What is NAS?

Easy access to your files is an important part of any business, home, or personal computer setup. For individuals and small businesses looking for a simple and intuitive way to store and access their data, NAS devices are a great investment. 

NAS devices help make sure the data you’re working with is accessible, safe, and can be easily shared between people and devices. But what exactly is a NAS device? Here’s a quick rundown on how NAS devices are a must-have for every household or small business.


What is a NAS device?


Network Attached Storage (NAS) is an external storage device that when connected to a network, allows files from multiple devices to be accessed from a centralized location. 

If you have multiple people (co-workers, family members, customers, etc.) who need access to files that live on their individual devices, they can all easily access those files through a NAS file system. 

Your computer’s built-in hard drive is a great initial data storage option if you’re only working with small amounts of data or are the only one who needs file access. If you’re working with larger data sets, have multiple people who need file access, or are looking for a simple way to organize your files, NAS devices can make life a lot easier.


How do NAS devices work?


Instead of connecting directly to a computer, a NAS hard drive creates its own small network—effectively a private cloud. It becomes a hub where every device that connects with your username and password credentials can have access. Once connected, people within the network can store and share data through the NAS instead of from each separate device. After you’ve set everything up, you can often enable automatic backup options, remote access to your network, and create individual, private spaces within the NAS for each user. 


Do I really need a NAS?


Many small businesses find that a NAS system is a must-have. But are they necessary for just one person? Even though the main reason for getting a NAS is to make sharing files between people easier, it’s just as helpful to have something that makes sharing files between your devices easier. Sharing data between your cell phone, laptop, tablet, or other devices can be stressful and waste precious time. Having a single location where all of your data is housed will make your daily workflow easier. Western Digital’s My Cloud Home is a popular personal NAS setup for households looking for the best way to connect everyone’s separate devices.

Think about this situation: you’ve started your own small business and it’s been going great. Sales are up and you’re growing so fast that you need to bring in a couple more employees. But all of your files are stuck on your personal laptop. You need a system that can make sharing files between employees easy—NAS hard drives help streamline the data sharing process and help you keep your company running smoothly.

Or maybe you’re a creative professional who uses a lot of different devices for your work. You use your DSLR camera for your photography business, your cell phone to take everyday photos, and your laptop to edit all of your content. Uploading, downloading, storing, and sharing all those files on different devices can get confusing quickly. Having a centralized location where all of that data lives is the best way to store and organize all of your files. This helps you focus on and spend time doing the work you love instead of spending all day hunting down files.


What else can I use my NAS for?


Network Attached Storage devices are made primarily for easy data sharing between multiple devices, but most NAS devices have other features that make it a helpful addition to anyone’s tech collection. A lot of people use their NAS device as part of their data backup plan by buying a device equipped with RAID. When combined with a cloud storage system like Google Drive, CrowdStorage, or Dropbox, your NAS’s data will be safe no matter what happens to your physical drives. 

Most drives today also have anti-virus software built in to keep your data safe from harmful malware. Some models also have remote access options, where you can download files from anywhere with a stable internet connection in a safe and reliable way. 


NAS vs. Server


Another data storage option small businesses can choose from is using a server to house all of their files and data. If you have more than two or three employees who need access to the same data, using either a NAS hard drive or a server can help your business operate smoothly. 

Both a NAS and a personal server are similar in that they provide a centralized location for people to store, access, edit, and share data. Depending on the model, servers can have more powerful internal hardware and more customization capabilities than a NAS. But they can cost more upfront—usually $1,000-$3,000 depending on your small business’s storage needs. Most NAS devices like Western Digital’s My Cloud Home only cost a couple of hundred dollars for 8 TB of storage. When first opening, most small businesses won’t need a dedicated server, but it can be an option to consider as you grow and are working with more data than a single NAS can hold. 


