One of the most frequently asked questions is, "How can I make my computer faster?". It may seem like a simple question but does not have a simple answer. Let's look at how you can make your computer faster by upgrading the hardware.

In previous articles, I have discussed how to use software to speed up a computer. This time, I will talk about how to get a computer run faster by upgrading the hardware.

Now, when it comes down to what makes a computer fast, it boils down to how quickly all the different components process data. Let's look at all of the parts of a computer that affect the speed and see what we can upgrade.

Note: Some of these upgrades may require complicated disassembly of your computer. If you are uncomfortable performing any of these upgrades, don't hesitate to contact a local computer repair company.

Motherboard

The motherboard has the most bearing on the performance of a computer. The motherboard bus oversees the transfer of data between the various components. The faster the bus speed, the quicker the data travels through the motherboard.

The motherboard has the most bearing on the performance of a computer. The motherboard bus is what oversees the transferring of data between the various components. The faster the bus speed, the quicker the data travels through the motherboard.

The motherboard bus connects the Central Processor Unit (CPU) to the Northbridge and Southbridge chipsets. The Northbridge handles the graphics bus and memory bus. The Southbridge handles all of the Input/Output (I/O) components, such as SATA and M.2 drives, USB ports, onboard audio, and network adapter. And the speed of the CPU and memory are based on multiplying the bus speed.

Upgrading your motherboard

This is one upgrade that requires serious consideration. If you have a laptop, all-in-one, or a brand name desktop computer (like Dell or HP), a motherboard upgrade is impossible. Only machines that use off-the-shelf components can have the motherboard upgraded.

The first thing to think about is your existing hardware. Will the CPU and memory work on a new motherboard? You would probably get better performance if you upgraded the CPU and memory at the same time.

The second thing to think about is software. When you install Windows, it creates a unique product key that is specific to your computer. It generates this code using the serial numbers from the different components and the MAC address from the network adapter(s).

When you replace the motherboard and connect your existing boot drive, Windows will find the new hardware and install drivers from the built-in driver library. Once you log on, you will need to check the Windows activation status. If you need to reactivate Windows, follow the instructions in the following article.

Reactivating Windows after a hardware change

Technically speaking, you can upgrade any component that attaches to the motherboard without having to reactivate Windows. Change out the motherboard, and Microsoft sees that as a whole new computer. It is in the EULA (End User License Agreement).

So upgrading the motherboard maybe out of the question. But there are a few other components that you can improve to get better performance from your computer.

CPU

Upgrading a CPU is an excellent way of gaining some speed on a desktop computer. Sorry laptop owners, the majority of laptop computers have the CPU soldered to the motherboard. The same holds for some all-in-one systems, too.

Upgrading your CPU

If you are thinking about upgrading the CPU on your motherboard, you will need to do some research. The first thing to do is find the manual/specifications for your motherboard. It would be best if you found out what CPU socket type it has. For example, Intel CPUs use LGA 1151, LGA 2066, etc. socket types, and AMD CPUs use sTRX4, AM4, etc. socket types.

The second thing you will need to do is verify with the motherboard manufacturer what CPUs the BIOS (Basic Input/Output System) supports. Installing a new CPU may require updating the BIOS firmware. And you will need to do this before installing a new CPU.

All of this information should be easy to find on the manufacturer's website. If you can't find it, give them a call. Once you have a list of supported CPUs and the BIOS versions to run them, you should be ready to go.

Remember to get some thermal compound when you order the new CPU. Since the general rule of thumb is that thermal compound has a average life span of three (3) years, its best to go ahead a clean off the existing thermal compound from both the old CPU and the base of the cooler/pump and apply some new compound to the new CPU and then reinstall the cooler.

Memory

Upgrading the memory in a computer has always been the biggest bang for the buck. This applies to all types of machines: laptops, desktops, and all-in-ones. And the majority of the time, it is pretty simple.

I usually recommend looking at the existing memory and seeing how to get the maximum amount in the computer. This time around, I recommend looking at the speed of the current memory, and if you can install faster memory.

