How many SSDs can a PC have? (With Maximum Limits)

Typically, you could fit anywhere from 2 to 6 SSDs, mixing and matching between the super-fast NVMe SSDs and the standard SATA SSDs.

However, the exact number of SSDs you can hook up to your PC really boils down to your motherboard’s layout and the types of SSDs you’re eyeing.

Things that Influence the SSD Quantity

There are quite a few elements that can underline the nature of the SSD count. Here are the ones I am talking about:

Motherboard Limitations

Your motherboard is basically the boss when it comes to how many SSDs your PC can handle.

Here’s the lowdown:

The chipset and CPU are like the heart and brain of your PC’s ability to handle SSDs. The chipset acts as a central hub, directing traffic and determining how many PCIe lanes and SATA ports you’ve got for SSDs.

A beefier chipset usually means more lanes and ports, which translates to more SSDs. These bad boys come packed with extra lanes and ports, so if you’re aiming for a PC that can handle a lot of SSDs, aim for a high-end chipset.

More lanes and ports also mean more room for those speedy SSDs.

Picking a powerful CPU, like an Intel Core i9, isn’t just about brute processing power; it also ups the number of PCIe lanes available. This means more direct highways for your NVMe SSDs, which can seriously speed things up.

So, when you’re planning out your PC build, think about what your motherboard can hold in terms of chipset and CPU capabilities. This will guide you in understanding just how many SSDs you can deck out your rig with. If you’re dreaming of a super-fast, multiple SSDs setup in a PC, make sure your core components can support that SSD hunger!

Now you may be asking: How do I know how many SSD slots My PC has? Here’s how—

  1. Check the motherboard manual first. There you will find details specific to the number of SATA ports and PCIe lanes.
  2. Visit the manufacturer’s website to look for your motherboard model. This will help track the specs, storage, and expansion options.
  3. You can also find key insights about the motherboard by visiting online review forums.
  4. Finally, there are tons of software tools like HWInfo and CPU-Z for you to be able to find port and lane-related information.

Power Supply

SSDs consume power. Therefore, if the motherboard analysis is sorted and you have a power supply in focus, here is how you can calculate the number of possible SSDs:

  • Count your SSDs: Start by figuring out how many SSDs you want to install.
  • Calculate power consumption: Next, multiply the number of SSDs by their average power consumption. For example, a typical 2.5-inch SATA SSD might use about 2 to 3 watts, while an NVMe SSD can use around 5 to 7 watts when active.
  • Sum up other components: Don’t forget about the other parts of your PC. Add the power requirements of your GPU, CPU, RAM, and any other significant components. Each part of your setup contributes to the total power draw.
  • Check your power supply: Now, take the total estimated power consumption and compare it to what your power supply unit (PSU) can deliver. Ensure that your PSU not only meets this total but exceeds it by at least 20%. This overhead is crucial as it ensures your system isn’t running at full capacity all the time, which can improve efficiency and longevity.

For instance, if your total system power requirement comes to 300 watts, you’ll want a PSU that can provide at least 360 watts (300 watts + 20% overhead). This safety margin helps deal with peak loads and maintains a healthy buffer to prevent strain on your power supply.

So, before you go SSD shopping, make sure your PSU is up to the task. This will keep your system stable and ensure that all your components have enough juice to perform at their best.

A good power supply can offer:

  • Consistent performance
  • Protection against data loss
  • Extension of SSD lifespan

Picking the right PSU for your SSD (s) is crucial. Here is what you can do:

  1. Choose a PSU from a reliable brand.
  2. Monitor the power usage at all times
  3. Check if the PSU you pick has 80 PLUS certification or not

Expansion cards

If you want to increase the number of SSDs on the PC, including expansion cards can help. Here are the pros and cons of this approach:

Pros

  • Adds more slots with minimal effort
  • Versatile approach and is motherboard compatible
  • Cost-effective solution
  • Easy to install

Cons

  • Extra cost
  • Limited bandwidth if the shared PCIe lanes aren’t managed peacefully
  • Compatibility issues
  • Additional power needs

Here is how you can add additional M.2 slots and PCIe lanes:

  • Expansion cards support the addition of multiple M.2 slots, making room for two different SSDs in a PC. This can take care of the major compatibility concerns.
  • Some cards can also support the addition of PCIe lanes. This option is useful if the motherboard only hosts limited lanes.

Note that if you ever max out your SSD capacity, you can rely on expansion cards.

SATA Port Multipliers

It might be disconcerting to find only one SATA drive on your motherboard. Well, SATA port multipliers can change that by helping split the bandwidth of one power across multiple drives.

They take a single SATA port on your motherboard and multiply it, allowing you to connect multiple drives to that one port. It’s like turning a single electrical outlet into a power strip, giving you the ability to plug in more devices.

With a port multiplier, you can expand one SATA port to support additional drives—typically anywhere from 4 to 8. This is a significant boost if you’re looking to increase your system’s maximum capacity of SSD storage but are stuck with a limited number of onboard SATA ports.

Pros

  • Cost-effective
  • Simple to use
  • Increases connections

Cons

  • Performance hits due to shared bandwidth are common if you install too many SSDs in your PC
  • There can be compatibility issues with a SATA port multiplier if you haven’t checked the same earlier.