The Samsung Exynos 9610 is a mid-range octa-core processor built on a 10nm FinFET process, specifically designed to bring premium multimedia features like high-speed slow-motion video and AI-enhanced photography to more affordable smartphones. Key Technical Specifications
CPU Architecture: Octa-core configuration featuring 4x Cortex-A73 cores at 2.3GHz for performance and 4x Cortex-A53 cores at 1.7GHz for efficiency.
GPU: Mali-G72 MP3 based on the second-generation Bifrost architecture, supporting modern APIs and techniques like Multi-Sample Anti-Aliasing (MSAA) for smoother gaming visuals.
AI Engine: Integrated vision image processing unit based on deep-learning technology, which powers advanced face detection and single-camera bokeh (portrait mode). Advanced Multimedia Capabilities
Super Slow-Motion: A standout feature of the 9610 is its ability to record 480fps slow-motion video in Full HD (1080p). This is achieved through a 1.6x improvement in the Image Signal Processor (ISP) and doubling the MIPI interface speed.
4K Performance: Supports recording and playback of 4K UHD video at 120fps using the HEVC (H.265) codec.
Imaging: Enhances low-light photography by merging multiple frames to reduce noise and increase brightness. Performance Benchmarks
Antutu Score: Typically reaches approximately 174,773, placing it in the mid-range tier for its generation.
Comparison: While it offers strong single-thread performance, it is roughly 11% slower in multi-threaded tasks compared to older flagship chips like the Snapdragon 835. Connectivity
LTE Modem: Supports Cat.12 3CA for download speeds up to 600Mbps and Cat.13 2CA for up to 150Mbps uploads.
Global Positioning: Includes a 4-mode GNSS receiver supporting GPS, GLONASS, BeiDou, and Galileo for comprehensive global coverage.
Official technical details and performance summaries are available directly from the Samsung Semiconductor Global site and Bajaj Finserv. Samsung Exynos 9610 Mobile Phones with Price List (2024)
The Exynos 9610 operates on an 8-core big.LITTLE architecture.
CPU Clusters: Managed by the Linux kernel scheduler (often Android kernel 4.14 or later) to balance load between: Performance: 4x Cortex-A73 at 2.3 GHz. Efficiency: 4x Cortex-A53 at 1.7 GHz.
GPU Driver: Utilizes the ARM Mali-G72 MP3 driver, which supports modern graphics APIs including Vulkan 1.0, OpenGL ES 3.2, and OpenCL 2.0.
OS Support: Primarily runs on Android, but has seen community mainlining efforts in postmarketOS and LineageOS. Multimedia & Vision Processing
A key feature of the 9610 driver set is its support for a dedicated vision image processing unit based on deep learning. driver exynos 9610
ISP (Image Signal Processor): Supports advanced camera drivers for 24MP single or 16MP dual camera setups. It enables 480fps slow-motion and 4K video recording at 120fps.
Neural Engine: The driver interacts with a neural-network engine to handle AI tasks like face detection and smart depth sensing (bokeh) even on single-camera hardware. Connectivity & Peripheral Drivers
The chipset integrates several high-speed communication drivers:
Modem: An LTE Cat.12 driver supporting 3-carrier aggregation for 600Mbps downloads and 150Mbps uploads.
Wireless: Integrated drivers for 802.11ac Wi-Fi (2x2 MIMO) and Bluetooth 5.0.
Low-Power Hub: An embedded Cortex-M4F driver manages "always-on" sensing (gestures, context awareness) without waking the main CPU, conserving battery. Key Specifications Table Specification Process 10nm FinFET Memory Interface Storage Support UFS 2.1, eMMC 5.1 Display Max WQXGA (2560 x 1600) Video Codec HEVC(H.265), H.264, VP9
For three years, Maya’s Galaxy A50 had been her loyal digital companion. It had documented sunrises, managed chaotic spreadsheets, and endured countless rounds of PUBG Mobile during late-night subway commutes. At the heart of this workhorse was the Exynos 9610
, a chipset designed for "intelligent balance"—promising smooth performance without the power-hungry nature of flagship processors. For a long time, it delivered exactly that.
But in 2026, the digital world had moved on. Apps were heavier, photos required more AI processing, and the phone was showing signs of fatigue. The Bottleneck
It wasn’t that the Exynos 9610 was "broken." It was just… tired. The Mali-G72 GPU was struggling with modern visual rendering, and the neural processing unit (NPU) was falling behind on computational photography.
"It feels like driving a great car with the handbrake slightly on," Maya told her friend, a software enthusiast. The Optimization Patch
The story took a turn when Samsung released an unexpected security patch that, silently, included updated GPU drivers for the Exynos 9610. The goal wasn’t to make it faster than a 2026 flagship, but to unlock the bottleneck.
These new drivers improved the interplay between the four Cortex-A73 performance cores and the four Cortex-A53 efficiency cores. It optimized how the AI-driven image signal processor (ISP) handled low-light data. The Second Life After the update, the difference was subtle but profound.
didn't jump to 60fps, but the stuttering stopped. The Exynos 9610 was finally using its full potential to maintain a steady, playable pace.
The AI scenes adjusted faster. The "Intelligent AI" features, which once lagged, now snapped into focus, making the photos look remarkably crisp for a device of its age.