Installing faster memory could mean having to replace all of the existing memory modules. But doing that would make your computer run faster. Remember that you can not mix memory of different speeds; they all have to be at the same speed and clock timings.

Upgrading your memory

There are three things you will need to find out. The first and most important thing is the type of memory your computer takes. The majority of computers nowadays can use memory that runs at different speeds. Remember that the memory speed is a multiple of the motherboard bus speed.

The second is memory slots: how much memory can each handle, and how many does your computer have. Again, you can find all this information in the motherboard/system manual. It would be best if you were able to find these on the manufacturer's website.

The third is how to access the memory slots. Getting to the memory slots in a desktop is pretty straightforward. Laptops and all-in-one systems may be tricky. I have seen some MSI laptops that had to be completely disassembled to access all of the memory slots.

For more details on memory upgrades, check out the following article.

How to upgrade or add more memory to your computer

Drives

Having a drive that has a fast transfer rate will make a difference in the speed of a computer. Merely upgrading from a Hard Disk Drive (HDD) to a Solid State Drive (SSD) can be a game-changer. You would be amazed at the difference in performance between them.

Now HDDs and some SSDs use a SATA connection on the motherboard. The standard SATA connection has a transfer rate of up to 6 Gigabits per second. An HDD doesn't come close to that transfer rate, but most SSDs do.

And then there is the M.2 drive. It does require a particular slot on the motherboard, as it requires direct channels to the Southbridge chipset. But the transfer rate of 32 Gigabits per second will blow your socks off.

Of all these recommendations for making your computer faster, this procedure will take the most time. Depending on the upgrade route you choose, the total time can be a few hours to a couple of days.

Upgrading your drive

There are two ways of upgrading your primary boot drive; cloning the existing drive or a fresh installation of the operating system. Each of them has its pros and cons.

Cloning your existing drive

• Pros: This can be the fastest way of upgrading your drive, and you do not have to reinstall the operating system and programs.
• Cons: You may run into a problem with resizing partitions and getting your computer to boot correctly from the new drive.

There are two ways to go about cloning a drive: disk-to-disk or disk-to-image / image-to-disk. If you have a desktop computer, you can do either type of drive cloning. If you have a laptop or an all-in-one computer, cloning to an image is the only option. And if you are upgrading from a SATA to an M.2 drive, cloning to an image is recommended.

For more details on disk cloning, check out the following article.

How to upgrade the hard drive in your computer

Fresh (clean) installation

• Pros: You get a brand-new operating system and programs with that right-out-of-the box experience
• Cons: This can take some time to get all of the software installed and personal files restored

This is the most time consuming of the two cloning procedures, but it has some significant advantages. What will take the most time is finding all of the software that you will want to reinstall. For more information on performing a clean installation of Windows, check out the following article.

How to perform a clean installation of Windows 11

How to perform a clean installation of Windows 10

Being a computer technician, there is one question that I seem to get asked more than any other: "I am looking for a new computer. What do you recommend?". I then spend several minutes (sometimes hours) discussing the various computer configurations. So here is a list of things to look for when buying a new computer.

When it comes to computers, you can get them in hundreds of different configurations. Should you get a laptop or a desktop? Or maybe an all-in-one? These are some of the questions you must ask yourself when looking to get a new computer.

So, I thought I would take the time to share with you what I usually tell my customers. So grab something to drink and a pen and paper to take notes. This might be a long article.

Computer: Should I get a laptop, desktop, or all-in-one?

This question is quickly answered with the Form Follows Function principle. If you need to use your computer in different locations, you will need to get a laptop. If you are going to use your computer in just one place, then a desktop or all-in-one should fill the bill.

Laptops

If you are thinking about getting a laptop computer, there are a few things to keep in mind. If you take a few precautions with your laptop, it can last a long time. I have a netbook that is over ten (10) years old and still looks and runs like it's brand new.