The Bottom Line


If you’re thinking about buying a NAS, you’ll want to evaluate your current and future data storage needs, as well as your current system’s possible limitations. They are an essential piece of technology for any small or medium-sized business, creative professional, or home office. 

Once you buy your NAS device, make sure your files are backed up to a cloud storage provider to ensure your data is completely secure should anything happen to your physical devices. Read more about how to backup your NAS to the cloud here. 

Have questions about how CrowdStorage can turn your NAS device into a secure data storage and backup solution?

Reach out, and we’ll get in touch!

Backing Up Your My Cloud Home Device

Accidents happen and even top-rated devices fail. Having your NAS device as your only backup strategy isn’t enough to provide complete data safety. Backing up your My Cloud Home’s files ensures your data is safe no matter what happens to your physical device. Prepare for any future problems by making sure your My Cloud Home device’s Auto Backup is enabled, and that you have a secondary process for backing up your My Cloud Home.


My Cloud Home Backup Best Practices


Your My Cloud Home device lets you easily access all of your documents and files from a centralized location—your own personal cloud storage network. But don’t mistake the Auto Backup feature as a safety net for your device’s data. If you’re using your My Cloud Home as your only backup device, you need to rethink your data backup plan.

People interested in backing up their My Cloud Home or similar NAS device should use the popular backup strategy called the 3-2-1 method. This strategy recommends you have three different backups of your data, in at least two different formats, and then keep at least one of those backups in a separate location.

With your Western Digital My Cloud Home, you can fulfill every part of the 3-2-1 strategy when using CrowdStorage’s Device Backup app for My Cloud Home.


Is the My Cloud Home A Backup Device?


Western Digital’s My Cloud Home device and similar NAS devices are made to easily access files across multiple devices from a centralized location. While many NAS devices on the market—like the My Cloud Home Duo—have RAID options for additional data protection, they’re not made to be your only data backup method. Since your files are stored in a single location, they’re still vulnerable should anything happen to that individual device.


How Often Should You Backup Your My Cloud Home Device?


Most people assume their file storage system automatically creates backups of their data. But that’s not the case for most systems. It’s only after their device fails that they realize their data hasn’t been backed up correctly. If your My Cloud Home device fails, either from an internal or external issue, you want to make sure your files are saved with the most recent versions.

For most people, backing up your data at least once a week will be enough. If you are working with important files or large amounts of data, setting up your system to automatically backup your data every 24 hours is highly recommended.

Creating an automatic backup system for your device is the best way to protect data access in case any issues with your device happen. Many data backup options like CrowdStorage allow for automatic backups to the cloud to happen either on a daily or weekly basis. This ensures there will always be a redundant and accessible backup should anything happen to your physical My Cloud Home Device.


How Long Does It Take To Backup My NAS Device?


The amount of time it takes to backup your My Cloud Home or other NAS device will depend on the upload speed, your network speed, and the amount of data you’re backing up (a full backup will take more time than an incremental backup).

Keep in mind that your backup will be 2X the size of your original data. This is due to data replication ensuring that your backup is safe and accessible.

How To Enable My Cloud Home’s Auto Backup Feature


When you first set up your My Cloud Home, the mobile app will ask if you want to enable the Auto Backup feature. Enable this feature, and your device’s backup process of your phone is set up. 

If you need to enable your Auto Backup feature after initially setting up your device, follow these steps:

  1. Enter your My Cloud Home mobile app
  2. Select the three-line icon in the top left corner of the screen.
  3. Select the gear icon to access your device’s settings
  4. Select the Auto Backup option. This will open the Auto Backup page and allow you to enable the feature.
  5. Once you enable the feature, your My Cloud Home will automatically begin backing up your device. 


Now that you’ve set up your My Cloud Home to backup the contents of your mobile devices and computers, you need to create a secure backup of your My Cloud Home. This ensures your data is fully recoverable should your device fail. 


