When I held the Asrock TPM2.0 Security Module LPC 18-Pin Motherboard Card in my hand, I was surprised by how compact and solid it felt—like it was built to last. During testing, I appreciated how seamlessly it connected to motherboards supporting TPM 2.0, offering reliable encryption key storage for enhanced security. Its tested, perfect performance reassures me this module can handle real-world encryption demands without hiccups.
Compared to other options, the Asrock TPM2.0 Security Module LPC 14 Pin for Motherboards and the SPI versions, it offers a sturdy build with straightforward compatibility. Its ease of installation and proven security features make it stand out. While some modules require BIOS updates, this one’s clear instructions simplify setup, making it a trustworthy choice for protecting your PC content with peace of mind. I recommend it wholeheartedly for anyone seeking a durable, high-quality TPM solution that actually delivers.
Top Recommendation: Asrock TPM2.0 Security Module LPC 18-Pin Motherboard Card
Why We Recommend It: This model impresses with its robust build quality and tested, 100% functional performance, offering excellent value at $23.90. Its compatibility with newer versions (3.1/4.0+) ensures longevity. Compared to the similar 14-pin and SPI modules, it delivers a more straightforward installation process and reliable security features, making it the best non-SLI motherboard security upgrade for peace of mind.
Best non sli motherboard: Our Top 5 Picks
- Asrock TPM 2.0 Security Module LPC 18-Pin Motherboard Card – Best for Security and Compatibility
- As Rock TPM2.0 SPI Security Module for Motherboards – Best for TPM Security Integration
- Asrock TPM2.0 Security Module LPC 14 Pin for Motherboards – Best for Legacy Support
- Evounic 800W 80 Plus Bronze ATX Power Supply, Full Modular – Best Budget Power Supply
- Thermaltake Toughpower GF2 ARGB 650W Power Supply – Best for Aesthetic Builds
Asrock TPM 2.0 Security Module LPC 18-Pin Motherboard Card
- ✓ Easy to install
- ✓ Reliable performance
- ✓ Compatible with Windows security
- ✕ May need BIOS update
- ✕ Compatibility varies by motherboard
| Form Factor | LPC 18-Pin module compatible with motherboards supporting TPM 2.0 |
| Supported TPM Version | TPM 2.0 |
| Interface | LPC (Low Pin Count) interface |
| Compatibility | Asrock motherboards supporting TPM 2.0, including versions 3.1/4.0 and higher |
| Security Features | Cryptographic processor for secure key storage and encryption functions |
| Certification and Testing | Factory-tested, 100% functional before shipping |
Unboxing this Asrock TPM 2.0 Security Module, I immediately noticed how compact and sturdy it feels in hand. The 18-pin LPC connector fits snugly onto the motherboard, and the overall build quality screams reliability.
I was curious to see how straightforward the installation would be, especially since some motherboards need a BIOS update or enabling TPM in BIOS settings.
During installation, I appreciated that each module is tested before leaving the factory, so I was confident it would work right away. Connecting it was as simple as plugging in the daughterboard to the motherboard’s LPC slot—no fuss, no drama.
Once installed, enabling TPM in BIOS was a breeze, provided your motherboard supports TPM 2.0. I double-checked compatibility, and it fit perfectly with my ASRock board.
What stood out during extended use was how seamlessly it integrated with Windows security features like BitLocker. The cryptographic processor efficiently stores encryption keys, making data protection feel almost effortless.
The module’s performance was stable, with no hiccups or recognition issues after a BIOS update.
Overall, it’s a reliable, easy-to-install upgrade that restores or enhances TPM functionality. It’s perfect if you’re replacing a faulty module or building a system with enhanced security in mind.
Just keep in mind that some motherboards may require BIOS updates or enabling TPM manually, so check your system specs first.
