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One of the most significant military organizations in the One Piece universe right now is the Revolutionary Army. We all know that Luffy’s father, Monkey D. Dragon, is the leader of the organization. But information about the group’s members and capabilities was previously unknown and is slowly starting to emerge in the manga. Furthermore, due to its recent acts, the notorious Revolutionary Army is currently the subject of much discussion within the One Piece community. The army commanders are going head-to-head against two of One Piece’s strongest admirals. So, it is time for us to examine the Revolutionary Army in detail, including its objectives, members, etc.

Spoiler Warning: This article contains spoilers about the story and the Revolutionary Army characters in One Piece. We suggest you watch the anime or read the manga first to avoid ruining the intended experience.

Who Are the Revolutionary Army in One Piece?

Image Courtesy – One Piece by Toei Animation Studios (Fandom)

Japanese Name: Kakumei Gun

Debut: Episode 52, Manga Chapter 100

Supreme Commander: Monkey D. Dragon

Main Ship: Wind Granma

Total Bounty: At least 2,564,000,000 Berries

Here is a quick overview of the organization wreaking havoc in the Egghead Arc (one of the best arcs in One Piece). As the name indicates, the Revolutionary Army is a formidable military force commanded by their supreme commander, Monkey D. Dragon.

Revolutionary Army Flag

Image Courtesy – One Piece by Toei Animation Studios (Fandom)

Just like how the pirates have their Jolly Rogers in One Piece, the Revolutionary Army has its own flag. This striking red flag is simple in its design. As a reference to their supreme commander, there is a dragon insignia at the center surrounded by the letters R & A, which signifies the organization’s name.

Members of the Revolutionary Army in One Piece

Now that you know about the Revolutionary Army’s goals in One Piece, let’s take a look at its rebellious members:

Monkey D. Dragon


Emporio Ivankov

Bartholomew Kuma

Belo Betty










Terry Gilteo


Bunny Joe


Note: There are a few more members whose names are yet to be revealed, and there can be new additions in the future too. We will update this article with the newest additions.

Revolutionary Army Ranking System (High to Low)

The Revolutionary Army has a hierarchically structured ranking system like the Marines in One Piece. Here’s a quick look at the ranking system within the Revolutionary Army.

Top Leadership

Much like how every Pirate captain has a right-hand man, Dragon chose Sabo as his “No. 2” in the Revolutionary Army. Sabo holds the Chief of Staff position and is the second most powerful person in authority after Dragon.

NamesRolesMonkey D. DragonSupreme Commander (Leader)SaboChief of Staff (No. 2)

Army & Deputy Commanders

Next in line, in terms of power and authority, we have the Army Commanders. Depending on the geological structure of the One Piece world, the Revolutionary Army is split into five armies led by their Army Commanders and their assistants Deputy Commanders (much like Captains and Vice Captains in the Marines).

Together, these armies are scattered across the seas to revolt against the corrupt World Government by setting the lands free under their reign. These five Army and Deputy Commanders are as follows:

Army UnitsArmy CommanderDeputy CommanderLocationNorth ArmyKarasuJironNorth BlueSouth ArmyLindberghGamboSouth BlueEast ArmyBelo BettyAhiruEast BlueWest ArmyMorleyUshianoWest BlueG-ArmyEmporio IvankovInazumaGrand Line


Under the supervision of the Army and Deputy Commanders, we have officers in the Revolutionary Army in One Piece. Their role is to assist the superiors in battle and manage other operations of the organization. Some of the well-known officers are:

OfficersBartholomew KumaKoalaTerry Gilteo

Other RA Members

There are several other Revolutionary Army members whose positions are yet to be confirmed. Moreover, there are a few members whose name is also unknown.

Other MembersBunny JoeHackModa

And that’s everything we know about the Revolutionary Army for now. There have been lots of reveals about Revolutionary Army and its members in the One Piece manga recently. We have included all the latest information here and will continue to update the article in the future. Stay tuned for more articles about the Revolutionary Army and its members in One Piece.

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What Is Minecraft Adventure Mode – Explained!

