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Qualcomm Snapdragon 750G w/ 5G Support Confirmed To Hit Xiaomi Devices First

Qualcomm has just unveiled yet another 5G SoC in the Snapdragon 700 lineup. According to what was communicated in the official note from Kedar Kondap, vice president of product management, Qualcomm Technologies, Inc, this chipset will offer:

“Some premium mobile features to mid-range devices, obviously intended for a wider audience. Our high-end Snapdragon 700 series mobile platforms are enjoying great success […] We are constantly working to develop this relatively new range of mobile products, with the goal to address the growing needs of our OEM customers. Snapdragon 750G brings premium mobile functionality to an even wider audience.

In 2021, Qualcomm’s new flagship CPU will be the Snapdragon 888 – and this is the CPU that will replace the current Snapdragon 865.

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Qualcomm Snapdragon 750G Highlights

  • Qualcomm Spectra 355L image processing processor
  • 32 MP single / 16 MP dual and 192 MP single camera support
  • 4K HDR video, 720p 240fps slow motion video recording
  • 4K HDR10 PQ and HLG [H.264 (AVC), H.265 (HEVC) VP8 ve VP9] video playback support
  • Support up to 12GB LPDDR4x 2133MHz RAM
  • 120 Hz display support in Full HD, 60 Hz display support in QHD
  • HDR10, HDR10+
  • Cortex A55-based CPU with two 2.2 GHz Kryo 570 high performance, six 1.8 GHz Kryo 570 power-saving cores
  • Qualcomm Snapdragon X52 5G modem
  • Qualcomm Adreno 619 GPU, OpenGL ES 3.2, OpenCL 2.0 FP
  • Vulkan 1.1, DirectX 12 support
  • Support for 802.11ax (Wi-Fi 6), 802.11ac Wave 2 x 2 MU-MIMO, Bluetooth 5.1, NFC, GPS, Glonass, BeiDou, Galileo, dual frequency GNSS, USB 3.1, USB-C connectivity
  • Qualcomm Quick Charge 4+ fast charging support
  • Hexagon Voice Assistant, Qualcomm Aqstic ses kodeği

Snapdragon 750G Full Information

The Snapdragon 750G is designed for gaming and supports vibrant True HDR colours along with local AI processing. The chip can work both in mmWave 5G networks and up to 6 GHz.

It has been confirmed that Xiaomi will be the first to release a smartphone using Snapdragon 750G.

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In the first case, the signal is transmitted over a longer distance and passes through obstacles better, but the speed of the incoming connection is lower. The processor will provide up to 3.7 Gbps uplink and 1.6Gbps outbound speeds on 5G networks. In LTE networks, these figures will be 1.2 Gbps and 210 Mbps.

There are some Snapdragon Elite Gaming features that deliver smooth, low latency gaming. The chip includes the Adreno 619 GPU, which is 10% faster than the Adreno 618 in the Snapdragon 730G. The developers promise high image quality and access to multiplayer games and streaming on cloud gaming platforms.

Responsible for AI is the 5th generation Qualcomm AI Engine with support for voice translation, smart cameras, video and image processing. The performance is up to 4 trillion operations per second, which is 20% higher compared to the Snapdragon 730G.

It uses Kryo 570 computing cores, which are also 20% faster compared to the cores in Snapdragon 730G. AI allows you to make phone calls even in noisy environments, filtering out external sounds.

The Qualcomm Spectra 355L Image Signal Processor delivers a picture with a minimum of visual noise and 4K HDR video recording. Image sensors up to 192 MP are supported.

The clock speed of the central processor is 2.2 GHz. There are Bluetooth 5.1 communication standards, Wi-Fi 6 and Full HD + screens with a refresh rate of 120 Hz. At standard 60Hz, the maximum resolution is 1440p. The chip is produced on the 8 nm process technology and the first smartphones on it should appear before the end of the year.

And be sure to check out Does Apple Make Their Own Processors?