As Rock TPM2.0 SPI Security Module for Motherboards
- ✓ Easy to install
- ✓ Reliable security feature
- ✓ Compatible with many motherboards
- ✕ Requires BIOS update
- ✕ Slightly small for some users
| Form Factor | Discrete cryptographic processor module connected via daughterboard |
| Supported Motherboard Standards | Supports TPM 2.0, compatible with Version 3.1/4.0 and higher |
| Encryption Key Storage | Securely stores encryption keys for software like Windows BitLocker |
| Compatibility | Suitable for Asrock motherboards supporting TPM2.0; requires BIOS update or TPM module installation |
| Testing and Quality Assurance | Each module tested before shipping, 100% functional |
| Replacement Compatibility | Designed to replace damaged or non-performing TPM modules on supported motherboards |
Unboxing this As Rock TPM2.0 SPI Security Module felt like holding a tiny vault in my hands. The compact daughterboard is surprisingly lightweight but feels sturdy, with a sleek black finish that blends seamlessly with most motherboards.
Connecting it was straightforward—just plug it into the designated slot on the motherboard, but I did double-check my BIOS version to ensure support for TPM 2.0. Once installed, I immediately noticed how discreet it is, almost like it’s not there until you need it.
Using the TPM for encryption tasks, especially with Windows BitLocker, was smooth. The module securely stored my encryption keys, and I appreciated how it kept my data safe without any fuss.
It’s designed to work perfectly out of the box, thanks to its factory testing, which gave me confidence right away.
During extended use, I found that it reliably maintains security even after system reboots. The module’s compatibility with supported motherboards makes it versatile, but you do need to confirm your BIOS supports TPM 2.0 or update it if necessary.
In terms of build quality, it feels durable and well-made, with a simple, no-nonsense design. If your motherboard supports TPM 2.0, this module is a quick, affordable upgrade that restores or enhances your security setup without hassle.
Overall, this TPM module is a solid choice for keeping your encryption keys safe, especially if your current module is malfunctioning or missing. It’s a small component with a big impact on your PC’s security.
Asrock TPM2.0 Security Module LPC 14 Pin for Motherboards
- ✓ Easy installation process
- ✓ Reliable security enhancement
- ✓ Compact and well-built
- ✕ May require BIOS update
- ✕ Compatibility varies by motherboard
| Form Factor | LPC 14-pin connector compatible with motherboards supporting TPM2.0 |
| Supported TPM Version | TPM 2.0 |
| Compatibility | Asrock motherboards with TPM2.0 support; requires BIOS update or TPM enablement |
| Security Features | Cryptographic processor for secure encryption key storage, compatible with Windows BitLocker |
| Certification and Testing | Factory tested for 100% functionality |
| Physical Dimensions | Standard LPC 14-pin module |
You’ve probably dealt with the frustration of trying to upgrade your PC’s security and finding that your current motherboard just isn’t cutting it anymore. Maybe you’ve lost access to your encryption keys or your TPM chip has stopped working.
When I installed the Asrock TPM2.0 Security Module LPC 14 Pin, I immediately noticed how straightforward the process was.
The module’s compact design slides easily into the motherboard’s LPC 14-pin slot, with clear instructions included. It feels solid and well-made, and I appreciated that it’s tested before shipping, so no surprises there.
Once installed, I had to check if my motherboard supported TPM 2.0, but after a quick BIOS update, everything activated smoothly.
Using the TPM was seamless. It stored my encryption keys securely, making Windows BitLocker setup a breeze.
The module runs quietly and doesn’t add any noticeable heat or noise, which is a plus. I also liked that it’s compatible with various motherboards, especially the Asrock platform I’m using.
One thing to keep in mind: some motherboards may need a BIOS update or enabling TPM in BIOS settings. That step could trip up less tech-savvy users.
But overall, the module’s performance is solid, and it definitely boosts my system’s security without any fuss.
If you’re upgrading or replacing a faulty TPM, this is a reliable choice. It restores encryption functionality quickly and keeps your data protected.
Just double-check your motherboard’s compatibility before purchasing.
Evounic 800W 80 Plus Bronze ATX Power Supply, Full Modular
- ✓ Quiet operation under load
- ✓ Fully modular design
- ✓ Wide voltage compatibility
- ✕ Slightly heavier than some models
- ✕ No RGB or flashy features
| Power Output | 800W continuous power with 80 Plus Bronze efficiency |
| Efficiency Certification | 80 Plus Bronze |
| Modular Design | Full modular with detachable cables |
| Input Voltage Range | 100–240V AC |
| Protection Features | OCP, OVP, SCP, UVP, OTP |
| Cooling System | 120mm quiet fan |
As I unboxed the Evounic 800W power supply, I immediately noticed its sturdy build and sleek, black finish. The fully modular cables felt premium and flexible, making it easy to route inside my case without a tangled mess.
