Understanding the Intel Celeron N4500: Variants and Applications
The Intel Celeron N4500 is a power-efficient system-on-a-chip (SoC) designed primarily for entry-level computing devices. While it may not come in distinct "types" like some processors, it appears in various configurations across different devices, tailored to meet specific performance, thermal, and design requirements. These variations are influenced by form factor, cooling solutions, and OEM implementation rather than fundamental architectural differences.
Core Specifications Overview
Before exploring its applications, it's essential to understand the foundation of the Celeron N4500:
- Architecture: Intel Gemini Lake Refresh (14nm process)
- Cores/Threads: Dual-core, dual-thread
- Base Clock: 1.1 GHz, with Turbo Boost up to 2.8 GHz
- Integrated Graphics: Intel UHD Graphics 600
- TDP (Thermal Design Power): 6W (configurable down to 4W)
- Memory Support: DDR4/LPDDR4x up to 8GB (single channel)
- PCIe: PCIe Gen 2.0 lanes for storage and peripherals
Standard Power (6W TDP)
Designed for active cooling in compact desktops and larger notebooks.
Advantages
- Balanced performance for everyday tasks
- Suitable for light multitasking
- Supports dual displays
- Reliable for office and educational use
Limitations
- Limited headroom for demanding applications
- May throttle under sustained loads
- No hyper-threading support
Best for: Mini PCs, budget all-in-ones, entry-level laptops
Low Power (4.8W–5W TDP)
Optimized for fanless or passively cooled designs in ultra-thin and portable devices.
Advantages
- Superior energy efficiency
- Enables silent operation
- Extended battery life in mobile devices
- Ideal for always-on applications
Limitations
- Slightly reduced peak performance
- Slower response under heavy workloads
- Limited suitability for multimedia editing
Best for: Thin-and-light laptops, tablets, digital signage, kiosks
Common Device Implementations
While the Celeron N4500 itself is a single SKU, its real-world performance and thermal behavior vary based on how manufacturers integrate it:
| Device Type | TDP Configuration | Cooling Method | Typical Use Case | Performance Expectation |
|---|---|---|---|---|
| Budget Laptops | 6W | Active (small fan) | Web browsing, office apps | Fair – handles basics smoothly |
| Mini PCs | 6W | Active or passive | Home theater, light computing | Good – stable under moderate loads |
| 2-in-1 Tablets | 4.8W | Passive (fanless) | Education, media consumption | Fair – may lag with multiple apps |
| Industrial Devices | 4–5W | Passive | Digital signage, POS systems | Reliable – optimized for stability |
Expert Tip: When selecting a device with the Celeron N4500, prioritize models with better cooling and at least 8GB of RAM to maximize responsiveness. Avoid pairing it with eMMC storage if possible—opt for SSDs to significantly improve system snappiness and multitasking capability.
The N-series processors, including the N4500, are engineered for low-power, cost-effective computing. Their SoC design integrates the CPU, GPU, memory controller, and I/O interfaces into a single package, reducing motherboard complexity and enabling slimmer, lighter devices. This integration enhances energy efficiency, making the N4500 ideal for portable and always-on applications where battery life and thermal management are critical.
Although there are no official "types" of the Celeron N4500, OEMs may apply minor firmware or power profile adjustments to suit different product tiers. However, these do not constitute architectural changes. Instead, they reflect how the same processor can be adapted across a broad spectrum of consumer and commercial electronics—from student laptops to retail kiosks—delivering dependable, energy-efficient performance where high-end computing power isn't required.
Industrial Applications of the Intel Celeron N4500: Efficiency, Reliability, and Integration
The Intel Celeron N4500 has emerged as a reliable and cost-effective computing solution in industrial environments, where performance, durability, and low power consumption are paramount. Built on Intel’s 10nm process and featuring a dual-core, quad-thread design with integrated Intel UHD Graphics, this System-on-Chip (SoC) delivers sufficient processing power for lightweight industrial tasks while maintaining excellent thermal efficiency and long-term reliability.
Core Industrial Use Cases
Data Entry and HMI Systems
In manufacturing and logistics facilities, the Celeron N4500 powers Human-Machine Interface (HMI) terminals and data entry stations. These systems require responsive yet energy-efficient processors to run simple database applications, barcode scanning interfaces, and inventory management software. The N4500's consistent performance ensures smooth operation without lag, even during prolonged shifts.
