Lpddr Ram Types: Understanding Mobile Computer Memory

The RAM (random access memory) is a volatile memory in the sense that it’s constantly being erased and new data written on it. Also referred to as main memory, programs (apps and even the OS) have to be first loaded onto the RAM before they can run. In that sense, the RAM has a lot of influence on how well your computer works.

A quick look at the specs of a smartphone for example might give you a good idea of what the smartphone can do. However, there are more details that many look for in a smartphone especially when talking about gamers and some heavy users. For instance, instead of just looking at storage size like ‘128GB’, some check for the storage type if it’s eMMC or UFS and what version it is, or when you look at just screen type, resolution and size, some also check for sampling rate and refresh rate.

That being said, the OS helps manage the RAM by allocating the memory space for apps running on your device. For instance, when you open a new app and your RAM is running low, it closes the oldest background app to make space for the new app. If your RAM is full , the computer loads app from the internal storage which is much slower, hence, slowing down your computer.

In other words, the RAM also decides how well your device will multitask. or how many apps you can have running at a time without it getting closed. Although LPDDR (Low Power Double Data Rate) RAM is used in laptops and other devices, it is most common in mobile phones so we will be discussing it in that context.

• History of RAM in Mobile Phone
• RAM Terminologies
• Memory clock vs I/O Bus Clock
• Difference between LPDDR in Laptops and Smartphones
• Types of RAM (LPDDR) in a smartphone LPDDR(1) LPDDR2 LPDDR3 LPDDR4 and LPDDR4x LPDDR5 LPDDR5X
• Conclusion

A Quick History of RAM in Mobile Phone

We’ve come a long way from what RAM used to be on smartphones, from the small memory size to the large memory size and more sophisticated ones we have today. In the late 90s, mobile phones like the Nokia 9000 Communicator had the EDO DRAM which was like 8MB then.

Then mobile-SDRAM (synchronous dynamic RAM) was introduced in the early 2000s. A game-changer was Samsung’s low power 512MB SDRAM which was a breakthrough then. Other types of SDRAM like the e-DRAM (embedded dynamic RAM) featured on the first iPhone and other devices came into the picture. Then the mobile-DDR or LPDDR was developed in the onset of the 2010s and that’s where we will start discussing the types of RAM in a mobile phone.

SEE: DDR5 SDRAM is Coming: Release Date and Specs

RAM Terminologies

• Bit : this is the smallest form of data that a computer can read. A byte is made up of 8 bits.
• Memory Frequency / Clock Rate : It is the frequency of pulses/clock cycle the RAM can complete in a second, this is used to synchronize its component. It is measured in clock cycle per second (SI unit is Hertz). Here, we will be using MHz which is 1, 000, 000 Hertz meaning 1 million clock cycles per second.
• Supply Voltage : DRAM is volatile and requires constant electricity to store data which is used to power the capacitors that stores data and capacitors don’t hold charge for long.
• Data Bus Width / Path : It is the number of bits of data that can be transferred per clock cycle It is usually 64bits in DDR and 16bits or 32bits in LPDDR but can be designed to be 64bits.
• Memory Bus : Sometimes simply called Bus or Front-Side Bus (FSB), this is the terminal that connects the RAM to the memory controller thereby controlling its exchange with the CPU.
• I/O (Input/Output) Bus Clock (speed) in MHz: It is the number of clock cycles the memorybus can complete in a second. In other words, it is the number of clock signal that is sent to the memory controller in a second. Sometimes, it is reffered to as the RAM frequency and is quoted as the RAM speed/clock speed
• {I/O Bus] Data transfer rate / bit rate : This refers to the amount of data transferred in each clock cycle and in the context of LP-DDR, it is double because it uses both the upstream and downstream of the clock cycle, unlike non-DDR memory. For LPDDR, it is usually twice the RAM frequency or speed and expressed in MT/s or Mbps
• Memory Bandwidth/max Throughput : It is the maximum rate at which data can be written or read from the memory and it is the product of the data transfer rate, number of channel and Bus width.
• Prefetch Size: This is the number of data words that are read for a single data request. It is the number of adjacent data words that are read, so if the prefetch size is 2, 2 adjacents data words will be read. There is an assumption that the processor wants adjacent datawords in the memory, and this is usually true most of the time.{Data word is 64bits]
• Prefetch Buffer or Cache: It is a temporary memory which operates at a much faster speed than the main memory and is used to store prefetched data for quicker access by the processor.