Plugging it in, I appreciated the wide voltage support—whether I was testing on 110V or 240V regions, it handled both seamlessly. During extended gaming sessions and intense workload tests, the 120mm fan stayed quiet, even under heavy load, which was a pleasant surprise.
The 80 Plus Bronze efficiency meant less heat output and lower power bills over time. The active PFC made the power delivery smooth and stable, giving me confidence that my high-performance components were well-protected.
Setting up was straightforward, thanks to the detachable cables. I only connected what I needed, which improved airflow and kept the inside of my case tidy.
The built-in protections like OVP, SCP, and UVP added an extra layer of safety, especially during prolonged use.
After a week of testing in different scenarios, the Evounic PSU proved to be reliable and durable. Its quality components and 5-year warranty sealed the deal for me—this is a solid choice for anyone building a non-SLI gaming or workstation PC.
Thermaltake Toughpower GF2 ARGB 650W Power Supply
- ✓ Vibrant ARGB lighting
- ✓ Quiet operation at low load
- ✓ High efficiency and durability
- ✕ Slightly expensive
- ✕ Limited to non-SLI configurations
| Power Output | 650 Watts |
| Efficiency Certification | 80 PLUS Gold certified (up to 90% efficiency) |
| Fan Type | Riing Duo 14 RGB Fan with Smart Zero Fan technology |
| RGB Lighting | Addressable RGB with 16.8 million colors, synchronization with mainstream motherboards |
| Warranty | 10 years |
| Form Factor | ATX power supply |
Unlike most power supplies that stick with basic lighting or none at all, the Thermaltake Toughpower GF2 ARGB 650W immediately catches your eye with its vibrant Riing Duo 14 RGB fan and side panels that light up in over 16 million colors. The moment you power it on, the synchronized ARGB lighting feels like a mini light show, all controllable via compatible motherboards.
The build quality feels solid right out of the box. The fan operates with the Smart Zero Fan technology, so at low loads, it’s whisper-quiet — a huge plus if you hate unnecessary noise during light tasks or idle times.
Installing is straightforward, and the modular cables make cable management less of a headache. The 80 PLUS Gold certification means you’re getting up to 90% efficiency, which helps save on electricity bills and keeps the PSU cooler during intensive gaming or work sessions.
What really stands out is how easily it syncs with mainstream motherboards, allowing you to customize lighting effects without extra fuss. Plus, the 10-year warranty offers peace of mind, knowing this investment is built to last.
Overall, this power supply combines high performance, aesthetic appeal, and reliability, making it a top choice if you’re building a sleek, non-SLI system with eye-catching lighting. It’s a bit pricier than some competitors, but the features and build quality justify the cost.
What Are the Key Characteristics of a Non-SLI Motherboard?
Simple Setup and Maintenance appeal to novice builders or those who prefer a straightforward installation process, eliminating the complexities involved in configuring multi-GPU systems while still achieving satisfactory performance levels.
What Features Should You Consider When Choosing a Non-SLI Motherboard?
When choosing the best non-SLI motherboard, several key features should be considered to ensure compatibility and performance for your needs.
- Chipset: The chipset determines the motherboard’s capabilities, including supported CPU types, overclocking features, and connectivity options. Selecting a motherboard with a chipset that aligns with your processor is crucial for optimal performance.
- Form Factor: The form factor affects the size and layout of the motherboard, which in turn impacts case compatibility. Common form factors like ATX, Micro-ATX, and Mini-ITX offer varying numbers of expansion slots and ports, so choose one that fits your space and needs.
- RAM Compatibility: The amount and type of RAM supported by the motherboard is vital for performance. Check the maximum RAM capacity and the supported speeds to ensure the motherboard can handle your intended workload, especially if you plan on gaming or heavy multitasking.
- Expansion Slots: Non-SLI motherboards often have different configurations of PCIe slots for additional components like GPUs, sound cards, or network cards. Ensure the motherboard has enough expansion slots to accommodate future upgrades and your current hardware requirements.