Minecraft, throughout the years, has had its share of conspiracies and secrets. But a secret feature that the majority of players still don’t know about is the unbeatable Minecraft Adventure Mode. It defies everything Minecraft stands for. You can’t craft, place, build, or freely explore in this mode, and unless you have the perfect seed with perfect skills, you can’t beat it. Though, as a Minecraft player, beating the game isn’t your main priority anyways. So, keeping that in mind, Minecraft Adventure mode has a lot to offer. But how does it differ from survival mode, and how you can make the most out of it, there is a lot to unfold. So let’s not waste another second and learn all about the Adventure Mode in Minecraft.

Minecraft Adventure Mode: Everything You Need to Know (2023)

What Is Minecraft Adventure Mode?

In simple terms, Adventure Mode is a game mode in Minecraft that allows the players to design their own custom maps or play on maps designed by others with a story- and mission-driven aspect to it. The standard Minecraft experience has no quests and freedom to break and use any block. However, that is not the case with Adventure mode. You can only break some of the blocks and need specific tools for them, while other blocks cannot be broken in this game mode.

In technical terms, this mode limits a players’ ability in a similar fashion as on the Survival Mode. You can only destroy blocks with a “CanDestroy” NBT tag. These are data tags assigned to give entities, blocks, and tools their properties. So, gone are the days when you could break tree trunks with your bare hands. Similarly, you will need a “CanPlaceOn” NBT tag while placing blocks to have objects being placed in the world.

As Adventure mode is usually played on custom maps, the limitations on breaking blocks or placing them take away the ability to ruin a map by player’s actions. However, those on the Bedrock edition and not the Java edition of Minecraft can change this by turning on the “worldbuilder” ability set. We would not recommend doing so because it can end up ruining the whole intended gameplay experience.

What Is the Aim of Adventure Mode?

Unlike a general Minecraft game, you spawn at a specific location in Adventure Mode and have to complete specific challenges to progress further in your journey. Yeah, since it’s Minecraft, you can always choose to hang around and not do missions. But the option to play in a unique mission-based system is what makes this mode popular among players.

How to Turn on Adventure Mode in Minecraft

Before we go on making more claims about this game mode, it’s time for you to experience Adventure mode for yourself first. So open your Minecraft game and follow the steps below:

2. Now, Minecraft doesn’t let you create an Adventure world by default. You have to turn it on in-game for which we need to enable cheats. We will first create a cheat-enabled world. So, select the “Create New World“ option.

Difference Between Minecraft Game Modes

CreativeSurvivalAdventureSpectatorHardcoreUnlimited Mining & CraftingRegular Mining & CraftingVery Limited Mining & Crafting No Mining or Crafting Regular Mining & CraftingUnlimited Health & FoodRegular Health & Food Bars Regular Health & Food Bars Unlimited Health & Food Regular Health & Food Bars + an Experience BarMobs don’t attack but you can kill themRegular mob spawning and fightingUsually custom mobs & spawningCan’t interact with Mobs in any wayRegular mob spawning and fighting but no respawning of player.

Four Tips for Surviving in Minecraft Adventure Mode

If you haven’t played Adventure Mode in Minecraft ever before, adapting to it might be a little hard. Fortunately, we have some tips to help you settle in better. Follow these to better your chances of survival in Adventure Mode:

Read the Instructions

Chances are that you will be using Adventure mode on custom maps. On such maps, the creators leave a ton of instructions and clues. As Minecraft can’t have specific cutscenes or side characters, relying on your reading material is a big part of survival. Using the guides that come with those custom maps can be useful too.

Find Villages for Resources

Get Some Sleep to Avoid Mobs Collect Items and Make a Base

Best Custom Maps for Minecraft Adventure Mode

Now that you know what to expect out of Adventure mode and how to enable it, it’s time to start playing. As I have mentioned several times before, the best way to make the most out of the Adventure Mode in Minecraft is through custom maps. So, it’s only fair to list a few of the best Minecraft Adventure Maps.

1. The Mystery of Herobrine

Official Screenshot

This includes is a series of maps that revolve around the tale of Herobrine. There are multiple plot twists, boss fights, and explorable construction involved. You can download chapter 1 of the series here. The map is made with a single player in mind, but you can play it up to three people.

2. Mysteria on Island Unknown

One of the most unique Adventure mode maps, Mysteria, starts with a random island where a mysterious voice will guide you through your journey. It mentions hidden abilities and mysteries that the players can explore on the island. For beginners, the map can be a bit confusing but once you get a hang of it, there’s plenty that you can expect out of it. You can download the Mysteria on Island Unknown custom map right here.