Since laptops are portable, they tend to get damaged more often than desktops or all-in-one computers. The most common damage I see is broken hinge mounts and liquid spills. In over twenty years of repairing laptops, I have only seen one broken hinge; it's always the mounting points that fail.

Once liquid enters a laptop, it will run whereever gravity takes it. And no matter how well you dry it out, some damage will eventually appear. And I am just talking about water here as other liquids, such as wine or juice, contain sugars and acids.

I once had a laptop in the shop that had wine spilled on it. When I started disassembling it, I noticed that the flat cables used to connect the different components inside the laptop had begun to deteriorate. The wires were dissolving from the acidity in the wine.

Desktops

Desktop computers have been the mainstay of the computer form for decades, and they are the preferred style of a computer for business use. With external connections for USB devices, monitors, wired networking, and audio, the configurations are endless.

However, desktop computers come in different forms and are not all created equal. For example, standard ATX, Mini-ATX, and ITX (motherboard form factor) based desktop computers use IEEE (Institute of Electrical and Electronics Engineers) form standards for computer components.

What this means is that internal components such as power supplies, hard drives, graphic cards, and memory modules are all the same for each of these styles of desktop computers.

And then there is the SSF (Small Form Factor) desktop computer. These use the same style of memory modules as standard desktop systems but use low-profile expansion cards, like graphics cards.

SSF systems also use smaller and lower output power supplies, usually explicitly made to the computer manufacturer's specifications. The lower output power supplies can be an issue when upgrading components.

For example, a customer wanted to upgrade the memory and graphics card in an SSF computer, but it only had a 250-watt power supply. Since everything inside of a computer takes wattage, including memory, I ended up having to find a low-profile graphics card that used under 30 watts of power.

However, some desktop computers have a downside, which is the case's size. Gaming computers usually have huge cases to accommodate cooling fans and liquid CPU coolers. High-power systems generate a relatively large amount of heat.

And, of course, if you are going to have multiple monitors, those will take up a good amount of space, too. I built a system for a customer with six (6) monitors, two rows of three. The system was almost eight (8) feet wide with the monitor array, desktop computer, keyboard, and mouse.

All-in-one

This style of computer is excellent for people that do not have room for separate components (a computer and a monitor). You can get a pretty-good size screen and all of the connections (USB ports, wired network port, and sometimes an external monitor port).

Now, all-in-one computers come with and without touch screen functions. When it comes to touch screens, you have to remember that you will be extending your arm out to use it.

This can make your shoulder hurt after using it for an extended amount of time. You have to ask yourself if getting the touch screen feature is worth the additional cost.

There is also a little-known secret about all-in-one computers that nobody tells you about: they are hybrid systems. Quite simply, they are a combination of laptop and desktop components.

I have worked on quite a few all-in-one computers and found some will use laptop-style memory & drives, some will use desktop-style memory and drives, and some a combination of both.

And heaven forbid you have to replace the screen in an all-in-one computer. Most of the time, you have to completely disassemble them to get the exact model number of the display.

The last all-in-one computer I worked on had six (6) different possible model numbers for the replacement display. It depended on what company had supplied the screen for the system when it was built.

Drive(s): HDD, SSHD, or SSD?

When you are shopping for a new computer, a lot of times, the description you get from the seller lacks some specific details. Sure they will tell you how much storage the machine has, but do they tell you what kind of drive the storage is?

For low-priced computers, sellers will usually just say something like, 'XXXGB's of storage can hold a gazillion photos'. It is only when you get into the mid to upper price range that sellers start to tell you what kind of storage a computer has (HDD, SSD, etc.). So the first thing I want to do is explain the different types of drives.

HDD (Hard Disk Drive)

HDDs offer larger capacity at a lower cost but have a slower read/write speed. HDDs are perfect for the average computer user who just wants to surf the web, check e-mail, and store photos from their phone. They come in two (2) different forms, 2.5" and 3.5", and connect to the computer using a SATA (Serial AT Attachment) interface, which determines the input/output speed. The upside to HDDs is that when they start to fail, you usually get some type of warning and have time to transfer/recover data from them.