Its compatibility with modern operating systems like Windows 10 IoT and Linux-based platforms makes it ideal for integration into existing industrial IT infrastructures.
Factory Automation & Monitoring
The processor excels in supervisory control and data acquisition (SCADA) edge devices, programmable logic controller (PLC) interfaces, and real-time monitoring dashboards. It can efficiently handle basic data logging, sensor aggregation, and status alerts from production lines, enabling plant managers to track uptime, detect anomalies, and optimize workflows.
Despite its modest specs, the N4500 provides stable multitasking capabilities—essential for running monitoring software alongside communication protocols such as Modbus, OPC UA, or MQTT.
Why the Celeron N4500 Excels in Harsh Environments
Durability and Continuous Operation
Industrial settings often demand 24/7 operation under fluctuating temperatures, dust, and vibration. The Celeron N4500 is designed for extended lifespan and supports fanless cooling solutions thanks to its low thermal design power (TDP) of just 6W. This enables deployment in sealed enclosures that protect against contaminants while minimizing maintenance needs.
Its ability to operate reliably over thousands of hours reduces system downtime and increases overall equipment effectiveness (OEE).
Efficient Thermal Management
With minimal heat generation, the N4500 reduces thermal stress on surrounding components such as capacitors, memory modules, and storage drives. Lower operating temperatures directly contribute to longer hardware life and fewer thermal throttling events, ensuring consistent performance in enclosed control cabinets or near heat-producing machinery.
This efficiency also allows for passive cooling designs, eliminating moving parts like fans that are prone to failure in dusty environments.
Compact Integration for Space-Constrained Designs
As a fully integrated SoC, the Celeron N4500 combines CPU, GPU, memory controller, and I/O interfaces on a single die. This compact footprint makes it ideal for small-form-factor (SFF) industrial PCs, embedded controllers, and DIN-rail mounted devices commonly used in automation panels.
Manufacturers benefit from reduced board complexity, lower component count, and easier certification processes—critical advantages in regulated industries like food processing, pharmaceuticals, and energy.
Energy Efficiency and Cost Savings
The processor’s low power consumption translates into reduced energy costs across large-scale deployments. For example, a factory with dozens of monitoring stations using N4500-based systems can save significantly on electricity compared to higher-TDP alternatives.
Additionally, lower cooling requirements reduce infrastructure costs, making it a sustainable choice for green manufacturing initiatives.
| Feature | Industrial Benefit | Typical Application |
|---|---|---|
| 6W TDP, Fanless Operation | Reliable in sealed, dusty environments | Control panels, outdoor kiosks |
| Integrated Intel UHD Graphics | Supports multi-display HMIs without discrete GPU | Operator dashboards, machine diagnostics |
| DDR4/LPDDR4 Support | Efficient memory handling for real-time data | Sensor monitoring, logging systems |
| Multiple I/O Options (USB, SATA, PCIe) | Connects to legacy and modern industrial peripherals | PLCs, barcode readers, network modules |
| Long-Term Availability | Stable supply chain for industrial product lifecycle | OEM equipment, embedded systems |
Key Advantages Summary
Note: While the Celeron N4500 is excellent for entry-level industrial computing, it is not suited for high-performance applications such as AI inference, complex vision systems, or real-time control requiring sub-millisecond response times. Always match the processor capabilities to the specific workload to ensure system reliability and scalability.
Intel Celeron N4500: Product Specifications and Features
The Intel Celeron N4500 is an entry-level processor designed for budget-friendly computing devices such as compact desktops, mini PCs, and low-cost laptops. Built on Intel's 10nm manufacturing process, it offers efficient performance for everyday computing tasks while maintaining low power consumption. This guide provides a comprehensive overview of its technical specifications, installation process, and best practices for maintenance to help users maximize performance and longevity.
Core Architecture & Performance
The Celeron N4500 features a dual-core, quad-thread configuration enabled by Intel Hyper-Threading Technology. This allows each physical core to manage two processing threads simultaneously, significantly improving multitasking efficiency compared to non-hyperthreaded processors.