Memory clock vs I/O Bus Clock

This is usually confusing for some, especially when you see that the memory clock speed is the same for the first four generations of LPDDR. So you might ask yourself how exactly is LPDDR2 faster than LPDDR3 when they both have a memory clock speed of 200MHz.

The answer to this is the prefetch size because a single address request results in multiple data words. In a memory array where the data to be accessed is located there are rows and columns and an address request is directed to a particular location in the array. the memory clock determines how fast the address request is processed with the row access taking the most time of this process. However, the subsequent column address is much faster and the buffer takes a number of data words in the row depending on the prefetch size and ‘burst’ them so there is no need for individual data address requests.

The prefetch buffer depth can be referred to as the ratio between the memory clock and the I/O bus clock. In a 16n prefetch architecture (such as LPDDR4), the I/O bus data transfer rate will operate 16 times faster than the memory core (each memory access results in a burst of 16 data words on the I/O bus clock). Thus a 200 MHz memory core is combined with I/O bus data transfer rate that each operate 16 times faster (3200 megabits per second or MT/s).

Here is an analogy that I saw and I think will help “Imaging a Honda sedan (LPDDR2) and a Ford pickup (LDDR3) travelling at the same speed (internal rate/memory clock speed). Which one do you think could haul more cargo?”

Difference between LPDDR in Laptops and Smartphones

LPDDR is designed for portable devices and is the choice of RAM for ultrabooks like recent Macbooks which are slim and sleek as well as smartphones. Although the underlying tech in the LPDDR in phones and laptops are the same, the design of the DRAM chip is different regardless of the generation because the motherboard circuitry on the phone and laptop are not the same.

Besides, the SoC on laptops and phones are different so the DRAM ICs are usually designed to fit the specification of the processor because they are always soldered to the same PCB. For example, laptop LPDDR usually has a 64-bit wide memory bus in contrast to that of a phone that has a 16/32 bit data bus. The packaging of LPDDR in laptops and phones are just different from areas like pin density to the overall design. Nonetheless, they are both not modular, hence, why you can’t change the RAM in some Macbooks or ultrabooks and definitely not in a smartphone.

Types of RAM (LPDDR) in a smartphone

The RAMs on smartphones are LPDDR (low power double data rate) which is suitable for mobile phones and other mobile devices because of the low power consumption unlike the DDR (double data rate) used in some laptops and desktops. These types of RAM can also be referred to as DRAM (dynamic random access memory) or SDRAM (synchronous dynamic random access memory). LPDDR is also called mobile DDR (mDDR) because it is suited for mobile devices because of its low power consumption.

In Double Date Rate (DDR), data is transferred on both the rising and falling edge of a clock unlike Single Data Rate (SDR) where data is only transferred on the rising edge of a clock.

Unlike SRAM (static random access memory) that can only perform one operation/cycle per second, LPDDR is a DRAM which means it can perform multiple cycles per second.

LPDDR(1)

The first generation of LPDDR is from the adoption of DDR SDRAM with few changes made to it to make it suitable for mobile devices, smartphones inclusive. This was the type of RAM that was present in smartphones like the Moto Droid X, iPad (1st generation and a bunch of others in the early 2010s. You have a speed of 400MT/s on the LPDDR1 and up to 533MT/s on the LPDDR1e. You’re very much unlikely to come across a smartphone using the LPDDR1/1e RAM at this point but this was a noteworthy milestone in the mobile RAM journey.

LPDDR2

The next generation is the LPDDR2 improving memory density, power consumption, performance and size. It was designed to cater for the growing smartphone industry. The LPDDR2 first allowed for a shared NVM (non-volatile memory) and SDRAM interface which leaves room for more memory density up to 8Gb. Also, you’ve got 50% power efficiency over its predecessor with a core voltage of 1.2V as opposed to 1.8V of LPDDR1.

In addition, with a data width of x8, x16 and x32 and double the data rate of LPDDR1, it has a faster execution time because it is able to process more data at a time and at a faster rate. Samsung was able to take advantage of this new tech and built a 20nm 4Gb LPDDR2 DRAM to offer up to 2GB RAM which allowed smartphones to be slimmer and with more RAM. Smartphones like the Nokia Lumia 800, Samsung Galaxy SII Plus, iPhone 4S, Blackberry Porsche Design and more had it.