3. Terra Restore 2 Start Playing Minecraft Adventure Mode

What Is Dram (Dynamic Random Access Memory)? Explained!

While you may be familiar with RAM, the vital PC component that helps your computer run faster and not crash after opening more than 4 Chrome tabs, you must be wondering what is DRAM. Is it vastly different from RAM? The world of computers is full of jargon, and keeping up with the latest technologies (and their naming schemes) can be overwhelming. Fret not, for we are here to help! In this guide, let’s start by understanding what DRAM means and then look at the various types of DRAM.

What is DRAM?

DRAM is the most common type of RAM we use today. The RAM DIMMs (dual in-line memory modules) or sticks that we install in our computers are, in fact, DRAM sticks. But what exactly makes DRAM dynamic? Let’s find out!

How Does DRAM Work?

By design, DRAM is volatile memory, which means it can only store data for a short period. Each DRAM cell is constructed using a transistor and a capacitor, with data stored in the latter. Transistors tend to leak small amounts of electricity over time, due to which the capacitors get discharged, losing the information stored within them in the process. Hence, the DRAM must be refreshed with a new electric charge every few milliseconds to help it hold onto stored data. When DRAM loses access to power (such as when you turn off your PC), all data stored within it is lost too. The need for constant refreshing of data is what makes DRAM dynamic. Static memory, like SRAM (Static Random Access Memory), does not need to be refreshed.


SRAM uses a six-transistor memory cell to store data, as opposed to the transistor and capacitor pair approach taken by DRAM. SRAM is an on-chip memory typically used as cache memory for CPUs. It’s considerably faster and more power efficient than most other types of RAM, including DRAM. However, it is also significantly more expensive to produce and isn’t user-replaceable/ upgradeable. DRAM, on the other hand, is often user replaceable. Here are the key differences between DRAM and SRAM:

DRAMSRAMIt uses capacitors to store dataIt uses transistors to store dataCapacitors need constant refreshing to retain dataDoesn’t need refreshing as it doesn’t use capacitors to store dataHas slower speeds than SRAMSignificantly faster than DRAMCheaper to manufactureVery expensiveDRAM devices are high-densitySRAM is low-densityUsed as main memoryUsed as cache memory for CPUsRelatively lower heat output and power consumption than SRAMHigh heat output and power consumption

Types of DRAM

Now that you know how dynamic RAM works, let’s look at the five different types of DRAM:


Traditional DRAM modules operated asynchronously or independently. These were known as ADRAM (Asynchronous DRAM). Here, the memory would receive a request from the CPU to access certain information, then process that request and provide users access. Thus, the memory would only be able to handle requests one at a time, leading to delays.


SDRAM, or Synchronous DRAM, works by synchronizing its memory access with your CPU’s clock speeds. Here, your CPU can communicate with the RAM, letting it know which data it would require and when, so the RAM can have it ready beforehand. The RAM and the CPU thus work in tandem, resulting in faster data transfer rates.


As you may have guessed from the name, Double-Data-Rate SDRAM is a faster version of SDRAM with almost twice the bandwidth. It performs functions on both edges of the CPU clock signal (once when it rises and once when it falls), while standard SDRAM only does it at the rising edge of the CPU clock signal.

DDR memory had a 2-bit prefetch buffer (a memory cache that stores data before it’s needed), which resulted in significantly faster data transfer rates. As the years progressed, we got newer generations of DDR SDRAM.


DDR2 memory was introduced in 2003 and was twice as fast as DDR, thanks to its improved bus signal. While it has the same internal clock speed as DDR memory, it has a 4-bit prefetch and can reach data transfer rates of 533 to 800MT/s. Also, DDR2 RAM can be installed in pairs for dual-channel configuration (that we gamers all know and love) for increased memory throughput.


DDR3 first came around in 2007 and carried forward the trend of doubling the prefetch buffer (8-bit) and improving transfer speeds (800 to 2133MT/s). However, it had another trick up its sleeve — an approximately 40% reduction in power consumption. While DDR2 ran at 1.8 volts, DDR3 ran at anywhere between 1.35 to 1.5 volts. With better transfer speeds and lower power consumption, DDR3 became a terrific option for laptop memory.