- Base Clock Speed: 1.1 GHz – sufficient for light workloads and background processes
- Max Turbo Frequency: Up to 2.8 GHz – enables short bursts of higher performance when needed
- Intel Hyper-Threading: Enables smooth operation when running multiple applications concurrently
- Use Case Fit: Ideal for web browsing, document editing, media playback, and basic productivity tasks
Note: While not designed for intensive workloads like video editing or gaming, the N4500 handles typical office and educational software efficiently.
Graphics & Multimedia Capabilities
Integrated Intel UHD Graphics (Gen11) provides solid performance for visual tasks without requiring a discrete GPU, making it perfect for budget systems.
- Graphics Base Frequency: 200 MHz
- Max Dynamic Frequency: Up to 1.1 GHz
- Video Playback: Supports smooth HD and Full HD (1080p) video decoding, including H.265/HEVC and VP9
- Display Support: Can drive up to three independent displays via HDMI, DisplayPort, or eDP
- Light Gaming: Capable of running older or less demanding games at low settings (e.g., Minecraft, browser-based games)
Ideal for: Media centers, digital signage, kiosks, and student laptops where graphical demands are minimal.
Memory & Storage Support
The N4500 supports modern memory standards that enhance system responsiveness and reduce latency in daily use.
- Supported Memory Types: DDR4 and LPDDR4x (low-power variant), both at up to 2933 MT/s
- Maximum RAM Capacity: 8 GB – adequate for light multitasking and general computing
- Memory Channels: Dual-channel support improves bandwidth and overall system performance
- Storage Compatibility: Works best with NVMe or SATA SSDs, which significantly improve boot times and application loading speeds compared to traditional HDDs
Recommendation: Pair the N4500 with at least a 256GB SSD and 8GB of RAM for optimal user experience.
Power Efficiency & Thermal Design
With a focus on energy efficiency, the N4500 is ideal for fanless designs and portable devices where battery life and quiet operation are priorities.
- Thermal Design Power (TDP): Only 6 watts – enables passive cooling solutions and extended battery life
- Idle Power Consumption: Very low, contributing to longer uptime in mobile and embedded systems
- Thermal Management: Onboard thermal sensors automatically throttle performance if temperatures rise
- Use Cases: Mini PCs, all-in-one desktops, point-of-sale systems, and education tablets
Benefit: Reduced heat output allows for compact, silent device designs suitable for libraries, classrooms, or office environments.
| Specification | Detail |
|---|---|
| Processor Model | Intel Celeron N4500 |
| Architecture | Gemini Lake Refresh (10nm process) |
| Cores / Threads | 2 Cores / 4 Threads |
| Base Frequency | 1.1 GHz |
| Max Turbo Frequency | 2.8 GHz |
| Graphics | Intel UHD Graphics (Gen11) |
| Graphics Frequency | 200 MHz (base), up to 1.1 GHz (boost) |
| Memory Support | DDR4/LPDDR4x up to 2933 MT/s |
| Max RAM | 8 GB |
| TDP | 6 W |
| Socket Type | BGA1338 (soldered, not user-replaceable in most devices) |
Installation Guide: Step-by-Step Instructions
Important Note: The Intel Celeron N4500 is typically soldered directly onto the motherboard (BGA package), meaning it is not designed for user replacement or upgrade in most consumer devices. However, for industrial or DIY motherboard builds, here is a generalized installation guide.
Step 1: Preparation
Before beginning any hardware installation, ensure you have the necessary tools and a safe working environment.
- Gather tools: anti-static wrist strap, precision screwdriver set, thermal paste, clean workspace
- Power off and unplug the device completely
- Ground yourself to prevent electrostatic discharge (ESD) damage to sensitive components
- Verify compatibility between the N4500 and your motherboard chipset (typically Intel SoC-based boards)
Safety First: Never install or handle components while the system is powered on.
Step 2: Accessing the Processor Area
Gain access to the internal components by carefully opening the device chassis.
- Remove screws or latches securing the back panel
- Take note of cable connections and component layout before proceeding
- For laptops or sealed units, consult the manufacturer’s service manual for disassembly steps
- Locate the CPU area—on most devices using the N4500, it will already be pre-installed
Caution: Avoid touching exposed circuitry or connectors to prevent damage.
Step 3: Installing the Celeron N4500
Due to its BGA (Ball Grid Array) packaging, the N4500 must be soldered onto the motherboard using specialized equipment.