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[ss_click_to_tweet tweet="From 1G in the 1980s to INSANELY fast 5G in 2019, mobile data has changed massively over the past few decades. Here, we take an in-depth look at how mobile data has evolved since the dawn of the smartphone... " content="From 1G in the 1980s to INSANELY fast 5G in 2019, mobile data has changed massively over the past few decades. Here, we take an in-depth look at how mobile data has evolved since the dawn of the smartphone... " style="default"] What Is Mobile Data? The Basics (In Layman’s Terms) Mobile data lets you connect to the internet when you’re away from your home WiFi network. Mobile networks are powered by cell towers; these towers are dotted around the country and are collectively known as a “cell” – they power your phone, both for calls and internet connectivity. These cell towers – often referred to as base stations – are IP-based (Internet Protocol) networks, meaning they use standard communication protocols to send and receive data in packets. The cell tower is a conduit, essentially, and your phone is the source.   In its simplest form, these base stations are radio systems. They “broadcast” data – both voice and data on 4G LTE – to handsets inside their vicinity. This is why it is important for networks to have towers all over the country, as individual towers only have a certain range. For instance, say you start your day in New York. When you leave your apartment, you’ll connect to a local base station. You then get in your car and drive to Chicago. During your drive across state lines, you’ll move through several or more base station zones, potentially, swapping from one to the next so as to ensure your phone is constantly connected to the web. And that’s it, basically. I mean, you can get super-complicated if you like – there are plenty of engineering sites that go into way more depth. But for a layman’s overview of how mobile data works, that’s pretty much it in a nutshell! Mobile Data is Now More Important Than Call Functionality… Mobile data is important too. You need it to use your phone when you're in a city, on the road, or traveling. In fact, there is 33 times more demand for mobile data than there is for calls, meaning people surf the web more than they talk these days. And that figure is constantly increasing. This is why we now have 4G and 5G networks; older 2G and 3G networks were crumbling under the demands placed on them by millions of people attempting to access the internet at the same time. This is why HSPA and HSPA+ happened. And then 4G LTE. It’s a constant evolution to tackle the ever-increasing demand for mobile data. Networks and ISPs (Internet Service Providers) are constantly updating their infrastructure to make it more efficient and faster. This costs millions of dollars and is a never-ending process, as the goalposts keep moving – like with the advent of 5G. Most phones now run on LTE (4G), but from about 2022, 5G will take over, bringing with it huge uplifts to download speeds. Different Types of Mobile Data – 1G to 5G To understand how we get got to where we are, you have to understand how the industry, as well as consumer habits, have changed over the years. Back in the early-2000s, demand for mobile data was small. By 2010, it was enormous, following the release of the first true smartphones – Apple’s iPhone and Google’s first run on Android phones. Prior to this, we had WAP internet – an incredibly slow form of mobile data that anyone over the age of 30 will remember. Fancy new phones like the iPhone and Google’s first run of Android-powered devices caused a change in the way we use mobile devices. For the first time, data became more important that call and texts, a first since the dawn of mobile comms in the 1970s. The Evolution of Mobile Data (1G to 5G) 1G & 2G – 1G isn’t actually the correct term to use here; it was never known as that. But it works for our needs in this post. Launched in the 1980s, 1G allowed for calls to be made over networks. It was simple, but so were phones, so it was THE standard up until 2003, when 2G happened, bringing with it GSM, GPRS and EDGE – a means of sending data and calls over the same network. Speeds were appalling, however (30-110 kbps) 3G – 3G was the first BIG evolution of mobile networks, as it allowed for faster data delivery (2mbps) with support for calls, texts, email, and the internet inside a single packet. 3G was a direct response to the rise of smartphones and represents the first time we actually got a fit-for-purpose mobile internet. Without 3G, none of the things you do today on your phone would be possible. 4G – Building on from 3G, 4G introduced even faster mobile data speeds – up to 100mbps. Based on standards outline by the International Mobile Telecommunications-Advanced (IMT-Advanced), 4G was complex to integrate into existing networks. This is why it took a while to get going. LTE came shortly after and was designed to simplify network architecture for the express purpose of rolling out faster and faster internet speeds. 