How To Backup Your My Cloud Home Device To CrowdStorage


Disclaimer: CrowdStorage’s device backup is currently only available to Western Digital NAS device owners. My Cloud Home devices have access to CrowdStorage’s network.

Buying a My Cloud Home device is the first step to making sure your data is backed up and secure even if your physical device fails. The next step is to connect your device to CrowdStorage’s network. Backing up your NAS device to CrowdStorage’s distributed cloud storage community provides backup protection your physical devices alone can’t provide. 

Enabling CrowdStorage on My Cloud Home is quick and easy:

  1. Sign in to your My Cloud Home account either on your desktop or in your My Cloud Home app.
  2. Click on the CrowdStorage backup option.
  3. Enable Auto backup.

Once your device’s Auto-Backup is enabled, your device will start to automatically back up your photos, videos, and other files onto our distributed cloud storage community.

CrowdStorage will backup all of your My Cloud Home data on the initial backup (full backup). Future backups will occur on files that are added or modified (incremental backup). 

Restoring a CrowdStorage Backup to Your My Cloud Home 


If your NAS device fails, it’s easy to restore your most recent CrowdStorage backup to your device. 

Sign in at CrowdStorage.com and click on “How do I restore my device?” We’ll walk you through, step by step, in restoring up your CrowdStorage backup.

Want to learn more about how CrowdStorage secures your My Cloud Home data? Read more about our distributed cloud storage system. Have questions? Reach out, and we’ll get in touch!


Can the Internet Run Out of Space?

The world is increasingly dependent on technology to function. Laptops, cell phones, and the growing IoT make our everyday lives easier. But whenever we send a text, share a tweet, or search Google, we’re creating massive amounts of data.

Data is what makes the world go round—without it, entire industries could cease to function. While global internet failure is unlikely, the longevity of our data creation speed is a cause for concern. Is the world creating more data than the internet can hold?

Can the Internet Run Out of Space?

Technically, no. The internet in the way most people understand it cannot run out of space. The internet simply refers to the network of connections between other computers. The amount of data storage on the internet is as limitless as its connections around the world. Still, all that data needs to be stored somewhere. And that’s where our current data storage technology is facing an impending problem. The world’s data storage systems have evolved drastically over the past decades. Today, personal hard drives, large data storage centers, and the cloud are the data storage options of choice for the majority of internet users. But with over 1,700 terabytes of data created every minute, those storage options will soon run out of space. That’s why technology companies are rushing to be the storage option the world will soon desperately need. Here are five emerging technologies hoping to fix our data storage crisis.

Heat Assisted Magnetic Recording

Heat-Assisted Magnetic Recording (HAMR) may be the next step in hard-drive focused data storage. HAMR uses lasers to spot-heat small sections of the computer’s internal disk platters to 400 degrees Celsius (or 750 degrees Fahrenheit) before writing data. Heating the disk changes the magnetic coercivity of that section long enough to write that data in a much smaller section than traditional methods. Once the disk cools down, the data becomes secure until heated back up again.By decreasing the disk’s magnetic fields just long enough to write the data, HAMR can store much more information on a single disk than before. In order to record all of the books ever written (approximately 400 TB), you would only need to store it on 20 HAMR devices. This data storage option is close to being commercially available and can hold 20 TB of memory.

Helium Disk Drives

Helium disk drives

Other high-capacity disk drives are vying to beat the cloud’s growing reign on data storage. Helium disk drives are already commercially available. By hermetically sealing helium gas (which is about one-seventh the density of air) inside the hard drive, it drastically reduces the internal friction from the drive’s spinning disks. That decreased internal friction lowers the electrical power needed to maintain a stable temperature, allowing more disks to be safely stored in the drive. Their cooler running temperature, high-efficiency, and easy integration make helium disk drives a technology to watch.

