Servers play a vital role in protecting sensitive data from cyber threats. Wondering how?
The built-in encryption in servers is a key technology that ensures data is safe when stored and transmitted over networks. They use special encryption methods to change sensitive information into a code that can’t be read by anyone without the right key. This keeps the data safe both when it’s stored on a server and when it’s sent over the Internet.
What if hackers try to hack the data? Even when hackers steal the data, it won’t be useful to them because they won’t have the key to decode it. This is why servers with encryption are so important for keeping our data private and secure in today’s online world.
Let’s learn more to make our data safe and secure.
1. Protecting Data at Rest
Today’s servers use built-in encryption to keep data safe. When data is saved, encryption changes it into a code that only the right key can unlock. This is important because it keeps sensitive information protected, even if the storage device is lost, stolen, or hacked.
Some server solutions have special tools like self-encrypting drives (SEDs) or hardware security modules (HSMs) that automatically protect the data by making sure it’s always encrypted. These tools make the encryption process even stronger, helping to keep the data safe from unauthorized access.
These technologies safeguard stored data, ensuring that only those with the right credentials can unlock it.
2. Securing Data in Transit
Keeping data safe isn’t just about storing it securely; it’s also about protecting it while it travels. Encryption protocols are used to keep sensitive information safe as it moves across networks and devices. Two common ones are:
- Secure Sockets Layer (SSL): This protocol secures communication between a website and a user, especially during online transactions.
- Transport Layer Security (TLS): A stronger, updated version of SSL, TLS keeps data safe when it’s sent over the internet.
These protocols ensure that information stays private and can’t be stolen or changed by unauthorized people. This is especially important for online payments, private health details, and other personal data.
3. Enabling Hardware-Level Encryption
Modern servers utilize hardware-level encryption to significantly enhance both performance and security. For example, Intel’s AES-NI technology speeds up the process of encrypting and decrypting data.
AES-NI is a tool built into the server’s hardware that locks (encrypts) and unlocks (decrypts) data quickly. This keeps the server safe and running fast.
It works better than software tools because it’s faster and more secure. AES-NI helps servers handle a lot of data without any problems, keeping everything safe and smooth.
4. Complying with Data Protection Regulations
Built-in encryption features are important for businesses because they help them follow strict laws and rules about protecting data.
Laws like GDPR, HIPAA, and PCI DSS require companies to keep sensitive data safe by using encryption.
Servers with encryption help businesses follow these rules, avoid legal problems, and earn the trust of their customers by showing they are serious about keeping data safe.
- GDPR (General Data Protection Regulation): Requires businesses to protect EU citizens’ data.
- HIPAA (Health Insurance Portability and Accountability Act): Enforces the secure handling of medical information.
- PCI DSS (Payment Card Industry Data Security Standard): Mandates security measures for handling payment card data.
5. Preventing Data Breaches
Encryption serves as a critical line of defense against data breaches. In the event of a cyberattack, even if hackers manage to gain access to encrypted data, the information remains unreadable without the decryption key.
This additional layer of protection minimizes the damage caused by a data breach, ensuring that sensitive information remains secure. Server solutions that include encryption help mitigate the risk of breaches by rendering the stolen data useless to unauthorized individuals.
This significantly reduces the impact of attacks, preventing the exposure of critical data.
6. Facilitating Secure Access Control
Built-in encryption uses secure tools like multi-factor authentication (MFA) and role-based permissions to keep data safe.
These features ensure that only the right people with proper access can unlock and view information stored on servers.
Servers make sensitive data extra safe by using encryption and strong access controls. This prevents people who aren’t allowed from seeing or changing important information.
Here are two key ways to keep access secure:
- Multi-factor Authentication (MFA): This means users must prove who they are in more than one way, like entering a password and using a code sent to their phone.
- Role-Based Permissions: Only people with certain jobs or roles can see or use specific data.
Together, these tools make sure only trusted people can see or handle important information, keeping it well-protected.
7. Reducing Human Error
Modern servers use built-in encryption automation to keep data safe and reduce mistakes caused by people.
This feature works by combining encryption into both hardware and software. It helps organizations follow security rules automatically and consistently.
With automation, sensitive data is always protected without needing people to do it manually, which lowers the chance of errors or weak spots.
Conclusion
Servers solution with built-in encryption are key to keeping sensitive data safe in today’s digital world. They protect data stored on the server (at rest) and data being shared (in transit), while also meeting important security rules.
With advanced encryption, businesses can better protect their data, earn customer trust, and stay safe from new cyber threats. These servers are a strong defense against data breaches and help ensure sensitive information stays secure and reliable.