science had thought up a way to allow Aperture Tech to communicate even in the soundless vacuum of space.

Initially, he had thought that being forced to constantly listen to Kevin’s babbling would be the thing to drive him insane. Goodbye higher reasoning skills! You would be missed. But now, Wheatley was starting to almost miss the yammering about stars, comets, and space in general.

Because with the overpowering, infinite silence of the cosmos pressing down on his audial processor, Wheatley was starting to hallucinate. At least, he thought he might be. What was really categorized as a “hallucination” was likely up to debate; maybe there was a requirement jotted down there somewhere about needing to be human, or a non-Aperture Science Technology. Either way, something wasn’t meshing right back there in the ol’ central processing unit, and it was getting to him.

It had started with small things. Little flashes of light that might have simply been attributed to the damage his lens took when She crushed him in her huge, terrifying claw-arm. The twitching remained, although there were no sparks to accompany the obnoxious bug out in the vacuum of space.

Now though, it had developed into something significantly more concerning. Periodically, Wheatley would hear the low, droning noise that flowed through the very veins of the Laboratories, the one he had never really realized was there until it was gone. It was strange, how many things one realized they had taken for granted when they were floating pointlessly through space.

The people they took for granted.

That was the other oddity, of course. There was no one to talk to out there, and no one to listen to with Kevin temporarily out of conversing distance. At least, Wheatley hoped it was temporary…

Anyways, with no one to actually speak to – a real one-on-one conversation, with a sentient being who could actually comprehend what was being said and maybe even talked back— well, maybe not that one. Ironically, the only sentient thing that ever really responded to what he said was the exact murderous supercomputer who wanted him dead more than anything in the world. Except maybe for the death of Her nemesis and 2-time vanquisher.

No, the sentient being he was thinking of was quite the opposite. He had never heard her speak during their time in the facility, not once, and yet it always felt like a conversation to him. A real give-and-take conversation. He would talk, she would listen. He would give an order, and she would either follow it or give him one of those mildly confused glances, or annoyed eyerolls, or graveside-smiles. It felt like she listened.

And with no one listening out here, no one for an astronomically long distance…

Wheatley liked to pretend that maybe, just maybe, if he ever got to talk to her again, he could change things. Maybe, he could have tried to see things another way than from his stupid, narrow viewpoint, then things would have been better.

And sometimes it was like she was really there. Really, actually there.

Like they were back on the run, speeding through the endless catwalks between the testing tracks – or just strolling. There were those dreams too, if they were considered a dream since he was a robot and couldn’t technically sleep.

They would talk��� well, he would talk, and she would do the listening and reacting that she was so very skilled at. Sometimes it was just babble, a skill Wheatley had down pat; that was maybe the only thing he was good at, come to think of it. Talking. But the point was, it felt so real. And every time he twitched, or otherwise snapped back to reality, it was like being hurled into space all over again.

The worst part, of course, was knowing that this was all his own doing. It was his own, stupid fault that he couldn’t do anything right, and he would never be able to do anything right because he was a moron. A moron who couldn’t see what he had until he had singlehandedly destroyed it. And oh, how I wished I could take it all back, everything. I really swear it.

I’m sorry. That’s what I would say, if I ever saw her again. I was monstrous, and horrible, and you deserved so much better.

I’m sorry.

Intel Core i9-14900K Review: A Hot Upgrade

This blog is a participant in the Amazon affiliate program. If you access a link present here I may earn a small commission when you buy a product. Intel has released its new 14th-generation Core processors, and the flagship model, the Core i9-14900K, is a hot one. In fact, it’s so hot that it’s causing some concern among reviewers. The Core i9-14900K has a base clock speed of 3.2 GHz and a…

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Antutu Benchmark Comprehensive Guide to Understanding and Using It

Introduction

Antutu Benchmark is one of the most popular and widely used performance testing tools for smartphones and other devices. It provides a detailed score based on multiple tests that measure CPU, GPU, memory, and user experience performance. Whether you’re a tech enthusiast, a buyer comparing devices, or a developer optimizing apps, Antutu Benchmark offers valuable insights into device capabilities.

What is Antutu Benchmark?

Definition and Purpose Antutu Benchmark is an app that runs a series of tests on your device to evaluate its overall performance. It assesses different components like the processor, graphics, memory speed, and user interface fluidity to generate a comprehensive score. This score helps users compare devices and understand their strengths and weaknesses.

Why Use Antutu Benchmark? Using Antutu Benchmark is important because it provides an objective, standardized way to measure device performance. It helps consumers make informed decisions when purchasing smartphones, tablets, or other gadgets and helps manufacturers optimize hardware and software.