SSHD (Solid State Hybrid Drive)

SSHDs offer the capacity of HDDs with faster read / write speed. As the name implies, these drives are hybrid, which means they are a combination of spinning disk(s) and flash memory. The memory acts as a cache for the data stored on the disk(s). As you use these drives, they learn where the most frequently used data is stored and can access it more quickly than a standard HDD. SSHDs also come in two (2) different forms, 2.5" and 3.5", and connect to the computer using a SATA interface. The downside of SSHDs is that when they fail, it is usually the memory portion of the drive that dies. This makes transferring/recovering the data stored on it a little more complicated but possible.

SSD (Solid State Drive)

SSDs offer extremely fast read/write speeds but can be on the expensive side for larger capacities. SSDs are a collection of flash memory chips and make no noise when running. They are also more resistant to shock and are a better choice for laptop computers. SSDs also come in multiple different forms and interfaces. Regarding SSDs, the most important thing to look for is the interface it uses. It is the interface that determines the read/write speed. SATA interfaces can have a transfer rate of 6GB per second. M.2 interfaces can have a transfer rate of 32GB per second. The downside of SSDs is when they fail, it is tough to recover the data stored on them. So if the computer you are looking at buying has an SSD, perform a regular backup of it.

A good rule of thumb when determining what type of drive a computer might have is to remember that if the size is under 500GB, it is probably an SSD. Drive manufacturers no longer make HDDs or SSHDs smaller than 500GB. Now that we have covered the types of drives let us take a quick look at how they can be used and configured.

Single-drive computers - All-in-one computers and low-priced desktops and laptops usually have only one drive. Also, ultra-thin laptops often have either one thin profile HDD, SSHD (7MM SATA) or SSD (7MM SATA or M.2) drive.

Multiple drive computers - Mid to high-priced desktop and laptop computers can come with numerous drives. You usually see gaming computers with multiple drives that have a smaller, 500GB to 1TB SSD (usually an M.2) for the operating system/programs and a larger HDD, 2TB or larger, for data storage.

I have seen some gaming computers with two (2) SSDs set up in a RAID (Redundant Array of Inexpensive Disks) 0/1 configuration. These are rare, but they are on the market. So keep your eye out for them.

While we are on the subject of multiple drive configurations, we need to talk about Intel Optane. You may see Intel Optane listed as part of the storage specification on a new computer.

Now, Intel Optane is similar to the flash memory inside SSHD drives. It can cache the most frequently used files and programs on a drive that it is paired with and speed up reading and writing to that drive. Intel Optane uses an M.2 interface and works best when paired up with a drive, either an HDD or SSD, that uses a SATA interface.

Intel Optane will not improve the performance of drives that use an M.2 interface. I had a customer who had me set up an Intel Optane device paired with an M.2 SSD. Believe it or not, the read-and-write performance went down. Definitely not a good choice.

Processor: What brand and type should I get?

There are two main CPU (Central Processing Unit) manufacturers, AMD and Intel, and both have pros and cons. Intel CPUs usually are a little bit more expensive, and AMD CPUs are infamous for being able to be over-clocked.

All modern CPUs have multiple processing units called cores. The more cores a CPU has, the more data it can process at one time. Then, you have the frequency (speed) at which the CPU processes the data.

But since most CPU's run at a frequency between 3 GHz and 5 GHz, the amount of time you gain using a 5 GHz CPU over a 3 GHz CPU is kind of irrelevant. So it comes down to how many cores do you need.

Using Intel CPUs as an example, the basic Intel I3 processor has two cores and works well for running one program at a time, like e-mail, writing documents, and surfing the Internet. However, it does not work very well when you try multi-tasking with Adobe Photoshop and Autodesk Revit.

