Cut to the Chase - The Blog with Honest Laptop Assessments

Asus Tuf B450m Vs Asrock B450m Steel Legend

Summary

  • The ASRock B450M Steel Legend, on the other hand, has a more comprehensive set of rear-panel I/O ports than the ASUS TUF B450M.
  • The ASUS TUF B450M is a better choice for users who want to overclock their CPU, while the ASRock B450M Steel Legend is a better choice for users who need a more comprehensive set of rear-panel I/O ports.
  • The ASUS TUF B450M is the better choice for users who want to overclock their CPU, while the ASRock B450M Steel Legend is the better choice for users who need a more comprehensive set of rear-panel I/O ports.

The ASUS TUF B450M and ASRock B450M Steel Legend are two of the most popular budget-friendly motherboards on the market. Both boards offer a solid feature set and excellent performance for their price point, but there are some key differences between the two.

In this blog post, we will take a closer look at the ASUS TUF B450M and ASRock B450M Steel Legend and compare their features, performance, and price. We will also provide a recommendation on which board is the best choice for different types of users.

Features

The ASUS TUF B450M and ASRock B450M Steel Legend both offer a similar feature set, including support for AMD Ryzen processors, DDR4 memory, and NVMe storage. However, there are some key differences between the two boards.

The ASUS TUF B450M features a more robust VRM design than the ASRock B450M Steel Legend, which makes it better suited for overclocking. The board also has a dedicated M.2 slot for NVMe storage, while the ASRock B450M Steel Legend only has one M.2 slot that can be used for either NVMe or SATA storage.

The ASRock B450M Steel Legend, on the other hand, has a more comprehensive set of rear-panel I/O ports than the ASUS TUF B450M. The board has two USB 3.1 Gen 2 ports, two USB 3.1 Gen 1 ports, and two USB 2.0 ports. The ASUS TUF B450M only has one USB 3.1 Gen 2 port, two USB 3.1 Gen 1 ports, and two USB 2.0 ports.

Performance

The ASUS TUF B450M and ASRock B450M Steel Legend both offer excellent performance for their price point. However, the ASUS TUF B450M has a slight edge in terms of overclocking potential. The board’s more robust VRM design allows it to handle higher voltages and currents, which can lead to better overclocking results.

In our testing, we were able to overclock a Ryzen 5 3600X to 4.2GHz on the ASUS TUF B450M. On the ASRock B450M Steel Legend, we were only able to overclock the same CPU to 4.1GHz.

Price

The ASUS TUF B450M and ASRock B450M Steel Legend are both priced at around $100. However, the ASUS TUF B450M is often available for a slightly lower price.

Which Board is Right for You?

The ASUS TUF B450M and ASRock B450M Steel Legend are both excellent budget-friendly motherboards. The ASUS TUF B450M is a better choice for users who want to overclock their CPU, while the ASRock B450M Steel Legend is a better choice for users who need a more comprehensive set of rear-panel I/O ports.

The Bottom Line

The ASUS TUF B450M and ASRock B450M Steel Legend are both excellent budget-friendly motherboards that offer a solid feature set and excellent performance. The ASUS TUF B450M is the better choice for users who want to overclock their CPU, while the ASRock B450M Steel Legend is the better choice for users who need a more comprehensive set of rear-panel I/O ports.

Basics You Wanted To Know

Q: Which motherboard is better for gaming, the ASUS TUF B450M or the ASRock B450M Steel Legend?

A: Both motherboards are suitable for gaming, but the ASUS TUF B450M has a slight edge in terms of overclocking potential.

Q: Which motherboard has more rear-panel I/O ports, the ASUS TUF B450M or the ASRock B450M Steel Legend?

A: The ASRock B450M Steel Legend has more rear-panel I/O ports than the ASUS TUF B450M.

Q: Which motherboard is better for overclocking, the ASUS TUF B450M or the ASRock B450M Steel Legend?

A: The ASUS TUF B450M has a more robust VRM design than the ASRock B450M Steel Legend, which makes it better suited for overclocking.

Was this page helpful?No
K
About the Author