Find Out: What is a RAM drive

LPDDR3

This went mainstream in 2013 and it was quickly adopted because it used the same interface as the LPDDR2 so there was no need for new architecture. This came with 50% more bandwidth from up to 8.5GB/s to 12.8GB/s and adoption for ODT (on-die termination) which enables efficient system operation.

More so, LPDDR3 also brought better power efficiency and greater memory density of up to 32Gb as opposed to the max of 8Gb on LPDDR2. The LPDDR3 pushed the boundary beyond support for 1080p video playback for bigger screens and enable streaming of 1080p content for a better visual experience.

Furthermore, you have a faster data rate of up to 1600MT/s and 2133MT/s on the LPDDR3e (enhanced LPDDR3). In accordance, SoCs like the Exynos 5 Dual, Snapdragon 600 and 800 that supports 800MHz LPDDR3. Some of the smartphones that have the LPDDR3 RAM include Samsung Galaxy S4, iPhone 6 and Tecno L3.

LPDDR4 and LPDDR4x

As time went on, more was demanded from mobile phones and to cater for this the LPDDR4 was developed and the standard was published by JEDEC in 2014. Features like slow-motion video, 4K video, face recognition and low latency video as well as the need for faster booting and loading time is why performance has to be constantly improved. In this regard, the LPDDR4 comes with an even faster data rate at 4266MT/s (but realistically 3200MT/s) and bandwidth of 25.6GB/s at a data width of x64.

LPDDR4 Vs LPDDR3-channel

All of this is done even at a lower operating voltage of 1.1V which makes the LPDDR4 not only faster but also consumes less power. Unlike the one channel die in LPDDR3, LPDDR4 has a two-channel die with 16bits per channel and a shorter data path to improve operational speed. The LPDDR4X takes things even further, reducing I/O voltage to 0.6V from 1.1V and actually bumps the data rate to 4266MT/s.

Check Out: How to tell how much Computer RAM you need for your PC

LPDDR5

Furthermore, the LPDDR5 standard was published by JEDEC in 2019 and like the generations before it, it doubled the data rate of its predecessor and 50% the data rate of the LPDDR4x with a 6400MT/s data rate. With processors getting faster, the onset of 5G and more performance demanding mobile games, a faster memory had to be developed.

In segue, it also has increased power efficiency with dynamic voltage scaling (DVS) and new multi-clocking architecture for lowering RAM frequency and voltage accordingly. DVS makes it possible for LPDDR5 to be able to support core voltage of 1.05V and I/O voltage of 0.5V while operating at high frequency and 0.9V and 0.3V at a lower frequency. This way, the LDDR5 consumes less power compared to its predecessors.

Smartphones with LPDDR5 are Samsung Galaxy S20/20+/S20 Ultra, Oppo Find X2 Pro, Xiaomi Mi 10 Pro, Mi 11X/11X Pro/11X Ultra, OnePlus 9 and some other mostly high-end smartphones. The first generation of SoCs and memory modules were running at a speed of 5,500Mbps and has improved to 6,400Mbps in 2021.

LPDDR5X

An extension to the LPDDR5 has been announced by JEDEC , the LPDDR5X improves the data rate of the predecessor by 33% from 6400Mbps to 8533Mbps. Since DRAM manufacturers have been able to fully explore the LPDDR5 standard, this update to the standard in the form of the LPDDR5X needed to be developed.

On the LPDDR5X, you have improved signal to noise ratio as a result of the addition of pre-emphasis function which allows for a higher clock rate and better performance. This new addition also reduces per pin decision feedback (DFE), bit error rate and improves adaptive refresh management.

However, there isn’t much of a difference in the tech between the two besides the increase in bandwidth in the LPDDR5X. Currently, the only device rumoured to feature the LPDDR5X is the Xiaomi Mi 12 which is expected to come with Qualcomm Snapdragon 898 SoC which is expected to support LPDDR5X but you should expect more devices with it later in 2022.

Conclusion

Each generation of LPDDR RAM comes with double the data rate and a significant reduction in power consumption. This is a summary of the specs from each LPDDR generation to date below.

Comparison of properties of LPDDR RAM generations

Here is a graphical representation of the progression in the speed of each LPDDR generation over time This shows how fast the LPDDR technology is advancing with a significant increase in speed over each generation.