On the other end of the Intel CPUs, you have the Intel I9 processor line, which can have up to 10 cores. These processors can handle running multiple programs simultaneously and are the preferred CPU for 3D rendering. But remember, the more cores a processor has, the more money it costs.

Memory: How much should I get?

When it comes to the amount of memory you should get in a new computer, it just comes down to the question, "What are you going to use your computer for?".

The first thing you have to take into consideration is the operating system. Every computer nowadays has a 64-bit processor, and the operating system uses a portion of the memory just for itself.

For example, a 64-bit version of Windows 11 requires 2 Gigabytes of memory just for itself. That doesn't include any other programs. If your computer does not have a separate GPU (Graphic Processor Unit), then the onboard IGPU (Integrated Graphics Processing Unit) would also use some of the system memory.

The bare minimum amount of memory I recommend is 8 Gigabytes, but 16 or 32 Gigabytes is more of a standard amount. 64 gigabytes and higher is nice, but it will add more to the cost of the computer.

Video/graphics card: What should I look for?

Here again, it is all about what you are going to use your computer for. Each type of computer (laptop. desktop and all-in-one) has its pros and cons when it comes to graphics.

All-in-one systems are meant for everyday computing, spreadsheets, e-mail, and surfing the Internet. They usually just have an onboard IGPU that uses the system memory.

Laptop and desktop computers usually come standard with an onboard IGPU and can also include a separate GPU that has its own individual memory. If you are looking for a gaming or 3D rendering computer, you will want a separate GPU.

Now, features available for separate GPUs will differ from laptop to desktop computers. You will find that you get a better selection of GPUs with desktop computers than with laptops. The reason is desktops use PCI-e expansion slots for adding separate GPUs.

For more about expansion cards, check out the following article.

How to add an expansion card to your desktop computer

Either way, if you are looking for a computer with a high-performance GPU, check the requirements of the software you want to run. That will give you the guidance for what GPU features you need.

On a side note, I have had to troubleshoot display issues with laptops that have an IGPU and GPU. With these types of laptops, the IGPU and the GPU run simultaneously and switch between the two depending on the demands of the programs running.

Sometimes these types of laptops will experience crashing when switching between intense graphic programs like games and standard applications like web browsers. The easy fix is to set the GPU as the default graphic processor for all programs.

Monitor: Single or multiple?

I usually tell customers to get the largest size that space will allow. With the display resolutions constantly increasing, having a monitor that can handle them is essential. You will likely own this monitor for over a decade, so you should consider any future use.

When shopping for a monitor, you have to keep in mind how it is going to connect to your computer. You will need to check the available video connections on your computer and get the same type on the monitor. Here is a link to an article with images of the most popular video connectors.

The most common computer video display connectors

Now two types of video connectors also include audio, HDMI, and DisplayPort. So if you plan on using one of these video types to connect your new monitor, make sure that the monitor you purchase has built-in speakers.

If you use an HDMI connection, you can also use a television as a monitor. The resolution may be lower than that of a regular monitor, but you could use it as a television, too. I built a computer with an HDMI graphics card just for my home entertainment system.

Keep in mind that any monitor you buy may not come with the correct video cable to connect it to your computer. Getting a cable at the same time you purchase the monitor could save you a lot of frustration when it comes to setting up the new computer.

And keep the receipt for any cables handy, just in case the new monitor does include the correct one. I would rather have to return a cable at my leisure than have to run out to get one to finish the setup. As the old saying goes, 'An ounce of prevention is worth a pound of cure'.

What if the computer you are looking at buying can support more than one monitor? If you are going to go with multiple monitors, I recommend getting the same make and model for each one and, if possible, buying them at the same time. That way, you get monitors manufactured around the same time as each other and have matching specifications.

Once you get your new computer set up, you should do a few things first. Here is an article that discusses those things in detail.

Five things you should do first when you get a new computer

When doing computer repair for a living, there is one thing I do pretty often: replacing and upgrading computer components. Whether it be replacing a drive or installing a new graphics card, there is always something you need to consider. So here are a few things you should ask yourself when selecting computer components.