- Storage Options: Look for a motherboard with adequate storage interfaces, including SATA ports for HDDs and SSDs, as well as M.2 slots for NVMe drives. The number of available ports will determine how much storage you can connect, which is essential for a robust system.
- Connectivity Features: Evaluate the available USB ports, Ethernet connections, and audio outputs. A motherboard with multiple USB 3.0 or USB-C ports enhances data transfer speeds, while integrated Wi-Fi and Bluetooth can add convenience without needing additional cards.
- Build Quality and Durability: High-quality components like capacitors and VRMs can affect the overall lifespan and stability of the motherboard. Look for motherboards with good reviews regarding build quality, especially if you plan to overclock or run demanding applications.
- BIOS Features: A user-friendly BIOS can significantly enhance your experience when configuring system settings. Features like easy overclocking tools, fan controls, and system monitoring can make managing your system much more straightforward.
How Does CPU and RAM Compatibility Impact Performance?
- CPU Socket Type: The CPU socket type on the motherboard must match the CPU’s requirements for compatibility.
- RAM Speed: The speed of the RAM can influence how well the CPU performs, with faster RAM often resulting in better overall system responsiveness.
- RAM Capacity: The amount of RAM supported by the motherboard affects multitasking capabilities and performance in memory-intensive applications.
- Memory Channels: The number of memory channels supported by the motherboard can enhance data transfer rates between the CPU and RAM.
- BIOS/UEFI Support: The motherboard’s BIOS/UEFI must support the specific CPU and RAM configurations for optimal performance.
CPU Socket Type: Each CPU model is designed for a specific socket type, such as AM4 for AMD processors or LGA 1200 for Intel processors. If the motherboard does not have the correct socket, the CPU cannot be installed, rendering the system unusable.
RAM Speed: RAM speed, measured in MHz, is crucial as it dictates how quickly data can be read from or written to memory. A motherboard that supports higher RAM speeds can maximize CPU performance, particularly for tasks that require rapid data processing, like gaming or video editing.
RAM Capacity: The total amount of RAM a motherboard can support is directly related to performance in handling multiple applications simultaneously. A system with insufficient RAM may exhibit slowdowns or crashes under heavy workloads, while a motherboard that accommodates larger capacities can ensure smoother multitasking.
Memory Channels: Motherboards typically support single, dual, or quad-channel RAM configurations. Dual or quad-channel setups can significantly increase memory bandwidth, allowing for faster data throughput between the CPU and RAM, which is particularly beneficial for high-performance tasks.
BIOS/UEFI Support: The motherboard’s firmware must be updated to recognize and optimize the performance of the installed CPU and RAM. Without proper BIOS/UEFI support, even compatible components may not perform at their full potential, leading to instability or reduced efficiency.
What Are the Leading Brands of Non-SLI Motherboards?
The leading brands of non-SLI motherboards include:
- ASUS: Known for its robust build quality and innovative features, ASUS motherboards often come equipped with advanced cooling solutions and user-friendly BIOS interfaces. They cater to various needs from gaming to professional use, offering reliable performance and extensive connectivity options.
- Gigabyte: Gigabyte motherboards are recognized for their durability and performance, featuring high-quality components and user-friendly layouts. They often include advanced overclocking capabilities, making them popular among gamers and enthusiasts looking for high performance without the need for SLI support.
- MSI: MSI focuses on providing motherboards with strong gaming performance, often integrating features like Steel Armor for PCIe slots and optimized cooling systems. Their offerings are designed to support high-end components while ensuring stable operation in non-SLI configurations.
- ASRock: ASRock is known for offering cost-effective solutions without sacrificing quality, providing a range of features that appeal to budget-conscious builders. Their motherboards often include unique features like customizable RGB lighting and solid build quality, making them an attractive option for non-SLI setups.
- Biostar: Biostar provides a variety of motherboards aimed at entry-level users and budget builds, often including essential features for everyday computing and gaming. Their products are typically more affordable while still delivering decent performance for non-SLI applications.
What Are the Benefits of Opting for a Non-SLI Motherboard Over an SLI One?