- If replacing a module, align the CPU module correctly with the socket (if applicable)
- Ensure notches or markers on the processor align with the socket guides
- Secure the retention mechanism or close the socket lid gently
- Apply a pea-sized amount of high-quality thermal paste on the CPU surface
- Install the heatsink or cooling assembly and secure it with screws
Technical Note: Most end-users cannot replace the N4500 due to its soldered design; upgrades require a full motherboard swap.
Step 4: Reassembly and Testing
After installation, reassemble the device and verify proper functionality.
- Reconnect all internal cables and replace the casing
- Power on the device and enter BIOS/UEFI to confirm CPU detection
- Check CPU temperature and clock speeds under load
- Install the operating system and update chipset drivers for optimal performance
- Run a stress test (e.g., Prime95 or Intel Processor Diagnostic Tool) to validate stability
Verification Tip: Use tools like CPU-Z or HWiNFO to confirm the processor is recognized correctly.
Maintenance and Care Best Practices
Proper maintenance ensures the Intel Celeron N4500 operates efficiently and lasts longer, even in compact or passively cooled systems.
Regular System Updates
Keeping software up to date maximizes compatibility and performance.
- Install the latest OS updates (Windows, Linux, ChromeOS) regularly
- Update BIOS/UEFI firmware to improve CPU power management and security
- Ensure graphics and chipset drivers are current for optimal efficiency
- Enable automatic updates where possible to reduce maintenance effort
Benefit: Updated drivers can improve thermal regulation and responsiveness.
Proper Ventilation and Cooling
Even with low TDP, heat buildup can degrade performance over time.
- Keep vents and fans free of dust using compressed air every 3–6 months
- Avoid placing devices on soft surfaces (e.g., beds, couches) that block airflow
- Use a laptop cooling pad if the device feels warm during extended use
- Ensure ambient room temperature is within normal operating range (10°C–35°C)
Preventive Tip: Monitor CPU temperature using tools like Core Temp or Open Hardware Monitor.
Optimizing Background Processes
Given the modest processing power, managing system resources is crucial.
- Disable unnecessary startup programs via Task Manager (Windows) or Startup Applications (Linux)
- Close unused browser tabs and applications to free up memory and CPU cycles
- Use lightweight software alternatives (e.g., LibreOffice instead of Microsoft Office)
- Limit background syncing services (cloud storage, email, updates) during active use
Performance Boost: Reducing background load can make the system feel significantly faster.
Storage Management
SSD health and free space directly impact system responsiveness.
- Maintain at least 15–20% free space on the SSD for optimal performance
- Enable TRIM (on SSDs) to maintain write speeds over time
- Avoid installing resource-heavy applications like large games or video editors
- Use external drives or cloud storage for large media files
Longevity Tip: Regularly defragment only if using an HDD; SSDs do not require defragmentation.
Expert Recommendation: The Intel Celeron N4500 is best suited for entry-level computing where cost, power efficiency, and reliability are prioritized over raw performance. It excels in educational devices, digital signage, and basic office tasks. While not upgradeable in most cases, pairing it with fast storage and sufficient RAM (8GB) can greatly enhance user experience. For long-term use, focus on thermal management and software optimization to keep the system running smoothly.
Quality and Safety Considerations of the Intel Celeron N4500
The Intel Celeron N4500 is a modern entry-level processor designed for efficiency, reliability, and essential computing performance. As part of Intel's long-standing lineup of budget-friendly processors, the N4500 continues the legacy of delivering dependable performance for everyday computing needs. Built on Intel's robust manufacturing standards, it offers a compelling balance of functionality, power efficiency, and integrated safety features—making it a popular choice for budget laptops, Chromebooks, education devices, and light industrial applications.
Safety & Quality Note: While the Celeron N4500 is not designed for high-performance tasks like gaming or video editing, its adherence to Intel's rigorous quality control and built-in security features ensures safe and stable operation for general-purpose computing.
Performance and Reliability
The N4500 is engineered to handle fundamental computing tasks with consistency and efficiency. It excels in:
- Web browsing: Smooth navigation across multiple tabs with modern web applications
- Document processing: Reliable performance with office suites like Microsoft Office and Google Workspace
- Video streaming: Supports HD and Full HD playback via integrated Intel UHD Graphics 600
- Light multitasking: Capable of managing background applications such as email clients and cloud sync tools
Manufactured using Intel’s 10nm process technology, the N4500 benefits from advanced semiconductor fabrication, contributing to improved power efficiency and thermal management. Intel subjects all processors, including Celeron models, to extensive testing for stability under various workloads, compatibility with operating systems, and long-term durability—ensuring consistent real-world performance.