Things to consider when replacing or upgrading your motherboard

Form factor

• What form factor size does your existing case support?
  If the motherboard you are looking at getting is ATX and your present case only has space and stand-offs for a mini-ATX motherboard, you will not be able to install the new motherboard.
• Do you have any of the extra parts that came with the case, including stand-offs for the motherboard?
  If you are replacing a mini-ATX motherboard with an ATX motherboard and your case is large enough for it, do you have the stand-offs and screws for the extra mounting points that the new ATX motherboard will require?
• Do you have the installation media for the operating system and all your programs?
  When you change out a motherboard, unless it is from the same manufacturer and same model line, odds are you will need to perform a clean installation of the operating system and your apps. If you try to use the existing operating system currently installed with a new motherboard, you are more than likely to get all sorts of errors. Be prepared to reinstall the OS and apps.

CPU socket

• What is the socket type of your existing CPU?
  You cannot use an LGA1150 processor in an LGA1151 socket.
• Will the new motherboard you're thinking about getting support your existing processor?
  You will need to do your research on the motherboard you are thinking about getting. If you cannot find the information online, give the manufacturer a call. There is nothing worse than getting a motherboard that you cannot use.

Memory slot(s)

• Does the motherboard you're considering getting support your existing memory modules?
  Again, do your research. You have to make sure that everything will go smoothly when you do the upgrade.
• Or are you going to need to get new memory modules?
  If you find out that you will need new memory modules, buy them in pairs (twin-pack, quad-pack). Try to avoid mixing different memory modules if you can. You will also find buying them in twin or quad-packs cheaper than single modules.

Expansion slots (PCI-e)

• What do you currently have for expansion cards?
  These include graphic card(s), RAID controller card(s), M.2 adapter card(s), Wi-Fi/ethernet card(s), etc..
• And what type of expansion slot(s) do they use (PCI-e x16, PCI-e x4, PCI-e x1)?
  Make a note about all of the different PCI-e slots that are used on your existing motherboard, and reference it when you are looking at a new motherboard.

M.2 Slot(s)

• If your existing mother has M.2 slot(s) and you use them, what form factor, key notches, and interface do they utilize?
  M.2 2242, M.2 2260, M.2 2280? B key, M key, or both? SATA 3, PCI-e 3, or NVMe?

Internal USB connections

• What type of USB headers does your current motherboard have?
  USB 2.0, USB 3.0, USB 3.1 Gen 1 or USB 3.1 Gen 2.

Internal drive connectors

• What type of internal drive connectors does your current motherboard have?
  SATA, SATA Express or U.2?

Power connector

• What type of power connector(s) and how many does the motherboard you are thinking about getting have (4-pin or 8-pin ATX 12V)?
  Does your existing power supply have the correct amount of connector(s)?

Related articles
Tips for choosing the right motherboard for your custom-built computer

Things to consider when replacing or upgrading your processor / CPU

Socket type

• What socket type does your current motherboard have (LGA 1151, LGA 2011, AMD AM5, etc.)?
  Remember that you cannot use an LGA1150 processor in an LGA1151 socket.

Motherboard compatibility

• What processors does your current motherboard support?
  You will need to do your research on your existing motherboard. If you cannot find the information online, give the manufacturer a call. You may need to update the BIOS on your current motherboard to run the new processor you are considering getting.

Things to consider when replacing or upgrading your CPU cooler

The space inside of case

• Does your present case have room for an upgraded CPU cooler?
  If you are thinking of air cooling, do you have enough space on top of the CPU for it? If you're thinking about liquid cooling, do you have the correct mounting holes for it? And will you need to replace any of the existing case fan(s) to accommodate a new CPU cooler?
• Does your motherboard have all the connectors for running a liquid CPU cooler?
  Some liquid coolers require an onboard USB header to function correctly. Also, does your motherboard have any special liquid cooler fan headers?