Graphical representation of LPDDR generation progression over the years

While there is much more to what goes into each LPDDR generation, this is just an overview to get you acquainted with the tech that goes into your mobile computer RAM.

Odunayo Ezekiel is a consumer tech writer based in Nigeria with deep experience in the country’s fast-evolving tech ecosystem. From smartphones and apps to fintech and local startups, he brings sharp insight and a user-first perspective to every story. At Dignited.com, Odunayo covers the trends, tools, and innovations shaping how Nigerians—and Africans at large—experience technology.

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Talkio Mobile , Uganda’s newest telecommunications service provider, is excited to announce a groundbreaking partnership with Banana Life Investments, a leading chain of mobile phone and retail shops. This strategic alliance aims to bring Talkio’s innovative telecom services closer to Ugandans.

This collaboration will leverage Banana Life Investments’ extensive retail network of 26 stores strategically located across Uganda in major malls, towns, and cities to provide customers with unparalleled convenience. Through this partnership, Talkio Mobile will offer its full suite of services, including SIM cards, airtime, and exclusive product offerings at any Banana Life Investment location.

This partnership is more than a business initiative—it’s a shared commitment to transforming lives. By integrating Talkio Mobile’s forward-thinking services & nationwide reach with Banana Life Investments’ retail footprint, the two brands are setting a new standard for customer convenience and inclusivity.

READ ALSO: 5 Things You Need to Know About Talkio Mobile: New Telecom Company in Uganda

“This partnership aligns perfectly with our mission of connecting Ugandans to innovative and transformative telecom solutions,” said Vianne Allan Ahura, CEO of Talkio Mobile. “By leveraging Banana Life Investments’ trusted presence and nationwide footprint, we are not only expanding our agent network but also bringing our services closer to the communities we serve. This collaboration ensures that our online customers can now enjoy a seamless offline experience right at their doorstep. Together, we are empowering Ugandans with the tools they need to stay connected, grow their businesses, and unlock new opportunities.”

Solomon Ssemuyaba, the assistant general manager at Banana Life Investments, echoed this sentiment: “We are proud to join hands with Talkio Mobile to deliver innovative, customer-centric solutions. This partnership represents our shared vision of fostering a connected future for Uganda. Together, we are redefining what convenience and accessibility mean for our customers.”

The partnership goes beyond retail distribution, introducing joint initiatives aimed at value addition and personalized service. Customers can expect seamless access to:

• SIM Card Sales : Available at all Banana Life Investments locations.
• Talkio phone number bookings : Book your preferred Talkio number at any Banana Life Investments location.
• Airtime Services : Recharge easily through in-store purchases.
• Customer Support : Friendly and knowledgeable staff trained to assist with Talkio Mobile products and services.

Additionally, the two companies plan to launch promotional campaigns and expand services to even more locations, ensuring no Ugandan is left behind in the digital transformation.

Solomon Obwot is a tech writer based in Kampala, Uganda, with extensive experience in the local tech startup ecosystem. He covers the latest news and analysis on consumer tech, writes in-depth smartphone reviews, and conducts insightful interviews with industry experts. Solomon is also a passionate podcaster, sharing his knowledge and engaging in discussions about Africa’s rapidly growing tech landscape. Send emails to [email protected]

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The Mobile World Congress (MWC) Barcelona , the world’s largest exhibition for the mobile industry, has just concluded. This annual event gathers leading technology brands to unveil groundbreaking mobile, AI, and digital solutions innovations. At MWC 2025, TECNO showcased a range of AI-driven products, reinforcing its commitment to cutting-edge technology.

The key launches included:

• CAMON 40 Series – AI-powered smartphones with One-Tap FlashSnap and advanced mobile imaging features.
• MEGABOOK S14 – The world’s lightest 14-inch OLED laptop, featuring AI-enhanced multitasking and Snapdragon® X Elite.
• MEGABOOK T14 Air & K15S – Lightweight ultrabooks with AI capabilities and extended battery life.
• TECNO AI Glasses Series – Smart eyewear integrating AI imaging, translation, and AR display.

Jan Stryjak, Associate Director at Counterpoint Research, shared, “In the past year, we have observed significant advancements in the field of AI. AI will continue to drive transformative changes in our daily lives. In this critical period for the economic development of emerging markets, TECNO’s AI technologies are unlocking potential for diverse needs.”