Maya’s phone hadn't become a new device, but it was no longer a frustration. It was a testament to the fact that with the right, late-life driver optimization, solid hardware could still have a productive story to tell. Technical Context (Why this story works) The Exynos 9610 is a 10nm chipset built for mid-range efficiency. Performance Profile: The Samsung Exynos 9610 is a mid-range octa-core
It features a robust CPU setup (4xCortex-A73 + 4xCortex-A53) capable of "heavy" multitasking. The "Driver" Factor:
As mobile gaming and AI apps evolve, old chipsets often suffer from outdated GPU drivers rather than insufficient hardware, making driver optimizations a potential "life-saver" for mid-range devices. Samsung Exynos 9610 Mobile Phones with Price List (2024)
For users seeking drivers and resources for the Exynos 9610 chipset—commonly found in devices like the Samsung Galaxy A50
—the primary need is usually for PC connectivity, data transfer, or mobile development. Essential Connectivity Drivers
To connect an Exynos 9610 device to a Windows PC for file transfers, debugging, or firmware updates, you should use the official Samsung drivers: Samsung Android USB Driver for Windows
: This is the standard official package (v1.9.0.0 as of April 2025) required for the computer to recognize your phone via USB. You can download it directly from the Samsung Developer Portal Exynos USB Device Port Drivers
: Specialized drivers (such as COM/LPT/Serial) may be needed for emergency recovery or low-level flashing tasks. These are often hosted by third-party database sites like Development & Firmware Resources
If you are looking for low-level software or kernel sources to modify your device: Official Kernel Source
: The Linux kernel source code for the Exynos 9610 (A505F) is hosted on for developers and modders. Custom Kernels
: Optimized versions like "Fresh" or "Mint" are available on
for those looking to enhance performance or battery life on One UI systems. USB Emergency Recovery
: Technical scripts for emergency USB recovery can also be found on for advanced users. Common Use Cases How to make a SAMSUNG Galaxy S10 Exynos run faster?
The Samsung Exynos 9610 is a mid-range system-on-chip (SoC) designed to bring flagship-level multimedia and AI capabilities to more affordable mobile devices. While "driver" is often searched in relation to this chipset, it typically refers to the Samsung Android USB Driver required for Windows PCs to communicate with devices like the Samsung Galaxy A50 for data transfer, debugging, or firmware flashing. Essential Drivers for Exynos 9610
If you are looking for drivers for an Exynos 9610 device, you are likely seeking the software that allows your computer to recognize the phone over a USB connection.
Samsung Android USB Driver for Windows: This is the official driver package needed if you want to connect your device to a development environment or use tools like Odin for firmware updates. You can download the latest version directly from the Samsung Developer portal.
ADB and Fastboot Drivers: For advanced users and developers, these drivers enable the Android Debug Bridge (ADB). This is critical for executing terminal commands, sideloading apps, and managing device files from a PC. Part 6: The Development Scene – Custom Drivers
MTP/PTP Drivers: Usually bundled with the standard Samsung USB driver, these allow the device to appear as a media player or camera in Windows Explorer for simple file transfers. How to Install the Exynos 9610 USB Driver Samsung Android USB Driver
Searching for drivers for the Samsung Exynos 9610 (common in devices like the Galaxy A50) typically points to two needs: establishing a connection with a PC or optimising on-device performance. 1. Essential PC Connectivity Drivers
If you need to connect your device to a computer for file transfers, debugging, or firmware flashing, you require the Samsung Android USB Driver.
Official Source: Download the Samsung Android USB Driver for Windows v1.9.0.0 (released April 2025) directly from the Samsung Developer portal.
Purpose: This driver is essential for ADB (Android Debug Bridge) and Fastboot connections, enabling tools like Odin for firmware recovery.
Alternative Utility: For automated management on Samsung PCs, use the Samsung Update app from the Microsoft Store to find the latest specific drivers for your model. 2. On-Device Graphics Driver Optimization
For better gaming performance on Exynos 9610 devices, you can manually select specific graphics drivers via hidden settings: Go to Settings > About Phone > Software Information. Tap Build Number seven times to enable Developer Options. Go back to Settings > Developer Options > Graphics Driver.
Toggle the feature on and select individual games (like Call of Duty) to switch them to the System Graphics Driver for potentially smoother visuals. 3. Support Status for 2026 Legacy Support: Most Exynos 9610 devices, including the Galaxy A50 Go to product viewer dialog for this item.
, reached their end-of-life for official Android OS updates (stopping at Android 11) and regular security patches by 2023.
Firmware Updates: You can still check for the final available system updates by going to Settings > Software Update > Download and Install.
Community Support: For advanced users, projects like postmarketOS continue to develop custom kernels and drivers for this chipset. Samsung Android USB Driver
The Exynos 9610 has a surprisingly active community on XDA Developers. Since Samsung's official support has waned, developers have taken matters into their own hands.
Settings > Apps > Camera > Storage > Clear Cache). If that fails, boot into Recovery Mode (Power + Volume Up) and wipe the cache partition.Cause: Corrupted Wi-Fi driver’s NVRAM (often after custom ROM flash).
Fix: Use a terminal to remove /data/misc/wifi/WCNSS_qcom_cfg.ini (if Qualcomm combo) or reflash stock modem drivers.
Samsung Exynos drivers have a historical weakness in input validation.
| CVE ID | Driver | Issue | Impact |
|--------|--------|-------|--------|
| CVE-2021-25337 | s3c2410_wdt (watchdog) | Missing bounds check on ioctl | System crash / DoS |
| CVE-2020-14351 | mali_kbase | Use-after-free in memory handling | Arbitrary code execution in kernel |
| CVE-2019-10538 | exynos_gpu | Improper GPU memory mapping | Information leak |
The root cause is often the reuse of Samsung’s internal driver code from older kernels (3.18) without hardening for newer kernel security mechanisms (like CONFIG_SLAB_FREELIST_HARDENED).