Related articles
Tips for choosing the right CPU cooler for your custom-built computer

Things to consider when replacing or upgrading your graphics card / GPU

Slot version

• What version of PCI-e slot (3.0, 4.0, 5.0) does your current motherboard have?
  To answer this question, you will need to reference the motherboard manual or specifications online. If you have a problem finding this information, just contact the motherboard manufacturer.
• What PCI-e version is the graphics card you are looking at getting?
  Again, to answer this question, reference the graphic card manual or specifications online. If you have trouble finding this information, just contact the graphics card manufacturer. If the PCI-e slot on your motherboard is version 3 and the graphics card you are looking at getting is version 4, you will have a problem.

Power connection(s)

• Does the graphics card you are looking at getting require a separate PCI-e power connector(s)? If so, are they 6 or 8-pin PCI-e or 12+4 PCI-e 5.0 connector(s), and how many does it need?
  You should be able to find this information on the vendor or manufacturer's website. The information should also be on the outside of the box.
• Does your current power supply have all of the proper PCI-e connector(s) for it?
  Some lower-wattage power supplies have only 6-pin PCI-e connectors. Visually check your existing power supply for the type and quantity of PCI-e power connectors.

Related articles
Tips for choosing the right graphics card for your custom-built computer

Things to consider when replacing or upgrading your memory

Slot type and speed

• What slot type and memory speed does your existing motherboard support (DDR3 2400, DDR4 4200, DDR5 6400, etc.)?
  To answer this question, you will need to reference the motherboard manual or specifications online. If you have a problem finding this information, just contact the motherboard manufacturer.

Existing memory compatibly

• Are you going to add more memory to your current memory?
  The one thing you want to try and avoid when adding memory is incompatibility with existing memory. If you plan on adding a couple more memory modules, try to use your current memory's exact make and model. Even though memory from different manufacturers may be the same slot and speed type, their clock timings can differ. So, using the same make and model of memory in all slots is always recommended. If you can't, make sure you match the memory timing of your existing memory.

Related articles
How to upgrade or add more memory to your computer

Things to consider when replacing or upgrading your drive

Form factor and size

• What size and form factor drive(s) are you looking at getting?
  If you are replacing an existing drive, you should go with one that is the same form factor (3.5", 2.5", M.2, or U.2) and the same size (GB's, TB's) or larger than your existing drive. If you are upgrading your drive to a different form factor (SSD, HDD, or U.2), you need to make sure your current case has a place to mount the other kind of drive (3.5" or 2.5"). If you are upgrading your drive to a different form factor (M.2, mSATA), you need to make sure your existing motherboard has the correct form factor (M.2 2242, M.2 2260, M.2 2280), key notches (B key, M key or both) and interface (SATA 3, PCI-e 3 or NVMe) as the drive you are looking at getting. If you want an M.2 or mSATA and your motherboard does not have the appropriate slot, you will need to use an expansion card.

Related articles
How to upgrade the drive in your computer

Things to consider when replacing or upgrading your case

Motherboard Form Factor (micro-ATX, ATX, ITX, etc.)

• What is the form factor of your existing case?
  If the case you are looking at getting is designed for a mini-ATX motherboard, you will not get a standard ATX motherboard to fit in it. Check the case manufacturer's website to verify the motherboard form factors that will fit in it.

CPU fan

• Does the case you are looking at getting have enough space for your existing CPU fan?
  There is nothing worse than getting the motherboard, CPU, and cooler installed in a new case only to find out that you cannot get the side of the case on. Double-check all dimensions.

Peripheral/expansion

• Does it have enough front panel connectors for the onboard headers of the motherboard?
  It sucks having USB 3.0 header(s) on the motherboard and not having any or enough connectors on the front of the case.
• If you have a DVD or BD drive, does it have a 5.25" drive bay in front for it?
  Many cases nowadays do not have 5.25" drive bays. If you have a 5.25" drive or drives (CD, DVD, BD), you will need to double-check the case you are looking at getting.

Related articles
Tips for choosing the perfect case for your computer