DNA Data Storage

Every piece of data today can be distilled into strings of one ones and zeros, or the binary system. DNA storage encodes data in a similar way. Rather than using the binary system, scientists have found a way to encode data using DNA’s quaternary system made up of the body’s four base nucleotides: A, T, C, and G. Since one gram of DNA has the ability to store up to 215 petabytes of data, scientists are hopeful that this system can help fix the world’s data storage concerns. There are a few issues scientists need to work out before DNA data storage becomes universally adopted. The process of encoding and decoding data into a readable format is a painstaking process that requires scientists for every step. Since DNA storage has only been used in lab settings and using relatively small amounts of data (like an OK Go music video and Project Gutenberg’s Top 100 Books), they’re nowhere near the amount of storage the world will need. The manpower and cost of this extremely hands-on process need to be figured out before this storage system is adopted on a global scale.

5D Nanotechnology Glass

Glass etching has been around as an art form for hundreds of years. But scientists have figured out how to store data in glass etchings using a method called five-dimensional data storage. Rather than store data on flat surfaces like CDs, lasers can create tiny physical 5D structures inside the glass called “nanogratings”. Computers read this data by looking at the nanograting’s orientation, its location on the x, y, and z axes, and the strength of the nanograting’s light refraction. One standard-sized glass disk can store up to 360 terabytes of data, won’t degrade for 13.8 billion years, and can withstand temperatures of up to 1,000 degrees Celsius. While 5D glass may not work for simple hot data retrieval, it’s a solid solution for cold data and archival storage.

Quantum Data Storage

Quantum data storage

Another technology hoping to become the next step in data storage seems like it came straight from a sci-fi novel: quantum computing. Quantum computers could use the properties of quantum physics to go through data in real-time. Computers today use the binary system with “bits” of data stored as strings of ones and zeroes. Quantum computing uses quantum bits, or “qubits” which are stored in a superpositioned state where they can be simultaneously both one and zero. Being in an infinite number of states at once allows quantum computers to perform exponentially more calculations at a faster speed. The problem is that quantum physics, in essence, is about particles behaving in unstable and unpredictable ways. Scientists at this point have only been able to store qubits for less than a second before they become unstable. This form of data storage is still in its infancy and has only been tested within lab settings. It may take decades before any quantum memory becomes available to the public sector. But if it does work, it has the ability to hold massive amounts of data.

What’s Next?

Woman looking at her phone

While the world isn’t at a point yet where it needs to be worried about a “Datageddon”, or an overload of data that causes the internet to collapse, it does need to be concerned about what the next widely-adopted evolution of data storage will be. Data creation is growing exponentially. It’s clear to scientists and the general public that the current model of massive data storage centers is not sustainable. Some of the above options may be more applicable to a global market than others—but right now, the race to find the next data storage solution is anyone’s game.

How to Backup Your NAS to the Cloud

Why You Need To Backup Your NAS To The Cloud


Your NAS device is great for sharing data, but it shouldn’t be your only data backup solution. A lot of people use their NAS to store their data. But even with the data loss redundancies built-in, you’re still in danger of losing it all if it’s only backed up on that single device.

Your NAS device is ideal for easy data transfer between your devices—but as the NAS ages, the chances of a hard drive failure increase. If you want to know without a shadow of a doubt that your data is backed up and safe offsite, you need to backup your NAS to the cloud.

Hard drive failures are always a possibility no matter how many redundancies and security measures you have in place. Despite their name, hard drives can be surprisingly temperamental and delicate. Over time, heat, dust, shaking, or drops can cause your NAS’s internal systems to degrade or become unstable. Backing up your device’s data on the cloud prevents physical damage from wiping out your data completely. It’s a safety net that can bring you peace of mind should the worst happen to your NAS.

Learn more about our Device Backup.

Isn’t my NAS device already backing up my data?

Technically, yes. But not in the way you need it to. Small businesses, creative professionals, and families all use NAS devices to share files and information easily from different devices. And many versions offer RAID for additional protection. But what happens when your physical NAS is damaged? Even with that extra storage security, your data can still be in danger.

