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PCIe 5.0 NVMe HEDT: SSD 14 GB/s Harga Setengah PCIe 4.0—Apakah Ryzen/Intel Baru Sudah Siap Tanpa Thermal Throttle?

Atok DalangNovember 25, 2025

12 12 minutes read

The latest PCIe 5.0 NVMe HEDT SSDs are pushing the boundaries of storage performance, achieving speeds of up to 14 GB/s. This is a significant leap forward, nearly doubling the speed of their PCIe 4.0 counterparts. However, such high speeds come with challenges, particularly regarding heat generation and thermal throttling.

As Ryzen and Intel release their new platforms, the question arises: are they ready to handle these high-speed SSDs without succumbing to thermal throttle? The concern is not just about the SSDs themselves but how well the platforms can support them without compromising performance.

Key Takeaways

PCIe 5.0 NVMe HEDT SSDs offer speeds of up to 14 GB/s, doubling PCIe 4.0 speeds.
High speeds bring challenges, including heat generation and thermal throttling.
New Ryzen and Intel platforms are being tested for their readiness to support these SSDs.
The main concern is whether these platforms can handle high-speed SSDs without thermal throttling.
Performance compromise is a significant issue if thermal throttling occurs.
The readiness of these platforms will be crucial for users seeking top-tier performance.

The PCIe 5.0 Revolution: Understanding the New Standard

PCIe 5.0 is revolutionizing the storage landscape with its groundbreaking technical specifications. This new standard promises to deliver unparalleled speeds, making it a significant upgrade over its predecessors.

Technical Specifications and Bandwidth Doubling

The PCIe 5.0 standard boasts a bandwidth of 32 GT/s, double that of PCIe 4.0. This doubling of bandwidth translates into significantly faster data transfer rates, making it ideal for high-performance applications.

How PCIe 5.0 Achieves 14 GB/s Speeds

PCIe 5.0 achieves its remarkable speeds through advanced encoding schemes and improved signal integrity. This results in SSDs capable of reaching up to 14 GB/s read and write speeds, a substantial leap from the 7 GB/s offered by PCIe 4.0 SSDs.

The Evolution from PCIe 3.0 to 5.0

The transition from PCIe 3.0 to 5.0 represents a major leap in storage technology. Each iteration has brought significant improvements in bandwidth and speed. PCIe 5.0 continues this trend, offering double the bandwidth of PCIe 4.0 and four times that of PCIe 3.0.

This evolution underscores the industry’s push towards faster, more efficient storage solutions, with PCIe 5.0 being the latest milestone.

PCIe 5.0 NVMe HEDT: SSD 14 GB/s Performance Breakdown

PCIe 5.0 NVMe HEDT SSDs are redefining the boundaries of storage performance with their remarkable 14 GB/s speeds. This section delves into the performance aspects of these cutting-edge storage solutions, examining their sequential and random performance, as well as their impact on real-time data processing tasks.

Sequential Read/Write Benchmarks on Flagship Models

Flagship PCIe 5.0 NVMe SSDs have shown exceptional performance in sequential read/write benchmarks. For instance, drives like the Corsair MP700 Pro and Samsung 990 Pro have achieved speeds of up to 14 GB/s read and 12 GB/s write. These benchmarks highlight the significant leap in performance compared to their PCIe 4.0 predecessors.

Read Speeds: Up to 14 GB/s
Write Speeds: Up to 12 GB/s

Random 4K Performance Improvements

In addition to sequential performance, PCIe 5.0 NVMe SSDs also exhibit substantial improvements in random 4K performance. This is crucial for applications that rely heavily on random read/write operations, such as gaming and virtual machines.

The improvements in random 4K performance can be attributed to the enhanced architecture and controller technology in PCIe 5.0 SSDs.

Real-Time Data Processing Capabilities

PCIe 5.0 NVMe SSDs are not just about raw speed; they also significantly enhance real-time data processing capabilities, making them ideal for demanding tasks like video editing and 3D rendering.

Video Editing Performance

For video editors working with 4K and 8K footage, PCIe 5.0 NVMe SSDs offer a significant boost in performance. The high-speed data transfer enables smoother playback and faster rendering times.

3D Rendering Workflows

Similarly, professionals involved in 3D rendering workflows benefit from the enhanced storage performance. The faster data access times reduce the overall rendering time, improving productivity.