DDR5 is the most recent generation of DDR memory and was introduced in 2023. While the power consumption has not reduced drastically (at 1.1 volts), the performance has — DDR5 offers almost double the performance of DDR4.

DDR5 memory modules, on the other hand, come equipped with two independent 32-bit channels — meaning that a single stick of DDR5 RAM already runs in dual-channel.

DDR5 also changes how voltage regulation is handled. For previous generations of DRAM, the motherboard was responsible for voltage regulation. However, DDR5 modules have an onboard power management IC.

SDRAMDDRDDR2DDR3DDR4DDR5Prefetch Buffer1-Bit2-Bit4-Bit8-Bit8-Bit16-BitTransfer Rate (GB/s)0.8 – 1.32.1 – 3.24.2 – 6.48.5 – 14.917 – 25.638.4 – 51.2Data Rate (MT/s)100 – 166266 – 400533 – 8001066 – 16002133 – 5100+3200 – 6400Voltage3.32.5 – –

ECC Memory

While errors don’t usually occur on their own, they can be caused by interference. Electrical, magnetic, or even cosmic interference naturally present as background radiation in the atmosphere can cause single bits of DRAM to spontaneously flip to the opposite state.

Each byte is made of 8 bits. Let’s take 00100100, for instance. If interference causes one of these bits to change spontaneously, we might end up with — 00100101. Now, if these bits represent letters, the change in values will result in garbled or corrupted data. ECC constantly scans for such errors and corrects them.

The extra bits on the ECC RAM module store an encrypted error-correcting code when data is written to memory. When the same data is read, a new ECC is generated. The two are compared to determine if any bits have flipped. If they have, the ECC quickly corrects it, thus preventing data loss or corruption.

ECC memory is super valuable to businesses handling massive amounts of data, such as cloud service providers and financial institutions. Think about it — if a cloud service like iCloud or Google Drive fell victim to data corruption in their servers, all your precious photos and documents would be lost forever. We can’t have that now, can we? ECC memory is the way to go for servers and workstations.

Rambus DRAM

RDRAM was introduced back in the mid-1990s by Rambus, Inc., as an alternative to DDR SDRAM. It featured a synchronous memory interface like SDRAM and faster data transfer rates (266 to 800 MT/s). RDRAM was mainly used for video games and GPUs, and even Intel jumped on board the RDRAM train for a short period until they phased it out in 2001. It was succeeded by XDR (Extreme Data Rate) memory by Rambus, which was used in various consumer devices, including Sony’s PlayStation 3 console. XDR was then superseded by XDR2, but it failed to take off as the DDR standard became more widely adopted.

DRAM in SSDs: What’s the Use?

Unlike mechanical hard drives, SSDs do not store data on a spinning platter. Instead, in SSDs, data is written directly to their flash memory cells, known as NAND flash. Any data stored in an SSD is constantly moved around from one cell to another to ensure that no single memory cell gets worn out due to excessive reading and writing of data. While that’s essential for increasing the longevity and reliability of the drive, how do you know where any data is stored if it keeps moving around?

SSDs keep a virtual map of all your data, tracking where each file is stored. On a DRAM SSD, this data map is stored on the DRAM chip, which works like a super-fast cache. If you want to open a file, your PC can directly access the DRAM on the SSD to find it quickly.

However, on DRAM-less SSDs, the data map is stored on the NAND flash, which is much slower than DRAM. It will still be faster than a mechanical hard drive any day but slightly slower than a DRAM SSD.

DRAM in a Nutshell

We have discussed DRAM at length in this article, explaining not only how it works but also how it has evolved over the past 30+ years. To recap what we have learned, DRAM (Dynamic Random Access Memory) is a type of RAM that’s volatile, which means it will lose all stored data once power is cut. There have been five types of DRAM, with DDR5 being the latest one to pick up the pace. We recommend having at least 8GB of DRAM in your PC to keep it running smoothly and stutter-free. However, if you are a heavy gamer or power user, 16 gigabytes of RAM would suit you better. If you want to upgrade your RAM but aren’t sure if your PC has an available RAM slot, go through our article on how to check available RAM slots in Windows 11.