5G – LTE (Long Term Evolution) eventually gave birth to 5G, bringing us up to the present day. 5G is here now, but it isn’t true 5G. True 5G will deliver speeds of 10gbps! The current standard is around 1Gbps, so we have quite a ways to go before we’re topping out at the sharp-end of 5G’s evolution. The framework, however, is in place. By 2025, most users in the western world will likely be experiencing mobile data speeds in and around 10gbps. Why We Use Mobile Data Remember that fact from earlier? The one that said demand for mobile data is 33 TIMES greater than demands for calls? That’s why we need mobile data. On top of this, 60% of Google searches are now done on phones (and a large percentage of that will be on mobile data). Mobile data is the backbone of our modern society. Without it, things would crumble to a standstill. Think about it: how many times a day do you check your phone? Do you ever wonder if it will have reception? Do you worry that you won’t be able to access the Internet? No. Unless you live in a rural area, your phone – wherever you go – will be connected to the web. This is why data demands are so high in our modern society – there are no limits on connectivity any more. And this is addictive. Technology companies know this too. That’s why you’re addicted to browsing Instagram, Facebook, and Snapchat. You’re not doing it for anything important, you just do it because you can and you’re bored. What did people do before? They read a book/newspaper or thought about stuff. Nowadays, people that do that are the minority. Look around you next time you’re on a train or the underground; everyone is connected, plugged in, consuming. And they’re all doing it on mobile data. This is why companies like Facebook, Twitter, and Snapchat are worth billions: mobile data opened the flood gates to more revenue, more opportunities, and near constant, round-the-clock engagement. Video is the big one though. The amount of data used to watch a YouTube video, by 2009 standards, is insane. Back in 2009, watching Netflix or your favorite YouTuber on mobile data would have been next to impossible. But now you can, more or less anywhere. This is great. But it means more demand for data – and more demand means more strain on networks. And that is why the next phase of LTE (5G) happened. Are You A Light, Medium, or Heavy Phone User? How you use your phone is specific to you, like your fingerprint. However, there are things that we all do – we all connect to the internet using mobile data most days; we all use smartphones; we all have a near-constant desire for new, engaging information; and, finally, we all love our phones and cannot be without them for prolonged periods of time (even if some won’t admit it). Me personally? I’m a pretty heavy user. I’m usually on Reddit or reading posts from my RSS reader app. I made a conscious decision to remove Facebook and Instagram from my phone a couple of years ago because I despise what these platforms have become (spoiler: they’re just data collection tools for marketers). And I don’t use Twitter. But I am still what I would consider a heavy user. Generally speaking, though, I am very much in the minority here. Most people LOVE social media. According to data from HootSuite and We Are Social, there were over 3.4 BILLION active social media users in 2019 – up 9% from 2018. In addition, 52% of the earth’s population now use smartphones as well, thanks to huge growth in developing countries like India and Africa. From 2014, upwards of 1.9 billion people have started using mobile data. Apps That Use The Most Data OK, so we now know how mobile data works. But do you know what applications on your phone use the most data? If you’re on a limited data plan, it pays to know exactly which apps are using the most data. Right now, these types of application use the highest amount of mobile data: Instagram, Facebook, Snapchat – social networks are now 100% focussed on video. Why? Simple: video is more engaging. However, video costs more (in terms of data), so constantly checking your social media accounts while connected to mobile data is likely the #1 reason you keep going over your monthly data limits. YouTube, Netflix, Hulu – streaming video is INSANELY bad for your data allowances. The sheer amount of data required to stream a 30-minute TV show in 1080p is enough to wipe out 10% of your monthly data allowance. Unless you have unlimited data, you’ll want to avoid streaming video on mobile data. Spotify/Apple Music/Tidal – streaming music isn’t as data-intensive as streaming video content, but it still takes its toll. If you’re on a low data plan, your best bet is saving music offline for when you’re out an about. If you’re on higher data plans, 10GB and above, you can almost certainly get away with streaming as much as you want. Ditto for those on Unlimited Data Plans. Should You Go For An Unlimited Data Plan? Given everything we’ve discussed, you’re probably thinking unlimited data is the answer to all your problems, right? In most instances, it is – unlimited data gives you the freedom to pretty do whatever you want on a mobile data connection. For instance, I used mine for an entire week to power my home computer when my home broadband was on the fritz. How much did I use? Around 126GB! I’ve always had unlimited data. The reason? I use my phone ALL the time, and I don’t like limits. I also don’t mind paying for unlimited data either, as it is super-useful to have – especially if you travel a lot. Most people, however, will be fine on plans with 10GB of data. That’s a lot of data, even for heavy users, so don’t get too upset if your current network doesn’t offer unlimited data – just go with the highest possible allowance you can. What Networks/Carriers Do Unlimited Data Plans? In the UK and US, you have quite a few options when it comes to unlimited data plans. I’ve outlined the best networks and carriers for unlimited data below in the table: Best Unlimited Data Carriers & Networks [ninja_tables id="95309"]
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