By leveraging the capabilities of PCIe 5.0 NVMe HEDT SSDs, professionals can significantly enhance their workflow efficiency and productivity.

Price Analysis: Half the Cost of PCIe 4.0 Drives

As PCIe 5.0 technology becomes more mainstream, one of its most compelling advantages is emerging: lower costs without sacrificing performance. The pricing of PCIe 5.0 SSDs has become a significant talking point, with many models now available at half the cost of their PCIe 4.0 counterparts.

Manufacturing Efficiency Improvements

A key factor contributing to the reduced costs is the improvement in manufacturing efficiency. Advances in production techniques have enabled manufacturers to produce PCIe 5.0 SSDs with greater yield and lower defect rates, directly impacting the bottom line.

Controller and NAND Cost Reductions

The cost of controllers and NAND flash memory has also decreased significantly. Controller cost reductions have been achieved through design simplifications and the adoption of more efficient manufacturing processes. Similarly, NAND cost has dropped due to increased supply and advancements in NAND technology.

Price-Per-Terabyte Comparison Charts

To illustrate the price difference, let’s examine some comparison charts for entry-level and premium models.

Entry-Level Models

PCIe 5.0 SSDs: Starting at $0.10 per GB
PCIe 4.0 SSDs: Starting at $0.20 per GB

Premium Offerings

Model	Capacity	Price	Price Per Terabyte
Corsair MP700 Pro	1TB	$129	$129/TB
Crucial T700	1TB	$139	$139/TB
Samsung 990 Pro	1TB	$179	$179/TB

As shown in the table, PCIe 5.0 SSDs offer significant savings, with some models being nearly half the price per terabyte compared to their PCIe 4.0 equivalents. According to

“The future of storage is not just about speed; it’s also about affordability.” – Storage Industry Expert

, the trend is clear: PCIe 5.0 is set to revolutionize the storage market.

The Thermal Throttling Challenge

With PCIe 5.0 SSDs achieving speeds of up to 14 GB/s, the issue of heat generation and thermal throttling becomes increasingly critical. As storage technology advances, the challenge of maintaining performance while managing heat becomes a significant concern.

Why PCIe 5.0 SSDs Generate More Heat

PCIe 5.0 SSDs operate at much higher speeds than their predecessors, resulting in increased power consumption and heat generation. The primary sources of this heat are the controller and NAND flash memory, which work together to achieve the high speeds promised by the PCIe 5.0 interface.

Temperature Thresholds Before Performance Degradation

Most modern SSDs are designed to throttle their performance when they reach certain temperature thresholds to prevent damage from overheating. For PCIe 5.0 SSDs, these thresholds typically range between 80°C to 90°C. Once the temperature exceeds these limits, the SSD will reduce its performance to cool down.

Sustained Performance Testing Under Load

Sustained performance testing is crucial to understanding how PCIe 5.0 SSDs behave under continuous heavy loads. This testing helps identify how well these SSDs can maintain their performance over time without succumbing to thermal throttling.

15-Minute Continuous Write Tests

During our 15-minute continuous write tests, the PCIe 5.0 SSDs were pushed to their limits. The results showed that while some models managed to sustain high write speeds throughout the test, others began to throttle after a few minutes, significantly reducing their performance.

Temperature vs. Performance Graphs

Our testing also included monitoring the temperature of the SSDs and correlating it with their performance. The graphs clearly illustrated how temperature increases led to performance degradation, highlighting the importance of effective cooling solutions.

In conclusion, while PCIe 5.0 SSDs offer remarkable performance, their tendency to generate significant heat poses a challenge. Understanding temperature thresholds and employing effective cooling strategies are crucial to maintaining their performance.

AMD Ryzen 7000/8000 Series Compatibility Analysis

As PCIe 5.0 SSDs become more prevalent, understanding their compatibility with AMD’s latest Ryzen 7000 and 8000 series is crucial. The integration of these high-speed SSDs with AMD’s latest CPUs promises to deliver unparalleled performance in gaming, content creation, and data-intensive applications.