Integrated Safety and Security Features
Beyond performance, the N4500 incorporates key hardware-level security technologies inherited from Intel’s broader processor ecosystem:
- Execute Disable Bit (EDB): A hardware-based security feature that helps prevent certain types of malicious software attacks by marking memory pages as non-executable. This blocks code execution in data-only memory regions, reducing vulnerability to buffer overflow exploits.
- Intel Speed Shift Technology: Enables fine-grained control over processor frequency and voltage transitions, allowing the CPU to enter low-power states more quickly. This improves responsiveness while reducing heat output.
- Intel Thermal Monitoring: Built-in thermal sensors and dynamic throttling mechanisms protect the processor from overheating. If temperatures rise beyond safe thresholds, the CPU automatically reduces clock speed to maintain safe operating conditions.
Power Efficiency and Thermal Management
Despite its budget positioning, the N4500 includes Intel SpeedStep Technology, which dynamically adjusts voltage and clock speed based on workload demands. This intelligent power management:
- Extends battery life in mobile devices
- Reduces heat generation during idle or light usage
- Enhances device longevity by minimizing thermal stress on internal components
- Supports fanless designs in ultra-thin laptops and tablets
With a low 6W TDP (Thermal Design Power), the N4500 is ideal for compact, passively cooled systems where noise and energy efficiency are priorities.
Graphics and Media Capabilities
The integrated Intel UHD Graphics 600 provides more than just basic display output. It supports:
- Hardware-accelerated decoding of H.264, HEVC (H.265), and VP9 video formats
- Smooth playback of 4K content at 30fps (ideal for streaming services like YouTube and Netflix)
- Dual-display support via HDMI and eDP interfaces
- Energy-efficient rendering that reduces CPU load and conserves battery
This makes the N4500 well-suited for media consumption, online learning, and digital signage applications.
| Feature | Description | Benefit |
|---|---|---|
| Intel UHD Graphics 600 | Integrated GPU supporting HD/4K video playback | Smooth streaming, reduced CPU usage, energy savings |
| Execute Disable Bit | Memory protection against code execution attacks | Enhanced system security and malware resistance |
| Intel SpeedStep Technology | Dynamically adjusts CPU performance and power usage | Longer battery life, cooler operation, quieter devices |
| 6W TDP | Low thermal design power | Suitable for fanless and compact designs |
| Intel Thermal Monitoring | Real-time temperature regulation and throttling | Prevents overheating, protects internal components |
Expert Tip: When deploying devices with the Celeron N4500 in educational or enterprise environments, pair them with lightweight operating systems (e.g., ChromeOS, Windows 11 SE, or Linux distributions) to maximize responsiveness and extend device lifespan.
Applications and Use Cases
The Intel Celeron N4500’s blend of quality, safety, and efficiency makes it suitable for a wide range of applications:
- Education: Affordable laptops for students with reliable web access and document handling
- Home Computing: Everyday use for email, social media, and entertainment
- Retail & Hospitality: Point-of-sale (POS) terminals and kiosks with stable 24/7 operation
- Industrial Control: Embedded systems requiring low power and long-term reliability
- Remote Work: Secondary devices for video conferencing and cloud-based productivity tools
In conclusion, the Intel Celeron N4500 may be positioned in the entry-level segment, but it delivers exceptional value through Intel’s hallmark quality assurance, built-in safety mechanisms, and thoughtful power management. Its combination of integrated graphics, hardware security, and thermal efficiency ensures a safe, reliable, and energy-conscious computing experience across diverse environments—from homes and classrooms to commercial and industrial settings.
Frequently Asked Questions (FAQs) on the Intel Celeron N4500
The Intel Celeron N4500 is a low-power, entry-level processor designed for basic computing needs. Built on Intel's 10nm process and part of the Jasper Lake family, it features dual cores with burst frequencies up to 2.8 GHz and integrated Intel UHD Graphics (16 EUs). This makes it well-suited for:
- Web browsing: Smooth performance when using multiple tabs on modern browsers like Chrome or Edge.
- Office productivity: Efficient handling of word processing, spreadsheets, and presentations using Microsoft Office or Google Workspace.