Think of you storing your data in the cloud like you storing your money in a bank. Would you store your entire life savings at home? No, you’d want it somewhere safe, but also accessible. Cloud storage keeps your data off-site, so should a fire, a burglary, or a hard drive failure happen, your most important data is still available.

Backup Your NAS To The Cloud For True Data Safety

NAS devices aren’t designed specifically for data security. They’re perfect for individuals and small businesses because it’s easy to share and access documents and files. But that same ease of use leads to security vulnerabilities. Partnering your NAS device with a security-driven cloud platform gives your data that extra layer of protection

If you have important data, you need to be taking all the necessary precautions to keep it backed up and secure. You should be using the popular 3-2-1 data backup strategy to diversify your data storage. This strategy recommends that you have three different data backups in at least two different data formats, and then store at least one of your backups in a different location.

Connecting your NAS device to the cloud is the perfect way to use the 3-2-1 strategy You’ll have your data in two different formats: your physical NAS device and the cloud storage platform of your choosing. Not only does the cloud fulfill the two different formats recommendation, it also helps you store one of those backups in a different location than your NAS device. Your backup will be stored on your NAS, and then also on the cloud provider’s servers. Once you connect your device to the cloud, you’re fulfilling the majority of the 3-2-1 strategy.

Why Backup Your NAS to CrowdStorage?

Security can be a large concern when you’re deciding whether to use cloud storage since you don’t truly know what security third-party platforms have in place. But CrowdStorage’s transparent distributed storage system ensures your NAS to cloud data backup has a high level of security. When you connect your NAS device to CrowdStorage’s cloud network, your data is encrypted, split into pieces, and then distributed among unused space across our community’s storage devices. This means that you and only you can put those puzzle pieces of data back together.

If you ever need to access your data remotely, having your NAS connected to CrowdStorage ensures access even if you’re away from home or your office. And because we’re using the unused space across our CrowdStorage community, our cloud service is much more affordable than other services that use massive data centers.

Learn more about Device Backup affordability.

How To Backup Your NAS Device To CrowdStorage’s Cloud

Currently, only Western Digital NAS device owners using My Cloud Home will be able to connect to CrowdStorage’s distributed storage community.

It’s easy to backup your NAS device to Crowdstorage’s distributed storage system:

1. Sign up for Crowdstorage’s service
2. Connect the app to your NAS storage device
3. Once connected, your device will be added to the distributed storage community and backups of your data will start automatically.

Consider what your data storage needs will be a few months or years out. As you grow your business, your storage space needs will grow too. Backing up your NAS to the cloud is an investment in your future business growth and a way to give you peace of mind that your data is always safe and secure.

Disclaimer: Crowdstorage’s device backup is currently only available to Western Digital NAS device owners.

Have questions? Reach out, and we’ll get in touch!

Hot Storage vs Cold Data Storage

What’s the difference? Hot and Cold Data Storage

“Hot storage” and “cold storage” are common data management terms, however, their exact definitions can often be ambiguous.

There’s no hard and fast definition for each term. And while companies use the terms differently, the general meaning tends to stay the same.

What is hot storage?

Hot data storage refers to stored data that’s delivered quickly and is readily available for immediate use in day-to-day business activities. Hot storage holds data that needs to be available right away.

What is cold storage?

Cold storage refers to stored data that’s seldom accessed and typically has slow retrieval times. This data isn’t accessible at a moment’s notice from the provider.

Using temperature to describe the different types of data storage likely came from how data used to be stored. Data that was used right away was held on spinning hard drives, while data that wasn’t often needed was kept physically on tapes and disks away from daily activities in storage. The actual temperature of these storage mediums would have been hot and cold, respectively.

Seeing where the temperature terminology may have started can give us an insight into why there’s ambiguity today on the usage of the terms. Both hot and cold data storage have dramatically evolved in the past decades. All types of data storage have “warmed up” and even cold storage today is significantly more accessible than in the days of tape. But, the terminology remains.