“The application of AI technologies is crucial and urgent in emerging markets. We’re committed to bridging the digital gap between emerging and mature markets,” said TECNO CMO, Laury Bai. “TECNO is taking a practical approach to make AI more accessible, ensuring users in emerging markets can access AI and cutting-edge technologies.”

Laury Bai, TECNO CMO

Driven by its commitment, TECNO has forged a robust partnership with MediaTek, establishing a joint AI laboratory dedicated to accelerating advancements in AI. At the event, James Chen, Vice President of Product and Technology Marketing at MediaTek, emphasized, “The synergistic R&D efforts between TECNO and MediaTek are set to democratize AI technology. Our collaboration powers a seamless, interconnected AI experience, bringing users a future of truly connected intelligence.”

James Chen, Vice President, Product and Technology Marketing at MediaTek

CAMON 40 Series Powered by AI One-Tap FlashSnap Revolutionizes Smartphone Snapshot Photography

TECNO’s Global Product Launch Officer, Olivier Mas, officially unveiled TECNO’s next-generation AI-driven products. Attendees at TECNO’s launch event witnessed the highly anticipated debut of TECNO’s new CAMON 40 Series, a device that embodies TECNO’s legacy of excellence in mobile imaging. Featuring One-Tap FlashSnap Mode and TECNO AI, the series sets a new benchmark in smartphone photography, delivering exceptional snapshot capabilities and AI-enhanced user experiences.

Olivier Mas, TECNO Global Product Launch Officer

The CAMON 40 Series exemplifies a commitment to innovation that transcends hardware and software, extending into strategic partnerships that deliver cutting-edge AI solutions to emerging markets. Matt Waldbusser, Managing Director of Global Solutions and Consumer AI at Google Cloud, remarked, “Our collaboration with TECNO on the CAMON 40 Series is a standout example. Leveraging Google Cloud’s capabilities, we’ve introduced groundbreaking features such as Ask Ella, AI Image Generator, AI Writing, and AI Translate. I am particularly impressed by the industry-leading and competitive edge of some of these innovations. For instance, TECNO’s AI supports text translation in 136 languages, voice translation in 44 languages, and photo translation in 51 languages. We are excited to further strengthen our partnership with TECNO, unlocking limitless potential to bring advanced yet practical AI capabilities to emerging markets in a convenient and secure manner.”

Matt Waldbusser, Managing Director of Global Solutions and Consumer AI at Google Cloud

The CAMON 40 Series’ innovative One-Tap FlashSnap leverages AI to enhance imaging capabilities, revolutionizing mobile photography. AI optimizes camera startup and continuous shooting for instant captures, while AI-powered multi-frame processing intelligently reduces noise and enhances details, delivering sharper, more refined images. Additionally, the BestMoment algorithm analyzes motion patterns, automatically selecting the optimal frames for precise, high-quality shots in dynamic scenarios, ensuring users an unparalleled mobile imaging experience.

TECNO CAMON 40 Demonstrates the Cutting-Edge FlashSnap Capability

To delve deeper into the imaging prowess of the CAMON 40 Series, TECNO invited Frédéric Guichard, CEO of DXOMARK, to share the image performance of CAMON 40 Pro. Frédéric highlighted, “The CAMON 40 Pro 5G has demonstrated exceptional imaging and performance capabilities in our rigorous evaluations. We’ve been particularly impressed with photo performance being the best for devices under 600$, and the 1st eligible device to our Smart Choice Label.”

Onsite photo of Frédéric Guichard, CEO of DXOMARK

Beyond its advanced rapid-capture functionality, the integration of TECNO AI further enhances the device’s capabilities. Intelligent imaging, a 360° AI Call Assistant, and productivity tools elevate creativity and efficiency. Powered by MediaTek’s latest chipsets, the series ensures smooth performance, fast processing, and extended battery life. With a sleek, durable, and water-resistant design, it seamlessly blends style with practicality for modern users.

MEGABOOK S14, the World’s Lightest 14-inch OLED Laptop, Inspires Creators and Game Lovers

The MEGABOOK S14 is TECNO’s first OLED laptop and the industry’s lightest 14-inch OLED laptop, featuring a 2.8K OLED display and incredibly weighing only 899g (31.7oz). The laptop is equipped with the outstanding power of the Snapdragon® X Elite compute platform, the flagship chipset for AI PCs from Qualcomm Technologies, and integrates TECNO’s world’s first self-developed edge-side large-scale AI model, to achieve AI-enhanced multitasking.