The benefits of opting for a non-SLI motherboard over an SLI one include cost-effectiveness, simplicity, and improved compatibility with a wider range of components.
- Cost-Effectiveness: Non-SLI motherboards typically come at a lower price point compared to their SLI counterparts. This is primarily because they lack the additional hardware and features required to support multiple graphics cards, making them an ideal choice for budget-conscious consumers.
- Simplicity: A non-SLI motherboard offers a straightforward setup without the need for complex configurations or additional power supplies. This can be particularly beneficial for users who prefer a hassle-free installation process and do not require the performance enhancements offered by multi-GPU setups.
- Improved Compatibility: Non-SLI motherboards can support a wider variety of components, including CPUs, RAM, and storage devices. This flexibility ensures that users can mix and match parts without the constraints that SLI configurations might impose, leading to a more tailored and optimized build.
- Lower Heat Output: Non-SLI setups generally produce less heat since they utilize a single graphics card. This can result in a quieter system with fewer cooling requirements, making it suitable for users who prioritize a quieter operating environment.
- Energy Efficiency: Operating a single GPU rather than multiple graphics cards can lead to lower power consumption. This not only reduces electricity costs but also minimizes the environmental impact, appealing to eco-conscious users.
What Price Range Should You Expect for Quality Non-SLI Motherboards?
- Budget Range ($50 – $100): In this category, you can find basic motherboards suitable for everyday tasks and light gaming. These boards usually come with essential features, such as support for a single GPU, a limited number of ports, and lower-tier chipsets.
- Mid-Range ($100 – $200): Mid-range motherboards often provide a good balance of performance and features, including better VRM designs for overclocking, more USB ports, and support for a wider range of CPUs. This is an ideal choice for gamers who want solid performance without breaking the bank.
- High-End Range ($200 – $400): High-end non-SLI motherboards come packed with advanced features like premium audio components, robust power delivery systems, and extensive connectivity options. These motherboards are designed for enthusiasts and professionals who require superior performance, stability, and aesthetic appeal.
- Enthusiast Range ($400 and above): For those seeking the absolute best, enthusiast motherboards provide cutting-edge technology, including advanced cooling solutions, customizable RGB lighting, and support for the latest hardware standards. They are ideal for extreme overclocking and building high-performance systems.
How Do You Determine the Best Non-SLI Motherboard for Your Needs?
Determining the best non-SLI motherboard involves considering several key factors that align with your specific computing needs.
- Chipset Compatibility: Selecting a motherboard with the appropriate chipset ensures optimal performance and compatibility with your CPU. Chipsets dictate the features available, such as overclocking capabilities, USB support, and PCIe lanes, which are essential for maximizing your system’s potential.
- Form Factor: The form factor of the motherboard affects both the size of your case and the overall layout. Common form factors include ATX, Micro-ATX, and Mini-ITX, with larger boards typically offering more features and expansion slots, while smaller boards are better for compact builds.
- RAM Support: The amount and speed of RAM supported by a motherboard can significantly impact performance. Look for motherboards that support the latest DDR standards and offer multiple DIMM slots to allow for memory upgrades in the future.
- Expansion Slots: Consider the number and type of expansion slots available for graphics cards, sound cards, and other peripherals. While non-SLI motherboards may not support multi-GPU setups, having sufficient PCIe slots is crucial for accommodating future upgrades or additional components.
- Connectivity Options: Evaluate the connectivity features such as USB ports, Ethernet, and audio outputs. A motherboard with a variety of connection types, including USB-C and Wi-Fi capabilities, will enhance overall system flexibility and usability.
- Power Delivery: A motherboard’s power delivery system is essential for stable operation, especially if you plan to overclock your CPU. Look for models that have robust VRMs (Voltage Regulator Modules) and adequate heatsinks to ensure efficient power distribution and thermal management.
- Brand Reputation and Support: Opting for a motherboard from a reputable brand can ensure better quality assurance and customer support. Research reviews and user feedback to gauge the reliability and longevity of the motherboard you are considering.
- Price vs. Features: Balancing your budget with the features you need is critical. It’s important to find a motherboard that offers the best value for your specific requirements without overspending on unnecessary features.