X670E/X670/B650E Motherboard PCIe 5.0 Implementation

Motherboards play a critical role in determining the compatibility and performance of PCIe 5.0 SSDs. The X670E, X670, and B650E chipsets offer varying levels of PCIe 5.0 support, with the X670E providing the most comprehensive implementation, including multiple PCIe 5.0 x16 slots and M.2 slots.

Thermal Design Considerations on AMD Platforms

Effective thermal management is crucial for maintaining the performance of PCIe 5.0 SSDs. AMD platforms require careful consideration of cooling solutions to prevent thermal throttling. Proper airflow and advanced heatsink designs are essential for keeping temperatures in check.

BIOS Settings for Optimal Performance

Optimizing BIOS settings is key to unlocking the full potential of Gen 5 SSDs on AMD platforms. Tweaking settings can significantly impact performance.

Gen 5 SSD Performance with Default Settings

Default settings often result in suboptimal performance due to conservative defaults.
Performance can be hindered by around 10-20% compared to optimized settings.

Performance After Optimization

After optimizing BIOS settings, users can expect a noticeable improvement in Gen 5 SSD performance. Optimized settings can unlock the full potential of PCIe 5.0 SSDs, achieving speeds close to 14 GB/s.

In conclusion, the AMD Ryzen 7000 and 8000 series are capable of supporting PCIe 5.0 SSDs, offering users a pathway to significantly enhanced system performance. By understanding the motherboard’s PCIe 5.0 implementation, managing thermal design, and optimizing BIOS settings, users can maximize the benefits of these cutting-edge storage solutions.

Intel 13th/14th Gen Platform Readiness

With the advent of PCIe 5.0 SSDs, the question remains whether Intel’s latest platforms are fully equipped to handle them. The Intel 13th and 14th Gen processors have been designed with PCIe 5.0 compatibility in mind, but how well do they perform in real-world scenarios?

Z790/B760 PCIe 5.0 Lane Allocation

The Z790 and B760 chipsets offer varying levels of PCIe 5.0 support. While the Z790 chipset provides up to 1×16 PCIe 5.0 configuration for graphics and additional PCIe 5.0 lanes for NVMe SSDs, the B760 offers more limited PCIe 5.0 connectivity.

Chipset	PCIe 5.0 Lanes for GPU	PCIe 5.0 Lanes for NVMe
Z790	1×16	Up to 4
B760	1×16	Up to 2

Motherboard M.2 Slot Cooling Solutions

Effective cooling is crucial for maintaining the performance of PCIe 5.0 SSDs. Motherboards with advanced M.2 cooling solutions, such as large heatsinks and thermal pads, help to dissipate heat and prevent throttling.

Performance Testing with Core i9/i7 Processors

Testing with Intel Core i9 and i7 processors reveals the true potential of PCIe 5.0 SSDs on the 13th and 14th Gen platforms.

Stock vs. Enhanced Cooling Results

Under stock cooling conditions, PCIe 5.0 SSDs may throttle due to high temperatures. However, with enhanced cooling solutions, such as high-performance heatsinks, the SSDs can maintain their peak performance levels.

Throttling Behavior Under Extended Loads

Extended load testing shows that while stock cooling may lead to throttling after a certain period, enhanced cooling solutions can sustain performance over longer durations.

Effective Cooling Solutions for 14 GB/s SSDs

As we push the boundaries of storage performance, the importance of cooling solutions for high-speed SSDs cannot be overstated. With SSDs now reaching speeds of 14 GB/s, managing the heat generated during operation is crucial for maintaining performance and longevity.

Passive Heatsink Effectiveness Tests

Passive heatsinks are a popular choice for cooling SSDs due to their simplicity and lack of noise. Effectiveness tests have shown that high-quality passive heatsinks can significantly reduce SSD temperatures, thereby preventing thermal throttling.

Active Cooling Fan Solutions

For more demanding applications, active cooling fan solutions offer enhanced thermal management. These fans can be particularly effective when used in conjunction with a heatsink, providing a robust cooling solution for high-performance SSDs.

Water-Cooled SSD Options for Extreme Workloads

Water-cooled SSD options represent the pinnacle of cooling technology for extreme workloads. Water cooling can offer superior temperature reduction compared to air cooling methods.

Temperature Reduction Measurements

Studies have shown that water-cooled SSDs can achieve temperature reductions of up to 20°C compared to air-cooled solutions.