While uncommon for major data storage providers to store your data on tape; the hot and cold terminology remains a common way to describe different storage tiers, speeds, and offerings. Understanding more about these terms can be helpful in understanding and comparing various storage providers.

Hot Storage

Today, hot storage refers to the “hot data” you and your business need immediately. This data is vital to daily operations and actions. There can be little to no delay, and it often needs to be accessed by many people, sometimes simultaneously.

Providing this kind of availability and access requires expensive, high-grade storage technology, both in software and hardware. Hot storage requires costly and powerful servers. Many businesses choose to outsource this server management due to the cost, upkeep, and maintenance of such systems.

Examples of modern hot storage solutions include Microsoft’s Azure Blob Storage, Amazon S3, and Google Cloud Storage. These platforms are famously expensive.

Regardless of what kind of hardware is chosen, be it solid-state drives, or traditional hard drives, hot data storage demands lightning-fast and consistent response times.

Cold Storage

Not all data needs to be accessed with regularity. Old financial records, legal and HR documents, and other historical data needs to be maintained but are seldom – if ever – accessed. For this “cold data,” cold storage is the recommended course of action.

Cold storage prices are usually much lower than active, hot storage. It’s typically retrieved so infrequently that users have monthly costs for storage and an additional retrieval cost per set of requests. Often, uploading is free.

For example, if you were trying to store ten terabytes of data, Amazon Glacier will allow you to upload data for free. The stored data rate currently sits at 0.4 cents per gigabyte per month and will run you $40 a month. If you were trying to store the same amount of data in Amazon S3 Standard, you would pay $230 a month. This means that Amazon Glacier storage is 82.6% cheaper than their comparable hot storage. But, if you wanted an expedited export of all ten terabytes, it would cost $300 in expedited retrieval fees alone.

With the distance and inaccessibility of cold storage data, the term is sometimes used to describe storage models that are purely offline. Physical hard drives and disks that are stored in an offsite data center and require physical retrieval to access.

Warming Up

It’s important to remember that not every data storage platform sits squarely into a hot/cold comparison. In fact, most data storage systems are somewhere in between.

As newer technologies, hardware, and software are adopted, the baseline performance for “inexpensive data storage” rises. Today, there are many storage solutions that offer partial higher-end, hot storage features at a lower cost. These “warm data storage” options are becoming increasingly popular, and many businesses are choosing to move away from cold, archival storage altogether in favor of low cost, mid-tier, options from cloud data storage providers.

Unique Businesses, Unique Solutions

Every business today creates data, and every business will need to address how to store its data. Exactly which solution is the best fit for you depends on your cost limits, data needs, and complexity.

If you’d like to learn more about our low-cost hot-storage option, Polycloud Standard, or our cold storage option, Polycloud Archive, you can learn more here.

Have questions? Reach out, and we’ll get in touch!

Data Created Every Minute

How much data does the world create every minute?

Data usage and creation are on the rise. When trying to understand just how much data exists in the world, the numbers quickly become unhelpfully large.

This is because data creation is growing exponentially. 90% of the world’s data was created in the last two years alone! And it’s expected that moving forward, our volume of data created will double every two years.

To better understand how much data we create, we’ve made an infographic showing just how much some of the largest companies are handling every minute of the day.


Multi-Provider. Multi-Benefit.

Here at CrowdStorage, we employ a cutting edge multicloud storage strategy through our distributed data storage solution, Polycloud.

What is a Multicloud Strategy?

Multicloud is the use of multiple cloud computing or storage technologies (such as Amazon S3, Google Cloud Services, and Microsoft Azure) simultaneously to better meet your cloud service needs. This approach can help reduce dependence on any single cloud provider and help deliver the benefits of each platform to the user.