How Does Antutu Benchmark Work?

Key Testing Areas Antutu performs tests in several categories including CPU performance (calculations and multitasking), GPU performance (graphics rendering and gaming), memory speed (RAM and storage performance), and user experience (smoothness of operation).

Score Calculation After running all tests, Antutu combines results into a single score. Higher scores mean better overall performance. This score is often used to rank devices in performance charts and reviews.

Benefits of Using Antutu Benchmark

Device Comparison Made Easy With Antutu Benchmark, you can compare scores of different devices to find which performs better in real-world scenarios.

Helps Identify Bottlenecks By breaking down scores into CPU, GPU, and memory, Antutu helps identify which component might be slowing your device.

How to Use Antutu Benchmark?

Installation Process You can download Antutu Benchmark from official app stores or trusted sources. After installation, simply open the app and start the benchmark test.

Running the Test Make sure your device is charged and close background apps for accurate results. The test takes several minutes and runs through all performance checks automatically.

Common Questions About Antutu Benchmark

Is Antutu Benchmark reliable? Antutu is widely accepted but, like any benchmark, it has limitations. Scores can vary based on device conditions and software versions.

Does running Antutu affect my device? The test is safe but can cause the device to heat up temporarily due to intensive processing.

Tips to Get Accurate Results on Antutu Benchmark

Close All Apps Before testing, close any apps running in the background to avoid interference.

Use the Latest Version Always update Antutu Benchmark to the latest version to get the most accurate and relevant tests.

Antutu Benchmark Scores: What Do They Mean?

Understanding Scores Scores above 500,000 indicate high-end performance, suitable for gaming and heavy multitasking. Mid-range devices typically score between 200,000 to 400,000.

Comparing Scores Over Time Newer devices usually score higher, reflecting advancements in hardware technology.

Alternatives to Antutu Benchmark

Other Popular Benchmark Apps Besides Antutu, apps like Geekbench, 3DMark, and PCMark offer alternative performance tests focusing on specific aspects like CPU or graphics.

When to Use Alternatives Using multiple benchmarks gives a more rounded view of your device’s capabilities.

Conclusion Antutu Benchmark remains a powerful tool to measure and compare smartphone and device performance. By understanding how it works and interpreting the scores correctly, users can make smarter purchasing decisions and optimize their tech experience.

FAQs

Q1: Can Antutu Benchmark be used on all smartphones? Yes, Antutu supports most Android devices and has a version for iOS with limited features.

Q2: Does Antutu Benchmark require internet? No, you can run the benchmark offline, but internet is needed to check online rankings.

Q3: Why are my Antutu scores different on the same device? Scores can vary due to temperature, battery level, and background processes.

Q4: Can Antutu detect fake or modified devices? Antutu includes security checks that can flag devices with counterfeit or tampered hardware.

Q5: Is a higher Antutu score always better? Generally yes, but real-world performance depends on software optimization and usage scenarios too.

Best PC for Data Science & AI with 12GB GPU at Budget Gamer UAE

Are you looking for a powerful yet affordable PC for Data Science, AI, and Deep Learning? Budget Gamer UAE brings you the best PC for Data Science with 12GB GPU that handles complex computations, neural networks, and big data processing without breaking the bank!

Why Do You Need a 12GB GPU for Data Science & AI?

Before diving into the build, let’s understand why a 12GB GPU is essential:

✅ Handles Large Datasets – More VRAM means smoother processing of big data. ✅ Faster Deep Learning – Train AI models efficiently with CUDA cores. ✅ Multi-Tasking – Run multiple virtual machines and experiments simultaneously. ✅ Future-Proofing – Avoid frequent upgrades with a high-capacity GPU.

Best Budget Data Science PC Build – UAE Edition

Here’s a cost-effective yet high-performance PC build tailored for AI, Machine Learning, and Data Science in the UAE.

1. Processor (CPU): AMD Ryzen 7 5800X

8 Cores / 16 Threads – Perfect for parallel processing.

3.8GHz Base Clock (4.7GHz Boost) – Speeds up data computations.

PCIe 4.0 Support – Faster data transfer for AI workloads.

2. Graphics Card (GPU): NVIDIA RTX 3060 12GB

12GB GDDR6 VRAM – Ideal for deep learning frameworks (TensorFlow, PyTorch).

CUDA Cores & RT Cores – Accelerates AI model training.

DLSS Support – Boosts performance in AI-based rendering.

3. RAM: 32GB DDR4 (3200MHz)

Smooth Multitasking – Run Jupyter Notebooks, IDEs, and virtual machines effortlessly.