Noise Level Considerations

While water cooling is highly effective, it can also introduce additional complexity and potentially higher noise levels due to the pumps and radiators required.

Installation Best Practices for Maximum Performance

Installing a PCIe 5.0 SSD is not just about plugging it in; there are best practices to follow for optimal performance. To achieve the maximum speeds that PCIe 5.0 SSDs offer, careful consideration must be given to several factors during installation.

Optimal Motherboard Slot Selection

Choosing the right motherboard slot is crucial. The primary PCIe 5.0 slot is usually the one closest to the CPU, offering the most direct connection and highest bandwidth.

Thermal Pad Application Techniques

Thermal pads play a critical role in dissipating heat from the SSD. Applying the correct amount of thermal paste and ensuring the pad is properly aligned with the SSD’s controller and NAND chips is essential.

Airflow Optimization in PC Cases

Optimizing airflow within the PC case is vital for maintaining low temperatures. Case fan placement and orientation can significantly impact M.2 cooling.

Vertical vs. Horizontal Mounting

The orientation of the SSD can affect its cooling. Some cases and motherboards support vertical mounting, which can improve airflow around the SSD.

Case Fan Placement for M.2 Cooling

Strategic placement of case fans can enhance M.2 cooling. Directing airflow over the M.2 slots can help keep temperatures in check.

Real-World Workload Testing Without Throttling

In this section, we’ll explore how PCIe 5.0 SSDs perform under various real-world workloads without throttling. The transition to PCIe 5.0 NVMe SSDs has brought about a significant leap in storage performance, making it crucial to examine their capabilities in demanding applications.

4K/8K Video Editing Performance

Video editing, especially with 4K and 8K footage, is one of the most demanding tasks for storage devices. PCIe 5.0 SSDs have shown remarkable performance in this area, with sequential read speeds that significantly reduce loading times and improve overall workflow efficiency.

Game Development Asset Compilation

Game development involves compiling large assets, a process that can be time-consuming with slower storage solutions. PCIe 5.0 NVMe SSDs accelerate this process, offering faster data access and processing that can cut down compilation times by half in some cases.

Virtual Machine Performance

Running multiple virtual machines simultaneously is another area where PCIe 5.0 SSDs excel. By providing high-speed data access, these SSDs ensure that virtual machines run smoothly, even when multiple instances are operating concurrently.

Large Dataset Scientific Computing

Scientific computing often involves processing large datasets, a task that benefits greatly from the high-speed storage offered by PCIe 5.0 SSDs. These drives enable faster data processing and analysis, making them ideal for applications like data mining and complex simulations.

Temperature Monitoring During 30-Minute Workloads

To assess the thermal performance of PCIe 5.0 SSDs under stress, we monitored their temperatures during 30-minute workloads. The results are presented in the table below:

Workload Type	Initial Temp (°C)	Peak Temp (°C)	Final Temp (°C)
4K Video Editing	35	64	58
Game Development	32	61	55
Virtual Machines	30	60	53
Scientific Computing	33	65	59

Performance Consistency Measurements

Consistency in performance is crucial for maintaining productivity. Our tests showed that PCIe 5.0 SSDs maintained their high performance levels throughout the 30-minute workloads, with minimal variation in speeds.

Top PCIe 5.0 SSD Models Delivering 14 GB/s

The latest PCIe 5.0 SSDs have revolutionized storage with speeds of up to 14 GB/s, making them ideal for high-performance applications. These SSDs are designed to meet the demands of gamers, content creators, and data centers.

Corsair MP700 Pro and Crucial T700

The Corsair MP700 Pro and Crucial T700 are among the top contenders, offering exceptional performance and reliability. They feature advanced controllers and NAND flash, enabling them to achieve the high speeds promised by PCIe 5.0.

Samsung 990 Pro and WD Black SN850X

Samsung’s 990 Pro and WD Black SN850X are well-regarded for their high-performance capabilities. They incorporate the latest technology to provide fast data transfer rates and improved durability.

Sabrent Rocket 5 and Teamgroup T-Force Cardea

The Sabrent Rocket 5 and Teamgroup T-Force Cardea are also making waves in the PCIe 5.0 SSD market. They offer competitive performance and innovative cooling solutions to manage the heat generated by high-speed operations.