World’s Lightest 14-inch Laptop MEGABOOK S14

Specifically designed for next-gen AI productivity, TECNO AI enhances the Ella AI Assistant, AI-powered PPT generation, AI-driven image search, smart albums, and offline meeting transcription with multilingual support. The External Graphics Dock, equipped with a powerful NVIDIA graphic card, delivers scalable, high-performance capabilities for design, gaming, and content creation. The laptop’s 2.8K OLED display with a 120Hz refresh rate ensures exceptional visuals, while DTS:X Ultra dual 2W speakers, Wi-Fi 6E, fingerprint login, and PC Manager optimize connectivity and user experience.

TECNO’s strategic partnership with Qualcomm Technologies was a highlight of the TECNO AI Ecosystem Product Launch event, demonstrating a shared vision for the future of AI PCs. Kedar Kondap, SVP & GM of Compute and Gaming at Qualcomm, took the stage to discuss the integration of Qualcomm’s cutting-edge PC chipset into the new MEGABOOK S14 laptop, underscoring TECNO’s commitment to delivering high-performance computing solutions.

Kedar Kondap, SVP & GM of Compute and Gaming at Qualcomm

In addition, TECNO also introduced several standout new products. The featherlight 999g (35.2oz) ultrabook MEGABOOK T14 Air, features high-speed storage and LPDDR5 memory, while the ultra-thin, all-metal MEGABOOK K15S, equipped with a powerful 70Wh battery and supported by a 65W PD GaN charger, offers a smarter and more long-lasting user experience. Both devices are empowered by TECNO AI with advanced AI capabilities such as AI Album and AI Voice Assistant, making them perfect companions for all aspects of life.

The Next Game-Changing Tech Innovation: See the World with the TECNO AI Glasses Series

TECNO’s new AI Glasses Series also took center stage with the introduction of TECNO AI Glasses Pro and TECNO AI Glasses, reimagining eyewear with cutting-edge imaging, intelligent interactions, and a sleek aesthetic. The TECNO AI Glasses feature an aviator design, while the Pro model showcases a browline style, both embodying timeless elegance and modern fashion.

TECNO AI Glasses Redefine the Way People See the Future

Equipped with a 50MP high-definition camera, the series integrates an OV50D sensor, a 100° ultra-wide-angle custom lens, and an AI ISP imaging chip, forming a mobile-grade imaging system. This system lets users capture stunning, high-resolution photos with advanced AI noise reduction and HDR capabilities. With real-time translation supporting over 100 languages, TECNO AI’s Ella empowers accurate translation even for less common languages, as well as voice control, AI-powered object recognition, and intelligent information summaries for ultimate convenience.

Additionally, the AI Glasses Pro features a MicroLED display with 7th-gen resin waveguide technology, offering a 30° field of view, over 1,500 nits of brightness AR display, and a lightweight, ultra-thin design. The AR display allows users to effortlessly enjoy features like translation display, navigation, information prompts, and teleprompting.

Equipped with a 250mAh battery, these glasses offer over 11 hours of music playback and 8 hours of mixed use with just 30 minutes of charging. An advanced ultra-linear speaker, bass enhancement, and spatial sound deliver an immersive audio experience, while Wi-Fi 6 and Bluetooth 5.4 ensure seamless connectivity.

With these innovative launches, TECNO is setting new standards in mobile imaging and AI-enhanced technology, shaping a more connected and empowered future for consumers in emerging markets. Once again, TECNO has showcased its cutting-edge innovation on the global stage at MWC. With the brand essence of “Stop at Nothing”, TECNO’s relentless pursuit of innovation is making AI-powered technology more accessible, allowing consumers to experience the future ahead of time.

Solomon Obwot is a tech writer based in Kampala, Uganda, with extensive experience in the local tech startup ecosystem. He covers the latest news and analysis on consumer tech, writes in-depth smartphone reviews, and conducts insightful interviews with industry experts. Solomon is also a passionate podcaster, sharing his knowledge and engaging in discussions about Africa’s rapidly growing tech landscape. Send emails to [email protected]

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