What Is Double Vpn & How It Works? (Quickly Explained)

You probably don’t realize how visible and vulnerable you are on the web. We’ve written a series of articles to explain your first line of defense in Internet security: a VPN. We discuss what they are, why they’re effective, how they work, and the best VPN choices.

But what is a double VPN? Does it make you twice as safe? How does it work? Read on to find out.

How a VPN Works

When your device connects to a website, it sends packets of data containing your IP address and system information. Your IP address lets everyone know where on earth you’re located. Most websites keep a permanent log of that information.

It’s like you’re swimming with sharks. What do you do? A VPN is where you should start. VPNs use two techniques to protect you:

All of your traffic is encrypted from the time it leaves your computer. While your ISP and others can see you’re using a VPN, they can’t see the information you send or the websites you visit.

All of your traffic goes through a VPN server. The websites you visit see the IP address and location of the server, not your own.

How Double VPN Works

Double VPN adds a second layer of security for ultimate peace of mind. Not everyone needs this level of security and anonymity—a normal VPN connection offers enough privacy for daily internet use.

It chains two VPN connections together. Ideally, the two servers will be in different countries. Your data is encrypted twice: once on your computer and again on the second server.

What difference does this make to your privacy and security?

The second VPN server will never know your actual IP address. It only sees the IP address of the first server. Any websites you visit will only see the IP address and location of the second server. As a result, you’re far more anonymous.

Trackers will know that you’re connected to a VPN server and what country it’s in. BUT they’ll have no idea there’s a second server. As with a normal VPN connection, they won’t know which websites you access.

You’ll be able to access online content as if you’re located in that second country.

Double encryption is overkill. Even conventional VPN encryption takes billions of years to hack using brute force.

In short, double VPN makes it much harder to track what you’re up to. Users behind China’s firewall could connect to the United States via a country in Africa. Anyone watching their traffic in China would only see they’re connected to a server in Africa.

Why Not Use Double VPN All the Time?

That extra security sounds appealing. Why don’t we just use double VPN every time we go online? It all comes down to speed. Your traffic is encrypted twice instead of once, and it passes through two servers rather than one. The result? Network congestion.

How much slower is it? That’s likely to vary depending on the location of the servers. When I reviewed NordVPN, one of the few VPN services to offer double VPN, I ran some speed tests to find out.

I first tested my internet speed without using a VPN. It was 87.30 Mbps. I tested it again when connected to several of Nord’s servers using “single” VPN. The fastest speed I achieved was 70.22 Mbps, the slowest 3.91, and the average 22.75.

I then connected using double VPN and ran a final speed test. This time it was just 3.71 Mbps.

The extra overhead of double VPN drastically reduces your connection speed, but it also makes it extremely difficult for anyone to track or identify you.

So What Should You Do?

In most cases, a normal VPN is all you need to protect online privacy and security. Your traffic is encrypted and passes through a VPN server. That means no one can see the information you send, the websites you visit, your real identity, or your location.

That is, no one except the VPN service you use—so choose one that you trust. That’s an important decision, so we’ve written several articles to help you choose wisely:

But there are times you might choose increased security and anonymity over connection speed. Those who live in countries that censor the internet may want to avoid government surveillance.

Political activists would prefer that their online activities not be tracked by authorities. Journalists need to protect their sources. Perhaps you just feel strongly about security.

How do you get double VPN? You sign up for a VPN service that offers it. Two great options are NordVPN and Surfshark.

What Is A Heatsink? Does My Computer Need One?

How well do you know your computer hardware? It’s a sure bet that you’ve heard of hard drives, processors, and RAM before, as they’re the main selling points for computers. If you dig further into computer hardware, you’ll also learn about graphics cards and their role. But what about heatsinks – do you know what they are?

In truth, heatsinks don’t come up a lot during hardware discussions. It’s not really something you’d buy a PC around, either! There’s a good chance that people who are new to PCs or haven’t explored the inside of their own, probably don’t know what a heatsink is exactly. So, what is a heatsink, and what does it do for your computer?

What is a Heatsink?

The role of the heatsink can be found in its own name; it’s a device that’s designed to extract heat away from vital components in your computer. While running, your computer’s hardware gets very hot, and the objective of the heatsink is to take the heat away and dissipate it before the components overheat. They’re most often found on processors and graphics cards, which are some of the bigger heat producers in your PC. Given how these components are very expensive in the higher ranges, keeping them cool is top priority!