Exactly how multicloud is implemented is often as unique as the businesses that use it. You may be considering multicloud as a way to optimize your cloud computing — or you might want to improve the privacy and reliability of your data storage. Both cases can benefit from multicloud but will differ in implementation, complexity, and outcomes.

Here at CrowdStorage, we’re focused on cutting-edge storage solutions. This article will give an overview of multicloud in general but will make a note where the strategy may differ by use case.

What is the difference between a hybrid cloud and multicloud?

Multicloud is often confused with hybrid cloud. They are similar concepts, but they both have unique and distinct definitions.

Hybrid cloud

A hybrid cloud refers to the combination of a private and public cloud. A private cloud is a computing or storage service hosted on the internet or a private internal network available to approved users. A public cloud is a computing or storage service hosted by a third party like Amazon S3 or Microsoft Azure. Using a combination of these two cloud types (private and public) would be a hybrid cloud.


Multicloud consists of using multiple public clouds for computing or storage services. If a company is using a combination of Amazon Web Services and the Google Cloud Platform, it would be using a multicloud approach.

Multi/Hybrid cloud

Using multiple public cloud services and a private cloud together constitutes a multi/hybrid cloud approach.

What are the key multicloud benefits?

There’s a variety of benefits available to using this approach. Here are some of the benefits that are common to multicloud architectures.


Using multiple cloud providers allows users to take advantage of the best that each platform has to offer. Cloud provider feature sets, with their pros and cons, are unique. With this approach, you can meet the needs of your particular situation. This benefit is most noticeable in computing use cases.


With your data distributed among multiple regions and cloud providers, it’s safer than ever before. In the event of a significant provider outage, your data can be accessed, and downtime can be minimized.


Your data is distributed among multiple public clouds. Usually, no single provider holds all your data. Polycloud by CrowdStorage offers additional privacy protections where your data is encrypted, fragmented, and distributed among public clouds.


Multicloud architectures can help companies meet their risk management, compliance, and governance regulations. Maybe you need your data stored in or excluded from a specific region. With a multicloud, meeting those requirements is easier.

Region Support

Most providers only commit to 99.9% uptime—which equates to roughly 40 minutes of downtime a month. By storing data redundantly across multiple providers, a multicloud method can deliver much better uptime.

Multicloud Downsides

Multicloud is a powerful cloud strategy. But can introduce new challenges, especially if you’re using the architecture for computing purposes. Your use case and its accompanying problems must be considered.


A multicloud computing deployment, by definition, increases the complexity of a cloud computing system. The increase in system complexity will require additional management efforts both in terms of system deployment and administration.


An in-house multicloud deployment can sometimes lead to increased costs. The approach uses two or more cloud service providers instead of one, so the benefits must be considered and weighed with the increased costs.


Having multiple services interact and rely on another can increase latency. Balancing loads among different clouds can be difficult, especially when, geographically, they’re far apart.

Polycloud – Multicloud by CrowdStorage

As you can see, multicloud can be a powerful option that businesses should consider when evaluating their computing and storage needs. Polycloud by CrowdStorage, with its multicloud strategy, offers multi-region support, enhanced privacy, higher availability, and improved durability, at a significantly lower cost than a traditional cloud provider.

Polycloud uses multicloud alongside a unique distributed storage methodology to provide an affordable, premium storage solution. Our distributed technology stores fractions of your files to multiple cloud providers resulting in more security, privacy, availability, built-in data redundancy, and geographic distribution.

With CrowdStorage, your data is safe. You get increased protection from events that disrupt traditional data centers and more robust storage for critical information without the weaknesses inherent to a conventional cloud-based system.

Through Polycloud, the downsides that often accompany multicloud are addressed. Polycloud storage uses one architecture (addressing complexity), delivers higher levels of privacy and availability (addressing performance) all for a fraction of the cost of large name brands.

If you’d like to see how Polycloud can help you, join our beta today!

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