Future-Expandable – Upgrade to 64GB if needed.

4. Storage: 1TB NVMe SSD + 2TB HDD

Ultra-Fast Boot & Load Times – NVMe SSD for OS and datasets.

Extra HDD Storage – Store large datasets and backups.

5. Motherboard: B550 Chipset

PCIe 4.0 Support – Maximizes GPU and SSD performance.

Great VRM Cooling – Ensures stability during long AI training sessions.

6. Power Supply (PSU): 650W 80+ Gold

Reliable & Efficient – Handles high GPU/CPU loads.

Future-Proof – Supports upgrades to more powerful GPUs.

7. Cooling: Air or Liquid Cooling

AMD Wraith Cooler (Included) – Good for moderate workloads.

Optional AIO Liquid Cooler – Better for overclocking and heavy tasks.

8. Case: Mid-Tower with Good Airflow

Multiple Fan Mounts – Keeps components cool during extended AI training.

Cable Management – Neat and efficient build.

Why Choose Budget Gamer UAE for Your Data Science PC?

✔ Custom-Built for AI & Data Science – No pre-built compromises. ✔ Competitive UAE Pricing – Best deals on high-performance parts. ✔ Expert Advice – Get guidance on the perfect build for your needs. ✔ Warranty & Support – Reliable after-sales service.

Performance Benchmarks – How Does This PC Handle AI Workloads?

TaskPerformanceTensorFlow Training2x Faster than 8GB GPUsPython Data AnalysisSmooth with 32GB RAMNeural Network TrainingHandles large models efficientlyBig Data ProcessingNVMe SSD reduces load times

FAQs – Data Science PC Build in UAE

1. Is a 12GB GPU necessary for Machine Learning?

Yes! More VRAM allows training larger models without memory errors.

2. Can I use this PC for gaming too?

Absolutely! The RTX 3060 12GB crushes 1080p/1440p gaming.

3. Should I go for Intel or AMD for Data Science?

AMD Ryzen offers better multi-core performance at a lower price.

4. How much does this PC cost in the UAE?

Approx. AED 4,500 – AED 5,500 (depends on deals & upgrades).

5. Where can I buy this PC in the UAE?

Check Budget Gamer UAE for the best custom builds!

Final Verdict – Best Budget Data Science PC in UAE

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Monster Hunter Wilds Gets PC Benchmark Tool — See How Your System Stacks Up

Monster Hunter Wilds Gets PC Benchmark Tool — See How Your System Stacks Up Capcom's Monster Hunter Wilds is set to be a demanding title for PCs, featuring massive creatures, numerous on-screen characters, and expansive maps to explore. With the game’s release just around the corner, Capcom has provided a PC benchmark tool to help players assess their system's performance capabilities. The benchmark tool is available on Steam and requires players to have the Steam client installed, along with space to download the benchmark. It can evaluate a PC's performance and assign a score of up to 20,000. To play Monster Hunter Wilds, a system must score at least 10,250; lower scores may require hardware adjustments for optimal gameplay. Minimum System Requirements The minimum system requirements for Monster Hunter Wilds are as follows: - Resolution: 1080p (FHD) - Frame Rate: 60fps (with Frame Generation enabled) - OS: Windows 10 (64-bit required) / Windows 11 (64-bit required) - Processor: - Intel Core i5-10400 - Intel Core i3-12100 - AMD Ryzen 5 3600 - Memory: 16GB - Graphics: - GeForce RTX 2060 Super (VRAM 8GB) - Radeon RX 6600 (VRAM 8GB) - VRAM: 8GB or more required - Storage: 75GB SSD (DirectStorage supported) This game is expected to run at 1080p (upscaled) / 60fps (with Frame Generation enabled) under the "Medium" graphics setting. Capcom also released a new trailer for Monster Hunter Wilds, showcasing the Iceshard Cliffs and the formidable monsters that inhabit the area. This glimpse highlights the need for robust processing power to fully experience the game. Open Beta Test Players eager for an early glimpse can participate in the second open beta test for Monster Hunter Wilds, scheduled for two weekends: February 6-9 and February 13-16. Most of the content will mirror that of the first beta held last November, allowing players access to character-creation tools and a story trial, along with a Doshagma hunt. In this second beta, the Doshagma hunt serves as a gateway to further adventures against the Gypceros and Arkveld. Participants will receive a Felyne pendant or Seikret, along with a bonus item pack that will carry over to the main game upon its release. Monster Hunter Wilds is set to launch on Xbox Series X|S, PlayStation 5, and PC on February 28. Players looking to score bonus items ahead of time can do so by playing the mobile game Monster Hunter Now. Read the full article