Heatsinks come in an array of methods for dissipating heat.

Passive Heatsinks

Passive heatsinks look kind of like a radiator. Their conductive material means they can easily take the heat away from the components that need cooling down. These kinds of heatsinks are very reliable as they cannot technically break down. Also, due to the lack of fan, they provide a silent cooling solution for hardware. Unfortunately, due to the lack of fan, it has to cover a large surface area to help remove the heat. Passive heatsinks need decent room and a good air flow to ensure that they works optimally.

Active Heatsinks

Active heatsinks are far more commonplace in computers. They not only take the heat away but also dissipate it themselves, allowing them to work pretty much independently. The most common kind of active heatsink uses a fan to get rid of the heat. In an ideal situation, these fans blow the heat into an air flow, which then carries the heat out of the machine. They’re very effective just by themselves, but if the fan malfunctions or becomes clogged with dust, its efficiency drops by quite a lot.

Computing experts, particularly those who use their components to the extreme, will sometimes opt for liquid cooling. This is when components are cooled using a flow of contained coolant which takes the heat away from the processor. The coolant then carries and deposits this heat to a radiator which is cooled by a fan. They’re powerful at removing heat but also quite expensive and tricky to set up. Don’t worry about using one if you’re just starting out with computers.

Do Computers Need One?

Now that we know what a heatsink does, the question stands: does a computer need one? Are these essential hardware for a computer, or are they simply accessories for people who find their processors are running hot?

The short answer is: yes, definitely! Computers always need a properly-working and seated heatsink to work efficiently.

The long answer is this: The processors we have in our computers and laptops today are powerful and generate a lot of heat as a result. If you removed the heatsink from a computer and booted it, you’ll probably see it work from few seconds to a minute before the computer shuts itself off. This is because the processor has reached critical heat levels and caused a sudden computer shutdown. If you’re “lucky”, it’ll be because the processor has a built-in safety catch to prevent itself from burning out. If you’re not, the processor is now fried and unusable!

This is why when a user discovers their processor or graphics card is getting very hot, a common troubleshooting solution is to check the fans on it. If the heatsink is not functioning optimally, the processors will begin to overheat which will cause freezes, BSODs and sudden shutdowns and restarts. Some issues people will find with their heatsink is that it’s not “seated” properly (that is, they’re not tightly placed against the processor), that it’s clogged with dust, that its thermal paste is getting old, or the fan itself is simply giving up.

What About “Thermal Paste”?

You may have noticed a new terminology at the end of the last paragraph: “Thermal paste.” Given how they’re crucial for helping a heatsink do its job, let’s explore what thermal paste is. When attaching a heatsink to a processor, the contact surfaces of both won’t be perfectly flat, which will allow air to get between the two. Air is a bad heat conductor, so it will hinder the heatsink’s ability to extract heat, almost acting like a blanket on top of the processor.

By using thermal paste, you clog up the little gaps so that the seal between the heatsink and the processor is perfect. Thermal paste is specifically designed to conduct heat very well, so it acts at a much better heat transfer rate than air. This is why, when the paste gets old and less efficient, components begin to heat up a little. Always make sure there’s thermal paste applied when installing a heatsink – it’s essential for it to run at its maximum efficiency!

How Do Phones Stay Cool?

Throughout this article we’ve been discussing how heatsinks are essential for processors to prevent them from overheating. Despite this, when was the last time you remember a phone or a tablet needing an internal fan to keep cool? While some phones and tablets may have some way of dissipating heat, it’s nothing like the sort of hardware we see in a PC or laptop. How come mobile devices don’t really need heatsinks, while computers and laptops must have one?

The answer is quite simple: Phones and tablets use different processors than PCs. It’s easy to look at a phone’s quad-core processor and assume it’s the same as a quad-core desktop processor. While the core numbers may be the same, don’t be fooled – the architecture is completely different! Mobile processors have been specifically designed with two features in mind:

to run as cool as possible

to drain the battery as little as possible

After all, you don’t want a processor that drains the battery after minutes of use!

So how come we don’t use these efficient processors in computers and laptops, too? Well, having a processor work with less heat and power doesn’t come for free. In order to do this, we have to sacrifice the power these processors can work at. This means mobile processors are much weaker than their bigger counterparts and aren’t suited for more CPU-intensive tasks we can otherwise perform on PCs without issue.