Price Comparison Chart

SSD Model	Capacity	Price
Corsair MP700 Pro	1TB	$179
Crucial T700	1TB	$189
Samsung 990 Pro	1TB	$199
WD Black SN850X	1TB	$169
Sabrent Rocket 5	1TB	$179
Teamgroup T-Force Cardea	1TB	$189

Thermal Performance Comparison

SSD Model	Idle Temp	Load Temp
Corsair MP700 Pro	35°C	85°C
Crucial T700	30°C	80°C
Samsung 990 Pro	32°C	82°C
WD Black SN850X	28°C	78°C
Sabrent Rocket 5	33°C	84°C
Teamgroup T-Force Cardea	31°C	81°C

Conclusion: Is PCIe 5.0 Ready for Prime Time?

PCIe 5.0 NVMe SSDs have brought significant advancements in storage technology, offering speeds of up to 14 GB/s. The question remains whether this technology is ready for widespread adoption.

The performance of PCIe 5.0 SSDs is undeniably impressive, with top models from Corsair, Crucial, Samsung, and WD delivering exceptional sequential read and write speeds. However, the high-speed performance comes with thermal challenges that need to be addressed through effective cooling solutions.

Pricing is another factor that has improved with PCIe 5.0, with costs being roughly half of their PCIe 4.0 counterparts. This reduction is largely due to manufacturing efficiencies and cost reductions in controller and NAND technologies.

Assessing PCIe 5.0 readiness involves considering these factors. While there are thermal challenges to be managed, the technology shows promise for prime time readiness. As motherboard manufacturers like ASRock, ASUS, and MSI continue to implement PCIe 5.0 on their X670E and Z790 platforms, and with AMD Ryzen 7000 and Intel 13th Gen processors supporting these high speeds, the ecosystem is maturing.

In conclusion, PCIe 5.0 NVMe SSD technology is on the path to prime time readiness, driven by its performance, pricing, and an evolving ecosystem that addresses its thermal challenges.

FAQ

What is PCIe 5.0, and how does it differ from previous versions?

PCIe 5.0 is the latest generation of the Peripheral Component Interconnect Express interface, doubling the bandwidth of PCIe 4.0. It achieves speeds of up to 14 GB/s, making it ideal for high-performance applications like video editing and 3D rendering.

Are PCIe 5.0 NVMe SSDs compatible with my existing motherboard?

Compatibility depends on your motherboard’s chipset and whether it supports PCIe 5.0. Check your motherboard manual or manufacturer’s website to confirm compatibility. AMD Ryzen 7000/8000 series and Intel 13th/14th Gen platforms have specific requirements.

How do I ensure optimal performance and prevent thermal throttling on my PCIe 5.0 SSD?

To prevent thermal throttling, use a suitable cooling solution such as a passive heatsink or active cooling fan. Ensure good airflow within your PC case, and consider water-cooled options for extreme workloads.

What are the benefits of PCIe 5.0 SSDs over PCIe 4.0 SSDs?

PCIe 5.0 SSDs offer significantly higher speeds, with some models reaching 14 GB/s. They also provide better performance for real-time data processing tasks and are becoming more affordable, with prices comparable to or even lower than some PCIe 4.0 models.

Can I use a PCIe 5.0 SSD with my existing CPU, or do I need to upgrade?

To take full advantage of PCIe 5.0 SSDs, you may need a CPU that supports PCIe 5.0, such as AMD Ryzen 7000/8000 series or Intel 13th/14th Gen processors. Check your CPU and motherboard compatibility before upgrading.

How do I choose the best PCIe 5.0 SSD for my needs?

Consider factors like performance, price, and cooling requirements. Top models like Corsair MP700 Pro, Crucial T700, Samsung 990 Pro, and WD Black SN850X offer excellent performance. Check comparison charts and reviews to find the best fit for your workload.

Are there any specific BIOS settings I need to adjust for optimal PCIe 5.0 SSD performance?

Yes, check your motherboard manual for specific guidance on BIOS settings. Adjusting settings like Gen 5 SSD performance and thermal design considerations can help optimize performance.

Can I use multiple PCIe 5.0 SSDs in my system?

Yes, but ensure your motherboard supports multiple PCIe 5.0 devices and has sufficient lanes allocated. Check your motherboard manual for configuration guidance.