- Media consumption: Capable of streaming HD video from platforms like YouTube, Netflix, or Disney+ without lag.
- Online learning and video conferencing: Supports applications like Zoom, Google Meet, and Microsoft Teams for remote education or work.
While not built for multitasking under heavy loads, the N4500 delivers reliable performance for users who primarily engage in everyday digital tasks.
When compared to mid-range or high-performance CPUs such as the Intel Core i5, i7, or AMD Ryzen 5 and above, the Celeron N4500 falls significantly behind in both raw power and multitasking capability. However, it excels in its target market—affordable, energy-efficient devices. Key differences include:
| Feature | Intel Celeron N4500 | Higher-End Processors (e.g., Core i5/i7, Ryzen 5+) |
|---|---|---|
| Cores / Threads | 2 Cores / 2 Threads | 4–8+ Cores / 8–16+ Threads |
| Graphics Performance | Integrated Intel UHD (16 EUs) | Dedicated GPUs or Advanced iGPUs (Iris Xe, Radeon Vega) |
| Use Case | Basic tasks: browsing, documents, video playback | Content creation, gaming, programming, virtualization |
| Power Efficiency | 6W TDP – Excellent for fanless designs and long battery life | 15W–45W+ TDP – Higher performance at the cost of battery and heat |
| Price Point | Found in devices under $300–$400 | Mid-to-high-end laptops starting at $600+ |
In summary, while the N4500 lacks the muscle for demanding software, it offers a cost-effective and energy-efficient solution perfect for users with modest computing needs.
The Celeron N4500 is not designed for modern gaming, but it can handle very light or retro-style games under specific conditions:
- Supported Games: Titles like Minecraft (low settings), Stardew Valley, Among Us, or browser-based games may run acceptably with minimal background activity.
- Graphics Limitations: The integrated Intel UHD Graphics (16 Execution Units) lacks the VRAM and processing power for AAA titles or even mid-tier indie games at higher resolutions.
- Performance Expectations: Expect low frame rates (often below 30 FPS) in anything beyond the simplest games, especially at 1080p resolution.
- Thermal Throttling: Many N4500-powered devices are passively cooled, which can lead to performance drops during sustained use.
For casual or educational use where gaming is an occasional side activity, the N4500 might suffice. However, serious gamers should consider systems with dedicated graphics cards or at least a more powerful integrated GPU like Intel Iris Xe or AMD Radeon Vega.
The Intel Celeron N4500 is primarily found in budget-friendly and education-focused devices due to its low cost, energy efficiency, and adequate performance for basic tasks. Common device categories include:
- Budget Chromebooks: Widely used in school-issued Chromebooks for K–12 students, offering long battery life and durability.
- Entry-Level Laptops: Found in Windows laptops priced under $300, ideal for first-time computer users or secondary machines.
- 2-in-1 Convertible Devices: Used in compact, touchscreen laptops that switch between laptop and tablet modes, often favored in classroom settings.
- Business and Kiosk Devices: Deployed in point-of-sale systems, digital signage, or thin clients where only basic applications are needed.
- Home Office and Senior-Friendly PCs: Simple interfaces and low power consumption make these devices suitable for email, video calls, and web access.
Manufacturers like Acer, Lenovo, HP, and Dell frequently incorporate the N4500 into their value-oriented product lines, especially those targeting educational institutions and budget-conscious consumers.
Yes, the Intel Celeron N4500 fully supports Windows 10 and is also compatible with Windows 11 (though some models may require enabling specific settings due to TPM or RAM limitations). Additionally, it runs efficiently on lightweight operating systems including:
- Chrome OS: Optimized for web-based workflows and cloud storage—ideal for schools and organizations relying on Google Workspace.
- Linux Distributions: Works well with lightweight distros such as Ubuntu, Linux Mint, or Xubuntu, making it a viable option for developers or hobbyists seeking a low-cost platform.
- Windows 11 SE: A simplified version of Windows 11 designed specifically for education, often pre-installed on N4500-powered devices.
The processor’s compatibility across multiple platforms enhances its versatility, allowing users to choose an OS that aligns with their usage patterns—whether for productivity, learning, or basic computing. However, due to limited RAM (often 4GB or less in N4500 systems), running full desktop environments with many background apps may result in slowdowns.
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