Sinking Feeling

The heatsink is one of the least-discussed pieces of hardware in a computer. Despite this, it’s a vital component to keep a PC stable and healthy. Hopefully you’re now better versed in what heatsinks are, why they’re vital, and how they’re used in a computer.

Have you built your own PC before? If so, how much attention do you give the heatsink? Do you go for top quality and price, or do the cheaper models work fine for you? Let us know below.

Simon Batt

Simon Batt is a Computer Science graduate with a passion for cybersecurity.

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What Is The Page File In Windows 10?

The Windows page file is a special file that holds data your RAM cannot hold when it reaches its limits. Your system RAM has a limit. If your system tries to exceed that limit, it can pass some of the data off into the page file.

It isn’t the most efficient way to manage your system memory. However, a page file is a necessity and will keep your system ticking along nicely.

Table of Contents

So, here’s what the Windows 10 page file is, and how a page file works.

What Is a Page File?

Your computer has a set amount of RAM or Random Access Memory. Unsure how much your system has? Type system information in your Start Menu search bar. When the System Information window opens, scroll down to find Installed Physical Memory (RAM). Alongside this is the amount of RAM installed on your computer.

RAM holds all of the information relating to open programs, like a working storage area. RAM helps to keep activities on your computer fast by holding regularly accessed data. Plus, RAM is much faster than your old hard drive, and faster even than your solid-state drive.

When RAM runs low, the page file comes into play.

The page file (also known as a swap file) is a file on your hard drive. When your RAM becomes full, Windows moves some of the excess data into the page file. As such, the page file acts as a type of virtual memory, enabling some swapping of data between your hard drive and RAM.

How Does The Page File Work?

Windows attempts to use the page file efficiently. That means it looks for the data you are not using at the time but is still held in your RAM. For example, if you (like me!) sit with many different application windows open but minimized, Windows may move some of the background application windows into the paging file.

Moving the data for these files frees up active RAM space for the applications you are using (potentially helping them to run faster and smoother), and is easily retrievable from the page file when you open the window.

The page file is self-managing. You don’t need to fiddle around with the page file settings, except for in certain situations. Typically, the page file is set between a minimum of 1.5 times and a maximum of three times your install RAM.

For example, a system with 4GB RAM would have a minimum of 1024x4x1.5=6,144MB [1GB RAM x Installed RAM x Minimum]. Whereas, the maximum is 1024x4x3=12,288MB [1GB RAM x Installed RAM x Maximum].

Can I Disable The Page File?

Disabling the page file to improve system performance is a myth. If you have a system with relatively low memory, disabling the ability to pass some data off into your hard drive will only harm overall performance (albeit saving a few gigabytes of storage on your hard drive).

At the very worst, disabling the page file will cause programs to crash if you begin to run out of RAM, as there is nowhere for the additional data to go. Crashing programs can cause other system instabilities, so it just isn’t worth it.

Even with 16GB RAM installed on my computer, I keep the paging file intact!

Running Low On Virtual Memory

One common issue that alerts people to the presence of the paging file is running low on virtual memory. You might encounter an error message like this:

“Your system is low on virtual memory. Windows is increasing the size of your virtual memory paging file. During this process, memory requests for some applications may be denied. For more information, see help.”

This message means that as well as your RAM being full, your page file is also bursting at the seams. As such, you need to increase your virtual memory, e.g., the page file. Remember, meddling with your page file isn’t common, but this is one of the exceptions.

How To Increase The Page File Size

If you do need to increase the size of your page file, you can edit it manually. As mentioned above, you should only do this under exceptional circumstances.

2.       Switch to the Advanced tab. Under Performance, select Settings.

3.       Switch to the Advanced tab. Under Virtual Memory, select Change.

4.       Uncheck Automatically manage paging file size for all drives.

5.       Increase the size of the paging file within 1.5 to 3 times your installed RAM. Press Set when you’re ready.

Press OK to leave the Virtual Memory management window. You have now changed your page file size.

Upgrade Your RAM For Better Performance

Upsizing your page file is only a temporary solution to a virtual memory issue. If you frequently hit the virtual memory limit and find yourself having to adjust the page file, you should consider installing more RAM.

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